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5781 VAN ALLEN WAY; ; FPC2021-0190; Permit
::iPIIJI i i1I 4ity of Carlsbad Print Date: 05/01/2025 Job Address: 5781 VAN ALLEN WAY, CARLSBAD, CA 92008-7321 Permit Type: FIRE-Construction Commercial Work Class: Parcel #: 2121304400 Track #: Valuation: $316,545.52 Lot #: Occupancy Group: Project #: #of Dwelling Units: Plan #: Permit No: FPC2021-0190 Status: Closed - Finaled Fire Sprinklers Applied: 10/06/2021 Issued: 10/29/2021 Finaled Close Out: 06/26/2023 Bedrooms: Construction Type: Final Inspection: Bathrooms: Orig. Plan Check #: INSPECTOR: Salcedo, Felix Plan Check #: Project Title: Description: THERMO FISHER -REVISION FOR SPRINKLER TI FOR DISTRIBUTION CENTER WAREHOUSE STORAGE (1330 HEADS) (TWO AM&MS APPROVED FOR THIS PROJECT, SEE FPC2021-0003 & 0109) (REV 1) Applicant: FPContractor: WESTERN FIRE PROTECTION INC WESTERN FIRE PROTECTION INC MARIO MACK 13630 DANIELSON ST 13630 DANIELSON ST POWAY, CA 92064-6830 POWAY, CA 92064-6830 (858) 513-4949 (858) 513-4949 FEE - AMOUNT FIRE Hourly Services (each additional hour) $170.00 FIRE Hourly Services (first hour) $200.00 FIRE Hourly Services (first hour) $188.00 FIRE NFPA 13 or 13R System> 100 heads $719.00 FIRE Plan Review (per hr -Regular Office Hours) $255.00 Total Fees: $1,532.00 Total Payments To Date: $1,532.00 Balance Due: $0.00 Fire Department Page 1 of 1 1635 Faraday Avenue, Carlsbad CA 92008-7314 1 442-339-2665 1 Inspections: 442-339-2660 1 www.carlsbadca.gov (7city of Carlsbad January 28, 2021 Kalusbruckner & Associates 2495 Truxtun Road San Diego, CA 92106 Attn: Mike Klausbruckner, PE Subject: Alternate Materials and Methods Request Thermo Fisher Scientific 5781 Van Allen Way Carlsbad, CA 92008 Dear Mr. Klausbruckner: We have reviewed your alternate materials and methods request and are granting approval as requested under the Modifications section of the California Fire Code 104.8 due to practical difficulties A summary of our findings is outlined below and includes your request, proposal, justification, and Carlsbad Fire Department's (CFD) conditions of approval. Facility Description The Thermo Fisher Scientific project is understood to consist of the following: Installation of a cold storage freezer inside an existing warehouse Freezer will have a ceiling height of 26 feet Ceiling height of building is 32 feet Storage height will be greater than 12 feet constituting high piled storage Building is equipped throughout with a fire sprinkler system. Request This document requests an AM&M regarding an alternative method of fire detection in lieu of smoke & heat vents in the freezer box. This alternative method of fire detection involves the following: Install the required 11 square foot smoke and heat vent in the ceiling of the building roof structure instead of the freezer box. Install a smoke detection system inside the freezer box. LF, Fire Department Fire Prevention 1635 Faraday Ave. I Carlsbad, CA 920081 760-602-46601 www.carlsbadca.gov Thermo Fisher Scientific 01-28-2021 Code Requirement: In accordance with the 2016 CFC Section 3206.8 and Table 3206.2, smoke and heat vents are required for high-piled storage greater than 2500 sf of high hazard commodities when ceiling level CMDA type sprinkler systems are installed. Code Intent: The intent of CFC Section 3206.8 and Table 3206.2 for high-piled storage is as follows: To remove products of combustion such as smoke and heat generated by high hazard commodities in order to control the spread and intensity of the fire within the structure. Proposal: Based on the code requirements for smoke and heat venting for high-piled storage within a building, it is not practical to provide venting from a freezer box that is 6-8 feet below the ceiling height of the building. Placing vents in the freezer would limit the effectiveness to control the temperature inside the freezer and would not effectively be utilized as the smoke and heat would be exhausted into the main warehouse. It is also not practical to shaft the smoke and heat vents from the freezer box to the ceiling level of the building. Install the required 11 square foot smoke and heat vent in the ceiling of the building roof structure instead of the freezer box. Install a smoke detection system inside the freezer box. Justification: Early smoke detection in the freezer will minimize smoke development and growth by warning warehouse operators inside as well as outside of the freezer, allowing them to quickly assess the fire situation. In addition, the proposed smoke detection system is connected to the building fire alarm and will allow early notification and response of the Fire Department in the event of a fire, thereby allowing faster response (i.e. smaller fire). The smoke and heat vent at the ceiling level outside of the freezer will allow smoke and heat venting if deemed necessary. CFD's Response The above stated proposal and justification has been evaluated against requirements held in the California Fire Code and local amendments by the City of Carlsbad. After consideration, the above proposal provides a reasonable alternative for fire safety where practical difficulties exist and meets the intent of the requirements associated with high-piled storage locations. The Carlsbad Thermo Fisher Scientific 01-28-2021 Fire Department believes that the installation of smoke detection in the freezer box, concurrent with providing smoke and heat vents in the warehouse ceiling, would be an acceptable alternative for this storage configuration. It is the opinion of CFD that the proposed site enhancements, with the CFD amendments, will adequately provide life safety and property protection in lieu of strict code compliant fire protection for high-piled storage. Respectfully, deO~_A~ ?~t Randall L. Metz Fire Marshal (7city of Carlsbad August 3, 2021 Klausbruckner & Associates 2495 Truxtun Road San Diego, CA 92106 Attn: Elley Klausbruckner, PE Subject: Alternate Materials and Methods Request Thermo Fisher Scientific 5781 Van Allen Way Carlsbad, CA 92008 Reference: FPC202 1-0108 Dear Ms. Klausbruckner: We have reviewed your alternate materials and methods request and have approved your request as submitted. A summary of our findings is outlined below and includes your request, proposal, justification, and Carlsbad Fire Department's (CFD) conditions of approval. Request Review the sprinkler protection criteria and associated flue space requirements based on FM Global insurance requirements, as specified in the respective FM Global Datasheets listed in the high-piled storage report V1.7 (attached). Code Intent: The California Fire Code, Section 104.9 permits the fire code official to approve an alternative material, design or method of construction if deemed satisfactory and complies with the intent of the provision of this code. See attached report for specific design criteria based on FM Datasheets, since the sprinkler criteria and associated flue spaces for all five high piled storage areas is a substantial portion of the report. Proposal: Design and install the required fire sprinkler protection designs and associated flue space requirements based on FM Global insurance requirements where specified in the report. Fire Department Fire Prevention 1635 Faraday Ave. I Carlsbad, CA 92008 760-602-46601 www.carlsbadca.gov Thermo Fisher Scientific 08-03-2021 Justification: Thermo Fisher Scientific's insurance carrier is FM Global. This insurance carrier has slightly different fire protection requirements for the high-piled storage as compared to NFPA 13. However, we reference protection requirements based on NFPA 13 in the report conservatively and provide additional justifications for use of FM Global requirements instead. It must be noted that since the facility is FM insured the sprinkler protection and designs will also be reviewed and approved by FM Global insurance. In summary we provide the following reasoning for using FM Global insurance requirement in lieu of NFPA 13 requirements: Ambient Warehouse Racking: FM proposed sprinkler design with 2 levels of in-racks requires more water than NFPA 13 (1089 gpm for FM Design versus 904 gpm for NFPA 13 design). See Appendix A for additional details Face in-rack sprinklers are required in the FM Design, which is not required by the NFPA standard Flue space requirements per FM DS 8-9 requiring 6-inch transverse flues vs 3-inch transverse flues for NFPA 13 (8-ft bays), in addition to 6-inch longitudinal flues for double row racks. See Appendix B for additional details, see Appendix C for a storage layout in the warehouse Freezer Racking: FM proposed sprinkler design with 2 levels of in-racks requires more in-rack water than NFPA 13 design i.e., 420 gpm for FM Design versus 304 gpm for NFPA 13 design - providing 40% stronger fire suppression in the early fire development stages. See Appendix A for additional details In-rack water demand per FM is double pre-action and linked to a state of the art aspirating smoke detection (ASD) device providing fast and accurate smoke detection in the earliest fire development stages (ASD is linked to Fire Alarm) Cooler Racking Expansion: Previously installed (existing) FM sprinkler system with 1 level of in-racks (no face sprinklers required) is extended by single 12-ft wide racks across the cooler width. The remainder of the cooler and sprinkler design remains unchanged. Due to practical difficulties, we are requesting that the 1 level of in-rack protection including ceiling protection be extended by a few racks Flue space requirements per FM DS 8-9 requiring 6-inch transverse flues vs 3-inch transverse flues for NFPA 13 (8-ft bays), in addition to 6-inch longitudinal flues for double row racks. See Appendix B for additional details a Thermo Fisher Scientific 08-03-2021 CFD's Response The above stated proposal and justification has been evaluated against requirements held in the California Fire Code and local amendments by the City of Carlsbad. After consideration, the above proposal provides a reasonable alternative where alternative design criteria can be applied and meets the intent of the requirements associated with fire protection and flue spaces within high- piled storage locations. The Carlsbad Fire Department believes that the application of FM Global Datasheets, concurrent with design criteria found in NFPA 13, would be an acceptable alternative for this storage and protection configuration. It is the opinion of CFD that the proposed design alternatives will adequately provide life safety and property protection in lieu of strict code compliant fire protection for high-piled storage. Respectfully, 4eC~_A~ ~t Randall L. Metz Fire Marshal Thermo Fisher Scientific - 5781 Van Allen Way - Freezer Racking High Pile Storage (HPS) Required Information The following information shall be completed and copied onto the HPS plans: Commodity Classification: 0 I 0 ii 0 lii 0 IV 0 High Hazard JX Group A plastic Commodity detailed description: Various Laboratory Reagents, Product In Finished Packaging. Finished Product Packaged In Corrugated Cardboard Or Paperboard, Stored In Larger Boxes Or Plastic Bins. Plastic Tubes And Bottles Filled With Liquids/Solutions or Powders (Product). Large Plastic Bags In Open Plastic Bins Or Packed In Larger Corrugated Boxes For Transport And Storage. For Group A Plastics where the commodity classlIcatIon is not High Hazard complete the following: Expanded plastic: Percent by volume:.:~,40 Percent by weight: _% (if cartoned) Non-expanded plastic: Percent by weight: _% Packaging consist of: Cartoned and uncartoned Group A plastics, in bottles, plastic bins, plastic bags, etc. EJ Cartoned 0 Free flowing 0 Non-expanding lii Encapsulated U Non-encapsulated I10ther In addition to uncartoned Group A plastics, in bottles, plastic bins, plastic bags, etc. The maximum storage height (solid pile N/A rack Freezer: 22 ft) The following storage methods are employed at this facility (mark all that apply): OSolid pile storage []Pelletized ElSingle row rack 90ouble row rack OMulti-row rack see high-piled storage report DOther Rack storage shelf: 0 N/A 0 Load beam only LJ Wire mesh OWood slates 0 Plywood 0 Other (Describe):______________________________________________ The area designated in the building and used for high piled storage Is 4,000 square feet. (part of 35,000 sfHPS area) CLASS I-IV, GAP commodity, 4,000 sq ft. CLASS commodity, sq ft. CLASS, commodity, sq ft. El Smoke vents required E1 No 0 Yes Fusible link degree F. (see AM&M appeal/high-piled storage report, Draft Curtains Required? 0 Yes El NO smoke detection system required inside Freezer) The overhead fire sprinkler system utilizes the following heads: (dry pendent heads, F1 ESFR: K at PSI with ________F° heads see sprinkler plans) Freezer density Standard Coverage Heads: K. 11.2 Pendant 0 Upright135-286 degree with a density 16@7 psi per FM Global: see ofgpm over square feet spaced at a maximum of _______ square feet per fire sprinkler, high-piled storage NFPA 13 Design Table:N/A (FM Global DS 8-9) Curve:' report Minimum distance between top of storage and sprinkler deflector: 4 Feet (see HPS report for more details: Freezer) In-rack sprinklers required M Yes 0 No per FM Global DS 8-9: see high-piled storage report El There Is/are 2 level(s) of in-rack fire sprinkler protection. (see HPS report for more details: Freezer) Aisle width: 4 feet. El Fire access doors required? Yes (Maximum distance of 100 lineal feet) ONo El Flue spaces required? El Yes ONo El Flue space between racks shall be maintained a minimum of: per FM Global DS 8-9' see Transverse 3 - 6 "clear. 0 Must be vertically aligned (for storage >25') high-piled storage report Longitudinal 6 "clear El Column protection required? 0 Yes ElNo El Pallet Stops Required? ' Dyes ElNo Longitudinal pallet stop configuration: 0 Chain Link 0 Roll Form 0 "C" Channel 0 Other:see rack plans Transverse Flue Pallet Stop configuration: El Mechanical meansflue keepers, etc.) 0 Load beam markings "Keep Clear" Hand Stack? 0 No El Yes # of tiers: 2 (10 ft) Chain link required El No 0 Yes Thermo Fisher Scientific - 5781 Van Allen Way - Ambient Racking High Pile Storage (HPS) Required Information The following information shall be completed and copied onto the HPS plans: Commodity Classification: 0 I 0 Ii 0 lii 0 IV 0 High Hazard El Group A plastic Commodity detailed description: Various Laboratory Reagents, Product In Finished Packaging. Finished Product Packaged In Corrugated Cardboard Or Paperboard, Stored In Larger Boxes Or Plastic Bins. Plastic Tubes And Bottles Filled With Liquids/Solutions or Powders (Product). Large Plastic Bags In Open Plastic Bins Or Packed In Larger Corrugated Boxes For Transport And Storage. For Group A Plastics where the commodity classlicatIon is not High Hazard complete the following: Expanded plastic: Percent by voIume:,i.Q.%. Percent by weight: _% (if cartoned) Non-expanded plastic: Percent by weight: _% Packaging consist of: Cartoned and upcartoned Group A plastics, in bottles, plastic bins, plastic bags, etc. El Cartoned 0 Free flowing 0 Non-expanding E1 Encapsulated U Non-encapsulated lJOther In addition to uncartoned Group A plastics, in bottles, plastic bins, plastic bags, etc. The maximum storage height (solid pile N/A rack Ambient Warhouse: 25 ft The following storage methods are employed at this facility (mark all that apply): OSolid pile storage OPalletized Single row rack 013ouble row rack []Multi-row rack see high-piled storage report DOther Rack storage shelf: 0 N/A 0 Load beam only lii Wire mesh OWood slates 0 Plywood 0 Other (Describe):______________________________ The area designated in the building and used for high piled storage is 35,000 square feet. CLASS I-IV, GAP commodity, 35,000 sq ft. GAP: Group A Plastics CLASS commodfty, sq ft. CLASS, commodity, sq ft. E1 Smoke vents required 0 No 3 Yes Fusible link degree F. see high-piled storage report Q Draft Curtains Required? 0 Yes EJ NO The overhead fire sprinkler system utilizes the following heads: D ESFR: K at PSI with ______F° heads Warehouse density Standard Coverage Heads: K 16.8 0 Pendant 11 Upright 212 degree with a density 12@11 psi per FM Global: see ofgpm over square feet spaced at a maximum of square feet per fire sprinkler, high-piled storage NFPA 13 Design Table:N/A (FM Global DS 8-9) Curve: report Minimum distance between top of storage and sprinkler deflector: 9 Feet (see HPS report for more details: Warehouse) In-rack sprinklers required El Yes 0 No per FM Global DS 8-9: see high-piled storage report El There is/are 2 level(s) of in-rack fire sprinkler protection. (see HPS report for more details: Warehouse) Aisle width: 8 feet. E1 Fire access doors required? EO Yes (Maximum distance of 100 lineal feet) [I No Ll Flue spaces required? fil Yes []No L Flue space between racks shall be maintained a minimum of: per FM Global DS 8-9 see Transverse 3 - 6 "clear. 0 Must be vertically aligned (for storage >25') high-piled storage report Longitudinal 6 ' clear Column protection required? 0 Yes jlNo J Pallet Stops Required? . Dyes IjiNo Longitudinal pallet stop configuration: 0 Chain Link 0 Roll Form 0 "C" Channel 0 Other:see rack plans Transverse Flue Pallet Stop configuration: El Mechanical means (flue keepers, etc.) 0 Load beam markings "Keep Clear" Hand Stack? 0 No IjI Yes # of tiers: 2 (10 ft) Chain link required 11 No 0 Yes Thermo Fisher Scientific - 5781 Van Allen Way - Cooler Extension High Pile Storage (HPS) Required Information The following information shall be completed and copied onto the HPS plans: Commodity Classification; LI i 0 ii 0 Iii 0 iv 0 Commodity detailed inprinfinn Various Laboratc High Hazard El Group A plastic Product In Finished Packaging. Finished Product Packaged In Paperboard, Stored In Larger Boxes Or Plastic Bins. Plastic Tubes And Bottles Filled With Lias/Soiiif (Product). Large Plastic Bags In Open Plastic Bins Or Packed In Larger Corrugated Boxes For Transport For Group A Plastics where the commodity cIssflcatlon is not High Hazard complete the following: Expanded plastic: Percent by volume: Q%. Percent by weight: _% (if cartoned) Non-expanded plastic: Percent by weight: _% Packaging consist of: Cartoned and uncartoned Group A plastics, in bottles, plastic bins, plastic bags, etc. El Cartoned 0 Free flowing 0 Non-expanding LJ Encapsulated tJ Non-encapsulated ElOther In addition to uncartoned Group A plastics, in bottles, plastic bins, plastic bags, etc. Cardboard Or ons or Powders And Storage. The maximum storage height (solid pile N/A rack Cooler: 20 ft The following storage methods are employed at this facility (mark all that apply); OSolid pile storage OPalletized QSingle row rack ElDouble row rack []Multi-row rack see high-piled storage report DOther Rack storage shelf: 0 N/A 0 Load beam only El Wire mesh OWood slates 0 Plywood 0 Other (Describe):_____________________________________ The area designated in the building and used for high piled storage is 7,850 square feet. (part of 35,000 sfHPS area) CLASS I-IV, GAP commodity, 7,850 sq ft. Cooler extension is approx. 885 sf of 7,850 sf(Cooler) CLASS commodity, sq ft. CLASS, commodity, sq ft. EEl Smoke vents required El No 0 Yes. Fusible link degree F. (see high-piled storage report) El Draft Curtains Required? 0 Yes El NO The overhead fire sprinkler system utilizes the following heads: (dry pendent heads, El ESFR: K at PSI with ________F° heads see sprinkler plans) Cooler density Standard Coverage Heads: K 11.2 Pendant LI Uprighti 35-286degree with a density 20@16 psi per FM Global: see of pm over square feet spaced at a maximum of square feet per fire sprinkler, high-piled storage NFPA 13 Design Table:— N/A (FM Global DS 8-9) Curve: report Minimum distance between top Of storage and sprinkler deflector: 2.5 Feet (see HPS report for more details: Cooler) In-rack sprinklers required El Yes 0 No per FM Global DS 8-9: see high-piled storage report El There is/are 1 level(s) of in-rack fire sprinkler protection. (see HPS report for more details: Cooler) Aisle width: 4 feet. El Fire access doors required? El Yes (Maximum distance of 100 lineal feet) DNo El Flue spaces required? El Yes DNo El Flue space between racks shall be maintained a minimum of: per FM Global DS 8-9 see Transverse 3 - 6 "clear, 0 Must be vertically aligned (for storage >25') Longitudinal 6 clear high-piled storage report El Column protection required? El Yes ElNo El Pallet Stops Required? []Yes ElNo Longitudinal pallet stop configuration: El Chain Link 0 Roll Form 0 'C" Channel El Other: see rack plans Transverse Flue Pallet Stop configuration: El Mechanical means (flue keepers, etc.) 0 Load beam markings "Keep Clear" Hand Stack? 0 No lj Yes # of tiers: 2 (10 ft) Chain link required IJ No 0 Yes SS K LAU S B RUCKN ER AND ASSOCIATES 2495 Truxtun Road. Suite 205 San Diego, CA 92106 Tel: (619) 677-2004 Fax: (619) 677-2444 TH RMO FISHER SCIENTIFIC 5781 Van Allen Way Carlsbad, CA High-Piled Combustible Storage Report Rev 1.7 April 26, 2021 CITY OF CARLSBAD FIRE DEPARTMENT APPROVED Subject to field inspection and required tests, notations hereon, conditions in correspondence and conformance with applicable regulations. The stamping of these plans shall not be held to permit or approve the violation of any laws. By: D. Locati Date: 09/28/2021 CBC2020-0448 . Additional Information Revision Comments Date By 1.0 Preliminary research on New-TI-only HPS August 6th 2020 MK areas excluding existing HPS areas 1.1 Reviewed report August 18 1h 2020 EK 1.2 Freezer: Changed from ESFR to CMDA October 1" 2020 MK 1.3 Reviewed report October 14 1h 2020 EK 1.4 Added existing HPS areas outside of New TI December 14m, 2020 MK 1.5 Reviewed report January 5, 2021 EK 1.6 Added: end cap rack flues & in-rack February 14th, 2021 MK locations, in-rack spacing for 16-ft wide rack bays changed, sprinkler heads to be FM approved, add. mech. trans. Flue protection, updated (FM) hose demand durations 1.7 Updated existing (ambient) warehouse rack March 8th 2021 MK elevation drawings, rack end cap sprinklers, clarified cooler in-rack & flue spacings in Section 4.9, updated freezer rack elevations :• DISCLAIMER This report is the property of Klausbruckner & Associates, Inc. and was prepared exclusively for use by THERMO FISHER SCIENTIFIC (alternatively known as "the owners" or "the business owner" throughout this report) for the storage & occupancy conditions described in this report. THERMO FISHER SCIENTIFIC conditions and operations addressed herein are based on information provided to the report by THERMO FISHER SCIENTIFIC. Discrepancies between the information presented herein (including existing sprinkler system information) and actual conditions and conditions presented on plans are the sole responsibility of THERMO FISHER SCIENTIFIC. Verification of compliance with the Code requirements and provisions addressed herein is outside the scope of this report. Copies of this report retained by THERMO FISHER SCIENTIFIC shall be utilized only by THERMO FISHER SCIENTIFIC for the storage and occupancy conditions and the 2,019 California Fire Code conditions and requirements addressed in this report. This report shall not be used as, or in lieu of, construction documents or plans for this project or any other project or for any other purpose or conditions not specifically addressed in this report. Any non-high-piled storage related code information provided in this report is for background information only to the high-piled storage report, and should not be considered as a complete report on the subject. Discrepancies between the sprinkler system information presented herein and actual conditions and/or conditions presented on plans are the sole responsibility of THERMO FISHER SCIENTIFIC. Confirmation of compliance with the adopted edition of NFPA 13 for existing, new and/or tenant improvements to sprinkler systems is outside the scope of this report. Rev 1.7— THERMO FISHER SCIENTIFIC I F 5781 Van Allen Way, Carlsbad, CA '') Page Iii Table of Contents SUMMARY TABLE ................................................................................................................... I INTRODUCTION.......................................................................................................................9 BUILDING CONSTRUCTION, DESIGN, AND OCCUPANCIES ...........................................10 3.1 BUILDING CONSTRUCTION & DESIGN ....................................................................................... 10 3.2 OCCUPANCIES .......................................................................................................................10 HIGH-PILED STORAGE REQUIREMENTS...........................................................................11 4.1 AUTOMATIC FIRE SPRINKLER SYSTEM.....................................................................................13 4.1.1 Freezer Rack Storage Area #1.....................................................................................13 4.1.2 Ambient Warehouse Rack Storage Areas #2 and #4 ..................................................15 4.1.3 Cooler Rack Storage Areas #3 and #5........................................................................16 4.1.4 Non High-Piled Floor Storage Area..............................................................................18 4.1.5 Additional Protection Requirements.............................................................................18 4.1.6 Other Areas -OUTSIDE THE SCOPE.......................................................................19 4.2 ALARM/MONITORING ..............................................................................................................19 4.3 BUILDING ACCESS - DOORS & ROADS ....................................................................................20 4.3.1 Access Roads...............................................................................................................20 4.3.2 Access Doors ...............................................................................................................20 4.4 SMOKE AND HEAT REMOVAL...................................................................................................21 4.4.1 High-Piled Storage Areas #1, #2, #3, and #4...............................................................22 4.5 DRAFT CURTAINS...................................................................................................................23 4.6 PORTABLE FIRE EXTINGUISHERS ............................................................................................23 4.7 AISLE WIDTHS .......................................................................................................................24 4.8 HOUSEKEEPING & MAINTENANCE............................................................................................24 4.9 FLUE SPACES FOR RACK STORAGE ........................................................................................25 4.9.1 Freezer Rack Transverse Flues...................................................................................25 4.9.2 Ambient Warehouse Rack Transverse Flues...............................................................26 4.9.3 Cooler Rack Transverse Flues.....................................................................................27 4.10 HOSE CONNECTIONS..........................................................................................................30 * 5. MEANS OF EGRESS ..............................................................................................................31 5.1 STORAGE [5-1 OCCUPANCY] ..................................................................................................31 5.2 OTHER AREAS - OUTSIDE THE SCOPE ....................................................................................31 EXPOSURES ........................................................................................................................... 32 6.1 OCCUPANCY SEPARATION ......................................................................................................32 6.2 SEPARATION OF HIGH-PILED STORAGE AREAS........................................................................32 6.3 SEPARATION OF MULTIPLE CLASSES OF HIGH PILED STORAGE AREAS .....................................32 6.4 ALLOWABLE AREA AND SIDEYARDS.........................................................................................32 APPROVED STORAGE LAYOUT .........................................................................................33 CONCLUSION ........................................................................................................................34 APPENDIX A: ATTACHMENTS............................................................................................35 Rev 1.7— THERMO FISHER SCIENTIFIC 5781 Van Allen Way, Carlsbad, CA A.Nn ASNCCtA7FS Page liii List of Tables Table 1. High-Piled Storage Configurations in Designated Storage Areas.......................................10 Table 2. Occupancy Classification And Associated Areas................................................................10 Table 3. High-Piled Storage Specifications By Storage Area ...........................................................11 Table 4. Flue space requirements per CFC and FM Global DS 8-9 .................................................28 List of Figures Figure 1 Flue spacest and horizontal in-rack spacing for 8-ft & 9-ft wide freezer rack bays ............25 Figure 2 Flue spacest relative to horizontal in-rack spacing in 13-ft wide rack bays........................26 Figure 3 Flue spacest relative to horizontal in-rack spacing for 8-ft wide rack bays.........................26 Figure 4 Flue spacest relative to horizontal in-rack spacing in 12-ft wide rack bays........................26 Figure 5 Flue spacest relative to horizontal in-rack spacing for 16-ft wide rack bays ......................27 Figure 6 Double Row Racks with solid shelf end cap racks (foot print 2'x 3')..................................27 Figure 7 Flue spacest relative to horizontal in-rack spacing for 8-ft wide Cooler rack bays.............27 Figure 8 Flue spacest relative to horizontal in-rack spacing in 12-ft wide Cooler rack bays ............28 Rev 1.7— THERMO FISHER SCIENTIFIC KLAUS13RU.CKNR Page I iv 5781 Van Allen Way, Carlsbad, CA AND ASSOCIATES 1. Summary Table Topic CODE SECTION CRITERIA/REQUIREMENTS Construction See Architectural Type Ill-B Construction, Fully Sprinklered, 2-Stories Above Grade Type (Section Plans 3.1 on Page 10) Approximate See Architectural Entire Building: 339,399 ft2 (Section 3.2 on Plans Warehouse Area: 42,000 ft2 [S-i Page 10) Total High Piled Storage Area: 35,000 ft2 [S-i, High-Piled Storage] Remainder: Unknown ft2 & Outside the Scope Other Uses: Unknown ft2 & Outside the Scope Additional Applicable to: Approval of this plan in part is based on the technical High-Piled Required Plan Racking Plan, Combustible Storage Report prepared by Klausbruckner & Annotations Sprinkler Plan, Associates, dated April 26, 2021. THERMO FISHER SCIENTIFIC Architectural Plan agrees to comply with the requirements set forth in the referenced report. A copy of the reference report shall be maintained and immediately available for Fire Department Inspection for the duration of the requested high pile storage" Occupancy CBC Sections Mixed Use Groups: B (Offices) and S-I (Storage) Occupancies (Section 3.2 on 302, 304, 311, with A-3, H-3, and H-4 Accessory Occupancies unless otherwise Page 10) Table 508.4 specified by the Architect of Record. No occupancy separation is required between: B and 5-1 occupancies 1-hour occupancy separation for A-3 and B/S-I occupancies (see Attachments 1-hour occupancy separation for H-3 and B/S-i occupancies for more details) a 1-hour occupancy separation for H-4 and B/S-i occupancies Storage CFC Section Class I-IV, Group A Cooler/Ambient Warehouse: Various Commodity 3203.1-3203.7, /High Hazard: Laboratory Reagents, Products in (Section 4 on Table 3203.8 Finished Packaging. Finished Products Page 11) Packaged in Corrugated Cardboard Or Paperboard, Stored in Larger Boxes Or Plastic Bins. Plastic Tubes and Bottles Filled With Liquids/Solutions or Powders (Product) of Various Materials. Large Plastic Bags in Open Plastic Bins or Packed In Larger Corrugated Boxes for Transport and Storage. Non-High Piled NOTE: Any exposed expanded Group A Storage Plastics will be stored on the floor away from racks to maximum height of 5 ft with no other storage above. (see Attachments for more details) Protection based on highest hazard commodity. Approved CFC, Section A floor plan, of legible size, shall be provided, mounted on a Storage Layout 3201.3.2 wall and protected from damage. The floor plan shall be mounted in an approved location. It shall show the information listed in Section 7 of this report. Automatic CFC, Sections Sprinkler System Upgrades Are Required. Sprinkler 202, 315.3.1, (Storage Area Layout per Attachment #1 on page 35) Protection 3207.2, Freezer Rack Storage Area #1 Sprinkler Protection: (Section 4.1 on 3208.1, CLASS l-IV, CARTONED AND EXPOSED GROUP A Page 13) 3208.2, PLASTICS UNEXPANDED COMMODITIES I Rev 1.7— THERMO FISHER SCIENTIFIC I O A 5781 Van Allen Way, Carlsbad, CA KLAUSRUCNER Page 1 .N SS OIA1S 3208.4, Maximum Storage Height: <22-0" Table 3206.2 Maximum Ceiling Height: <26'-O" Aisle Widths: 2:4'-0' NFPA-13 Single And Double Row Racks General Sections Shelves, 8 ft wide 2 ft deep, 13 ft high, shelf area: :5 16 sf 3.9.1.11, (treated as open racks with flue spaces) 3.9.1.13, Open Shelving >50% open 3.9.1.19, 3.9.3.6, Ceiling Sprinkler Design Required: 3.9.3.7.1, Control Mode Density Area (CMDA), minimum K-Factor: K- 3.9.3.7.4, 11.2, listed for storage, ordinary or high temperature, dry 3.9.3.7.7, pendent sprinklers 3.9.3.7.9, Minimum density of 0.80 gpm/ft2 over 1950 ft2 remote area 3.9.3.8, In-Rack Sprinklers: 1 level. A 6-inch clearance between top 3.9.3.9, of storage and in-rack sprinkler deflector is required (within all 8.5.5.3.1, tiers); 8 in-rack sprinklers calculated at 15 psi to be balanced 8.5.6.1, with the overhead sprinklers Table 8.6.2.2.1(d), Maximum coverage area 100 ft2 8.6.3.4, Maximum spacing between sprinklers 12-0" 8.12.6, Minimum spacing between sprinklers 6'-0" 12.1.2, Minimum 18" clearance from deflector to top of storage 12.6.7, Hose allowance of 500 gpm 12.8.6, Water supply duration of 120 minutes Table 12.8.6 Additional Insurance Requirements: New TI Freezer: Secondary calculations as required by FM Global Datasheet 8-9 NFPA 13 (2016 for insurance purposes: Edition) Sprinkler options available with two levels of in-rack Specific Sections sprinklers: Ceiling level (pendent): Dry-pendent K-i 1.2 Rack Storage (Standard Response or Quick Response) 16 heads@7 psi 11.2.3.2.5 (dry), (500 gpm hose demand, 90 minutes), upright (see 17.2.1.4, Attachment # 613) Figure 17.2.1.4(k), In-rack sprinklers: 2 Levels, based on IRAS (E) scheme (per 17.2.1.5.6, Figures 11 & 12), at the 10 ft & 20 ft elevation (with exception 17.2.1.5.7 of 15 ft and 20 ft levels for 'rack shelves'/Racks C); 14 heads (7 on 2 levels) at 30 gpm to be balanced with the overhead FM Datasheet 8-9 sprinklers conservatively for ALL racks (including Racks C) (July 2020 Edition) Sprinkler spacing and design guidelines per FM Global Specific Sections Datasheet 8-9 July 2020 2.3.3.7.2.5, Smoke and Heat vents are discouraged by FM Global Tables 8, 10, 12, Sprinkler heads FM approved 13, 15, Figures 3, See Section 4. 1.1 for additional details 4, 11, 5, 6, 13, 15 Alternative Means and Methods: Additionally a smoke detection FM Datasheet 8-1 system will be installed inside the freezer in lieu of smoke and (April 2020 Edition) heat vents inside the freezer. See section 4.4.1 for details. Specific Section 2.2.8.2 Existing ceiling sprinkler system designed to 0.45 gpmlft2 over 3000 ft2 (as shown on the sprinkler placard) does not meet the requirement for protection above. Additional upgrades and/or calculations are required.Sprinkler contractor to confirm sprinklers are installed per NFPA 13 and FM Global Datasheet 2- 0 (whichever provides greater protection). NFPA 13 (2016 Ambient Warehouse Rack Storage Areas #2 and #4 Sprinkler Edition) Protection: CLASS I-IV, CARTONED AND EXPOSED GROUP Specific Sections A PLASTICS UNEXPANDED COMMODITIES Rack Storage • Maximum Storaae Heiaht: :5 26-0" Rev 1.7— THERMO FISHER SCIENTIFIC ~Ss KLAUS6RUCKNR I Pane 12 5781 Van Allen Way, Carlsbad, CA AND ASSOCIATES 17.2.1.4, • Maximum Ceiling Height: <33'-ll" Figure 17.2.1.4(I), • Aisle Widths: ~t 81-O" 17.2.1.5.6, • Single And Double Row Racks 17.2.1.5.7 • Open Shelving >50% open* * Shelf area of end cap racks < 20 sf, treated as open shelf Ceiling Sprinkler Design Required: Control Mode Density Area (CMDA), minimum K-Factor: K- 11.2, listed for storage, high temperature, upright sprinklers Minimum density of 0.3 gpm/ft2 over 2000 ft2 remote area In-Rack Sprinklers: 2 levels. See Section 4.1.2 for more details on horizontal spacings, etc. A 6-inch clearance between top of storage and in-rack sprinkler deflector is required (within all tiers). Maximum coverage area 100 ft Maximum spacing between sprinklers 12'-0" Minimum spacing between sprinklers 6'-0" Minimum 18" clearance from deflector to top of storage Hose allowance of 500 gpm Water supply duration of 150 minutes FM Datasheet 8-9 Additional Insurance Requirements: (2020 Edition) Secondary calculations as required by FM Global Datasheet 8-9 Specific Sections for insurance purposes: Tables 8, 13, 14, Sprinkler options available with two levels of in-rack 2.2.8.2, Figures 3, sprinklers: Ceiling level (upright): 12 heads@ 11 psi for K- 4, 5,6,11, 12, s15 16.8 (250 gpm hose demand, 60 minutes), (see Attachment# 6B) In-rack sprinklers: 2 Level, based on IRAS (E) scheme (per Figure 11 & 13), at the 10 ft & 20 ft elevations; face and flue in-rack sprinklers required for double row racks; 14 heads (7 on 2 levels) at 30 gpm to be balanced with the overhead sprinklers. Face sprinklers required. Sprinkler spacing and design guidelines per FM Global Datasheet 8-9 July 2020. Sprinkler heads FM approved Smoke and Heat vents are discouraged by FM Global Sprinkler heads FM approved See Section 4.1.2 for additional details. Existing ceiling sprinkler system designed to 0.45 gpm/ft2 over 3,000 ft2 (as shown on the sprinkler placard) does not meet the requirement for protection above. Additional upgrades and/or calculations are required. Sprinkler contractor to confirm sprinklers are installed per NFPA 13 and FM Global Datasheet 2- 0 (whichever provides greater protection). Existing Cooler per FM Global Datasheet 8-9 (2020 Edition) Specific Sections Tables 8, 13, 14, 2.2.8.2, Figures 3, 5, 8, 9, 12, 14 Section 2.3.4.6.1.1 Cooler Rack Storage Areas #3 (Extension) and #5 (Existing) Sprinkler Protection: CLASS l-IV, CARTONED & EXPOSED GROUP A PLASTICS UNEXPANDED COMMODITIES Maximum Storage Height: :5 20-0" Maximum Ceiling Height: <22'-6" Aisle Widths: 2~ 41-0 Single And Double Row Racks Open Shelving > 50% open Ceiling Sprinkler Design Required: Control Mode Density Area (CMDA), minimum K-Factor: K- 11.2, listed for storaqe, ordinary or hicih temDerature. dry Rev 1.7— THERMO FISHER SCIENTIFIC KLAURUCKNER I Page 3 5781 Van Allen Way, Carlsbad, CA AND ASSOC,ArS pendent sprinklers Minimum density of 0.80 gpm/ft2 over 1950 ft2 remote area In-Rack Sprinklers: I level. A 6-inch clearance between top of storage and in-rack sprinkler deflector is required (within all tiers); 8 in-rack sprinklers calculated at 15 psi to be balanced with the overhead sprinklers Maximum coverage area 100 ft2 Maximum spacing between sprinklers 12'-0" Minimum spacing between sprinklers 6-0" Minimum 18" clearance from deflector to top of storage Hose allowance of 500 gpm Water supply duration of 120 minutes Additional Insurance Requirements: Secondary calculations as required by FM Global Datasheet 8-9 for insurance purposes: Sprinkler options available with one level of in-rack sprinklers: Ceiling level (pendent): Dry-pendent/upright K- 11.2 (Standard Response) 20 heads@16 psi (500 gpm hose demand, 120 minutes), (see Attachment # 6A). Sprinklers FM approved In-rack sprinklers: 1 Level, based on IRAS (EO) scheme per Figures 8 and 9, at the 10 ft elevation; 8 heads at 30 gpm to be balanced with the overhead sprinklers conservatively for ALL racks Sprinkler spacing and design guidelines per FM Global Datasheet 2-0 2018 and FM Global Datasheet 8-9 July 2020 Smoke and Heat vents are discouraged by FM Global Datasheet 2-0, Section 2.1.1.7, if local codes require vents: vents to be FM approved and equipped with standard- response 360 deg F thermal activating device Sprinkler heads FM approved Alternative Means and Methods: Additionally a smoke detection system will be installed inside the Cooler in lieu of smoke and heat vents inside the cooler. See section 4.4.1 for details. Existing Cooler sprinkler system needs to be verified meeting the requirements for protection above. Additional upgrades and/or calculations may be required. Sprinkler contractor to confirm sprinklers are installed per NFPA 13 and FM Global Datasheet 2-0 (whichever provides greater protection). Floor Storage Non High-Piled Floor Storage Sprinkler Protection: (Miscellaneous CLASS I-IV, CARTONED AND EXPOSED, EXPANDED AND Storage) UNEXPANDED GROUP A PLASTICS COMMODITIES 12.6.7.1, Maximum Storage Height: :5 5' 13.2.1, Maximum Ceiling Height: <33'-ll" Table 13.2.1, Figure 13.2.1 Ceiling Sprinkler Design Required: Control Mode Density Area (CMDA), minimum K-Factor: K- 5.6, not required to be listed for storage, ordinary (165°f) or high (286°f) temperature, upright or pendent sprinklers Minimum density of 0.20 gpm/ft2 over 1,500 ft2 remote area Maximum coverage area 130 ft2 Maximum spacing between sprinklers 15'-0" Minimum spacing between sprinklers 6-0" Minimum 18" clearance from deflector to too of storaae Rev 1.7- THERMO FISHER SCIENTIFIC isss KLAUS8RUCcNER Page 1 4 5781 Van Allen Way, Carlsbad, CA AND ASSOCIATE (see Attachments for more details) Hose allowance of 250 gpm Water supply duration of 90 minutes Existing ceiling sprinkler system designed to 0.45 gpm/ft2 over 3,000 ft2 (as shown on the sprinkler placard) meets and exceeds the requirement for protection above. No additional upgrades are required. Sprinkler contractor to confirm sprinklers are installed per NFPA-13 and per FM Global Datasheet 2-0 See Section 4.1 of this report for additional requirements. Other Areas Not Within the Scope. Adjacent CFC 3206.2 and High Piled Storage Area (NEW TI) is smaller than the Hazards, Extent NFPA 13, Section warehouse area. Extent and type of protection (including of Protection 12.3(1) automatic sprinkler design densities) shall extend the lesser of (Section 4.1.5.1 (see Attachments 15 feet beyond the high-piled storage area(s) or to a permanent on Page 14) for more details) partition. Smoke and Heat CFC Table 3206.2 Freezer (approx. 4000 ft2) Removal Footnote h & Smoke and heat removal is required as freezer storage (Section 4.4 on Section 910.2 of High Hazard/Group A Plastics is more than 2,500 Page 21) Exception 2 square feet, based on AVR = V/9000 Where: V = Volume of the Storage Area = 26 ft x 4000 ft2 = 104,000 ft3 A = Required Aggregate Vent Area = 104,000 ft3/ 9,000 = approx. 12 ft2 One smoke and heat vents [4'x 8'] is required, which is proposed to be located at the warehouse roof level (outside of, but directly above the Freezer) There are unknown existing smoke and heat vents currently in the warehouse. One skylight within the Warehouse area and close to the freezer will be replaced with a smoke and heat vent to meet the high piled storage requirements. Alternative Means and Methods: Additionally a smoke detection system will be installed inside the freezer. It is not electrically connected to the smoke and heat vent for activation. Cooler (approx. 7850 ft2) Smoke and heat removal is required as freezer storage of High Hazard/Group A Plastics is more than 2,500 square feet, based on AVR = V/9000 Where: V = Volume of the Storage Area = 22 ft 6 inches x 7850 ft2 = 176,625 ft3 A = Required Aggregate Vent Area = 176,625 ft3/ 9,000 approx. 20 ft2 One smoke and heat vents [4' x 8'] is required, which is proposed to be located at the warehouse roof level (outside of, but directly above the Cooler) There are unknown existing smoke and heat vents currently Rev 1.7— THERMO FISHER SCIENTIFIC Page 1 5 5781 Van Allen Way, Carlsbad, CA AND ASSOCIATES I in the warehouse. One skylight within the warehouse area and close to the freezer will be replaced with a smoke and heat vent to meet the high piled storage requirements. Alternative Means and Methods: Additionally a smoke detection system will be installed inside the freezer. It is not electrically connected to the smoke and heat vent for activation. Ambient Warehouse (New TI: approx. 2000 ft2. Total of high-piled storage area in warehouse, existing and new TI: 35,000 ft2 ) Smoke and heat removal is required as storage of High Hazard/Group A Plastics is more than 2,500 square feet, based on AVR = V/9000 Where: V = Volume of the Storage Area = 33 ft 11 in x 35,000 ft2 = 1,187,083 ft3 A = Required Aggregate Vent Area = 1,187,083 ft3/ 9,000 =approx. 133 ft2 Five smoke and heat vents [4'x 8] are required at the warehouse roof level (Freezer and Cooler smoke and heat vents are included in this number). There are unknown existing smoke and heat vents currently in the warehouse. Five skylights within the warehouse area will be replaced with smoke and heat vents to meet the high piled storage requirements. See Section 4.4 of this report for additional details on Smoke and Heat Vents. Single Row Racks*: (8-ft wide rack bays) Transverse - 6-inches required (pallet loaded racks) Longitudinal - Not required tFM Global: 6-inches every 8 ft (8-ft wide rack bays) Transverse' - 6-inches required (hand stacked areas) Longitudinal - Not required FM Global: 6-inches every 8 ft (8-ft wide rack bays) Transverse' - 3-inches required (freezer only: hand Longitudinal - Not required stacked or pallet loaded) Flue Spaces (Section 4.9 on Page 25) (see Attachments for more details) CFC Section 3208.3, Table 3208.3, FM Global DS 8-9 Section 2.2.3.2 (9-ft wide rack bays) Transverse' - 3-inches required (freezer only: hand Longitudinal - Not required stacked or pallet loaded) 1 F Global: 3-inches every 4.5 ft (12-ft wide rack bays) (pallet loaded racks) (12-ft wide rack bays) (hand stacked areas) Transverse' - 3-inches required Longitudinal - Not required tFM Global: 3-inches every 4 ft Transverset - 6-inches required Longitudinal - Not required FM Global: 6-inches every 6 ft (13-ft wide rack bays) Transverse' - 3-inches required (freezer only: hand Longitudinal - Not required stacked or pallet loaded) tFM Global: 3-inches approx. 4.5 ft Rev 1.7— THERMO FISHER SCIENTIFIC I'ss ..... 7 Pane 16 5781 Van Allen Way, Carlsbad, CA AND ASSOCIATES ..- Building Access Road & Doors (Section 4.3 on Page 20) (16-ft wide rack bays) Transverse' - 3-inches required (pallet loaded racks) Longitudinal - Not required Global: 3-inches every 4 ft Double Row Racks: (8-ft wide rack bays) Transverset - 6-inches required (pallet loaded racks) Longitudinaltt - 6-inches required FM Global: 6-inches every 8 ft tt vertically aligned (8-ft wide rack bays) Transverse' - 3-inches required (freezer only: hand Longitudinaltt - 6-inches required stacked or pallet loaded) I FM Global: 3-inches every 4 ft tt vertically aligned (12-ft wide rack bays) Transverset - 3-inches required (pallet loaded racks) Longitudinaltt - 6-inches required FM Global: 3-inches every 4 ft tt vertically aligned (12-ft wide rack bays) Transverse' - 6-inches required I (hand stacked areas) Longitudinaltt - 6-inches required FM Global: 6-inches every 6 ft tt vertically aligned Single rack end cap Transverset - not required (solid shelf rack) Longitudinaltt - 3-inches required tt vertically aligned CFC Table 3208.3 * Random transverse flue variations in size are allowed, sub-note (b) provided that the configuration does not obstruct water penetration. If rack bays are 8-ft wide or 12-ft wide and handstacked to a max. storage height of 10 ft, the 6-inch transverse flue spaces may include flue space occupied by rack uprights. Transverse flue spaces at rack uprights to be protected with mechanical devices. Transverse flue spaces between uprights shall be marked with a 3-inch or 6-inch yellow strip on the load beam with words in red that read, "Keep Clear." (see Attachments See Section 4.9 of this report for additional details on flue spaces for more details) and required flue space protection devices. CFC Table Access Roads: 3206.2, Sections Access roads required by CFC Section 503 503.1.1, 503.2-8, Access roads are existing and have been approved as part of 3206.6, 3206.7.5 the shell building plans. Access Doors: Access doors are required by Chapter 32 for high piled storage of High Hazard Commodities of more than 2,500 ft2 Two (2) access doors exist along the plan North of the warehouse Final location and number of access doors is pending fire department approval. (see Attachments See Section 4.3 of this report for additional details on access for more details) doors. Rev 1.7— THERMO FISHER SCIENTIFIC K~USSRUCKN 'R Page 1 7 5781 Van Allen Way, Carlsbad, CA AND ASoC,ArS I Aisle Width CFC 3206.10 Aisles of at least 44" are required in sprinklered buildings with (Section 4.7 on high-piled storage exceeding 500 square feet Page 24) Cross aisles used only for employee access between aisles shall be a minimum of 24" wide 3206.10.2 Thermo Fisher Scientific agrees to maintain a minimum of 44" aisle widths within the Freezer & Cooler rack storage areas and within the ambient temperature warehouse in order to comply with the sprinkler requirements stated in Section 4.11 of this report. CFC 3206.10.3 Dead-end aisles shall not exceed 50 ft in length NOTE: Any floor/palletized storage cannot obstruct the minimum width of the aisles. (see Attachments See Section 4.7 of this report for additional details on aisle for more details) widths. Fire CFC Section High-piled Storage Areas: 4-A:20-B:C; Extinguishers 3206.11, 906 and Maximum travel distance 75 ft*; (Section 4.6 on Tables 906. 1, Maximum area per extinguisher 4,000 ft2 Page 23) 906.3 (1) & (2), 906.9 * If no flammable liquids are stored, otherwise travel distance <50 Feet (see Attachments See Section 4.6 of this report for additional details on fire for more details) extinguishers. Hazardous N/A N/A. Not part of the scope of this report. See separate report. Materials Allowable Area CBC Table 503 Not within the scope of this report. Existing building. No proposed (see Attachments changes to type of construction, building square footage or for more details) occupancy unless otherwise specified by the Architect of Record. Rev 1.7—THERMO FISHER SCIENTIFIC KLAUS8RUCKNER I 5781 Van Allen Way, Carlsbad, CA I J o ASOCLATS Page I 8 2. Introduction The following is a high-piled combustible storage code compliance report for THERMO FISHER SCIENTIFIC, located at 5781 Van Allen Way in the city of Carlsbad, CA. This report is intended to help both the owners and the fire department in expediting plan review and effectively determine the requirements necessary to meet the Fire Code. This report is based on the 2019 Editions of the California Fire Code and the California Building Code, the 2016 Edition of N EPA-I 3, Standard for the Installation of Sprinkler Systems, the 2020 Editions of FM Global Data Sheets 8-1, Commodity Classification, and EM Global Data Sheets 8-9, Storage of Class 1, 2, 3, 4 and Plastic Commodities. Rev 1.7— THERMO FISHER SCIENTIFIC Page 1 9 5781 Van Allen Way, Carlsbad, CA ANO ASSOCIArrs I Building Construction, Design, and Occupancies 3.1 Building Construction & Design THERMO FISHER SCIENTIFIC is occupying a building of 339,399 square footage. The building is of Type Ill-B construction, fully sprinklered and is two-story above grade. No expansion or modification to the building is planned at this time unless otherwise specified by the Architect of Record. This report is intended to address the high piled storage new tenant improvements, as well as address the requirements associated with the changes to the last permitted high piled storage areas within the building (Attachment #1) 3.2 Occupancies The facility will be used for office space and warehousing (B and S-I) with accessory Assembly (A-3) and High Hazard (H-3 and H-4) occupancies. High piled storage, in single and double row racks with open shelves and aisles of at least of 44" is planned in the rack storage areas. Non high-piled palletized storage is planned in the floor storage area. High-piled storage is planned in the designated storage areas as follows: Table I. High-Piled Storage Configurations in Designated Storage Areas STORAGE AREA* STORAGE CONFIGURATION OPEN/CLOSED SHELVES AISLE WIDTH [FT-IN] One Freezer Rack: Single & Double Row Racks Open 41-0" Two Warehouse Rack: Single & Double Row Racks Open 91-6" Three Cooler Rack: Single & Double Row Racks Open 1 4'-O" Four Warehouse Rack: Single & Double Row Racks Open 9'-6" Five Cooler Rack: Single & Double Row Racks Open 41-1)" * Storage area: freezer and new ambient warehouse THERMO FISHER SCIENTIFIC will be classified overall as B and S-i occupancy with A-3, H-3, and H-4 accessory occupancies, unless otherwise specified by the Architect of Record. (Attachment #2) Table 2. Occupancy Classification And Associated Areas USE OCCUPANCY APPROXIMATE AREASQ.FT. Office/Assembly/High Hazard Areas - Outside B, A3*, H3*, H4* Unknown the Scope High-Piled Storage Area** (Areas Only Within S-I 35,000 the Scope of This Report) Other Uses Unknown Unknown Total Building B and 5-1 339,399 *Accessory uses ** Based on information provided by Thermo Fisher Scientific Rev 1.7- THERMO FISHER SCIENTIFIC Page 1 10 5781 Van Allen Way, Carlsbad, CA AND ASSOCIATES 4. High-Piled Storage Requirements The highest hazard commodities for the Freezer Rack Storage Area #1, Ambient Warehouse Rack Storage Areas #2 (New TI) and #4 (Existing), Cooler Rack Storage Areas #3 (Extension), and #5 (Existing) are classified as cartoned unexpanded and exposed unexpanded Group A/High Hazard commodities in plastic packaging on open shelving in single and double row racks. The following commodity classification per CFC Section 3203.2 through 3203.7, 3203.8 and Table 3203.8 is designated as Class l-IV and Group A/High Hazard Group A/High Hazard: (Attachment #4) Table 3. High-Piled Storage Specifications By Storage Area Products Method of Storage Open Pallet Cartoned Encap- Commodity (Attachment #4) Storage Height Shelving Type sulated** Class* Freezer/Cooler: Various Laboratory Reagents, Product in Finished Packaging. Finished Product Packaged in Corrugated Cardboard Or Paperboard, Stored in Larger Boxes Or Single & Freezer GROUP Plastic Bins. Plastic Double Row ~ 22'-O" Yes Plastic Yes/No Yes A/HIGH Tubes and Bottles Rack Cooler HAZARD, Filled With Liquids! :5 20'-0" UNEXPANDED Solutions or Powders (Product) of Various Materials. Large Plastic Bags in Open Plastic Bins or Packed In Larger Corrugated Boxes for Transport and Storage.** Freezer: Various Laboratory Reagents, Product in Finished Packaging. Finished Product Packaged in Shelf Corrugated Cardboard Storage Yes GROUP Or Paperboard, Stored (Treated! ~ 13-0" (Closed N/A Yes/no No A/HIGH in Larger Boxes Or Protected <16 sf) HAZARD, Plastic Bins. Plastic as Rack UNEXPANDED Tubes and Bottles Storage) Filled With Liquids/Solutions or Powders (Product) of Various Materials. Ambient Warehouse: Single & < 25'-0" GROUP Various Laboratory Double Row (New TI Yes Plastic Yes/No Yes A/HIGH Reagents, Product in Rack & HAZARD, Finished Packaging. Existing) UNEXPANDED Rev 1.7— THERMO FISHER SCIENTIFIC tLAUSRUCI<NR Page 11 5781 Van Allen Way, Carlsbad, CA ANO ASSOCIATCA I Finished Product Packaged in Corrugated Cardboard Or Paperboard, Stored in Larger Boxes Or Plastic Bins. Plastic Tubes and Bottles Filled With Liquids! Solutions or Powders (Product) of Various Materials. Large Plastic Bags in Open Plastic Bins or Packed In Larger Corrugated Boxes for Transport and Storage. * Based on the highest hazard commodity. ** Some Group A Plastics are treated (and protected) as Group A Plastics by NFPA 13, but protected as Class Ill by FM, when stored in 5-sided metal drawers. Rack Storage: Per CFC Section 3204.1, a high-piled combustible storage area shall be based on the highest hazard commodity class stored except as provided in Section 3204.2. Therefore, the highest commodity class stored within the high-piled storage/rack storage areas #1 to #5 are cartoned unexpanded and exposed unexpanded Group A/High Hazard. (Attachments #3 and #5) Floor Storage to 5 ft: Per CFC 202 (Attachment #3), the definition of high-piled combustible storage does not include high-hazard/Group A plastics where the top of storage is less than 5 feet in height, nor does it include all other commodities (Class I-IV) where the top of storage is 12 feet or less in height; therefore the requirements of CFC Chapter 32 is not applicable to THERMO FISHER SCIENTIFIC's floor storage area. Based on Table 3206.2, the following fire protection requirements will be provided by THERMO FISHER SCIENTIFIC to meet the requirements of CFC Chapter 32 and NFPA 13 for the entire storage area (Attachment #6, #6A, #6B). High Piled Storage Areas are smaller than the warehouse area. Extent and type of protection (including automatic sprinkler design densities) shall extend the lesser of 15 feet beyond the high-piled storage area(s) or to a permanent partition. Rev 1.7— THERMO FISHER SCIENTIFIC I(LAuseRucKNER Page 1 12 5781 Van Allen Way, Carlsbad, CA AND ASSOCIATES 4.1 Automatic Fire Sprinkler System The following requirements are based on NFPA 13 (2016 Edition): 4.1.1 Freezer Rack Storage Area #1 (Attachments #6 and #6A) Type of Storage: Single And Double Row Racks, as well as Shelf Storage (8 ft wide, 2 ft deep, 13 ft tall, :5 16 sf shelf area) treated as racks with flue spaces every 8 ft Type of Shelving: 50% or greater open Commodity Stored: CLASS l-IV, CARTONED UNEXPANDED AND EXPOSED UNEXPANDED GROUP A PLASTICS Flue Spaces for Standard Racks See Section 4.9 for more details on single and double row rack flue space requirements Aisle Widths: t':~ 41-O" Storage Height: :5 22'-0" (storage above in-racks permitted as long as 18-inch clearance between ceiling sprinkler to top of storage is maintained) Ceiling Height: :5 26'-0" (Freezer ceiling height less than building ceiling height) Required - Ceiling Sprinkler: Control Mode Density Area (CMDA), minimum K- 11.2, listed for storage, ordinary or high temperature, pendent sprinklers. Minimum density of 0.80 gpmlft2 over 1950 ft2 remote area (dry pipe), maximum coverage area 100 ft2, maximum spacing between sprinklers 12'-0", minimum spacing of 6'-0"; minimum 18" clearance from deflector to top of storage, and hose allowance of 500 gpm (120 minutes) Required - In-Rack Sprinklers: I Level. A 6-inch clearance between top of storage and in-rack sprinkler deflector is recommended - within all tiers; 8 in-rack sprinklers calculated at 15 psi to be balanced with the overhead sprinklers Smoke Detection: Alternative Means and Methods: Additionally a smoke detection system will be installed inside the freezer for early smoke detection in lieu of smoke and heat vents inside the freezer, which are unpractical to install and operate. Early smoke detection in the freezer will minimize smoke development and fire growth by warning Rev 1.7— THERMO FISHER SCIENTIFIC Page 1 13 5781 Van Allen Way, Carlsbad, CA AND ASOCIATS warehouse operators inside as well as outside of the freezer allowing them to quickly assess the fire situation. In addition, the proposed smoke detection system is connected to the building fire alarm and will allow early notification and response of the Fire Department in the event of a fire, thereby allowing faster response (i.e. smaller fire). The smoke and heat vent at the ceiling level outside of the freezer will allow smoke and heat venting if deemed necessary. On behalf of Thermo Fisher, we are proposing protection per FM Data Sheet 8-9 since the protection conservatively requires two levels of in-rack sprinklers: Proposed FM Insurance Requirements: Calculations as required by FM Global ' Datasheet 8-9 for insurance purposes: Sprinkler options available with two levels of in- rack sprinklers: Ceiling level (pendent):Dry- peiidentlupright K-1 1.2 (Standard Response) 1 6 r' heads@7•psi. Hose demand of 500 gpm for 90 minutes (see Attachment # 6A). clhrack.sprinkIers2 Levels, based on IRAS (E) scheme per Figures 11 and 12, at theClO ft & 20ft7 elevation (with exception** of15ftand:20 ft levels for 'rack shelves'/Racks-C); 14 heads (7 on 2 levels) at.30gpm to be balanced with the .' overhead sprinklers conservatively for ALL racks (including Racks C) Sprinkler spacing and design guidelines per FM Global Datasheet 2-0 2018 and FM Global Datasheet 8-9 July 2020 Smoke and Heat vents are discouraged by FM Global Datasheet 2-0, Section 2.1.1.7, if local codes require vents: vents to be FM approved and equipped with standard-response 360 deg F thermal activating device Sprinkler heads FM approved ** FM Datasheet 8-1, Section 2.2.8.2: five sided metal containers storing plastics (metal shelves): treat commodity hazard as Class Ill commodity - vertical in- rack separation can be increased to 25 ft (FM 8-9: Fig. 15) for 'shelf racks'/Racks C on drawings. Racks 'C' will only use 5-sided metal containers (i.e. all-metal shelves) Existing ceiling sprinkler system designed to 0.45 gpmlft2 over 3,000 ft2 does not meet the requirement for protection above. Additional upgrades and/or calculations are required. Rev 1.7— THERMO FISHER SCIENTIFIC Page 1 14 5781 Van Allen Way, Carlsbad, CA ANO ASSOCIATES 4.1.2 Ambient Warehouse Rack Storage Areas #2 and #4 (Attachments #6 and #6B) Type of Storage: Single And Double Row Racks (End Cap Racks*) Type of Rack Shelving: 50% or greater open* * Shelf area of end cap racks' < 20 sf, treated as open shelf Commodity Stored: CLASS I-IV, CARTONED UNEXPANDED AND EXPOSED UNEXPANDED GROUP A PLASTICS Flue Spaces for Standard Racks See Section 4.9 for more details on single and double row rack (end cap rack) flue space requirements Aisle Widths: 2~ 81-0" Storage Height: :5 25-131" Ceiling Height: :5 33'- 11 Required Ceiling Sprinkler: Control Mode Density Area (CMDA), minimum K-8, listed for storage, ordinary or high temperature, pendent sprinklers. Minimum density of 0.3 gpmlft2 over 2000 ft2 remote area, maximum coverage area 100 ft2, maximum spacing between sprinklers 12'-0", minimum 18" clearance from deflector to top of storage, and hose allowance of 500 gpm (150 minutes) Required In-Rack Sprinklers: 2 Levels per NFPA 13 Figure 17.2.1.4(l), but exceeded by FM DS 8-9 in-rack requirements, shown in Figures 11 (Single Row Racks) and 13 (Double Row Racks). Use IRAS(E) scheme with following horizontal in-rack spacings: every 8 ft spacing for 8-ft wide rack bays (6-inch transverse flues), every 4 ft spacing (3-inch transverse flues) for 12-ft wide rack bays with pallet loads, every 6 ft spacing (6-inch transverse flues) for 12- ft wide hand stacked rack bays, every 8 ft spacing (6-inch transverse flues) for 16- ft wide rack bays with pallet loads. End cap racks: 2 levels with horizontal in-rack spacing per Figure 4, Section 4.9 Flue Space requirements per Section 4.9 A 6-inch clearance between top of storage and in- rack sprinkler deflector is recommended. On behalf of Thermo Fisher, we are proposing protection per FM Data Sheet 8-9 since the protection conservatively requires not only two levels of in-rack sprinklers, but also face sprinklers (not required by NFPA 13): Proposed FM Insurance Requirements: Calculations as required by FM Global Datasheet 8-9 for insurance purposes: Rev 1.7— THERMO FISHER SCIENTIFIC KLAUSRUCKNER I Page 15 5781 Van Allen Way, Carlsbad, CA AND ASOC,ATS Sprinkler options available with1twb Ièvelsofih- rack sprinklers: Ceiling Ievel:(u prig ht):12 -' heads@:1:1 psi forK16.8 (250 gpm hose demand), (see Attachment # 613) In-rack sprinklers: 2Lèvel'bàêdonTlRAS (E) scheme per Figures 11 and 13, at the 10.ft&:20ft' elevations; 14Theads (7on-2levels)t30gpmt0 be balanced with the overhead sprinklers. Face sprinklers required. End cap racks treated as single row racks turned ninety degrees relative to adjacent double row racks. Sprinkler spacing and design guidelines per FM Global Datasheet 2-0 2018 and FM Global Datasheet 8-9 July 2020 Smoke and Heat vents are discouraged by FM Global Datasheet 2-0, Section 2.1.1.7, if local codes require vents: vents FM approved to be equipped with standard-response 360 deg F thermal activating device. Sprinkler heads FM approved. Existing ceiling sprinkler system designed to 045gpm/ft2.over 3,000 ft2 (as shown on the sprinkler placard) does--not meet the requirement for protection above. Additional upgrades and/or calculations are required. 4.1.3 Cooler Rack Storage Areas #3 and #5 (Attachments #6 and #6A) Type of Storage: Single And Double Row Racks (in existing and New TI storage areas) Type of Shelving: 50% or greater open Commodity Stored: CLASS l-IV, CARTONED UNEXPANDED AND EXPOSED UNEXPANDED GROUP A PLASTICS Flue Spaces for Standard Racks See Section 4.9 for more details on single and double row rack flue space requirements Aisle Widths: ~t 41-0" Storage Height: :5 20'-0" (storage above in-racks permitted as long as 18-inch clearance between ceiling sprinkler to top of storage is maintained) Ceiling Height: :5 22'-6" (Cooler ceiling height less than building ceiling height) Required Ceiling Sprinkler: Control-Mode Density Area (CMDA) minimum K-7 11-2listédf6r storage, ordinary 9r. high-temperature ) pendent sprinklers Minimum density of 0 80 gpm/ft2 over 1950 ft (dry pipe) remote area, rnaxinum coverage area 100 ft2, n ni akithuacing between -sprinklers 12'-0", minimum-spacingof 6-0"; Rev 1.7— THERMO FISHER SCIENTIFIC 5781 Van Allen Way, Carlsbad, CA '4M 0 ASSOCIATeg Page 16 minimum 18" clearance from deflector to top of storage, and hose allowance of 500 gpm (120 minutes) Required In-Rack Sprinklers: 1 Level. A 6-inch clearance between top of storage and in-rack sprinkler deflector is recommended - within all tiers; 8 in-rack sprinklers calculated at 15 ...-. psi to be balanced with the overhead sprinklers Smoke Detection: Alternative Means and Methods: Additionally a smoke detection system will be installed inside the cooler for early smoke detection in lieu of smoke and heat vents inside the cooler, which are unpractical to install and operate. Early smoke detection in the cooler will minimize smoke development and fire growth by warning warehouse operators inside as well as outside of the freezer allowing them to quickly assess the fire situation. In addition, the proposed smoke detection system is connected to the building fire alarm and will allow early notification and response of the Fire Department in the event of a fire, thereby allowing faster response (i.e. smaller fire). The smoke and heat vent at the ceiling level outside of the cooler will allow smoke and heat venting if deemed necessary. On behalf of Thermo Fisher, we are proposing protection per FM Data Sheet 8-9, as the majority of the cooler area is existing with existing designs in accordance with FM Data Sheet 8-9: Proposed FM Insurance Requirements: Calculations as required by FM Global Datasheet 8-9 for insurance purposes: Sprinkler options available with one level of in- rack sprinklers: Ceiling level (pendent): Dry- pendent/upright K-i 1.2 (Standard Response) 20 heads@16 psi. Hose demand of 500 gpm, 120 minutes (see Attachment # 6A). In-rack sprinklers: 1 Level, based on IRAS (EO) scheme per Figures 8 and 9, at the 10 ft elevation; 8 heads at 30 gpm to be balanced with the overhead sprinklers conservatively for ALL racks. Face sprinklers are not required. Sprinkler spacing and design guidelines per FM Global Datasheet 2-0 2018 and FM Global Datasheet 8-9 July 2020 Smoke and Heat vents are discouraged by FM Global Datasheet 2-0, Section 2.1.1.7, if local codes require vents: vents to be FM approved and equipped with standard-response 360 deg F thermal activating device. Sprinkler heads (cooler extension) FM approved Rev 1.7— THERMO FISHER SCIENTIFIC Page 1 17 5781 Van Allen Way, Carlsbad, CA AND ASOIATES Please note that the majority of the in-rack sprinkler protection is existing per previous requirements by the insurance carrier. The proposed rack addition is limited to 6 single racks added to the end of the existing racks. Existing Cooler sprinkler system to be re-calculated to verify compliance with the protection requirements above. Additional upgrades and/or calculations may be required. 4.1.4 Non High-Piled Floor Storage Area (Attachments #6 and #6C) Type of Storage: Non-High Piled Floor Storage Area Commodity Stored: CLASS I-IV, CARTONED AND EXPOSED, EXPANDED AND UNEXPANDED GROUP A PLASTICS COMMODITIES Storage Height: :5 5-0" Group A Pastics (Class I-IV: < 12'-0") Ceiling Height: 5 33'-11" Ceiling Sprinkler: Control Mode Density Area (CMDA), minimum K-5.6, ordinary (165°f) or high (286°f) temperature, upright or pendent sprinklers. Minimum density of 0.2 gpm/ft2 over 1500 ft2 remote area, maximum coverage area 130 ft2, maximum spacing between sprinklers 15'-0", minimum 18" clearance from deflector to top of storage, and hose allowance of 250 gpm (90 minutes) Existing ceiling sprinkler system designed to 0.45 gpm/ft2 over 3000 ft2 (as shown on the sprinkler placard) meets the requirement for protection above. No additional upgrades are required, because the sprinkler system installed in the warehouse will exceed these floor storage sprinkler requirements. Note: Discrepancies between the sprinkler system information presented herein and actual conditions and/or conditions presented on plans are the sole responsibility of THERMO FISHER SCIENTIFIC. Confirmation of compliance with the adopted edition of NFPA 13 or FM Global Datasheets for existing, new and/or tenant improvements to sprinkler system is outside the scope of this report. Sprinkler contractor to confirm existing and proposed sprinkler system design specifications and installation requirements per FM Global Datasheet 2-0. 4.1.5 Additional Protection Requirements 4.1.5.1 Extent of Protection Per CFC 3206.2 and NFPA-13 Section 12.3 (Attachment #7), the extent and type of protection (including automatic sprinkler design densities) shall extend the lesser of 15 feet beyond the high-piled storage area or to a full height wall, where portions of high-piled storage areas have different fire protection requirements because of commodity, method of storage or storage height, the fire protection features required by Table 3206.2 within this area shall be based on the most restrictive design requirements. Rev 1.7— THERMO FISHER SCIENTIFIC KLAUSBRUCKNER Page 1 18 5781 Van Allen Way, Carlsbad, CA AND ASSOCIATES 4.1.5.2 Protection of Steel Columns Per CFC 3208.4 and NFPA-13 Section 17.1.4.1 and Table 17.1 .4.1 (Attachment #7), where fireproofing of building columns located wholly or partially within the rack footprint (inclusive of flue space or within 12 inches of the footprint) is not provided and storage heights are in excess of 15 ft, protection of building columns within the rack structure shall be provided by the installation of in-rack sprinklers. 4.1.5.3 Fixed Obstruction Per NFPA-13 Sections 8.5.5.3.1 (Attachment #7), fire sprinklers are not required under fixed obstruction or open grate flowing unless their width is in excess of 4 ft. 4.1.5.4 Ceiling Slope Per NFPA-13 Section 12.1.2 (Attachment #7), the sprinkler system criteria specified are intended to apply to buildings with ceiling slopes not exceeding 2 in 12 (16.7 percent). 4.1.5.5 Open Top Containers & Solid Shelves Per NFPA-13 Section 17.1.6 (Attachment #7), Protection shall not apply to open-top containers, or racks with solid shelves. However, per NFPA-13 Section C.12 fire tests have shown that the issue of open-top containers used in rack storage only occurred in the upper storage tiers increasing sprinkler operation and fire spread in the main array. No solid shelves or open top containers permitted in the racks, except for the first level (4-5 ft from the floor). 4.1.5.6 Additional Factory Mutual Requirements Sprinkler contractor to confirm sprinklers are installed per NFPA 13 and FM Global Datasheet 2-0 (whichever provides greater protection). 4.1.6 Other Areas -OUTSIDE THE SCOPE Unknown and outside the scope of this report. 4.2 Alarm/Monitoring Per CFC 903.4, all valves controlling the water supply for automatic sprinkler systems, pumps, tanks, water levels and temperatures, critical air pressures and waterflow switches on all sprinkler systems (if serving > 6 sprinklers) shall be electrically supervised by a listed fire alarm control unit. Monitoring: Alarm, supervisory and trouble signals shall be distinctly different and shall be automatically transmitted to an approved supervising station or, when approved by the fire code official, shall sound an audible signal at a constantly attended location. Alarm: One exterior approved audible device, located on the exterior of the building in an approved location, shall be connected to each automatic sprinkler system. Such sprinkler water-flow alarm devices shall be activated by water flow equivalent to the flow of a single sprinkler of the smallest orifice size installed in the system. Where a building fire alarm system is installed, actuation of the automatic sprinkler system shall actuate the building fire alarm system. Visible alarm notification appliances shall not be required except when required by Section 907. (Attachment #8) Rev 1.7— THERMO FISHER SCIENTIFIC KLAuRucKN1R Page 19 5781 Van Allen Way, Carlsbad, CA ,NO 4.3 Building Access - Doors & Roads Per CFC 3206.6 (Attachment #9), fire apparatus access roads in accordance with Section 503 shall be provided within 150 feet of all portions of the exterior walls of buildings used for high-piled storage. EXCEPTION: Where fire apparatus access roads cannot be installed because of topography, railways, waterways, nonnegotiable grades or other similar conditions, the fire code official is authorized to require additional fire protection. 4.3.1 Access Roads Per CFC 503.1.1 (Attachment #9), approved fire apparatus access roads shall be provided within 150 feet of all portions of the facility and all portions of the exterior walls of the first story of the building as measured by an approved route around the exterior of the building or facility. Per CFC 503.2 (Attachment #9), fire apparatus access roads shall be installed and arranged in accordance with the following: Dimensions: Fire apparatus access roads shall have an unobstructed width of not less than 20 feet, exclusive of shoulders, except for approved security gates in accordance with Section 503.6, and an unobstructed vertical clearance of not less than 13 feet 6 inches. Authority: The fire code official shall have the authority to require or permit modifications to the required access widths where they are inadequate for fire or rescue operations, or where necessary to meet the public safety objectives of the jurisdiction. Surface: Fire •apparatus access roads shall be designed and maintained to support the imposed loads of fire apparatus and shall be surfaced so as to provide all-weather driving capabilities. Turning Radius: The required turning radius of a fire apparatus access road shall be determined by the fire code official. Dead Ends: Dead-end fire apparatus access roads in excess of 150 feet in length shall be provided with an approved area for turning around fire apparatus. Bridges and Elevated Surfaces: See CFC Section 503.2.6 Grade: The grade of the fire apparatus access road shall be within the limits established by the fire code official based on the fire department's apparatus. Angle of Approach and Departure: The angle of approach and departure for fire apparatus access roads shall be within the limits established by the fire code official based on the fire department's apparatus. (Attachment #9) Access roads are existing and have been previously approved as part of the shell building. 4.3.2 Access Doors Per CFC 3206.7 (Attachment #9), fire department access doors shall be provided in accordance with the following: Rev 1.7— THERMO FISHER SCIENTIFIC Page 1 20 5781 Van Allen Way, Carlsbad, CA AND ASSOCIATES Exterior walls without fire department access doors. Fire department access doors are not required in an exterior wall that does not face a fire apparatus access road provided that all of the following conditions occur: The opposite exterior wall faces a fire apparatus access road. The opposite exterior wall is provided with fire department access doors. The entire interior surface of the exterior wall is less than 150 feet away from a fire department access door. The building is equipped throughout with an automatic sprinkler system in accordance with Section 903.3.1.1. Location. Where exterior walls surrounding high-piled storage areas face fire apparatus access roads, such walls shall be provided with fire department access doors. Access to doors. Fire department access doors shall be able to be accessed without the use of a ladder. Marking on fire department access doors. Fire department access doors shall be labeled on the exterior side with the following sign or other approved sign: FIRE DEPARTMENT ACCESS DOOR DO NOT BLOCK The lettering shall be in a contrasting color to the background. Letters shall have a minimum height of 2 inches with a minimum stroke of 3I8 inch. Number of doors required. The required fire department access doors shall be distributed such that the lineal distance between adiacent fire department access doors does not exceed 125 feet measured center to center. Exception: The linear distance between adjacent access doors shall not exceed 200 feet in existing buildings where change in occupancy is not proposed. Door size and type. Fire department access doors shall be not less than 3 feet in width and 6 feet 8 inches in height. Roll-up doors shall not be considered fire department access doors unless approved. Locking devices. Locking devices on fire department access doors shall be approved. Key box. Where fire department access doors are required, a key box shall be installed in accordance with CFC Section 506.1. The key box shall contain keys or devices to allow for entry through the fire department access doors. Two (2) access doors exist along the plan North of the warehouse. Final location and number of access doors is pending fire department approval. (Attachment #9) 4.4 Smoke and Heat Removal Based on CFC Table 3206.2, smoke and heat removal is required in sprinklered high-pile storage areas of High Hazard/Group A Plastics commodities and more than 2,500 ft2 (Attachment #10). Please note that Areas #1, #2, #3, and #4 are not separated in accordance with CFC 3206.3.2.1 and 3206.2 (see Sections 6.2 and 6.3 of this report for detailed requirements). Therefore all four areas are considered as one high piled storage when applying CFC Table 3206.2. Rev 1.7— THERMO FISHER SCIENTIFIC Page 1 21 5781 Van Allen Way, Carlsbad, CA AND ASSOCIATES Per CFC 910.3 (Attachment #10) smoke and heat vents shall be design, installed and maintained in accordance with the following: Listing and labeling. Smoke and heat vents are required to be listed and labeled to indicate their compliance with UL 793, FM 4430 or ICC ES AC 331. Smoke and heat vent locations. Smoke and heat vents shall be located 20 feet or more from adjacent lot lines and fire walls and 10 feet or more from fire barriers. Vents shall be uniformly located within the roof in the areas of the building where the vents are required to be installed by Section 910.2, with consideration given to roof pitch, sprinkler location and structural members. Smoke and heat vent area. The required aggregate area of smoke and heat vents in buildings equipped throughout with an automatic sprinkler system shall be calculated as follows, see Section 4.4.3. Maintenance. Smoke and heat vents shall be maintained in an operative condition in accordance with NFPA 204 and Section 910.5.1.1. Fusible links for smoke and heat vents shall be replaced whenever fused, damaged or painted. 4.4.1 High-Piled Storage Areas #1, #2, #3, and #4 The aggregate area of smoke and heat vents in buildings equipped throughout with an automatic sprinkler system shall be calculated as follows: (Attachment #10) Freezer Smoke and heat removal is required as freezer storage of High Hazard/Group A Plastics is more than 2,500 square feet in the freezer, based on AVR = V/9000 Where: V = Volume of the Storage Area = 26 ft x 4000 ft2 (Freezer area) = 104,000 ft3 A = Required Aggregate Vent Area = 104,000 ft3/ 9,000 = approx. 11.6 ft2 One smoke and heat vents [4'x 8] is required, which is proposed to be located at the warehouse roof level (outside of, but directly above the Freezer) There are unknown existing smoke and heat vents currently in the warehouse. One skylight within the warehouse area and close to the freezer will be replaced with a smoke and heat vent to meet the high piled storage requirements. Alternative Means and Methods: Additionally a smoke detection system will be installed inside the freezer. It is not electrically connected to the smoke and heat vent for activation. Cooler Smoke and heat removal is required as freezer storage of High Hazard/Group A Plastics is more than 2,500 square feet in the freezer, based on AVR = V/9000 Where: V = Volume of the Storage Area = 22 ft 6 inches x 7850 ft2 (Cooler area) = 176,625 ft3 A = Required Aggregate Vent Area = 176,625 ft3/ 9,000 = approx. 20 ft2 One smoke and heat vents [4'x 8'] is required, which is proposed to be located at the warehouse roof level (outside of, but directly above the Cooler) Rev 1.7— THERMO FISHER SCIENTIFIC KLAUSBRUC NCR Page 122 5781 Van Allen Way, Carlsbad, CA I ~Ss 4N ASSOCIATES There are unknown existing smoke and heat vents currently in the warehouse. One skylight within the warehouse area and close to the freezer will be replaced with a smoke and heat vent to meet the high piled storage requirements. Alternative Means and Methods: Additionally a smoke detection system will be installed inside the freezer. It is not electrically connected to the smoke and heat vent for activation. Ambient Warehouse (Total of high-piled storage area in warehouse, existing and new TI: 35,000 ft2 ) Smoke and heat removal is required as storage of High Hazard/Group A Plastics is more than 2,500 square feet, based on AVR = V/9000 Where: V = Volume of the Storage Area = 33 ft 11 in x 35,000 ft2 (Warehouse)= 1,187,083 ft3 A = Required Aggregate Vent Area = 1,187,083 ft'/ 9,000 = approx. 133 ft2 Five smoke and heat vents [4'x 8] are required at the warehouse roof level. Freezer and Cooler smoke and heat vents are included. There are unknown existing smoke and heat vents currently in the warehouse. Five skylights within the warehouse area will be replaced with smoke and heat vents to meet the high piled storage requirements. 4.5 Draft Curtains Draft curtains are no longer required per the California Fire Code for storage areas equipped with an approved fire sprinkler system. All sprinkler systems are CMDA. 4.6 Portable Fire Extinguishers Per CFC Sections 906 and 3206.11 (Attachment #11), portable fire extinguishers shall be installed in the following locations: In existing Group S-I occupancies Group A, B, H-3, and H-4 occupancies are outside of scope Where required by the sections indicated in Table 906.1. Per CFC Table 906.3(1) & 906.3(2) (Attachment #11), the following is the proposed fire extinguisher type and layout: Storage Areas: 4-A:20-B:C @ Travel Distance 75* Feet * If no flammable/combustible liquids are stored, otherwise travel distance :5 50 Feet THERMO FISHER SCIENTIFIC agrees to comply with the requirements for fire extinguishers. One extinguisher may provide coverage to a maximum of 4,000 ft2. Fire extinguisher types and locations will be provided by THERMO FISHER SCIENTIFIC or fire extinguisher vendor and approved by the fire department. Portable fire extinguishers shall be located in conspicuous locations where they will be readily accessible and immediately available for use. These locations shall be along normal paths of travel, unless the fire code official determines that the hazard posed Rev 1.7— THERMO FISHER SCIENTIFIC lsss.,AUSBRUCKNER Page 123 5781 Van Allen Way, Carlsbad, CA AND ASSOCIATES indicated the need for placement away from normal paths of travel. Portable fire extinguishers shall not be obstructed or obscured from view. In rooms or areas in which visual obstruction cannot be completely avoided, means shall be provided to indicate the location of extinguishers. 4.7 Aisle Widths Per CFC 3206.10 (Attachment #12), aisles in sprinklered buildings not accessible to the public with high-piled storage areas exceeding 500 ft2 shall comply with the following: Aisles shall be a minimum of 44 inches * Cross aisles used only for employee access between aisles shall be a minimum of 24 inches in width Thermo Fisher Scientific agrees to maintain a minimum of 44" aisle widths within the rack storage areas in order to comply with the sprinkler requirements stated in Section 4.1 of this report. Dead end aisles shall not exceed 50 feet. THERMO FISHER SCIENTIFIC agrees to meet the above requirements for aisle widths and dead ends. Additionally, THERMO FISHER SCIENTIFIC agrees to arrange their floor/palletized storage (if any), such that it does not obstruct the minimum required width of the aisles. 4.8 Housekeeping & Maintenance Per CFC Sections 901.6 and 3205 (Attachment #13), the following are general maintenance and safety requirements: Rack Structures. The structural integrity of racks shall be maintained Smoking. Smoking shall be prohibited. Approved "NO SMOKING" signs shall be conspicuously posted. Ignition sources. Clearance from ignition sources shall be provided. Aisle Maintenance. When restocking is not being conducted, aisles shall be kept clear of storage, waste materials and debris. Fire department access doors, aisles and exit doors shall be unobstructed. During restocking operations using manual stocking methods, a minimum unobstructed aisle width of 24 inches of the required aisle width shall be maintained in 48 inch or smaller aisles, and a minimum unobstructed aisle width of one-half of the required aisle width shall be maintained in aisles greater than 48 inches. During mechanical stocking operations, a minimum unobstructed aisle width of 44 inches shall be maintained. Flue Spaces. Flue spaces shall be maintained for rack storage. (Attachment #14). See Section 4.9 of this report. Fire Protection Systems. Fire protection systems shall be maintained in an operative condition at all times and shall be replaced or repaired where defective. Additionally, any existing non-required fire protection systems (i.e. extinguishing systems, smoke and heat vents, etc.) shall be inspected, tested and maintained or removed. Rev 1.7— THERMO FISHER SCIENTIFIC Page 124 5781 Van Allen Way, Carlsbad, CA AND ASSOCIATES Per CFC 901.6 (Attachment #13), non-required fire protection systems (i.e. extinguishing systems, smoke and heat vents, etc.) shall be inspected, tested and maintained or removed. 4.9 Flue Spaces for Rack Storage Per CFC 3208.3 and Table 3208.3 (Attachment #14), flue spaces shall be maintained for rack storage. Where required by the fire code official ', required flue spaces in rack storage shall be equipped with approved devices to protect the required flue space above the first tier of storage. Such devices shall not be moved or modified. The required flue spaces for rack storage per CFC Table 3208.3 are exceeded by flue space requirements of FM Global Datasheet 8-9 Section 2.2.3.2 (for definition of flue spaces see NFPA 13, Figure A.3.9.3.7(b)). The flue space requirements for rack storage are listed in Table 4 (Attachment #14). ** City of Carlsbad requires flue space protection per CFC 3208.3.1 for flue spaces required by CFC Table 3208.3 in single and double row rack storage. Rack installations shall be equipped with approved devices to protect the required flue spaces and which shall not be removed or modified. 4.9.1 Freezer Rack Transverse Flues Flue spaces in the freezer are aligned to the horizontal in-rack spacings, every 4 ft (4.5 ft) throughout all rack bays - whether handstacked or pallet loaded. Flue space alignment relative to horizontal in-rack spacing in 8-ft and 9-ft wide rack bays for freezer racks, see Figure 1. In-Rack Sprinkler Pallet Load __* *11 * 31? 31? 311 Ifn 311 31? 311 Transverse Flue Spaces • - Hand Stacked Figure 1 Flue spacest and horizontal in-rack spacing for 8-ft & 9-ft wide freezer rack bays Flue space alignment relative to horizontal in-rack spacing for 13-ft wide rack bays (single row racks, Type 'A') for freezer warehouse racks, see Figure 2. Rev 1.7— THERMO FISHER SCIENTIFIC K1AUS8RUCKNER I Page 25 5781 Van Allen Way, Carlsbad, CA AND ASSOCIATES In-Rack Sprinkler Pallet Load 317 M 311 M*1 ___Mj3" 3fl 3" " " 3':. 13" .3"l 3" Transvers;6 Flue Spaces / U IHand Stacked Figure 2 Flue spacest relative to horizontal in-rack spacing in 13-ft wide rack bays 4.9.2 Ambient Warehouse Rack Transverse Flues Flue space alignment relative to horizontal in-rack spacing in 8-ft wide rack bays (single row and double row racks) for freezer and ambient warehouse racks, see Figure 3. In-Rack Sprinkler Pallet Load fl 3fl i 3" .1 3" Transvrse Flue Spcs Hand Stacked Figure 3 Flue spacest relative to horizontal in-rack spacing for 8-ft wide rack bays Flue space alignment relative to horizontal in-rack spacing for 12-ft wide rack bays (single row and double row racks) for freezer and ambient warehouse racks, see Figure 4. In-Rack Sprinkler Pallet Load ___ M M ____________3 " I " " " A TF 3' 3" U Transverse' Flue Spaces -f U "Hand Stacked Figure 4 Flue spacest relative to horizontal in-rack spacing in 12-ft wide rack bays Flue space alignment relative to horizontal in-rack spacing in 16-ft wide rack bays (single row racks) for ambient warehouse racks, see Figure 5. Rev 1.7— THERMO FISHER SCIENTIFIC KLAUSHRUCKNCR Page 1 26 5781 Van Allen Way, Carlsbad, CA AND ASSOCIATES In-Rack Sprinkler Pallet Load MelM * 3 _ 11 3 No Storage (Loading Dock) Transverse Flue Spaces Figure 5 Flue spacest relative to horizontal in-rack spacing for 16-ft wide rack bays Flue space alignment relative to horizontal in-rack spacing in end cap racks relative to adjacent double row racks, see Figure 6. Transverse Flue Space E!---~_ x x x Solid Shelf F-1 End Caps x x _______ x Figure 6 Double Row Racks with solid shelf end cap racks (foot print 2'x 3') 49.3 Cooler Rack Transverse Flues Flue space alignment relative to horizontal in-rack spacing in 8-ft wide rack bays (single row and double row racks) for Cooler racks, see Figure 7. Pallet Load 3-M 3" = 3" 3' Efl 3" 3" In-Rack Sprinkler 321 — '3" 1 3" Tri rse Flue Spaces Hand Stacked Figure 7 Flue spacest relative to horizontal in-rack spacing for 8-ft wide Cooler rack bays Flue space alignment relative to horizontal in-rack spacing for 12-ft wide rack bays (single row and double row racks) for Cooler racks, see Figure 8. Rev 1.7- THERMO FISHER SCIENTIFIC KLAURUCKNER Page 127 5781 Van Allen Way, Carlsbad, CA AND ASSOCIATES Pallet Load 3- M 311 311 31? 31? M 3- 3" I In-Rack Sprinkler ) 3'. " I .4 3" 3' 6" 1 3" Transverse Flue Spaces" Hand Stacked Figure 8 Flue spacest relative to horizontal in-rack spacing in 12-ft wide Cooler rack bays Table 4. lists all flue space requirements for all high-piled storage areas: Table 4. Flue space requirements per CFC and FM Global DS 8-9 (8-ft wide rack bays) (pallet loaded-racks) Transverset - 6-inches required INot required Figures 3, 7 IEM_Global:.6:inchesevery_8..fL (8-ft wide rack bay) 1[jiansyersei6:inchesjequir.ed - fJgures3 J._. (hand stacked areast) 71 I Longitudinal - Not required Global: 6-inches every8ft (8-ft wide rack bays) reauired Eigure_1. (freezer only: hand stacked or pallet loaded)______ Longitudinal - Not required (9-ft wide rack bays) T jransveet_3inchesrequired_JFigurei (freezer only: hand stacked or pallet loaded) [Lon-gitudinal - Not required FM Global:3-inches every (12-ft wide rack bays) ILTransverse3:inches required- "8 (pallet loaded racks) l[gitudinaLNot.required 7771 --- IF -FMGlobal:-3-inches everKA ft II 0ft wide rack bays) 1LTransverse6:inches required _JL_Figures.4,_ (hand stacked areast) 1[!gitudinaLNot required 1 'TFM Global .6-inches every6 ft 0 3-ft wide rack bays) --jilTransverset_3.inchesrequh.ed rHge 2 (freezer only: hand stacked or . PteI9?). TLongitudinal - Not required EM Global: :Jpciesapprox. 4.5 ft_ (ift wide rack bay) jTransverse3:inches re.quired_ _Figure5 (pallet loaded racks) Longitudinal - Not required t FM Global: 3-inches every 4 ft IF II (8-ft wide rack bays) JLTransverset_ 6-inches_required Rgure3 6-inches required , FM Global: 6-inches every 8 ft tt vertically aligned required Figure Longitudinal tt - 6-inches required ~1~al: 3-inches every 4 ft tt ve ically aligned .- - - (8-ft wide rack bays)----------[Transverset_3inches (hand tacked) 1 Rev 1.7— THERMO FISHER SCIENTIFIC Page 1 28 5781 Van Allen Way, Carlsbad, CA AND ASOIATS - _(8 wide rack bays) - Transverset - 3-inches required Figure 1 (freezer only: hand stacked or Longitudinaltt - 6-inches required pafletioaded)_ jt FM Global: 3-inches every4jt_, Pt- verticallyagned (12-ft wide rack bays) Transverset - 3-inches requir Figqrqs4,8 ()allet loaded rackst) Longitudinaltt - 6-inches required I EFM Global: 3-inches every 4 ft rUcaiiyjjgned (12-ft wide rack bays) I Transy6:inches reqdJ_gures iiand_stacke&a —re as) Longitudina!6jpches required EFM Global: 6-inches every 6 ft Single rack end cap flansverseiLnot required I_Rgure6 (solid shelf rack) Longitudinalft —3-inches required_ vertically aligned * Transverse Flue Spaces: Random variations (in flue space size) are allowed, provided the distribution of water is not obstructed per CFC Table 3208.3, sub-note (b). If rack bays are 8-ft wide or 12-ft wide and handstacked to a max. storage height of 10 ft, the 6-inch transverse flue spaces may include flue space occupied by rack uprights. Transverse flue spaces at rack uprights to be protected with mechanical devices. City of Carlsbad requires flue space protection per CFC 3208.3.1 for flue spaces required by CFC Table 3208.3 in single and double row rack storage. Rack installations shall be equipped with approved devices to protect the required flue spaces and which shall not be removed or modified. A mechanical means shall be provided to maintain the transverse flue spaces at the uprights at each level: Transverse flue spaces at rack uprights to be protected with mechanical devices. The device and its installation method shall be identified on the plan. Transverse flue spaces between uprights shall be marked with a 3-inch or 6-inch yellow strip on the load beam with words in red that read, "Keep Clear." Durable vinyl tape, paint, or other methods as approved by the fire code official may be used. Note, transverse flue space is measured as the distance between the loads, not the distance between the racks. A flue space's net width is a measure of its gross width minus any horizontal obstructions, such as rack uprights, located within the flue space. A 3-inch transverse flue space to be provided at rack uprights (not including the space taken by rack uprights), see Figure 1 - Figure 6. Double row racks shall be equipped with a pallet/commodity stop along the longitudinal flue space at each level: The device along the longitudinal flue space shall be made from steel or other ferrous material 1/4" thick and, in the mounted position, shall extend a minimum of 4 = inches above the shelf or cross member, or other method approved by the fire code official. It is noted that regardless of the design of the pallet stop, the flue space shall be measured from the back of the pallet stop to the (opposing) back of the pallet stop. Rev 1.7- THERMO FISHER SCIENTIFIC KLAUSSRUCKNE Page 1 29 5781 Van Allen Way, Carlsbad, CA Isss AND ASSOCIATES Definition of Flue Spaces: Longitudinal Flue Space: The flue space between rows of storage perpendicular to the direction of loading. Transverse Flue Space: The space between rows of storage parallel to the direction of loading. U A Load depth C Pallet B Load width H Rack depth E Storage height L Longitudinal flue space F Commodity T Transverse flue space FIGURE A.3.93.7(b) Double-Row RacIts Without Solid or Slatted Shelves. Final approval of flue space protection devices is pending fire department approval. 4.10 Hose Connections Per CFC 3206.8, hose connections are not required unless exit passageways are required by the California Building Code for egress within the high piled storage areas. In this case a Class I standpipe system shall not be provided in accordance with CFC Section 905, as exit passageways are not proposed. (Attachment #15) Rev 1.7— THERMO FISHER SCIENTIFIC I ~S~ .. ...... . T- Page 130 5781 Van Allen Way, Carlsbad, CA AND ASSOIATS 5. Means of Egress A complete exit analysis is outside the scope of this report and, when required, will be provided by the Architect of Record. The following general egress requirements apply to the proposed sprinklered occupancies. (Attachment #16) 5.1 Storage [S-I Occupancy] Per CBC 1005.3.2, egress width components other than stairways shall be 0.2 inch/occupant. Per CBC Table 1006.2.1, spaces with only one exit or exit access doorway shall have a maximum occupant load of 29 and the common path of egress travel shall not exceed 100 feet. o Per CBC 1017.2.2, exit access travel distance can be increased to 400 feet when the portion of the building classified as Group S-I is limited to one story in height, the minimum height from the finished floor to the bottom of the ceiling or roof slab or deck is 24 feet and the building is equipped throughout with an approved automatic sprinkler system. Per CBC 1020.4, Exception 2, dead ends through common path of egress shall not exceed 50 feet. 5.2 Other Areas - Outside the Scope Unknown and outside the scope of this report. See architectural plans. THERMO FISHER SCIENTIFIC agrees to meet the above requirements for travel distance. Rev 1.7— THERMO FISHER SCIENTIFIC I Page 1 31 5781 Van Allen Way, Carlsbad, CA AND ASSOCIATES 6. Exposures 6.1 Occupancy Separation THERMO FISHER SCIENTIFIC is classified as a B and S-I occupancy with A-3, H-3, and H-4 Accessory Occupancies, unless otherwise specified by the Architect of Record. Based on CBC Table 508. (Attachment #17), the following occupancy separation is required in a fully sprinklered building*: No occupancy separation is required between: B and S-I occupancies I-hour occupancy separation is required between A-3 and B/S-I occupancies I-hour occupancy separation is required between H-3 and B/S-I occupancies I-hour occupancy separation is required between H-4 and B/S-I occupancies 6.2 Separation of High-Piled Storage Areas Per CFC 3206.3.2.1 (Attachment #18), the aggregate of all high-piled storage areas within a building shall be used for the application of Table 3206.2 unless such areas are separated from each other by I-hour fire barrier walls constructed in accordance with the California Building Code OR by a distance of 100 feet or more. Openings in such walls shall be protected by opening protective assemblies having a I-hour fire protection rating. As THERMO FISHER SCIENTIFIC occupies the entire building, no separation from adjacent tenant spaces is required. Additional occupancy separation requirements may exist and are specified by the architect of record. 6.3 Separation of Multiple Classes of High Piled Storage Areas High-piled storage areas classified as Class I through IV not separated from high-piled storage areas classified as high hazard shall utilize the aggregate of all high-piled storage areas as high hazard for the purposes of the application of Table 3206.2. Multiple class high piled storage areas meeting the separation requirements in Section 3206.3.2 shall be considered as separated. The fire safety features in Table 3206.2 shall be extended beyond the higher-hazard storage area in accordance with Section 3206.2.1. Exception: Multiple class high-piled storage areas do not need to be separated where in accordance with Section 3204.2 (i.e. based on the worst-case commodity). 6.4 Allowable Area and Sideyards The building is existing. No proposed changes to type of construction, building square footage or occupancy unless otherwise specified by the Architect of Record. Rev 1.7— THERMO FISHER SCIENTIFIC Page 1 32 5781 Van Allen Way, Carlsbad, CA AND ASSOATES 7. Approved Storage Layout Per CFC 3201.3.2 a floor plan, of legible size, shall be provided (by others), mounted on a wall and protected from damage. The floor plan shall be mounted in an approved location and show the following (Attachment #19): Locations, dimensions and rack layout of high-piled storage areas. Design storage height for each storage area*. Types of commodities. Commodity clearance between top of storage and the sprinkler deflector for each storage arrangement*. Aisle dimensions between each storage array*. For palletized and solid-piled storage, the maximum pile volume for each storage array*. Location and classification of commodities in accordance with Section 3203 (Commodity Classification, see Section 4). Location of required fire department access doors. Location of valves controlling the water supply of ceiling and in-rack sprinklers. * For high-piled storage only, non high-piled storage arrangements are excluded. The proposed approved storage layout is outside the scope of Klausbruckner & Associates Inc. at this time. COAST INDUSTRIAL SYSTEMS agrees to comply with the requirements of CFC Section 3201.3.2. Rev 1.7— THERMO FISHER SCIENTIFIC I F Page 1 33 5781 Van Allen Way, Carlsbad, CA AND ASOC,ATeS 8. Conclusion It is the opinion of Klausbruckner & Associates that the above will meet the requirements, and/or intent of the 2019 Edition of the California Fire Code, the 2019 Edition of the California Building Code, the 2016 Edition of NFPA-13, Standard for the Installation of Sprinkler Systems, the 2020 Editions of FM Global Data Sheets 8-1, Commodity Classification, and of FM Global Data Sheets 8-9, Storage of Class 1, 2, 3, 4 and Plastic Commodities,for the type of occupancy and storage. By way of my signature, THERMO FISHER SCIENTIFIC agrees to meet the storage conditions required and specified in this report /5-/4 p r - THEMO FISHER SCIENTWIC Repre at e - Sign Name Date ot+4 JL THERMO FISHER SCIENTIFIC Reoresentative - Print Name J Rev 1.7— THERMO FISHER SCIENTIFIC 5781 Van Allen W, Carlsbad, CA Page 1 34 kid Western Fire Protection Inc. Thermo Fisher Mezzanine 5781 Van Allen Way Carlsbad, CA 92008 Distribution Center Improvements 20-1830-04 Hydraulic Calculations & Seismic Calculations 5-7-2021 13630 Danielson Street • Poway, CA 92064 • Phone: (858) 513-4949 • Fax: (858) 513-1322 No. 226 CARLSBAD FIRE DEPARTMENT Fire Prevention Division 1635 Faraday Avenue - Carlsbad, CA 92008 760.602.4665 WATER AVAILABILITY FORM SECTION A: TO BE COMPLETED BY CUSTOMER PROJECT NAME: Thermo Fisher (All areas Nos. 2 - 7) SR#: (Assigned upon plan submittal) PROJECT ADDRESS: 5781 Van Allen Way CITY: Carlsbad PHONE: (858) 513-4949 x1310 (Western Fire Protection) FAX NUMBER: Largest Building (ft.2): Sprinkled? Construction Type: SECTION B: TO BE COMPLETED BY LOCAL WATER COMPANY. CUSTOMER TO PROVIDE RESULTS TO CFD. Water Purveyor: City of Carlsbad Location of test (reference map required): Van Allen Way west of College Blvd TEST INFORMATION IS VALID FOR 6 MONTHS FROM DATE PERFORMED Flow Test Results Static pressure: 131 PSI Hydrant Number (if applicable):H61391 & H61385 Elevation of test: 248 Feet Main Size: 8 INCH Pressure Zone: 550 Feet Date/Time of Test: I Pitot Tube Reading: Corresponding Flow: Total Flow: 2,700 GPM Residual Pressure 108 PSI At peak demand , this water system is capable of providing a fire flow discharge at 20 psi in excess of 8,000 gpm. However, this exceeds the City's maximum velocity criteria. The fire flow that meets both velocity and pressure criteria is 2,700 gpm. Flow was split evenly between the two hydrants shown. Note: If the water availability information was obtained in a manner other than a flow test (i.e. computer modeling), fill out the information above as applicable and check here: x Name: JenniferR.Mael,P.E. Eng. Lic. No. (if applicable): C69606 _ Signature: _t& Title/Org:P ie Mana Date: 05/07/2020 Halley Cb U Fire Flow Test Location H61385 '7IVAT DY Legend w_Hydrant Pipe N ZONE 430 550 Ci Project Site / Cb Fire Flow Test 11/ Location H61391 College 550/430 PRS 4 co #226 Thermo Fisher (5781 Van Allen Way) - Fire Flow Analysis HYDRAULIC CALCULATIONS Western Fire Protection Page 1 Thermo Fisher - FREEZER Date 4-29-2021 Hydraulic Design Information Sheet Remote Area #1 Name -(Thermo Fisher Freeze) Date - 4-29-2021 Location - 5781 Van Allen Way, Carlsbad, CA 92008 Building - System No. - 3 Contractor - JR Construction Contract No. - 20-1830-04 Calculated By - WFP Drawing No. - FP-05;FP-06 Construction: (x) Combustible ( ) Non-Combustible Ceiling Height - Occupancy - Storage S (x) NFPA 13 ( ) Lt. Haz. Ord.Haz.Gp. ( ) 1 ( ) 2 ( ) 3 ( ) Ex.Haz. Y ( ) NFPA 231 ( ) NFPA 231C ( ) Figure Curve S Other FM Global T Specific Ruling Made By Date E M Area of Sorinkler Ooeration - 16 HEADS System Tvoe Sorinkler/Nozzle Density - 7 PSI () Wet Make TYCO - D Area Per Sprinkler - 100 ( ) Dry Model TY5151 E Elevation at Highest Outlet - 31.5 ( ) Deluge Size 3/4" S Hose Allowance - Inside - (x) Preaction K-Factor 11.2 I Rack Sprinkler Allowance - 470.13 ( ) Other Temp.Rat.2860 G Hose Allowance - Outside - 500 N Note Calculation Flow Required - 1527.49 Press Required - 97.16 TEST Summary C-Factor Used: 120 Overhead 150 Underground W Water Flow Test: Pump Data: Tank or Reservoir: A Date of Test - 5/7/2020 Cap. - T Time of Test - Rated Cap.- Elev.- E Static Press - 131 @ Press - R Residual Press - 108 Elev. - Well Flow - 2700 Proof Flow S Elevation - 0 U P Location - On Site hydrants H61385 & H61391 P L Source of Information - Carlsbad Fire Department Y C Commodity Class Location O Storage Ht. Area Aisle W. M Storage Method: Solid Piled % Palletized % Rack M SR TA O C R K A G E (x) Single Row ( ) Conven. Pallet (x) Double Row ( ) Slave Pallet Mult. Row Flue Spacing Longitudinal Auto. Storage ( ) Encap. Solid Shelf ( ) Non (x) Open Shelf Clearance:Storage to Ceiling Transverse .,.ter..,ply .ve Western Fire Protection Page 2 Thermo Fisher - FREEZER Date 4-29-2021 City Water Supply: Demand: Cl - Static Pressure : 117.9 Dl - Elevation : 8.770 C2 - Residual Pressure: 97.2 D2 - System Flow :1027.49 C2 - Residual Flow : 2700 D2 - System Pressure : 97.164 Hose ( Demand) : 500 D3 - System Demand :1527.49 Safety Margin : 13.520 150 140 130 Cl 120 : R 110 fl2 C2 E 100 7 s 90 / DI 580 u 70 R6° E5° 40 30 20 10 . I I 7T I I .... 300 600 900 1200 1500 1800 2100 2400 2700 FLOW ( N" 1.85) Computer Programs by Hydratec Inc. Revision: 50.54.4 Fittings Used Summary Western Fire Protection Page 3 Thermo Fisher - FREEZER Date 4-29-2021 Fitting Legend Abbrev. Name 1/2 % 1 114 1% 2 21/2 3 3V2 4 5 6 8 10 12 14 16 18 20 24 Bvca B Fly Vic 705 6 6 7 8 12 14 16 18 19 G NFPA 13 Gate Valve 0 0 0 0 0 1 1 1 1 2 2 3 4 5 6 7 8 10 11 13 90 Grvd-Vic Elbow #10 0 0 2 3 4 3.5 6 5 8 7 8.5 10 13 17 20 23 25 33 36 40 J 90Tee-Branch Gry Vic #20 0 0 4.5 6 8 8.5 10.8 13 17 16 21 25 33 41 50 65 78 88 98 120 L NFPA 13 Long Turn Elbow 0.5 1 2 2 2 3 4 5 5 6 8 9 13 16 18 24 27 30 34 40 S NFPA 13 Swing Check 0 0 5 7 9 11 14 16 19 22 27 32 45 55 65 T NFPA 139OFlowthruTee 3 4 5 6 8 10 12 15 17 20 25 30 35 50 60 71 81 91 101 121 V 90 Ell Firelock #001 0 0 0 0 0 3.5 4.3 5 0 6.8 8.5 10 13 4.5 5.1 0 0 0 0 0 X 90Tee-BranchFirelock002 0 0 0 0 0 8.5 10.8 13 0 16 21 25 33 9.3 11 0 0 0 0 0 Zwc Watts 709 Fitting generates a Fixed Loss Based on Flow Units Summary Diameter Units Inches Length Units Feet Flow Units US Gallons per Minute Pressure Units Pounds per Square Inch Note: Fitting Legend provides equivalent pipe lengths for fittings types of various diameters. Equivalent lengths shown are standard for actual diameters of Sched 40 pipe and CFactors of 120 except as noted with * The fittings marked with a * show equivalent lengths values supplied by manufacturers based on specific pipe diameters and CFactors and they require no adjustment. All values for fittings not marked with a * will be adjusted in the calculation for CFactors of other than 120 and diameters other than Sched 40 per NFPA. Computer Programs by Hydratec Inc. Revision: 50.54.4 Pressure I Flow Summary - STANDARD Western Fire Protection Page 4 Thermo Fisher - FREEZER Date 4-29-2021 Node Elevation K-Fact Pt Pn Flow Density Area Press No. Actual Actual Req. 51 25.0 11.2 8.33 na 32.33 1.0 1 7.0 52 25.0 11.2 8.44 na 32.54 1.0 1 7.0 53 25.0 11.2 8.9 na 33.42 1.0 1 7.0 56 25.0 10.1 na 54 25.0 11.2 9.14 na 33.87 1.0 1 7.0 55 25.0 11.2 9.28 na 34.12 1.0 1 7.0 57 25.0 11.2 9.61 na 34.73 1.0 1 7.0 58 25.0 11.2 9.76 na 34.99 1.0 1 7.0 61 25.0 10.4 na 59 25.0 11.2 9.41 na 34.36 1.0 1 7.0 60 25.0 11.2 9.55 na 34.62 1.0 1 7.0 62 25.0 11.2 10.5 na 36.29 1.0 1 7.0 63 25.0 11.2 10.66 na 36.56 1.0 1 7.0 66 25.0 11.34 na 64 25.0 11.2 10.27 na 35.9 1.0 1 7.0 65 25.0 11.2 10.43 na 36.17 1.0 1 7.0 67 25.0 11.2 9.88 na 35.21 1.0 1 7.0 68 25.0 11.2 10.07 na 35.54 1.0 1 7.0 69 25.0 11.2 10.75 na 36.73 1.0 1 7.0 70 25.0 13.35 na 71 25.0 43.11 na FRi 5.79 57.58 na FR2 1.5 62.78 na N13A 30.75 59.32 na 81 20.25 8 14.06 na 30.0 1.0 1 14.06 82 20.25 8 14.12 na 30.06 1.0 1 14.06 83 20.25 8 14.34 na 30.29 1.0 1 14.06 84 19.5 8 15.79 na 31.79 1.0 1 14.06 85 19.5 8 16.67 na 32.66 1.0 1 14.06 86 19.5 8 17.75 na 33.7 1.0 1 14.06 87 19.5 8 19.53 na 35.36 1.0 1 14.06 88 19.5 32.53 na 89 10.83 8 17.06 na 33.04 1.0 1 14.06 90 10.83 8 17.17 na 33.15 1.0 1 14.06 91 9.5 8 18.34 na 34.26 1.0 1 14.06 92 9.5 8 18.95 na 34.83 1.0 1 14.06 93 9.5 8 19.79 na 35.59 1.0 1 14.06 94 9.5 8 21.28 na 36.91 1.0 1 14.06 95 9.5 8 23.15 na 38.49 1.0 1 14.06 96 9.5 36.11 na 88A 24.58 37.16 na 97 30.08 38.81 na Fl 30.75 60.96 na Ri 31.5 60.58 na R32 31.5 59.95 na Ni 30.75 60.22 na F2 30.75 60.96 na R2 31.5 60.58 na R33 31.5 59.95 na N2 30.75 60.22 na F3 30.75 60.96 na R3 31.5 60.58 na R34 31.5 59.94 na N3 30.75 60.22 na F4 30.75 60.97 na R4 31.5 60.59 na R35 31.5 59.93 na N4 30.75 60.2 na F5 30.75 60.99 na R5 31.5 60.61 na R36 31.5 59.92 na N5 30.75 60.19 na Computer Programs by Hydratec Inc. Revision: 50.54.4 Flow Summary - Standard r Western Fire Protection Page 5 Thermo Fisher - FREEZER Date 4-29-2021 Node Elevation K-Fact Pt Pn Flow Density Area Press No. Actual Actual Rea. 30.75 61.02 na 31.5 60.64 na 31.5 59.89 na 30.75 60.16 na 30.75 61.06 na 31.5 60.67 na 31.5 59.86 na 30.75 60.11 na 30.75 61.12 na 31.5 60.72 na 31.5 59.81 na 30.75 60.05 na 30.75 61.2 na 31.5 60.79 na 31.5 59.74 na 30.75 59.98 na 30.75 61.3 na 31.5 60.88 na 31.5 59.65 na 30.75 59.88 na 30.75 61.43 na 31.5 60.99 na 31.5 59.54 na 30.75 59.75 na 30.75 61.6 na 31.5 61.13 na 31.5 59.4 na 30.75 59.58 na 30.75 61.8 na 31.5 61.31 na 31.5 59.22 na 30.75 59.37 na 30.75 62.07 na 31.5 61.6 na 31.5 59.93 na 30.75 60.11 na 30.75 62.38 na 31.5 61.96 na 31.5 60.79 na 30.75 61.02 na 30.75 62.74 na 31.5 62.35 na 31.5 61.59 na 30.75 61.85 na 30.75 63.14 na 31.5 62.78 na 31.5 62.34 na 30.75 62.63 na 30.75 63.57 na 31.5 63.23 na 31.5 63.05 na 30.75 63.36 na 30.75 64.01 na 31.5 63.69 na 31.5 63.75 na 30.75 64.08 na 30.75 64.45 na 31.5 64.15 na 31.5 64.46 na 30.75 6481 na 30.75 64.86 na 31.5 64.58 na Computer Programs by Hydratec Inc. Revision: 50.54.4 Flow Summary - Standard Western Fire Protection Page 6 Thermo Fisher - FREEZER Date 4-29-2021 Node Elevation K-Fact Pt Pn Flow Density Area Press No. Actual Actual Rea. R52 31.5 65.19 na N21 30.75 65.56 na F22 30.75 65.24 na R22 31.5 64.99 na R53 31.5 65.97 na N22 30.75 66.37 na F23 30.75 65.57 na - R23 31.5 65.36 na R54 31.5 66.8 na N23 30.75 67.24 na F24 30.75 65.86 na R24 31.5 65.7 na R55 31.5 67.7 na N24 30.75 68.19 na F25 30.75 66.09 na R25 31.5 65.95 na R56 31.5 68.28 na N25 30.75 68.79 na F26 30.75 66.26 na R26 31.5 66.13 na R57 31.5 68.44 na N26 30.75 68.96 na F27 30.75 66.39 na R27 31.5 66.26 na R58 31.5 68.62 na N27 30.75 69.14 na F28 30.75 66.51 na R28 31.5 66.39 na R59 31.5 68.81 na N28 30.75 69.35 na F29 30.75 66.58 na R29 31.5 66.49 na R60 31.5 69.01 na N29 30.75 69.57 na F30 30.75 66.62 na R30 31.5 66.56 na R61 31.5 69.22 na N30 30.75 69.81 na F31 30.75 66.63 na R31 31.5 66.61 na R62 31.5 69.45 na N31 30.75 70.08 na N24A 30.75 68.72 na TOR 30.75 71.77 na BOR 2.0 85.44 na UG 0.5 87.46 na UG1 -4.0 89.51 na UG2 -4.0 90.16 na UG3 -4.0 93.65 na BF1 3.0 91.0 na BF2 3.0 95.21 na UG4 -4.0 98.41 na HOSE -4.0 98.88 na 500.0 TEST 0.0 97.16 na The maximum velocity is 21.62 and it occurs in the pipe between nodes 95 and 96 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 7 Thermo Fisher - FREEZER Date 4-29-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes ****** Node2 EIev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf *FREEZE OH 51 25 11.20 32.33 2 8.000 100 8.333 to 0.0 52 25 32.33 2.157 8.000 0.0132 0.106 Vel = 2.84 52 25 11.20 32.54 2 9.670 100 8.439 to 0.0 53 25 64.87 2.157 9.670 0.0481 0.465 Vel = 5.70 53 25 11.20 33.42 2 T 8.783 2.790 100 8.904 to 8.783 0.0 56 25 98.29 2.157 11.573 0.1036 1.199 Vel= 8.63 0.0 56 98.29 10.103 K Factor= 30.92 54 25 11.20 33.87 2 9.670 100 9.143 to 0.0 55 25 33.87 2.157 9.670 0.0144 0.139 Vel = 2.97 55 25 11.20 34.12 2 T 8.783 6.880 100 9.282 to 8.783 0.0 56 25 67.99 2.157 15.663 0.0524 0.821 Vel = 5.97 0.0 56 67.99 10.103 K Factor= 21.39 57 25 11.20 34.73 2 9.670 100 9.615 to 0.0 58 25 34.73 2.157 9.670 0.0151 0.146 Vel = 3.05 58 25 11.20 34.99 2 T 8.783 2.790 100 9.761 to 8.783 0.0 61 25 69.72 2.157 11.573 0.0549 0.635 Vel = 6.12 0.0 61 69.72 10.396 KFactor= 21.62 59 25 11.20 34.36 2 9.670 100 9.410 to 0.0 60 25 34.36 2.157 9.670 0.0148 0.143 Vel = 3.02 60 25 11.20 34.61 2 T 8.783 6.880 100 9.553 to 8.783 0.0 61 25 68.97 2.157 15.663 0.0538 0.843 Vel = 6.06 0.0 61 68.97 10.396 KFactor= 21.39 62 25 11.20 36.29 2 9.670 100 10.497 to 0.0 63 25 36.29 2.157 9.670 0.0164 0.159 Vel = 3.19 63 25 11.20 36.56 2 T 8.783 2.790 100 10.656 to 8.783 0.0 66 25 72.85 2.157 11.573 0.0594 0.688 Vel = 6.40 0.0 66 72.85 11.344 K Factor= 21.63 64 25 11.20 35.90 2 9.670 100 10.275 to 0.0 65 25 35.9 2.157 9.670 0.0160 0.155 Vel = 3.15 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 8 Thermo Fisher - FREEZER Date 4-29-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe ******* Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pt/Ft Pt 65 25 11.20 36.17 2 T 8.783 6.880 100 10.430 to 8.783 0.0 66 25 72.07 2.157 15.663 0.0584 0.914 Vet = 6.33 0.0 66 72.07 11.344 KFactor= 21.40 67 25 11.20 35.21 2 12.000 100 9.881 to 0.0 68 25 35.21 2.157 12.000 0.0155 0.186 Vel = 3.09 68 25 11.20 35.53 2 V 3.074 9.080 100 10.067 to 3.074 0.0 69 25 70.74 2.157 12.154 0.0564 0.686 Vel = 6.21 69 25 11.20 36.73 2 T 8.783 12.460 100 10.753 to 8.783 0.0 70 25 107.47 2.157 21.243 0.1222 2.596 Vel = 9.44 0.0 70 107.47 13.349 K Factor= 29.41 56 25 166.28 3 8.000 100 10.103 to 0.0 61 25 166.28 3.26 8.000 0.0366 0.293 Vel = 6.39 61 25 138.69 3 8.420 100 10.396 to 0.0 66 25 304.97 3.26 8.420 0.1126 0.948 Vel = 11.72 66 25 144.92 3 8.670 100 11.344 to 0.0 70 25 449.89 3.26 8.670 0.2313 2.005 Vet = 17.29 70 25 107.47 3 2V 9.592 77.000 100 13.349 to 9.592 0.0 71 25 557.36 3.26 86.592 0.3437 29.758 Vet = 21.42 71 25 0.0 4 V 6.39 52.000 100 43.107 to Bvca 7.518 13.908 8.320 OH FREEZER FRi 5.790 557.36 4.26 65.908 0.0934 6.154 Vel = 12.55 DEMAND FRi 5.790 470.13 6 Bvca 12.563 4.330 100 57.581 to S 28.716 76.634 1.858 OH FREEZER FR2 1.500 1027.49 6.357 V 8.974 80.964 0.0412 3.337 Vel = 10.39 + IN-RACK EgI 26.382 DEMAND FR2 1.500 0.0 6 4V 50.294 200.000 120 62.776 to 2X 62.867 113.161 -12.668 N13A 30.750 1027.49 6.357 313.161 0.0294 9.212 Vel = 10.39 0.0 N13A 1027.49 59.320 K Factor = 133.41 *F RACK 81 20.250 8.00 30.00 2 5.080 100 14.060 to 0.0 82 20.250 30.0 2.157 5.080 0.0116 0.059 Vel = 2.63 82 20.250 8.00 30.06 2 5.290 100 14.119 to 0.0 83 20.250 60.06 2.157 5.290 0.0416 0.220 Vel = 5.27 83 20.250 8.00 30.29 2 2V 6.148 6.540 100 14.339 to 6.148 0.325 84 19.500 90.35 2.157 12.688 0.0887 1.125 Vet = 7.93 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 9 Thermo Fisher - FREEZER Date 4-29-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf 84 19.500 8.00 31.79 2 5.670 100 15.789 to 0.0 85 19.500 122.14 2.157 5.670 0.1549 0.878 Vel= 10.72 85 19.500 8.00 32.66 2 4.500 100 16.667 to 0.0 86 19.500 154.8 2.157 4.500 0.2400 1.080 Vel = 13.59 86 19.500 8.00 33.70 2 5.170 100 17.747 to 0.0 87 19.500 188.5 2.157 5.170 0.3456 1.787 Vel = 16.55 87 19.500 8.00 35.36 2 1 8.783 18.580 100 19.534 to 8.783 0.0 88 19.500 223.86 2.157 27.363 0.4751 12.999 Vel = 19.65 0.0 88 223.86 32.533 K Factor= 39.25 89 10.830 8.00 33.04 2 7.920 100 17.061 to 0.0 90 10.830 33.04 2.157 7.920 0.0138 0.109 Vel = 2.90 90 10.830 8.00 33.15 2 2V 6.148 5.790 100 17.170 to 6.148 0.576 91 9.500 66.19 2.157 11.938 0.0498 0.595 Vel = 5.81 91 9.500 8.00 34.26 2 5.670 100 18.341 to 0.0 92 9.500 100.45 2.157 5.670 0.1079 0.612 Vel = 8.82 92 9.500 8.00 34.83 2 4.500 100 18.953 to 0.0 93 9.500 135.28 2.157 4.500 0.1871 0.842 Vel = 11.88 93 9.500 8.00 35.60 2 5.170 100 19.795 to 0.0 94 9.500 170.88 2.157 5.170 0.2882 1.490 Vel = 15.00 94 9.500 8.00 36.90 2 4.500 100 21.285 to 0.0 95 9.500 207.78 2.157 4.500 0.4138 1.862 Vel = 18.24 95 9.500 8.00 38.49 2 T 8.783 14.080 100 23.147 to 8.783 0.0 96 9.500 246.27 2.157 22.863 0.5668 12.959 Vel = 21.62 96 9.500 0.0 3 10.000 100 36.106 to -4.331 88 19.500 246.27 3.26 10.000 0.0758 0.758 Vel = 9.47 88 19.500 223.86 3 V 4.796 8.040 100 32.533 to T 14.388 19.182 -2.200 88A 24.580 470.13 3.26 27.222 0.2508 6.828 Vel = 18.07 88A 24.580 0.0 4 2V 12.78 46.330 100 37.161 to 12.780 -2.382 97 30.080 470.13 4.26 59.110 0.0682 4.029 Vel = 10.58 97 30.080 0.0 4 2V 12.78 82.000 100 38.808 to Bvca 7.518 39.093 10.520 FRI 5.790 470.13 4.26 T 18.795 121.093 0.0682 8.253 Vel = 10.58 0.0 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 10 Thermo Fisher - FREEZER Date 4-29-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes Node2 EIev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf FRi 470.13 *GRID I IN-RACK L 57.581 K Factor = 61.96 I DEMAND Fl 30.750 -20.35 2 1 12.307 0.670 120 60.955 to 12.307 -0.325 Ri 31.50 -20.35 2.157 12.977 -0.0040 -0.052 Vel = 1.79 Ri 31.50 0.0 2 2J 20.921 135.670 120 60.578 to 20.921 0.0 R32 31.50 -20.35 2.157 156.591 -0.0040 -0.628 Vel = 1.79 R32 31.50 0.0 2 T 12.307 0.670 120 59.950 to 12.307 0.325 Ni 30.750 -20.35 2.157 12.977 -0.0040 -0.052 Vel = 1.79 0.0 Ni -20.35 60.223 K Factor= -2.62 F2 30.750 -20.39 2 T 12.307 0.670 120 60.957 to 12.307 -0.325 R2 31.50 -20.39 2.157 12.977 -0.0040 -0.052 Vel = 1.79 R2 31.50 0.0 2 2J 20.921 135.670 120 60.580 to 20.921 0.0 R33 31.50 -20.39 2.157 156.591 -0.0040 -0.631 Vel = 1.79 R33 31.50 0.0 2 T 12.307 0.670 120 59.949 to 12.307 0.325 N2 30.750 -20.39 2.157 12.977 -0.0041 -0.053 Vel = 1.79 0.0 N2 -20.39 60.221 K Factor= -2.63 F3 30.750 -20.55 2 T 12.307 0.670 120 60.962 to 12.307 -0.325 R3 31.50 -20.55 2.157 12.977 -0.0041 -0.053 Vel = 1.80 R3 31.50 0.0 2 2J 20.921 135.670 120 60.584 to 20.921 0.0 R34 31.50 -20.55 2.157 156.591 -0.0041 -0.640 Vel = 1.80 R34 31.50 0.0 2 T 12.307 0.670 120 59.944 to 12.307 0.325 N3 30.750 -20.55 2.157 12.977 -0.0041 -0.053 Vel = 1.80 0.0 N3 -20.55 60.216 K Factor= -2.65 F4 30.750 -20.88 2 T 12.307 0.670 120 60.973 to 12.307 -0.325 R4 31.500 -20.88 2.157 12.977 -0.0042 -0.054 Vel = 1.83 R4 31.500 0.0 2 2J 20.921 135.670 120 60.594 to 20.921 0.0 R35 31.50 -20.88 2.157 156.591 -0.0042 -0.660 Vel = 1.83 R35 31.50 0.0 2 T 12.307 0.670 120 59.934 to 12.307 0.325 N4 30.750 -20.88 2.157 12.977 -0.0042 -0.054 Vel = 1.83 0.0 N4 -20.88 60.205 K Factor= -2.69 F5 30.750 -21.44 2 T 12.307 0.670 120 60.992 to 12.307 -0.325 R5 31.500 -21.44 2.157 12.977 -0.0044 -0.057 Vel = 1.88 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations Hazen-Williams Western Fire Protection Page 11 Thermo Fisher - FREEZER Date 4-29-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe ******* Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf R5 31.500 0.0 2 - 2J 20.921 135.670 120 60.610 to 20.921 0.0 R36 31.50 -21.44 2.157 156.591 -0.0044 -0.692 Vet = 1.88 R36 31.50 0.0 2 T 12.307 0.670 120 59.918 to 12.307 0.325 N5 30.750 -21.44 2.157 12.977 -0.0045 -0.058 Vet = 1.88 0.0 N5 -21.44 60.185 K Factor= -2.76 F6 30.750 -22.28 2 1 12.307 0.670 120 61.022 to 12.307 -0.325 R6 31.500 -22.28 2.157 12.977 -0.0047 -0.061 Vet = 1.96 R6 31.500 0.0 2 2J 20.921 135.670 120 60.636 to 20.921 0.0 R37 31.50 -22.28 2.157 156.591 -0.0048 -0.744 Vet = 1.96 R37 31.50 0.0 2 T 12.307 0.670 120 59.892 to 12.307 0.325 N6 30.750 -22.28 2.157 12.977 -0.0047 -0.061 Vet = 1.96 0.0 N6 -22.28 60.156 K Factor= -2.87 F7 30.750 -23.43 2 T 12.307 0.670 120 61.065 to 12.307 -0.325 R7 31.500 -23.43 2.157 12.977 -0.0052 -0.068 Vet = 2.06 R7 31.500 0.0 2 2J 20.921 135.670 120 60.672 to 20.921 0.0 R38 31.500 -23.43 2.157 156.591 -0.0052 -0.816 Vet = 2.06 R38 31.500 0.0 2 T 12.307 0.670 120 59.856 to 12.307 0.325 N7 30.750 -23.43 2.157 12.977 -0.0052 -0.068 Vet = 2.06 0.0 N7 -23.43 60.113 K Factor= -3.02 F8 30.750 -24.94 2 T 12.307 0.670 120 61.123 to 12.307 -0.325 R8 31.50 -24.94 2.157 12.977 -0.0059 -0.076 Vet = 2.19 R8 31.50 0.0 2 2J 20.921 135.670 120 60.722 to 20.921 0.0 R39 31.50 -24.94 2.157 156.591 -0.0058 -0.916 Vet = 2.19 R39 31.50 0.0 2 T 12.307 0.670 120 59.806 to 12.307 0.325 N8 30.750 -24.94 2.157 12.977 -0.0059 -0.076 Vet = 2.19 0.0 N8 -24.94 60.055 K Factor = -3.22 F9 30.750 -26.84 2 T 12.307 0.670 120 61.200 to 12.307 -0.325 R9 31.50 -26.84 2.157 12.977 -0.0066 -0.086 Vet = 2.36 R9 31.50 0.0 2 2J 20.921 135.670 120 60.789 to 20.921 0.0 R40 31.50 -26.84 2.157 156.591 -0.0067 -1.049 Vet = 2.36 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 12 Thermo Fisher - FREEZER Date 4-29-2021 Nodel Etevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe ******* Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf R40 31.50 0.0 2 T 12.307 0.670 120 59.740 to 12.307 0.325 N9 30.750 -26.84 2.157 12.977 -0.0068 -0.088 Vel = 2.36 0.0 N9 -26.84 59.977 K Factor= -3.47 F10 30.750 -29.16 2 T 12.307 0.670 120 61.302 to 12.307 -0.325 RiO 31.50 -29.16 2.157 12.977 -0.0079 -0.102 Vet = 2.56 RiO 31.50 0.0 2 2J 20.921 135.670 120 60.875 to 20.921 0.0 R41 31.50 -29.16 2.157 156.591 -0.0078 -1.222 Vet = 2.56 R41 31.50 0.0 2 T 12.307 0.670 120 59.653 to 12.307 0.325 N10 30.750 -29.16 2.157 12.977 -0.0079 -0.102 Vet = 2.56 0.0 NIO -29.16 59.876 KFactor= -3.77 F11 30.750 -31.92 2 T 12.307 0.670 120 61.431 to 12.307 -0.325 R11 31.50 -31.92 2.157 12.977 -0.0092 -0.119 Vet = 2.80 R11 31.50 0.0 2 2J 20.921 135.670 120 60.987 to 20.921 0.0 R42 31.50 -31.92 2.157 156.591 -0.0092 -1.446 Vet = 2.80 R42 31.50 0.0 2 T 12.307 0.670 120 59.541 to 12.307 0.325 Nil 30.750 -31.92 2.157 12.977 -0.0092 -0.120 Vet = r 2.80 0.0 Nil -31.92 59.746 K Factor= -4.13 F12 30.750 -35.16 2 T 12.307 0.670 120 61.596 to 12.307 -0.325 R12 31.50 -35.16 2.157 12.977 -0.0110 -0.143 Vet = 3.09 R12 31.50 0.0 2 2J 20.921 135.670 120 61.128 to 20.921 0.0 R43 31.50 -35.16 2.157 156.591 -0.0110 -1.728 Vet = 3.09 R43 31.50 0.0 2 T 12.307 0.670 120 59.400 to 12.307 0.325 N12 30.750 -35.16 2.157 12.977 -0.0111 -0.144 Vet = 3.09 0.0 N12 -35.16 59.581 K Factor= -4.56 F13 30.750 -38.92 2 T 12.307 0.670 120 61.805 to 12.307 -0.325 R13 31.50 -38.92 2.157 12.977 -0.0133 -0.173 Vet = 3.42 R13 31.50 0.0 2 2J 20.921 135.670 120 61.307 to 20.921 0.0 R44 31.50 -38.92 2.157 156.591 -0.0133 -2.086 Vet = 3.42 R44 31.50 0.0 2 T 12.307 0.670 120 59.221 to 12.307 0.325 N13 30.750 -38.92 2.157 12.977 -0.0133 -0.173 Vet = 3.42 0.0 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 13 Thermo Fisher - FREEZER Date 4-29-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes Node2 EIev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf N13 -38.92 59.373 KFactor= -5.05 F14 30.750 -34.56 2 T 12.307 0.670 120 62.067 to 12.307 -0.325 R14 31.50 -34.56 2.157 12.977 -0.0107 -0.139 Vel = 3.03 R14 31.50 0.0 2 2J 20.921 135.670 120 61.603 to 20.921 0.0 R45 31.50 -34.56 2.157 156.591 -0.0107 -1.675 Vel = 3.03 R45 31.50 0.0 2 T 12.307 0.670 120 59.928 to 12.307 0.325 N14 30.750 -34.56 2.157 12.977 -0.0107 -0.139 Vel = 3.03 0.0 N14 -34.56 60.114 KFactor= -4.46 F15 30.750 -28.46 2 T 12.307 0.670 120 62.380 to 12.307 -0.325 R15 31.50 -28.46 2.157 12.977 -0.0075 -0.097 Vel = 2.50 R15 31.50 0.0 2 2J 20.921 135.670 120 61.958 to 20.921 0.0 R46 31.50 -28.46 2.157 156.591 -0.0075 -1.169 Vel = 2.50 R46 31.50 0.0 2 T 12.307 0.670 120 60.789 to 12.307 0.325 N15 30.750 -28.46 2.157 12.977 -0.0075 -0.097 Vel = 2.50 0.0 N15 -28.46 61.017 KFactor= -3.64 F16 30.750 -22.61 2 T 12.307 0.670 120 62.740 to 12.307 -0.325 R16 31.50 -22.61 2.157 12.977 -0.0049 -0.063 Vel = 1.99 R16 31.50 0.0 2 2J 20.921 135.670 120 62.352 to 20.921 0.0 R47 31.50 -22.61 2.157 156.591 -0.0049 -0.765 Vel = 1.99 R47 31.50 0.0 2 T 12.307 0.670 120 61.587 to 12.307 0.325 N16 30.750 -22.61 2.157 12.977 -0.0049 -0.063 Vel = 1.99 0.0 N16 -22.61 61.849 K Factor = -2.87 F17 30.750 -16.76 2 T 12.307 0.670 120 63.138 to 12.307 -0.325 R17 31.50 -16.76 2.157 12.977 -0.0028 -0.036 Vel = 1.47 R17 31.50 0.0 2 2J 20.921 135.670 120 62.777 to 20.921 0.0 R48 31.50 -16.76 2.157 156.591 -0.0028 -0.439 Vel = 1.47 R48 31.50 0.0 2 1 12.307 0.670 120 62.338 to 12.307 0.325 N17 30.750 -16.76 2.157 12.977 -0.0029 -0.037 Vel = 1.47 0.0 N17 -16.76 62.626 KFactor= -2.12 F18 30.750 -10.14 2 T 12.307 0.670 120 63.566 to 12.307 -0.325 R18 31.50 -10.14 2.157 12.977 -0.0012 -0.015 Vel = 0.89 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 14 Thermo Fisher - FREEZER Date 4-29-2021 Nodel Etevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes Node2 Etev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf R18 31.50 0.0 2 2J 20.921 135.670 120 63.226 to 20.921 0.0 R49 31.50 -10.14 2.157 156.591 -0.0011 -0.173 Vet = 0.89 R49 31.50 0.0 2 T 12.307 0.670 120 63.053 to 12.307 0.325 N18 30.750 -10.14 2.157 12.977 -0.0011 -0.014 Vet = 0.89 0.0 N18 -10.14 63.364 K Factor= -1.27 F19 30.750 5.55 2 T 12.307 0.670 120 64.012 to 12.307 -0.325 R19 31.50 5.55 2.157 12.977 0.0004 0.005 Vet = 0.49 R19 31.50 0.0 2 2J 20.921 135.670 120 63.692 to 20.921 0.0 R50 31.50 5.55 2.157 156.591 0.0004 0.057 Vet = 0.49 R50 31.50 0.0 2 T 12.307 0.670 120 63.749 to 12.307 0.325 N19 30.750 5.55 2.157 12.977 0.0003 0.004 Vet = 0.49 0.0 N19 5.55 64.078 K Factor = 0.69 F20 30.750 13.80 2 1 12.307 0.670 120 64.448 to 12.307 -0.325 R20 31.50 13.8 2.157 12.977 0.0020 0.026 Vet = 1.21 R20 31.50 0.0 2 2J 20.921 135.670 120 64.149 to 20.921 0.0 R51 31.50 13.8 2.157 156.591 0.0020 0.306 Vet = 1.21 R51 31.50 0.0 2 T 12.307 0.670 120 64.455 to 12.307 0.325 N20 30.750 13.8 2.157 12.977 0.0019 0.025 Vet = 1.21 0.0 N20 13.80 64.805 K Factor = 1.71 F21 30.750 19.93 2 T 12.307 0.670 120 64.860 to 12.307 -0.325 R21 31.50 19.93 2.157 12.977 0.0039 0.050 Vet = 1.75 R21 31.50 0.0 2 2J 20.921 135.670 120 64.585 to 20.921 0.0 R52 31.50 19.93 2.157 156.591 0.0039 0.605 Vet = 1.75 R52 31.50 0.0 2 T 12.307 0.670 120 65.190 to 12.307 0.325 N21 30.750 19.93 2.157 12.977 0.0039 0.050 Vet = 1.75 0.0 N21 19.93 65.565 K Factor = 2.46 F22 30.750 25.78 2 T 12.307 0.670 120 65.236 to 12.307 -0.325 R22 31.50 25.78 2.157 12.977 0.0062 0.081 Vet = 2.26 R22 31.50 0.0 2 2J 20.921 135.670 120 64.992 to 20.921 0.0 R53 31.50 25.78 2.157 - 156.591 0.0062 0.974 Vet = 2.26 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 15 Thermo Fisher - FREEZER Date 4-29-2021 Node 1 Elevl K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf R53 31.50 0.0 2 T 12.307 0.670 120 65.966 to 12.307 0.325 N22 30.750 25.78 2.157 12.977 0.0062 0.081 Vel = 2.26 0.0 N22 25.78 66.372 K Factor = 3.16 F23 30.750 31.77 2 T 12.307 0.670 120 65.570 to 12.307 -0.325 R23 31.50 31.77 2.157 12.977 0.0092 0.120 Vel = 2.79 R23 31.50 0.0 2 2J 20.921 135.670 120 65.365 to 20.921 0.0 R54 31.50 31.77 2.157 156.591 0.0092 1.433 Vel = 2.79 R54 31.50 0.0 2 1 12.307 0.670 120 66.798 to 12.307 0.325 N23 30.750 31.77 2.157 12.977 0.0092 0.119 Vel = 2.79 0.0 N23 31.77 67.242 K Factor = 3.87 F24 30.750 38.10 2 T 12.307 0.670 120 65.855 to 12.307 -0.325 R24 31.50 38.1 2.157 12.977 0.0129 0.167 Vel = 3.35 R24 31.50 0.0 2 2J 20.921 135.670 120 65.697 to 20.921 0.0 R55 31.50 38.1 2.157 156.591 0.0128 2.005 Vel = 3.35 R55 31.50 0.0 2 T 12.307 0.670 120 67.702 to 12.307 0.325 N24 30.750 38.1 2.157 12.977 0.0128 0.166 Vel = 3.35 0.0 N24 38.10 68.193 K Factor = 4.61 F25 30.750 41.25 2 T 12.307 0.670 120 66.086 to 12.307 -0.325 R25 31.50 41.25 2.157 12.977 0.0148 0.192 Vel = 3.62 R25 31.50 0.0 2 2J 20.921 135.670 120 65.953 to 20.921 0.0 R56 31.50 41.25 2.157 156.591 0.0148 2.324 Vel = 3.62 R56 31.50 0.0 2 T 12.307 0.670 120 68.277 to 12.307 0.325 N25 30.750 41.25 2.157 12.977 0.0148 0.192 Vel = 3.62 0.0 N25 41.25 68.794 K Factor = 4.97 F26 30.750 41.16 2 T 12.307 0.670 120 66.263 to 12.307 -0.325 R26 31.50 41.16 2.157 12.977 0.0148 0.192 Vel = 3.61 R26 31.50 0.0 2 2J 20.921 135.670 120 66.130 to 20.921 0.0 R57 31.50 41.16 2.157 156.591 0.0148 2.314 Vel = 3.61 R57 31.50 0.0 2 T 12.307 0.670 120 68.444 to 12.307 0.325 N26 30.750 41.16 2.157 12.977 0.0148 0.192 Vel = 3.61 0.0 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 16 Thermo Fisher - FREEZER Date 4-29-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes Node2 EIev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf N26 41.16 68.961 K Factor = 4.96 F27 30.750 41.59 2 T 12.307 0.670 120 66.394 to 12.307 -0.325 R27 31.50 41.59 2.157 12.977 0.0151 0.196 Vel = 3.65 R27 31.50 0.0 2 2J 20.921 135.670 120 66.265 to 20.921 0.0 R58 31.50 41.59 2.157 156.591 0.0151 2.359 Vel = 3.65 R58 31.50 0.0 2 T 12.307 0.670 120 68.624 to 12.307 0.325 N27 30.750 41.59 2.157 12.977 0.0150 0.195 Vel = 3.65 0.0 N27 41.59 69.144 K Factor = 5.00 F28 30.750 43.15 2 T 12.307 0.670 120 66.507 to 12.307 -0.325 R28 31.50 43.15 2.157 12.977 0.0162 0.210 Vel = 3.79 R28 31.50 0.0 2 2J 20.921 129.170 120 66.392 to 20.921 0.0 R59 31.50 43.15 2.157 150.091 0.0161 2.420 Vel = 3.79 R59 31.50 0.0 2 T 12.307 0.670 120 68.812 to 12.307 0.325 N28 30.750 43.15 2.157 12.977 0.0161 0.209 Vel = 3.79 0.0 N28 43.15 69.346 K Factor = 5.18 F29 30.750 45.60 2 T 12.307 0.670 120 66.583 to 12.307 -0.325 R29 31.50 45.6 2.157 12.977 0.0179 0.232 Vel = 4.00 R29 31.50 0.0 2 2J 20.921 120.170 120 66.490 to 20.921 0.0 R60 31.50 45.6 2.157 141.091 0.0179 2.520 Vel = 4.00 R60 31.50 0.0 2 T 12.307 0.670 120 69.010 to 12.307 0.325 N29 30.750 45.6 2.157 12.977 0.0179 0.232 Vel = 4.00 0.0 N29 45.60 69.567 K Factor = 5.47 F30 30.750 48.68 2 T 12.307 0.670 120 66.621 to 12.307 -0.325 R30 31.50 48.68 2.157 12.977 0.0202 0.262 Vel = 4.27 R30 31.50 0.0 2 2J 20.921 111.330 120 66.558 to 20.921 0.0 R61 31.50 48.68 2.157 132.251 0.0202 2.665 Vel = 4.27 R61 31.50 0.0 2 T 12.307 0.670 120 69.223 to 12.307 0.325 N30 30.750 48.68 2.157 12.977 0.0202 0.262 Vel = 4.27 0.0 N30 48.68 69.810 K Factor = 5.83 F31 30.750 52.41 2 T 12.307 0.670 120 66.633 to 12.307 -0.325 R31 31.50 52.41 2.157 12.977 0.0231 0.300 Vel = 4.60 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 17 Thermo Fisher - FREEZER Date 4-29-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes Node2 EIev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf R31 31.50 0.0 2 2J 20.921 102.170 120 66.608 to 20.921 0.0 R62 31.500 52.41 2.157 123.091 0.0231 2.844 Vel = 4.60 R62 31.500 0.0 2 1 12.307 0.670 120 69.452 to 12.307 0.325 N31 30.750 52.41 2.157 12.977 0.0231 0.300 Vel = 4.60 0.0 N31 52.41 70.077 K Factor = 6.26 *FAR Fl 30.750 20.35 4 10.000 120 60.955 to 0.0 F2 30.750 20.35 4.26 10.000 0.0002 0.002 Vel = 0.46 F2 30.750 20.39 4 10.000 120 60.957 to 0.0 F3 30.750 40.74 4.26 10.000 0.0005 0.005 Vel = 0.92 F3 30.750 20.54 4 10.000 120 60.962 to 0.0 F4 30.750 61.28 4.26 10.000 0.0011 0.011 Vel = 1.38 F4 30.750 20.88 4 10.000 120 60.973 to 0.0 F5 30.750 82.16 4.26 10.000 0.0019 0.019 Vel = 1.85 F5 30.750 21.44 4 10.000 120 60.992 to 0.0 F6 30.750 103.6 4.26 10.000 0.0030 0.030 Vel = 2.33 F6 30.750 22.28 4 10.000 120 61.022 to 0.0 F7 30.750 125.88 4.26 10.000 0.0043 0.043 Vel = 2.83 F7 30.750 23.43 4 10.000 120 61.065 to 0.0 F8 30.750 149.31 4.26 10.000 0.0058 0.058 Vel = 3.36 F8 30.750 24.95 4 10.000 120 61.123 to 0.0 F9 30.750 174.26 4.26 10.000 0.0077 0.077 Vel = 3.92 F9 30.750 26.84 4 10.000 120 61.200 to 0.0 F10 30.750 201.1 4.26 10.000 0.0102 0.102 Vel = 4.53 F10 30.750 29.15 4 10.000 120 61.302 to 0.0 Fli 30.750 230.25 4.26 10.000 0.0129 0.129 Vel = 5.18 Fil 30.750 31.92 4 10.000 120 61.431 to 0.0 F12 30.750 262.17 4.26 10.000 0.0165 0.165 Vel = 5.90 F12 30.750 35.16 4 10.000 120 61.596 to 0.0 F13 30.750 297.33 4.26 10.000 0.0209 0.209 Vel = 6.69 F13 30.750 38.92 4 10.000 120 61.805 to 0.0 F14 30.750 336.25 4.26 10.000 0.0262 0.262 Vel = 7.57 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 18 Thermo Fisher - FREEZER Date 4-29-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe ******* Notes ****** Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf F14 30.750 34.55 4 10.000 120 62.067 to 0.0 F15 30.750 370.8 4.26 10.000 0.0313 0.313 Vel = 8.35 F15 30.750 28.46 4 10.000 120 62.380 to 0.0 F16 30.750 399.26 4.26 10.000 0.0360 0.360 Vel = 8.99 F16 30.750 22.62 4 10.000 120 62.740 to 0.0 F17 30.750 421.88 4.26 10.000 0.0398 0.398 Vel = 9.50 F17 30.750 16.76 4 10.000 120 63.138 to 0.0 F18 30.750 438.64 4.26 10.000 0.0428 0.428 Vel = 9.87 F18 30.750 10.14 4 10.000 120 63.566 to 0.0 F19 30.750 448.78 4.26 10.000 0.0446 0.446 Vel = 10.10 F19 30.750 -5.56 4 10.000 120 64.012 to 0.0 F20 30.750 443.22 4.26 10.000 0.0436 0.436 Vel = 9.98 F20 30.750 -13.80 4 10.000 120 64.448 to 0.0 F21 30.750 429.42 4.26 10.000 0.0412 0.412 Vel = 9.67 F21 30.750 -19.92 4 10.000 120 64.860 to 0.0 F22 30.750 409.5 4.26 10.000 0.0376 0.376 Vel = 9.22 F22 30.750 -25.78 4 10.000 120 65.236 to 0.0 F23 30.750 383.72 4.26 10.000 0.0334 0.334 Vel = 8.64 F23 30.750 -31.78 4 10.000 120 65.570 to 0.0 F24 30.750 351.94 4.26 10.000 0.0285 0.285 Vel = 7.92 F24 30.750 -38.10 4 10.000 120 65.855 to 0.0 F25 30.750 313.84 4.26 10.000 0.0231 0.231 Vel = 7.06 F25 30.750 -41.25 4 10.000 120 66.086 to 0.0 F26 30.750 272.59 4.26 10.000 0.0177 0.177 Vel = 6.14 F26 30.750 -41.16 4 10.000 120 66.263 to 0.0 F27 30.750 231.43 4.26 10.000 0.0131 0.131 Vel = 5.21 F27 30.750 -41.59 4 12.460 120 66.394 to 0.0 F28 30.750 189.84 4.26 12.460 0.0091 0.113 Vel = 4.27 F28 30.750 -43.15 4 13.460 120 66.507 to 0.0 F29 30.750 146.69 4.26 13.460 0.0056 0.076 Vel = 3.30 F29 30.750 -45.60 4 13.460 120 66.583 to 0.0 F30 30.750 101.09 4.26 13.460 0.0028 0.038 Vel = 2.28 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 19 Thermo Fisher - FREEZER Date 4-29-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf F30 30.750 -48.68 4 13.460 120 66.621 to 0.0 F31 30.750 52.41 4.26 13.460 0.0009 0.012 Vel = 1.18 0.0 F31 52.41 66.633 K Factor = 6.42 *NEAR Ni 30.750 -20.35 4 10.000 120 60.223 to 0.0 N2 30.750 -20.35 4.26 10.000 -0.0002 -0.002 Vel = 0.46 N2 30.750 -20.39 4 10.000 120 60.221 to 0.0 N3 30.750 -40.74 4.26 10.000 -0.0005 -0.005 Vel = 0.92 N3 30.750 -20.54 4 10.000 120 60.216 to 0.0 N4 30.750 -61.28 4.26 10.000 -0.0011 -0.011 Vel = 1.38 N4 30.750 -20.88 4 10.000 120 60.205 to 0.0 N5 30.750 -82.16 4.26 10.000 -0.0020 -0.020 Vel = 1.85 N5 30.750 -21.44 4 10.000 120 60.185 to 0.0 N6 30.750 -103.6 4.26 10.000 -0.0029 -0.029 Vel = 2.33 N6 30.750 -22.28 4 10.000 120 60.156 to 0.0 N7 30.750 -125.88 4.26 10.000 -0.0043 -0.043 Vel = 2.83 N7 30.750 -23.43 4 10.000 120 60.113 to 0.0 N8 30.750 -149.31 4.26 10.000 -0.0058 -0.058 Vel = 3.36 N8 30.750 -24.95 4 10.000 120 60.055 to 0.0 N9 30.750 -174.26 4.26 10.000 -0.0078 -0.078 Vel = 3.92 N9 30.750 -26.84 4 10.000 120 59.977 to 0.0 N10 30.750 -201.1 4.26 10.000 -0.0101 -0.101 Vel = 4.53 N10 30.750 -29.15 4 10.000 120 59.876 to 0.0 Nil 30.750 -230.25 4.26 10.000 -0.0130 -0.130 Vel = 5.18 Nil 30.750 -31.92 4 10.000 120 59.746 to 0.0 N12 30.750 -262.17 4.26 10.000 -0.0165 -0.165 Vel = 5.90 N12 30.750 -35.16 4 10.000 120 59.581 to 0.0 N13 30.750 -297.33 4.26 10.000 -0.0208 -0.208 Vel = 6.69 N13 30.750 -38.92 4 2.000 120 59.373 to 0.0 N13A 30.750 -336.25 4.26 2.000 -0.0265 -0.053 Vel = 7.57 N13A 30.750 1027.49 4 8.000 120 59.320 to 0.0 N14 30.750 691.24 4.26 8.000 0.0992 0.794 Vel = 15.56 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 20 Thermo Fisher - FREEZER Date 4-29-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf N14 30.750 -34.55 4 10.000 120 60.114 to 0.0 N15 30.750 656.69 4.26 10.000 0.0903 0.903 Vel = 14.78 N15 30.750 -28.46 4 10.000 120 61.017 to 0.0 N16 30.750 628.23 4.26 10.000 0.0832 0.832 Vel = 14.14 N16 30.750 -22.62 4 10.000 120 61.849 to 0.0 N17 30.750 605.61 4.26 10.000 0.0777 0.777 Vel = 13.63 N17 30.750 -16.76 4 10.000 120 62.626 to 0.0 N18 30.750 588.85 4.26 10.000 0.0738 0.738 Vel = 13.25 N18 30.750 -10.13 4 10.000 120 63.364 to 0.0 N19 30.750 578.72 4.26 10.000 0.0714 0.714 Vel = 13.03 N19 30.750 5.54 4 10.000 120 64.078 to 0.0 N20 30.750 584.26 4.26 10.000 0.0727 0.727 Vel = 13.15 N20 30.750 13.81 4 10.000 120 64.805 to 0.0 N21 30.750 598.07 4.26 10.000 0.0760 0.760 Vel = 13.46 N21 30.750 19.93 4 10.000 120 65.565 to 0.0 N22 30.750 618.0 4.26 10.000 0.0807 0.807 Vel = 13.91 N22 30.750 25.78 4 10.000 120 66.372 to 0.0 N23 30.750 643.78 4.26 10.000 0.0870 0.870 Vel = 14.49 N23 30.750 31.77 4 10.000 120 67.242 to 0.0 N24 30.750 675.55 4.26 10.000 0.0951 0.951 Vel = 15.21 N24 30.750 38.10 4 5.000 120 68.193 to 0.0 N24A 30.750 713.65 4.26 5.000 0.1052 0.526 Vel = 16.06 N24A 30.750 0.0 6 5.000 120 68.719 to 0.0 N25 30.750 713.65 6.357 5.000 0.0150 0.075 Vel = 7.21 N25 30.750 41.25 6 10.000 120 68.794 to 0.0 N26 30.750 754.9 6.357 10.000 0.0167 0.167 Vel = 7.63 N26 30.750 41.16 6 10.000 120 68.961 to 0.0 N27 30.750 796.06 6.357 10.000 0.0183 0.183 Vel = 8.05 N27 30.750 41.59 6 10.000 120 69.144 to 0.0 N28 30.750 837.65 6.357 10.000 0.0202 0.202 Vel = 8.47 N28 30.750 43.15 6 10.000 120 69.346 to 0.0 N29 30.750 880.8 6.357 10.000 0.0221 0.221 Vel = 8.90 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 21 Thermo Fisher - FREEZER Date 4-29-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe ******* Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf N29 30.750 45.60 6 -- 10.000 120 69.567 to 0.0 N30 30.750 926.4 6.357 10.000 0.0243 0.243 Vel = 9.36 N30 30.750 48.68 6 10.000 120 69.810 to 0.0 N31 30.750 975.08 6.357 10.000 0.0267 0.267 Vel = 9.86 N31 30.750 52.41 6 31 37.72 19.920 120 70.077 to 37.720 0.0 TOR 30.750 1027.49 6.357 57.640 0.0294 1.695 Vel = 10.39 TOR 30.750 0.0 6 I 12.573 28.750 120 71.772 to 12.573 12.452 BOR 2 1027.49 6.357 41.323 0.0294 1.216 Vel = 10.39 BOR 2 0.0 6 31 37.72 9.000 120 85.440 to 37.720 0.650 UG .500 1027.49 6.357 46.720 0.0294 1.374 Vel = 10.39 0.0 UG 1027.49 87.464 K Factor = 109.87 UG .500 1027.49 8 G 6.326 10.000 140 87.464 to 6.326 1.949 UG1 -4 1027.49 8.27 16.326 0.0061 0.100 Vel = 6.14 UG1 -4 0.0 8. T 43.857 40.000 150 89.513 to 43.857 0.0 UG2 -4 1027.49 7.68 83.857 0.0078 0.650 Vel = 7.12 UG2 -4 0.0 8 T 43.857 389.000 150 90.163 to L 16.29 60.147 0.0 UG3 -4 1027.49 7.68 449.147 0.0078 3.482 Vel = 7.12 UG3 -4 0.0 8 T 55.354 7.000 140 93.645 to 55.354 -3.032 BF1 3 1027.49 8.27 62.354 0.0061 0.383 Vel = 6.14 BF1 3 0.0 8 Zwc 0.0 0.250 120 90.996 to L 13.0 13.000 4.082 * * Fixed Loss = 4.082 BF2 3 1027.49 7.981 13.250 0.0098 0.130 Vel = 6.59 BF2 3 0.0 8 L 20.56 7.000 140 95.208 to 20.560 3.032 UG4 -4 1027.49 8.27 27.560 0.0061 0.169 Vel = 6.14 UG4 -4 0.0 8 T 43.857 17.000 150 98.409 to 43.857 0.0 HOSE -4 1027.49 7.68 60.857 0.0077 0.471 Vel = 7.12 HOSE -4 H500 500.00 8 1.000 150 98.880 to -1.732 TEST 0 1527.49 7.68 1.000 0.0160 0.016 Vel = 10.58 0.0 TEST 1527.49 97.164 K Factor = 154.96 DEMAND ATTEST Computer Programs by Hydratec Inc. Revision: 50.54.4 Western Fire Protection Page 1 Thermo Fisher 2B RACKS-16.8K OH Date 5-3-2021 Hydraulic Design Information Sheet Remote Area #2 Name -(Thermo Fisher 2B RACKS-16.8K OH ) Date - 5-3-2021 Location - 5781 Van Allen Way, Carlsbad, CA 92008 Building - System No. - 3 & 4 Contractor - JR Construction Contract No. - 20-1830-04 Calculated By - WFP Drawing No. - FP-02;FP-09 Construction: (x) Combustible ( ) Non-Combustible Ceiling Height - Occupancy - Warehouse S (x) NFPA 13 ( ) Lt. Haz. Ord.Haz.Gp. ( ) 1 ( ) 2 ( ) 3 ( ) Ex.Haz. Y ( ) NFPA 231 ( ) NFPA 231C ( ) Figure Curve S Other FM Global T Specific Ruling Made By Date H M Area of Sprinkler Operation - 12 HEADS System Type Sprinkler/Nozzle Density - 11 PSI (x) Wet Make TYCO D Area Per Sprinkler - 96 ( ) Dry Model TY7151 E Elevation at Highest Outlet - 31.5 ( ) Deluge Size 3/4" S Hose Allowance - Inside - ( ) Preaction K-Factor 16.8 I Rack Sprinkler Allowance - 447.85 ( ) Other Temp.Rat.1550 G Hose Allowance - Outside - 250 N Note Calculation Flow Required - 1774.32 Press Required - 95.43 TEST Summary C-Factor Used: 120 Overhead 150 Underground W Water Flow Test: Pump Data: Tank or Reservoir: A Date of Test - 5/7/2020 Cap. - T Time of Test - Rated Cap.- Elev.- E Static Press - 131 @ Press - R Residual Press - 108 Elev. - Well Flow - 2700 Proof Flow S Elevation - 0 U P Location - On Site hydrants H61385 & H61391 P L Source of Information - Carlsbad Fire Department Y C Commodity Class Location O Storage Ht. Area Aisle W. M Storage Method: Solid Piled % Palletized % Rack M (x) Single Row ( ) Conven. Pallet ( ) Auto. Storage ( ) Encap. S R (x) Double Row ( ) Slave Pallet ( ) Solid Shelf ( ) Non T A ( ) Mult. Row (x) Open Shelf O C R K Flue Spacing Clearance:Storage to Ceiling A Longitudinal Transverse G E Horizontal Barriers Provided: ter--,ply . vre Western Fire Protection Page 2 Thermo Fisher 2B RACKS-16.8K OH Date 5-3-2021 City Water Supply: Demand: Cl - Static Pressure : 117.9 Dl - Elevation : 8.303 C2 - Residual Pressure: 97.2 D2 - System Flow : 1524.32 C2 - Residual Flow : 2700 D2 - System Pressure : 95.426 Hose ( Demand) : 250 D3 - System Demand :1774.32 Safety Margin : 12.954 150 140 130 P 120 R 110 - D2 C2 E 100 - - 590 -- ___ ____ ______ _______ D3 580 U70 - 7 R6° E5° 40 7Z 30 207 ___________________ 10 • Dl — I I I I I I I I 300 600 900 1200 1500 1800 2100 2400 2700 FLOW (NA 1.85) Computer Programs by Hydratec Inc. Revision: 50.54.4 Fittings Used Summary Western Fire Protection Page 3 Thermo Fisher 213 RACKS-16.8K OH Date 5-3-2021 Fitting Legend Abbrev. Name 1/2 % 1 1% 11/2 2 21/2 3 31/ 4 5 6 8 10 12 14 16 18 20 24 Bvca BFly Vic 705 6 6 7 8 12 14 16 18 19 G NFPA 13 Gate Valve 0 0 0 0 0 1 1 1 1 2 2 3 4 5 6 7 8 10 11 13 H 45' Grvd-Vic Elbow #11 0 0 1 1.5 2 2 3 3 3.5 3.5 4.5 5 6.5 8.5 10 18 20 23 25 30 90' Grvd-Vic Elbow #10 0 0 2 3 4 3.5 6 5 8 7 8.5 10 13 17 20 23 25 33 36 40 J 90'Tee-Branch Gry Vic #20 0 0 4.5 6 8 8.5 10.8 13 17 16 21 25 33 41 50 65 78 88 98 120 L NFPA 13 Long Turn Elbow 0.5 1 2 2 2 3 4 5 5 6 8 9 13 16 18 24 27 30 34 40 T NFPA 139O'FlowthruTee 3 4 5 6 8 10 12 15 17 20 25 30 35 50 60 71 81 91 101 121 V 90' Ell Firelock#O01 0 0 0 0 0 3.5 4.3 5 0 6.8 8.5 10 13 4.5 5.1 0 0 0 0 0 X 90'Tee-BranchFirelock002 0 0 0 0 0 8.5 10.8 13 0 16 21 25 33 9.3 11 0 0 0 0 0 Zwc Watts 709 Fitting generates a Fixed Loss Based on Flow Units Summary Diameter Units Inches Length Units Feet Flow Units US Gallons per Minute Pressure Units Pounds per Square Inch Note: Fitting Legend provides equivalent pipe lengths for fittings types of various diameters. Equivalent lengths shown are standard for actual diameters of Sched 40 pipe and CFactors of 120 except as noted with . The fittings marked with a * show equivalent lengths values supplied by manufacturers based on specific pipe diameters and CFactors and they require no adjustment. All values for fittings not marked with a * will be adjusted in the calculation for CFactors of other than 120 and diameters other than Sched 40 per NFPA. Computer Programs by Hydratec Inc. Revision: 50.54.4 Pressure / Flow Summary - STANDARD Western Fire Protection Page 4 Thermo Fisher 26 RACKS-16.8K OH Date 5-3-2021 Node Elevation K-Fact Pt Pn Flow Density Area Press No. Actual Actual Req. Fl 30.75 47.97 na Ri 31.5 47.65 na R32 31.5 47.76 na Ni 30.75 48.1 na F2 30.75 47.97 na R2 31.5 47.65 na R33 31.5 47.76 na N2 30.75 48.1 na F3 30.75 47.97 na R3 31.5 47.65 na R34 31.5 47.77 na N3 30.75 48.1 na F4 30.75 47.96 na R4 31.5 47.65 na R35 31.5 47.77 na N4 30.75 48.1 na F5 30.75 47.96 na R5 31.5 47.65 na R36 31.5 47.77 na N5 30.75 48.11 na F6 30.75 47.96 na R6 31.5 47.64 na R37 31.5 47.77 na N6 30.75 48.11 na F7 30.75 47.95 na R7 31.5 42.33 na 1 31.5 16.8 27.55 na 88.18 1.0 1 11.0 2 31.5 16.8 26.11 na 85.84 1.0 1 11.0 3 31.5 16.8 25.76 na 85.27 1.0 1 11.0 4 31.5 16.8 25.77 na 85.29 1.0 1 11.0 5 31.5 16.8 26.36 na 86.25 1.0 1 11.0 R38 31.5 44.75 na N7 30.75 48.12 na F8 30.75 48.05 na R8 31.5 42.42 na 6 31.5 16.8 27.61 na 88.28 1.0 1 11.0 7 31.5 16.8 26.17 na 85.94 1.0 1 11.0 8 31.5 16.8 25.83 na 85.38 1.0 1 11.0 9 31.5 16.8 25.84 na 85.4 1.0 1 11.0 10 31.5 16.8 26.42 na 86.36 1.0 1 11.0 R39 31.5 44.87 na N8 30.75 48.25 na F9 30.75 48.48 na R9 31.5 46.99 na 11 31.5 16.8 40.68 na 107.15 1.0 1 11.0 12 31.5 16.8 40.68 na 107.15 1.0 1 11.0 R40 31.5 47.23 na N9 30.75 48.64 na FIO 30.75 49.14 na RiO 31.5 48.83 na R41 31.5 48.9 na N10 30.75 49.23 na Fil 30.75 49.79 na R11 31.5 49.47 na R42 31.5 49.51 na Nil 30.75 49.84 na F12 30.75 50.42 na R12 31.5 50.1 na R43 31.5 50.13 na N12 30.75 50.45 na F13 30.75 51.05 na R13 31.5 50.73 na Computer Programs by Hydratec Inc. Revision: 50.54.4 Flow Summary - Standard Western Fire Protection Page 5 Thermo Fisher 2B RACKS-16.8K OH Date 5-3-2021 Node Elevation K-Fact Pt Pn Flow Density Area Press No. Actual Actual Ran 31.5 50.75 na 30.75 51.07 na 30.75 51.67 na 31.5 51.35 na 31.5 51.38 na 30.75 51.7 na 30.75 52.29 na 31.5 51.96 na 31.5 52.01 na 30.75 52.34 na 30.75 52.89 na 31.5 52.57 na 31.5 52.66 na 30.75 52.99 na 30.75 53.48 na 31.5 53.16 na 31.5 53.31 na 30.75 53.65 na 30.75 54.04 na 31.5 53.74 na 31.5 53.99 na 30.75 54.33 na 30.75 54.59 na 31.5 54.3 na 31.5 54.69 na 30.75 55.04 na 30.75 55.1 na 31.5 54.82 na 31.5 55.42 na 30.75 55.79 na 30.75 55.57 na 31.5 55.32 na 31.5 56.19 na 30.75 56.59 na 30.75 56.0 na 31.5 55.78 na 31.5 57.01 na 30.75 57.44 na 30.75 56.38 na 31.5 56.2 na 31.5 57.9 na 30.75 58.37 na 30.75 56.7 na 31.5 56.57 na 31.5 58.87 na 30.75 59.38 na 30.75 56.96 na 31.5 56.86 na 31.5 59.49 na 30.75 60.03 na 30.75 57.16 na 31.5 57.05 na 31.5 59.67 na 30.75 60.21 na 30.75 57.31 na 31.5 57.2 na 31.5 59.86 na 30.75 60.41 na 30.75 57.44 na 31.5 57.35 na 31.5 60.07 na 30.75 60.63 na Computer Programs by Hydratec Inc. Revision: 50.54.4 Flow Summary - Standard Western Fire Protection Page 6 Thermo Fisher 2B RACKS-16.8K OH Date 5-3-2021 Node Elevation K-Fact Pt Pn Flow Density Area Press No. Actual Actual Req. F29 30.75 57.52 na R29 31.5 57.46 na R60 31.5 60.28 na N29 30.75 60.87 na F30 30.75 57.56 na R30 31.5 57.53 na R61 31.5 60.51 na N30 30.75 61.13 na F31 30.75 57.58 na R31 31.5 57.59 na R62 31.5 60.76 na N31 30.75 61.42 na N24A 30.75 59.95 na TOR 30.75 63.27 na BOR 2.0 77.05 na UG 0.5 79.19 na UG1 -4.0 81.25 na UG2 -4.0 81.96 na UG3 -4.0 89.18 na BF1 3.0 86.95 na BF2 3.0 92.78 na UG4 -4.0 96.16 na HOSE -4.0 97.14 na 250.0 TEST 0.0 95.43 na 21 19.17 8 14.06 na 30.0 1.0 1 14.06 22 19.17 8 14.8 na 30.77 1.0 1 14.06 24 19.17 16.57 na 23 19.17 8 14.39 na 30.35 1.0 1 14.06 25 19.17 8 14.52 na 30.48 1.0 1 14.06 26 19.17 8 15.27 na 31.26 1.0 1 14.06 28 19.17 17.1 na 27 19.17 8 14.85 na 30.83 1.0 1 14.06 29 19.17 8 18.42 na 34.34 1.0 1 14.06 30 19.17 19.04 na 31 19.17 36.36 na 32 9.17 8 15.63 na 31.63 1.0 1 14.06 33 9.17 8 16.44 na 32.44 1.0 1 14.06 35 9.17 18.4 na 34 9.17 8 15.99 na 31.99 1.0 1 14.06 36 9.17 8 16.13 na 32.13 1.0 1 14.06 37 9.17 8 16.97 na 32.95 1.0 1 14.06 39 9.17 18.98 na 38 9.17 8 16.51 na 32.5 1.0 1 14.06 40 9.17 8 20.44 na 36.17 1.0 1 14.06 41 9.17 21.12 na 42 9.17 40.21 na Al 28.5 39.94 na A2 28.5 49.84 na A3 28.5 50.11 na TR 30.08 66.21 na BR 3.0 78.5 na UGS 0.5 79.83 na UG6 -4.0 81.8 na UG7 -4.0 81.94 na The maximum velocity is 21.73 and it occurs in the pipe between nodes F8 and R8 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 7 Thermo Fisher 2B RACKS-16.8K OH Date 5-3-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes Node2 Elev2 Fact Qt Act Eqiv Len Total PfIFt Pf *GRID Fl 30.750 8.04 2 T 12.307 0.670 120 47.967 to 12.307 -0.325 Ri 31.50 8.04 2.157 12.977 0.0008 0.010 Vet = 0.71 Ri 31.50 0.0 2 2J 20.921 135.670 120 47.652 to 20.921 0.0 R32 31.50 8.04 2.157 156.591 0.0007 0.112 Vel = 0.71 R32 31.50 0.0 2 T 12.307 0.670 120 47.764 to 12.307 0.325 Ni 30.750 8.04 2.157 12.977 0.0008 0.010 Vet = 0.71 0.0 NI 8.04 48.099 KFactor= 1.16 F2 30.750 8.06 2 T 12.307 0.670 120 47.967 to 12.307 -0.325 R2 31.50 8.06 2.157 12.977 0.0007 0.009 Vel = 0.71 R2 31.50 0.0 2 2J 20.921 135.670 120 47.651 to 20.921 0.0 R33 31.50 8.06 2.157 156.591 0.0007 0.114 Vel= 0.71 R33 31.50 0.0 2 T 12.307 0.670 120 47.765 to 12.307 0.325 N2 30.750 8.06 2.157 12.977 0.0007 0.009 Vel = 0.71 0.0 N2 8.06 48.099 KFactor= 1.16 F3 30.750 8.12 2 T 12.307 0.670 120 47.966 to 12.307 -0.325 R3 31.50 8.12 2.157 12.977 0.0008 0.010 Vet = 0.71 R3 31.50 0.0 2 2J 20.921 135.670 120 47.651 to 20.921 0.0 R34 31.50 8.12 2.157 156.591 0.0007 0.115 Vel = 0.71 R34 31.50 0.0 2 T 12.307 0.670 120 47.766 to 12.307 0.325 N3 30.750 8.12 2.157 12.977 0.0007 0.009 Vel = 0.71 0.0 N3 8.12 48.100 KFactor= 1.17 F4 30.750 8.25 2 T 12.307 0.670 120 47.964 to 12.307 -0.325 R4 31.500 8.25 2.157 12.977 0.0008 0.010 Vel = 0.72 R4 31.500 0.0 2 2J 20.921 135.670 120 47.649 to 20.921 0.0 R35 31.50 8.25 2.157 156.591 0.0008 0.118 Vel = 0.72 R35 31.50 0.0 2 T 12.307 0.670 120 47.767 to 12.307 0.325 N4 30.750 8.25 2.157 12.977 0.0008 0.010 Vel = 0.72 0.0 N4 8.25 48.102 KFactor= 1.19 F5 30.750 8.48 2 T 12.307 0.670 120 47.960 to 12.307 -0.325 R5 31.500 8.48 2.157 12.977 0.0008 0.011 Vel = 0.74 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 8 Thermo Fisher 2B RACKS-16.8K OH Date 5-3-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf R5 31.500 0.0 2 2J 20.921 135.670 120 47.646 to 20.921 0.0 R36 31.50 8.48 2.157 156.591 0.0008 0.124 Vel = 0.74 R36 31.50 0.0 2 T 12.307 0.670 120 47.770 to 12.307 0.325 N5 30.750 8.48 2.157 12.977 0.0008 0.010 Vel = 0.74 0.0 N5 8.48 48.105 K Factor = 1.22 F6 30.750 8.81 2 T 12.307 0.670 120 47.955 to 12.307 -0.325 R6 31.500 8.81 2.157 12.977 0.0008 0.011 Vel = 0.77 R6 31.500 0.0 2 2J 20.921 135.670 120 47.641 to 20.921 0.0 R37 31.50 8.81 2.157 156.591 0.0009 0.134 Vel = 0.77 R37 31.50 0.0 2 T 12.307 0.670 120 47.775 to 12.307 0.325 N6 30.750 8.81 2.157 12.977 0.0008 0.011 Vel = 0.77 0.0 N6 8.81 48.111 K Factor= 1.27 F7 30.750 -247.25 2 T 12.307 0.670 120 47.947 to 12.307 -0.325 R7 31.500 -247.25 2.157 12.977 -0.4074 -5.287 Vel = 21.71 R7 31.500 0.0 2 J 10.461 25.830 120 42.335 to 10.461 0.0 1 31.500 -247.25 2.157 36.291 -0.4075 -14.788 Vel = 21.71 1 31.500 16.80 88.18 2 8.000 120 27.547 to 0.0 2 31.500 -159.07 2.157 8.000 -0.1801 -1.441 Vel = 13.97 2 31.500 16.80 85.84 2 8.000 120 26.106 to 0.0 3 31.500 -73.23 2.157 8.000 -0.0430 -0.344 Vel = 6.43 3 31.500 16.80 85.27 2 8.000 120 25.762 to 0.0 4 31.500 12.04 2.157 8.000 0.0016 0.013 Vel = 1.06 4 31.500 16.80 85.29 2 8.000 120 25.775 to 0.0 5 31.500 97.33 2.157 8.000 0.0726 0.581 Vel = 8.55 5 31.500 16.80 86.25 2 J 10.461 67.830 120 26.356 to 10.461 0.0 R38 31.500 183.58 2.157 78.291 0.2349 18.389 Vel = 16.12 R38 31.500 0.0 2 T 12.307 0.670 120 44.745 to 12.307 0.325 N7 30.750 183.58 2.157 12.977 0.2349 3.048 Vel = 16.12 0.0 N7 183.58 48.118 K Factor= 26.46 F8 30.750 -247.46 2 T 12.307 0.670 120 48.045 to 12.307 -0.325 R8 31.50 -247.46 2.157 12.977 -0.4081 -5.296 Vel = 21.73 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 9 Thermo Fisher 2B RACKS-16.8K OH Date 5-3-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf R8 31.50 0.0 2 J 10.461 25.830 120 42.424 to 10.461 0.0 6 31.500 -247.46 2.157 36.291 -0.4081 -14.811 Vel = 21.73 6 31.500 16.80 88.28 2 8.000 120 27.613 to 0.0 7 31.500 -159.18 2.157 8.000 -0.1805 -1.444 Vel = 13.98 7 31.500 16.80 85.94 2 8.000 120 26.169 to 0.0 8 31.500 -73.24 2.157 8.000 -0.0429 -0.343 Vel = 6.43 8 31.500 16.80 85.38 2 8.000 120 25.826 to 0.0 9 31.500 12.14 2.157 8.000 0.0015 0.012 Vel = 1.07 9 31.500 16.80 85.39 2 8.000 120 25.838 to 0.0 10 31.500 97.53 2.157 8.000 0.0730 0.584 Vel = 8.56 10 31.500 16.80 86.36 2 J 10.461 67.830 120 26.422 to 10.461 0.0 R39 31.50 183.89 2.157 78.291 0.2356 18.447 Vel = 16.15 R39 31.50 0.0 2 T 12.307 0.670 120 44.869 to 12.307 0.325 N8 30.750 183.89 2.157 12.977 0.2356 3.057 Vel = 16.15 0.0 N8 183.89 48.251 K Factor = 26.47 F9 30.750 -109.20 2 T 12.307 0.670 120 48.484 to 12.307 -0.325 R9 31.50 -109.2 2.157 12.977 -0.0898 -1.165 Vel = 9.59 R9 31.50 0.0 2 J 10.461 59.830 120 46.994 to 10.461 0.0 11 31.500 -109.2 2.157 70.291 -0.0899 -6.316 Vel = 9.59 11 31.500 16.80 107.15 2 8.000 120 40.678 to 0.0 12 31.500 -2.05 2.157 8.000 -0.0001 -0.001 Vel = 0.18 12 31.500 16.80 107.15 2 J 10.461 67.830 120 40.677 to 10.461 0.0 R40 31.50 105.1 2.157 78.291 0.0837 6.553 Vel = 9.23 R40 31.50 0.0 2 T 12.307 0.670 120 47.230 to 12.307 0.325 N9 30.750 105.1 2.157 12.977 0.0838 1.087 Vel = 9.23 0.0 N9 105.10 48.642 KFactor= 15.07 F10 30.750 6.50 2 T 12.307 0.670 120 49.144 to 12.307 -0.325 RiO 31.50 6.5 2.157 12.977 0.0005 0.006 Vel = 0.57 RiO 31.50 0.0 2 2J 20.921 135.670 120 48.825 to 20.921 0.0 R41 31.50 6.5 2.157 156.591 0.0005 0.076 Vel = 0.57 R41 31.50 0.0 2 T 12.307 0.670 120 48.901 to 12.307 0.325 N10 30.750 6.5 2.157 12.977 0.0005 0.006 Vel = 0.57 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 10 Thermo Fisher 2B RACKS-I6.81K OH Date 5-3-2021 Nodel Etevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes Node2 Etev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf 0.0 N10 6.50 49.232 K Factor = 0.93 Eli 30.750 4.68 2 T 12.307 0.670 120 49.789 to 12.307 -0.325 R11 31.50 4.68 2.157 12.977 0.0003 0.004 Vet = 0.41 R11 31.50 0.0 2 2J 20.921 135.670 120 49.468 to 20.921 0.0 R42 31.50 4.68 2.157 156.591 0.0003 0.041 Vet = 0.41 R42 31.50 0.0 2 T 12.307 0.670 120 49.509 to 12.307 0.325 Nil 30.750 4.68 2.157 12.977 0.0002 0.003 Vet = 0.41 0.0 NIl 4.68 49.837 K Factor = 0.66 F12 30.750 3.48 2 T 12.307 0.670 120 50.424 to 12.307 -0.325 R12 31.50 3.48 2.157 12.977 0.0002 0.002 Vet = 0.31 R12 31.50 0.0 2 2J 20.921 135.670 120 50.101 to 20.921 0.0 R43 31.50 3.48 2.157 156.591 0.0002 0.024 Vet = 0.31 R43 31.50 0.0 2 T 12.307 0.670 120 50.125 to 12.307 0.325 N12 30.750 3.48 2.157 12.977 0.0002 0.002 Vet = 0.31 0.0 N12 3.48 50.452 K Factor = 0.49 F13 30.750 3.10 2 T 12.307 0.670 120 51.052 to 12.307 -0.325 R13 31.50 3.1 2.157 12.977 0.0001 0.001 Vet = 0.27 R13 31.50 0.0 2 2J 20.921 135.670 120 50.728 to 20.921 0.0 R44 31.50 3.1 2.157 156.591 0.0001 0.020 Vet = 0.27 R44 31.50 0.0 2 T 12.307 0.670 120 50.748 to 12.307 0.325 N13 30.750 3.1 2.157 12.977 0.0001 0.001 Vet = 0.27 0.0 N13 3.10 51.074 K Factor = 0.43 F14 30.750 3.65 2 T 12.307 0.670 120 51.672 to 12.307 -0.325 R14 31.50 3.65 2.157 12.977 0.0002 0.003 Vet = 0.32 R14 31.50 0.0 2 2J 20.921 135.670 120 51.350 to 20.921 0.0 R45 31.50 3.65 2.157 156.591 0.0002 0.026 Vet = 0.32 R45 31.50 0.0 2 T 12.307 0.670 120 51.376 to 12.307 0.325 N14 30.750 3.65 2.157 12.977 0.0002 0.002 Vet = 0.32 0.0 N14 3.65 51.703 K Factor = 0.51 F15 30.750 4.98 2 T 12.307 0.670 120 52.285 to 12.307 -0.325 R15 31.50 4.98 2.157 12.977 0.0003 0.004 Vet = 0.44 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 11 Thermo Fisher 2B RACKS-16.8K OH Date 5-3-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe ******* Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf R15 31.50 0.0 2 2,11 20.921 135.670 120 51.964 to 20.921 0.0 R46 31.50 4.98 2.157 156.591 0.0003 0.047 Vel = 0.44 R46 31.50 0.0 2 T 12.307 0.670 120 52.011 to 12.307 0.325 N15 30.750 4.98 2.157 12.977 0.0002 0.003 Vel = 0.44 0.0 N15 4.98 52.339 K Factor = 0.69 F16 30.750 6.90 2 1 12.307 0.670 120 52.888 to 12.307 -0.325 R16 31.50 6.9 2.157 12.977 0.0005 0.007 Vel = 0.61 R16 31.50 0.0 2 2J 20.921 135.670 120 52.570 to 20.921 0.0 R47 31.50 6.9 2.157 156.591 0.0005 0.085 Vel = 0.61 R47 31.50 0.0 2 T 12.307 0.670 120 52.655 to 12.307 0.325 N16 30.750 6.9 2.157 12.977 0.0005 0.007 Vel = 0.61 0.0 N16 6.90 52.987 K Factor= 0.95 F17 30.750 9.35 2 1 12.307 0.670 120 53.476 to 12.307 -0.325 R17 31.50 9.35 2.157 12.977 0.0009 0.012 Vel = 0.82 R17 31.50 0.0 2 2J 20.921 135.670 120 53.163 to 20.921 0.0 R48 31.50 9.35 2.157 156.591 0.0010 0.149 Vel = 0.82 R48 31.50 0.0 2 1 12.307 0.670 120 53.312 to 12.307 0.325 N17 30.750 9.35 2.157 12.977 0.0010 0.013 Vel = 0.82 0.0 N17 9.35 53.650 K Factor= 1.28 F18 30.750 12.30 2 T 12.307 0.670 120 54.044 to 12.307 -0.325 R18 31.50 12.3 2.157 12.977 0.0016 0.021 Vel = 1.08 R18 31.50 0.0 2 2J 20.921 135.670 120 53.740 to 20.921 0.0 R49 31.50 12.3 2.157 156.591 0.0016 0.248 Vel = 1.08 R49 31.50 0.0 2 T 12.307 0.670 120 53.988 to 12.307 0.325 N18 30.750 12.3 2.157 12.977 0.0015 0.020 Vel = 1.08 0.0 N18 12.30 54.333 KFactor= 1.67 F19 30.750 15.75 2 T 12.307 0.670 120 54.588 to 12.307 -0.325 R19 31.50 15.75 2.157 12.977 0.0025 0.033 Vel = 1.38 R19 31.50 0.0 2 2J 20.921 135.670 120 54.296 to 20.921 0.0 R50 31.50 15.75 2.157 156.591 0.0025 0.391 Vel = 1.38 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 12 Thermo Fisher 2B RACKS-16.8K OH Date 5-3-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe ******* Notes Node2 EIev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf R50 31.50 0.0 2 T 12.307 0.670 120 54.687 to 12.307 0.325 N19 30.750 15.75 2.157 12.977 0.0025 0.032 Vel = 1.38 0.0 N19 15.75 55.044 KFactor= 2.12 F20 30.750 19.72 2 T 12.307 0.670 120 55.100 to 12.307 -0.325 R20 31.50 19.72 2.157 12.977 0.0038 0.049 Vel = 1.73 R20 31.50 0.0 2 2J 20.921 135.670 120 54.824 to 20.921 0.0 R51 31.50 19.72 2.157 156.591 0.0038 0.594 Vel = 1.73 R51 31.50 0.0 2 1 12.307 0.670 120 55.418 to 12.307 0.325 N20 30.750 19.72 2.157 12.977 0.0038 0.049 Vel = 1.73 0.0 N20 19.72 55.792 K Factor = 2.64 F21 30.750 24.22 2 T 12.307 0.670 120 55.574 to 12.307 -0.325 R21 31.50 24.22 2.157 12.977 0.0056 0.073 Vel = 2.13 R21 31.50 0.0 2 2J 20.921 135.670 120 55.322 to 20.921 0.0 R52 31.50 24.22 2.157 156.591 0.0055 0.867 Vel = 2.13 R52 31.50 0.0 2 T 12.307 0.670 120 56.189 to 12.307 0.325 N21 30.750 24.22 2.157 12.977 0.0055 0.072 Vel = 2.13 0.0 N21 24.22 56.586 K Factor = 3.22 F22 30.750 29.26 2 T 12.307 0.670 120 56.004 to 12.307 -0.325 R22 31.50 29.26 2.157 12.977 0.0079 0.102 Vel = 2.57 R22 31.50 0.0 2 2J 20.921 135.670 120 55.781 to 20.921 0.0 R53 31.50 29.26 2.157 156.591 0.0079 1.231 Vel = 2.57 R53 31.50 0.0 2 T 12.307 0.670 120 57.012 to 12.307 0.325 N22 30.750 29.26 2.157 12.977 0.0079 0.102 Vel = 2.57 0.0 N22 29.26 57.439 K Factor = 3.86 F23 30.750 34.86 2 T 12.307 0.670 120 56.382 to 12.307 -0.325 R23 31.50 34.86 2.157 12.977 0.0109 0.141 Vel = 3.06 R23 31.50 0.0 2 2J 20.921 135.670 120 56.198 to 20.921 0.0 R54 31.50 34.86 2.157 156.591 0.0109 1.702 Vet = 3.06 R54 31.50 0.0 2 T 12.307 0.670 120 57.900 to 12.307 0.325 N23 30.750 34.86 2.157 12.977 0.0109 0.141 Vet = 3.06 0.0 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 13 Thermo Fisher 2B RACKS-16.8K OH Date 5-3-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf N23 34.86 58.366 K Factor = 4.56 F24 30.750 41.03 2 T 12.307 0.670 120 56.703 to 12.307 -0.325 R24 31.50 41.03 2.157 12.977 0.0147 0.191 Vet = 3.60 R24 31.50 0.0 2 2J 20.921 135.670 120 56.569 to 20.921 0.0 R55 31.50 41.03 2.157 156.591 0.0147 2.300 Vet = 3.60 R55 31.50 0.0 2 T 12.307 0.670 120 58.869 to 12.307 0.325 N24 30.750 41.03 2.157 12.977 0.0147 0.191 Vet = 3.60 0.0 N24 41.03 59.385 K Factor = 5.32 F25 30.750 44.14 2 T 12.307 0.670 120 56.962 to 12.307 -0.325 R25 31.50 44.14 2.157 12.977 0.0168 0.218 Vet = 3.88 R25 31.50 0.0 2 2J 20.921 135.670 120 56.855 to 20.921 0.0 R56 31.50 44.14 2.157 156.591 0.0168 2.633 Vet = 3.88 R56 31.50 0.0 2 T 12.307 0.670 120 59.488 to 12.307 0.325 N25 30.750 44.14 2.157 12.977 0.0168 0.218 Vet = 3.88 0.0 N25 44.14 60.031 K Factor = 5.70 F26 30.750 43.98 2 1 12.307 0.670 120 57.161 to 12.307 -0.325 R26 31.50 43.98 2.157 12.977 0.0167 0.217 Vet = 3.86 R26 31.50 0.0 2 2J 20.921 135.670 120 57.053 to 20.921 0.0 R57 31.50 43.98 2.157 156.591 0.0167 2.616 Vet = 3.86 R57 31.50 0.0 2 T 12.307 0.670 120 59.669 to 12.307 0.325 N26 30.750 43.98 2.157 12.977 0.0166 0.216 Vet = 3.86 0.0 N26 43.98 60.210 K Factor = 5.67 F27 30.750 44.38 2 T 12.307 0.670 120 57.308 to 12.307 -0.325 R27 31.50 44.38 2.157 12.977 0.0170 0.221 Vet = 3.90 R27 31.50 0.0 2 2J 20.921 135.670 120 57.204 to 20.921 0.0 R58 31.50 44.38 2.157 156.591 0.0170 2.660 Vet = 3.90 R58 31.50 0.0 2 T 12.307 0.670 120 59.864 to 12.307 0.325 N27 30.750 44.38 2.157 12.977 0.0170 0.220 Vet = 3.90 0.0 N27 44.38 60.409 K Factor = 5.71 F28 30.750 45.97 2 T 12.307 0.670 120 57.435 to 12.307 -0.325 R28 31.50 45.97 2.157 12.977 0.0182 0.236 Vet = 4.04 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 14 Thermo Fisher 2B RACKS-16.8K OH Date 5-3-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf R28 31.50 0.0 2 2J 20.921 129.170 120 57.346 to 20.921 0.0 R59 31.50 45.97 2.157 150.091 0.0181 2.721 Vel = 4.04 R59 31.50 0.0 2 T 12.307 0.670 120 60.067 to 12.307 0.325 N28 30.750 45.97 2.157 12.977 0.0181 0.235 Vel = 4.04 0.0 N28 45.97 60.627 K Factor = 5.90 F29 30.750 48.53 2 1 12.307 0.670 120 57.520 to 12.307 -0.325 R29 31.50 48.53 2.157 12.977 0.0200 0.260 Vel = 4.26 R29 31.50 0.0 2 2J 20.921 120.170 120 57.455 to 20.921 0.0 R60 31.50 48.53 2.157 141.091 0.0200 2.827 Vel = 4.26 R60 31.50 0.0 2 T 12.307 0.670 120 60.282 to 12.307 0.325 N29 30.750 48.53 2.157 12.977 0.0200 0.260 Vel = 4.26 0.0 N29 48.53 60.867 K Factor = 6.22 F30 30.750 51.73 2 T 12.307 0.670 120 57.563 to 12.307 -0.325 R30 31.50 51.73 2.157 12.977 0.0225 0.292 Vel = 4.54 R30 31.50 0.0 2 2J 20.921 111.330 120 57.530 to 20.921 0.0 R61 31.50 51.73 2.157 132.251 0.0226 2.984 Vel = 4.54 R61 31.50 0.0 2 T 12.307 0.670 120 60.514 to 12.307 0.325 N30 30.750 51.73 2.157 12.977 0.0225 0.292 Vel = 4.54 0.0 N30 51.73 61.131 K Factor = 6.62 F31 30.750 55.64 2 T 12.307 0.670 120 57.575 to 12.307 -0.325 R31 31.50 55.64 2.157 12.977 0.0258 0.335 Vel = 4.89 R31 31.50 0.0 2 2J 20.921 102.170 120 57.585 to 20.921 0.0 R62 31.500 55.64 2.157 123.091 0.0258 3.177 Vel = 4.89 R62 31.500 0.0 2 1 12.307 0.670 120 60.762 to 12.307 0.325 N31 30.750 55.64 2.157 12.977 0.0258 0.335 Vel = 4.89 0.0 N31 55.64 61.422 K Factor = 7.10 *FAR Fl 30.750 -8.04 4 10.000 120 47.967 to 0.0 F2 30.750 -8.04 4.26 10.000 0 0.0 Vel = 0.18 F2 30.750 -8.07 4 10.000 120 47.967 to 0.0 F3 30.750 -16.11 4.26 10.000 -0.0001 -0.001 Vel = 0.36 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 15 Thermo Fisher 2B RACKS-16.8K OH Date 5-3-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe ******* Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf F3 30.750 -8.12 4 10.000 120 47.966 to 0.0 F4 30.750 -24.23 4.26 10.000 -0.0002 -0.002 Vet = 0.55 F4 30.750 -8.25 4 10.000 120 47.964 to 0.0 F5 30.750 -32.48 4.26 10.000 -0.0004 -0.004 Vel = 0.73 F5 30.750 -8.48 4 10.000 120 47.960 to 0.0 F6 30.750 -40.96 4.26 10.000 -0.0005 -0.005 Vet = 0.92 F6 30.750 -8.81 4 10.000 120 47.955 to 0.0 F7 30.750 -49.77 4.26 10.000 -0.0008 -0.008 Vet = 1.12 F7 30.750 247.25 4 10.000 120 47.947 to 0.0 F8 30.750 197.48 4.26 10.000 0.0098 0.098 Vet = 4.45 F8 30.750 247.46 4 10.000 120 48.045 to 0.0 F9 30.750 444.94 4.26 10.000 0.0439 0.439 Vet = 10.02 F9 30.750 109.20 4 10.000 120 48.484 to 0.0 FIO 30.750 554.14 4.26 10.000 0.0660 0.660 Vet = 12.47 F10 30.750 -6.50 4 10.000 120 49.144 to 0.0 Fil 30.750 547.64 4.26 10.000 0.0645 0.645 Vet = 12.33 Fil 30.750 -4.67 4 10.000 120 49.789 to 0.0 F12 30.750 542.97 4.26 10.000 0.0635 0.635 Vel = 12.22 F12 30.750 -3.48 4 10.000 120 50.424 to 0.0 F13 30.750 539.49 4.26 10.000 0.0628 0.628 Vet = 12.14 F13 30.750 -3.11 4 10.000 120 51.052 to 0.0 F14 30.750 536.38 4.26 10.000 0.0620 0.620 Vet = 12.07 F14 30.750 -3.65 4 10.000 120 51.672 to 0.0 F15 30.750 532.73 4.26 10.000 0.0613 0.613 Vet = 11.99 F15 30.750 -4.97 4 10.000 120 52.285 to 0.0 F16 30.750 527.76 4.26 10.000 0.0603 0.603 Vet = 11.88 F16 30.750 -6.90 4 10.000 120 52.888 to 0.0 F17 30.750 520.86 4.26 10.000 0.0588 0.588 Vet = 11.72 F17 30.750 -9.35 4 10.000 120 53.476 to 0.0 F18 30.750 511.51 4.26 10.000 0.0568 0.568 Vet = 11.51 F18 30.750 -12.30 4 10.000 120 54.044 to 0.0 F19 30.750 499.21 4.26 10.000 0.0544 0.544 Vet = 11.24 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 16 Thermo Fisher 2B RACKS-16.8K OH Date 5-3-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe ******* Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf F19 30.750 -15.75 4 10.000 120 54.588 to 0.0 F20 30.750 483.46 4.26 10.000 0.0512 0.512 Vel = 10.88 F20 30.750 -19.72 4 10.000 120 55.100 to 0.0 F21 30.750 463.74 4.26 10.000 0.0474 0.474 Vel = 10.44 F21 30.750 -24.22 4 10.000 120 55.574 to 0.0 F22 30.750 439.52 4.26 10.000 0.0430 0.430 Vel = 9.89 F22 30.750 -29.26 4 10.000 120 56.004 to 0.0 F23 30.750 410.26 4.26 10.000 0.0378 0.378 Vel = 9.23 F23 30.750 -34.86 4 10.000 120 56.382 to 0.0 - F24 30.750 375.4 4.26 10.000 0.0321 0.321 Vel = 8.45 F24 30.750 -41.03 4 10.000 120 56.703 to 0.0 F25 30.750 334.37 4.26 10.000 0.0259 0.259 Vel = 7.53 F25 30.750 -44.14 4 10.000 120 56.962 to 0.0 F26 30.750 290.23 4.26 10.000 0.0199 0.199 Vel = 6.53 F26 30.750 -43.98 4 10.000 120 57.161 to 0.0 F27 30.750 246.25 4.26 10.000 0.0147 0.147 Vel = 5.54 F27 30.750 -44.38 4 12.460 120 57.308 to 0.0 F28 30.750 201.87 4.26 12.460 0.0102 0.127 Vel = 4.54 F28 30.750 -45.97 4 13.460 120 57.435 to 0.0 F29 30.750 155.9 4.26 13.460 0.0063 0.085 Vel = 3.51 F29 30.750 -48.53 4 13.460 120 57.520 to 0.0 F30 30.750 107.37 4.26 13.460 0.0032 0.043 Vel = 2.42 F30 30.750 -51.73 4 13.460 120 57.563 to 0.0 F31 30.750 55.64 4.26 13.460 0.0009 0.012 Vel = 1.25 0.0 F31 55.64 57.575 K Factor= 7.33 *NEAR Ni 30.750 8.04 4 10.000 120 48.099 to 0.0 N2 30.750 8.04 4.26 10.000 0 0.0 Vel = 0.18 N2 30.750 8.07 4 10.000 120 48.099 to 0.0 N3 30.750 16.11 4.26 10.000 0.0001 0.001 Vel = 0.36 N3 30.750 8.12 4 10.000 120 48.100 to 0.0 N4 30.750 24.23 4.26 10.000 0.0002 0.002 Vel = 0.55 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 17 Thermo Fisher 28 RACKS-16.8K OH Date 5-3-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe ******* Notes Node2 EIev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf N4 30.750 8.25 4 10.000 120 48.102 to 0.0 N5 30.750 32.48 4.26 10.000 0.0003 0.003 Vel = 0.73 N5 30.750 8.48 4 10.000 120 48.105 to 0.0 N6 30.750 40.96 4.26 10.000 0.0006 0.006 Vel = 0.92 N6 30.750 8.81 4 10.000 120 48.111 to 0.0 N7 30.750 49.77 4.26 10.000 0.0007 0.007 Vel = 1.12 N7 30.750 183.57 4 10.000 120 48.118 to 0.0 N8 30.750 233.34 4.26 10.000 0.0133 0.133 Vel = 5.25 N8 30.750 183.89 4 10.000 120 48.251 to 0.0 N9 30.750 417.23 4.26 10.000 0.0391 0.391 Vel = 9.39 N9 30.750 105.10 4 10.000 120 48.642 to 0.0 N10 30.750 522.33 4.26 10.000 0.0590 0.590 Vel = 11.76 N10 30.750 6.50 4 10.000 120 49.232 to 0.0 Nil 30.750 528.83 4.26 10.000 0.0605 0.605 Vel = 11.90 Nil 30.750 4.67 4 10.000 120 49.837 to 0.0 N12 30.750 533.5 4.26 10.000 0.0615 0.615 Vel = 12.01 N12 30.750 3.48 4 10.000 120 50.452 to 0.0 N13 30.750 536.98 4.26 10.000 0.0622 0.622 Vel = 12.09 N13 30.750 3.11 4 10.000 120 51.074 to 0.0 N14 30.750 540.09 4.26 10.000 0.0629 0.629 Vel = 12.16 N14 30.750 3.65 4 10.000 120 51.703 to 0.0 N15 30.750 543.74 4.26 10.000 0.0636 0.636 Vel = 12.24 N15 30.750 4.97 4 10.000 120 52.339 to 0.0 N16 30.750 548.71 4.26 10.000 0.0648 0.648 Vel = 12.35 N16 30.750 6.91 4 10.000 120 52.987 to 0.0 N17 30.750 555.62 4.26 10.000 0.0663 0.663 Vel = 12.51 N17 30.750 9.34 4 10.000 120 53.650 to 0.0 N18 30.750 564.96 4.26 10.000 0.0683 0.683 Vel = 12.72 N18 30.750 12.30 4 10.000 120 54.333 to 0.0 N19 30.750 577.26 4.26 10.000 0.0711 0.711 Vel = 12.99 N19 30.750 15.75 4 10.000 120 55.044 to 0.0 N20 30.750 593.01 4.26 10.000 0.0748 0.748 Vel = 13.35 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 18 Thermo Fisher 2B RACKS-16.8K OH Date 5-3-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf N20 30.750 19.72 4 10.000 120 55.792 to 0.0 N21 30.750 612.73 4.26 10.000 0.0794 0.794 Vel = 13.79 N21 30.750 24.22 4 10.000 120 56.586 to 0.0 N22 30.750 636.95 4.26 10.000 0.0853 0.853 Vel = 14.34 N22 30.750 29.26 4 10.000 120 57.439 to 0.0 N23 30.750 666.21 4.26 10.000 0.0927 0.927 Vel = 15.00 N23 30.750 34.86 4 10.000 120 58.366 to 0.0 N24 30.750 701.07 4.26 10.000 0.1019 1.019 Vel = 15.78 N24 30.750 41.03 4 5.000 120 59.385 to 0.0 N24A 30.750 742.1 4.26 5.000 0.1132 0.566 Vel = 16.70 N24A 30.750 0.0 6 5.000 120 59.951 to 0.0 N25 30.750 742.1 6.357 5.000 0.0160 0.080 Vel = 7.50 N25 30.750 44.14 6 10.000 120 60.031 to 0.0 N26 30.750 786.24 6.357 10.000 0.0179 0.179 Vel = 7.95 N26 30.750 43.98 6 10.000 120 60.210 to 0.0 N27 30.750 830.22 6.357 10.000 0.0199 0.199 Vel = 8.39 N27 30.750 44.38 6 10.000 120 60.409 to 0.0 N28 30.750 874.6 6.357 10.000 0.0218 0.218 Vel = 8.84 N28 30.750 45.97 6 10.000 120 60.627 to 0.0 N29 30.750 920.57 6.357 10.000 0.0240 0.240 Vel = 9.31 N29 30.750 48.53 6 10.000 120 60.867 to 0.0 N30 30.750 969.1 6.357 10.000 0.0264 0.264 Vel = 9.80 N30 30.750 51.73 6 10.000 120 61.131 to 0.0 N31 30.750 1020.83 6.357 10.000 0.0291 0.291 Vel = 10.32 N31 30.750 55.64 6 31 37.72 19.920 120 61.422 to 37.720 0.0 TOR 30.750 1076.47 6.357 57.640 0.0321 1.848 Vel = 10.88 TOR 30.750 0.0 6 I 12.573 28.750 120 63.270 to 12.573 12.452 BOR 2 1076.47 6.357 41.323 0.0321 1.325 Vel = 10.88 BOR 2 0.0 6 31 37.72 9.000 120 77.047 to 37.720 0.650 =DEMAND UG .500 1076.47 6.357 46.720 0.0320 1.497 Vel = 10.88 0.0 UG 1076.47 79.194 K Factor = 120.96 UG .500 1076.47 8 G 6.326 10.000 140 79.194 to 6.326 1.949 UGI -4 1076.47 8.27 16.326 0.0067 0.109 Vel = 6.43 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 19 Thermo Fisher 2B RACKS-16.8K OH Date 5-3-2021 Nodel Elevi K Qa Nom Fitting Pipe cFact Pt to or Ftngs Pe ******* Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf UG1 4 0.0 8 T 43.857 40.000 150 81.252 to 43.857 0.0 UG2 -4 1076.47 7.68 83.857 0.0085 0.709 Vel = 7.46 UG2 -4 447.85 8 1 43.857 389.000 150 81.961 to L 16.29 60.147 0.0 UG3 -4 1524.32 7.68 449.147 0.0161 7.223 Vel = 10.56 UG3 -4 0.0 8 T 55.354 7.000 140 89.184 OHSYS#3 to 55.354 -3.032 + IN-RACK BF1 3 1524.32 8.27 62.354 0.0127 0.795 Vet = 9.10 DEMAND BFI 3 0.0 8 Zwc 0.0 0.250 120 86.947 to L 13.0 13.000 5.561 * * Fixed Loss = 5.561 BF2 3 1524.32 7.981 13.250 0.0202 0.267 Vet = 9.78 BF2 3 0.0 8 L 20.56 7.000 140 92.775 to 20.560 3.032 UG4 -4 1524.32 8.27 27.560 0.0127 0.351 Vet = 9.10 UG4 -4 0.0 8 T 43.857 17.000 150 96.158 to 43.857 0.0 HOSE -4 1524.32 7.68 60.857 0.0161 0.979 Vet = 10.56 HOSE -4 H250 250.00 8 1.000 150 97.137 to -1.732 TEST 0 1774.32 7.68 1.000 0.0210 0.021 Vet = 12.29 0.0 DEMAND TEST 1774.32 95.426 K Factor = 181.63 AT TEST *IN RACK 21 19.170 8.00 30.00 1 2.670 120 14.060 to 0.0 22 19.170 30.0 1.049 2.670 0.2757 0.736 Vel= 11.14 22 19.170 8.00 30.77 1.25 T 6.0 0.630 120 14.796 to 6.000 0.0 24 19.170 60.77 1.38 6.630 0.2674 1.773 Vel= 13.04 0.0 24 60.77 16.569 KFactor= 14.93 23 19.170 8.00 30.34 1 T 5.0 2.750 120 14.388 to 5.000 0.0 24 19.170 30.34 1.049 7.750 0.2814 2.181 Vet = 11.26 0.0 24 30.34 16.569 K Factor= 7.45 25 19.170 8.00 30.48 1 2.670 120 14.515 to 0.0 26 19.170 30.48 1.049 2.670 0.2839 0.758 Vel = 11.31 26 19.170 8.00 31.26 1.25 T 6.0 0.630 120 15.273 to 6.000 0.0 28 19.170 61.74 1.38 6.630 0.2754 1.826 Vel = 13.24 0.0 28 61.74 17.099 KFactor= 14.93 27 19.170 8.00 30.83 1 T 5.0 2.750 120 14.853 to 5.000 0.0 28 19.170 30.83 1.049 7.750 0.2898 2.246 Vet = 11.44 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 20 Thermo Fisher 2B RACKS-16.8K OH Date 5-3-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes ****** Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf 0.0 28 30.83 17.099 K Factor = 7.46 29 19.170 8.00 34.34 1.25 T 6.0 0.630 120 18.422 to 6.000 0.0 30 19.170 34.34 1.38 6.630 0.0931 0.617 Vel = 7.37 0.0 30 34.34 19.039 K Factor= 7.87 24 19.170 91.11 2 8.250 120 16.569 to 0.0 28 19.170 91.11 2.157 8.250 0.0642 0.530 Vel = 8.00 28 19.170 92.58 2 8.250 120 17.099 to 0.0 30 19.170 183.69 2.157 8.250 0.2352 1.940 Vel= 16.13 30 19.170 34.34 2 T 12.307 41.330 120 19.039 to 12.307 0.0 31 19.170 218.03 2.157 53.637 0.3229 17.319 Vel = 19.14 0.0 31 218.03 36.358 K Factor= 36.16 *28 BOTTOM 32 9.17 8.00 31.63 1 2.670 120 15.631 to 0.0 33 9.17 31.63 1.049 2.670 0.3037 0.811 Vel = 11.74 33 9.17 8.00 32.44 1.25 T 6.0 0.630 120 16.442 to 6.000 0.0 35 9.17 64.07 1.38 6.630 0.2949 1.955 Vel = 13.74 0.0 35 64.07 18.397 KFactor= 14.94 34 9.17 8.00 31.99 1 T 5.0 2.750 120 15.992 to 5.000 0.0 35 9.17 31.99 1.049 7.750 0.3103 2.405 Vel = 11.88 0.0 35 31.99 18.397 K Factor = 7.46 36 9.17 8.00 32.13 1 2.670 120 16.133 to 0.0 37 9.17 32.13 1.049 2.670 0.3131 0.836 Vel = 11.93 37 9.17 8.00 32.96 1.25 T 6.0 0.630 120 16.969 to 6.000 0.0 39 9.17 65.09 1.38 6.630 0.3036 2.013 Vel = 13.96 0.0 39 65.09 18.982 K Factor= 14.94 38 9.17 8.00 32.50 1 T 5.0 2.750 120 16.506 to 5.000 0.0 39 9.17 32.5 1.049 7.750 0.3195 2.476 Vel = 12.06 0.0 39 32.50 18.982 K Factor = 7.46 40 9.17 8.00 36.17 1.25 T 6.0 0.630 120 20.442 to 6.000 0.0 41 9.17 36.17 1.38 6.630 0.1024 0.679 Vel = 7.76 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 21 Thermo Fisher 2B RACKS-16.8K OH Date 5-3-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf 0.0 41 36.17 21.121 KFactor= 7.87 35 9.17 96.06 2 8.250 120 18.397 to 0.0 39 9.17 96.06 2.157 8.250 0.0709 0.585 Vel = 8.43 39 9.17 97.59 2 8.250 120 18.982 to 0.0 41 9.17 193.65 2.157 8.250 0.2593 2.139 Vel = 17.00 41 9.17 36.17 2 T 12.307 41.330 120 21.121 to 12.307 0.0 42 9.17 229.82 2.157 53.637 0.3559 19.091 Vel = 20.18 0.0 42 229.82 40.212 K Factor = 36.24 42 9.17 229.82 3 10.000 120 40.212 to -4.331 31 19.170 229.82 3.26 10.000 0.0477 0.477 Vel = 8.83 31 19.170 218.03 3 2V 13.44 13.000 120 36.358 to T 20.159 33.599 -4.041 Al 28.500 447.85 3.26 46.599 0.1636 7.625 Vel = 17.21 0.0 Al 447.85 39.942 K Factor = 70.86 *RACK BULK Al 28.500 447.85 4 2T 52.668 170.000 120 39.942 to 52.668 0.0 A2 28.500 447.85 4.26 222.668 0.0445 9.901 Vel = 10.08 A2 28.500 0.0 4 5.920 120 49.843 to 0.0 A3 28.500 447.85 4.26 5.920 0.0444 0.263 Vel = 10.08 A3 28.500 0.0 4 7V 62.675 315.000 120 50.106 to 62.675 -0.684 TR 30.080 447.85 4.26 377.675 0.0445 16.793 Vel = 10.08 TR 30.080 0.0 6 Bvca 17.603 27.080 120 66.215 to V 12.573 61.609 11.728 BR 3 447.85 6.357 X 31.433 88.689 0.0063 0.562 Vel = 4.53 BR 3 0.0 6 21 25.147 7.000 120 78.505 to H 6.287 31.434 1.083 IN RACK UG5 .500 447.85 6.357 38.434 0.0063 0.243 Vel = 4.53 DEMAND __________ UGS .500 0.0 8 G 6.326 10.000 140 79.831 to 6.326 1.949 UG6 -4 447.85 8.27 16.326 0.0013 0.021 Vel = 2.67 UG6 -4 0.0 8 T 43.857 40.000 150 81.801 to 43.857 0.0 UG7 -4 447.85 7.68 83.857 0.0017 0.140 Vel = 3.10 UG7 -4 0.0 8 12.000 150 81.941 to 0.0 UG2 -4 447.85 7.68 12.000 0.0017 0.020 Vel = 3.10 0.0 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 22 Thermo Fisher 2B RACKS-16.8K OH Date 5-3-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe ******* Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf UG2 447.85 81.961 K Factor= 49.47 Computer Programs by Hydratec Inc. Revision: 50.54.4 Western Fire Protection Page 1 Thermo Fisher 4D RACKS-16.8K OH Date 5-3-2021 Hydraulic Design Information Sheet Remote Area #3 Name -(Thermo Fisher 4D RACKS-16.8K 0H1 Date - 5-3-2021 Location - 5781 Van Allen Way, Carlsbad, CA 92008 Building - System No. - 4 Contractor - JR Construction Contract No. - 20-1830-04 Calculated By - WFP Drawing No. - FP-03;FP-07 Construction: (x) Combustible ( ) Non-Combustible Ceiling Height - Occupancy - Warehouse (x) NFPA 13 ( ) Lt. Haz. Ord.Haz.Gp. ( ) 1 ( ) 2 ( ) 3 ( ) Ex.Haz. NFPA 231 ( ) NFPA 231C Figure Curve Other FM Global Specific Ruling Made By Date Area of Sprinkler Operation - 12 HEADS System Type Sprinkler/Nozzle Density - 11 PSI (x) Wet Make TYCO Area Per Sprinkler - 96 ( ) Dry Model TY7151 Elevation at Highest Outlet - 31.5 ( ) Deluge Size 3/4" Hose Allowance - Inside - ( ) Preaction K-Factor 16.8 Rack Sprinkler Allowance - 445.56 ( ) Other Temp.Rat.1550 Hose Allowance - Outside - 250 Note Calculation Flow Required - 1663.59 Press Required - 86.65 TEST Summary C-Factor Used: 120 Overhead 150 Underground W Water Flow Test: Pump Data: Tank or Reservoir: A Date of Test - 5/7/2020 Cap. - T Time of Test - Rated Cap.- Elev.- E Static Press - 131 @ Press - R Residual Press - 108 Elev. - Well Flow - 2700 Proof Flow S Elevation - 0 U P Location - On Site hydrants H61385 & H61391 P L Source of Information - Carlsbad Fire Department Y C Commodity Class Location 0 Storage Ht. Area Aisle W. M Storage Method: Solid Piled % Palletized % Rack M (x) Single Row ( ) Conven. Pallet S R (x) Double Row ( ) Slave Pallet T A ( ) Mult. Row O C R K Flue Spacing A Longitudinal G E Horizontal Barriers Provided: Auto. Storage ( ) Encap. Solid Shelf ( ) Non (x) Open Shelf Clearance:Storage to Ceiling Transverse S Y S T E M D E S I G N Vdter Western Fire Protection Page 2 Thermo Fisher 4D RACKS-16.8K OH Date 5-3-2021 City Water Supply: Demand: Cl - Static Pressure : 117.9 Dl - Elevation : 7.614 C2 - Residual Pressure: 97.2 D2 - System Flow :1413.59 C2 - Residual Flow : 2700 D2 - System Pressure : 86.647 Hose ( Demand) : 250 D3 - System Demand :1663.59 Safety Margin : 22.802 150 140 130 120 P -.------ - R 110 - _________________ C2 E 100 - 12 s 90 - ___ _____ ________ s 80 - D3 u 70 R6° E5° 30 40 207__ 10 Dl 300 600 900 1200 1500 1800 2100 2400 2700 FLOW (N"1.85) Computer Programs by Hydratec Inc. Revision: 50.54.4 Fittings Used Summary Western Fire Protection Page 3 Thermo Fisher 4D RACKS-16.8K OH Date 5-3-2021 Fitting Legend Abbrev. Name 1/2 % 1 1¼ 11/2 2 21/2 3 31/2 4 5 6 8 10 12 14 16 18 20 24 Bvca BFly Vic 705 6 6 7 8 12 14 16 18 19 G NFPA 13 Gate Valve 0 0 0 0 0 1 1 1 1 2 2 3 4 5 6 7 8 10 11 13 H 45' Grvd-Vic Elbow #11 0 0 1 1.5 2 2 3 3 3.5 3.5 4.5 5 6.5 8.5 10 18 20 23 25 30 90 Grvd-Vic Elbow #10 0 0 2 3 4 3.5 6 5 8 7 8.5 10 13 17 20 23 25 33 36 40 L NFPA 13 Long Turn Elbow 0.5 1 2 2 2 3 4 5 5 6 8 9 13 16 18 24 27 30 34 40 I NFPA139O Flow thruTee 3 4 5 6 8 10 12 15 17 20 25 30 35 50 60 71 81 91 101 121 V 90 Ell Firelock#001 0 0 0 0 0 3.5 4.3 5 0 6.8 8.5 10 13 4.5 5.1 0 0 0 0 0 X 90Tee-BranchFirelock002 0 0 0 0 0 8.5 10.8 13 0 16 21 25 33 9.3 11 0 0 0 0 0 Zwc Watts 709 Fitting generates a Fixed Loss Based on Flow Units Summary Diameter Units Inches Length Units Feet Flow Units US Gallons per Minute Pressure Units Pounds per Square Inch Note: Fitting Legend provides equivalent pipe lengths for fittings types of various diameters. Equivalent lengths shown are standard for actual diameters of Sched 40 pipe and CFactors of 120 except as noted with . The fittings marked with a * show equivalent lengths values supplied by manufacturers based on specific pipe diameters and CFactors and they require no adjustment. All values for fittings not marked with a * will be adjusted in the calculation for CFactors of other than 120 and diameters other than Sched 40 per NFPA. Computer Programs by Hydratec Inc. Revision: 50.54.4 Pressure I Flow Summary - STANDARD Western Fire Protection Page 4 Thermo Fisher 4D RACKS-16.8K OH Date 5-3-2021 Node Elevation K-Fact Pt Pn Flow Density Area Press No. Actual Actual Req. LI 30.75 39.64 na L2 30.75 39.63 na 101 31.42 16.8 22.16 na 79.08 1.0 1 11.0 102 31.42 16.8 20.97 na 76.93 1.0 1 11.0 103 31.42 16.8 20.68 na 76.4 1.0 1 11.0 104 31.42 16.8 20.69 na 76.42 1.0 1 11.0 105 31.42 16.8 21.16 na 77.27 1.0 1 11.0 M2 30.75 40.29 na L3 30.75 39.74 na 106 31.42 16.8 22.21 na 79.18 1.0 1 11.0 107 31.42 16.8 21.02 na 77.03 1.0 1 11.0 108 31.42 16.8 20.73 na 76.5 1.0 1 11.0 109 31.42 16.8 20.74 na 76.51 1.0 1 11.0 110 31.42 16.8 21.21 na 77.37 1.0 1 11.0 M3 30.75 40.37 na L4 30.75 40.14 na 111 31.42 16.8 33.8 na 97.67 1.0 1 11.0 112 31.42 16.8 33.8 na 97.67 1.0 1 11.0 M4 30.75 40.65 na L5 30.75 40.75 na L6 30.75 41.33 na L7 30.75 41.88 na L8 30.75 42.42 na L9 30.75 42.95 na L10 30.75 43.48 na Lii 30.75 43.99 na L12 30.75 44.51 na L13 30.75 45.02 na L14 30.75 45.53 na L15 30.75 46.03 na L16 30.75 46.52 na L17 30.75 47.0 na L18 30.75 47.47 na L19 30.75 47.91 na L20 30.75 48.33 na L21 30.75 48.72 na L22 30.75 49.06 na L23 30.75 49.37 na L24 30.75 49.63 na L25 30.75 49.84 na L26 30.75 49.99 na L27 30.75 50.11 na L28 30.75 50.19 na L29 30.75 50.23 na L30 30.75 50.26 na L31 30.75 50.26 na Mi 30.75 40.29 na M5 30.75 41.08 na M6 30.75 41.53 na M7 30.75 42.0 na M8 30.75 42.49 na M9 30.75 42.99 na M10 30.75 43.49 na Mil 30.75 44.0 na M12 30.75 44.51 na M13 30.75 45.03 na M14 30.75 45.55 na M15 30.75 46.07 na M16 30.75 46.61 na M17 30.75 47.15 na M18 30.75 47.72 na M19 30.75 48.3 na Computer Programs by Hydratec Inc. Revision: 50.54.4 250.0 32.44 1.0 1 14.06 30.0 1.0 I 14.06 30.77 1.0 1 14.06 30.36 1.0 1 14.06 30.84 1.0 1 14.06 31.63 1.0 1 14.06 31.21 1.0 1 14.06 34.08 1.0 1 14.06 31.54 1.0 1 14.06 32.34 1.0 1 14.06 31.91 1.0 1 14.06 32.41 1.0 1 14.06 33.24 1.0 1 14.06 32.8 1.0 1 14.06 Flow Summary - Standard Western Fire Protection Page 5 Thermo Fisher 4D RACKS-16.8K OH Date 5-3-2021 Node Elevation K-Fact Pt Pn Flow Density Area Press No. Actual Actual Rea. M20 30.75 48.92 na M21 30.75 49.58 na M22 30.75 50.29 na M23 30.75 51.06 na M24 30.75 51.9 na M24A 30.75 52.37 na M25 30.75 52.44 na M26 30.75 52.59 na M27 30.75 52.75 na M28 30.75 52.94 na M29 30.75 53.14 na M30 30.75 53.36 na M31 30.75 53.6 na TORI 30.75 54.95 na BR 3.0 68.16 na UGS 0.5 71.29 na UG6 -4.0 73.42 na UG7 -4.0 74.59 na UG2 -4.0 74.76 na UG3 -4.0 81.04 na BF1 3.0 78.7 na BF2 3.0 84.17 na UG4 -4.0 87.51 na HOSE -4.0 88.36 na TEST 0.0 86.65 na 51 17.58 8 16.44 na 52 17.58 8 14.06 na 53 17.58 8 14.8 na 55 17.58 16.57 na 54 17.58 8 14.4 na 56 17.58 8 14.86 na 57 17.58 8 15.63 na 59 17.58 17.5 na 58 17.58 8 15.22 na 60 17.58 32.06 na 71 9.25 8 18.15 na 72 9.25 8 15.54 na 73 9.25 8 16.35 na 75 9.25 18.29 na 74 9.25 8 15.91 na 76 9.25 8 16.42 na 77 9.25 8 17.27 na 79 9.25 19.31 na 78 9.25 8 16.81 na 80 9.25 35.27 na 61 28.5 36.93 na A3 28.5 39.93 na TR 30.08 55.88 na The maximum velocity is 20.05 and it occurs in the pipe between nodes 79 and 80 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 6 Thermo Fisher 4D RACKS-16.8K OH Date 5-3-2021 Nodel Etevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe ******* Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf *GRID LI 30.750 19.10 2 2T 24.613 137.000 120 39.636 to 2X 20.921 45.534 0.0 MI 30.750 19.1 2.157 182.534 0.0036 0.652 Vet = 1.68 0.0 Ml 19.10 40.288 K Factor = 3.01 L2 30.750 -222.49 2 T 12.307 28.500 120 39.635 to X 10.461 22.768 -0.290 101 31.420 -222.49 2.157 51.268 -0.3352 -17.187 Vet = 19.53 101 31.420 16.80 79.08 2 8.000 120 22.158 to 0.0 102 31.420 -143.41 2.157 8.000 -0.1488 -1.190 Vet = 12.59 102 31.420 16.80 76.93 2 8.000 120 20.968 to 0.0 103 31.420 -66.48 2.157 8.000 -0.0357 -0.286 Vet = 5.84 103 31.420 16.80 76.40 2 8.000 120 20.682 to 0.0 104 31.420 9.92 2.157 8.000 0.0010 0.008 Vet = 0.87 104 31.420 16.80 76.42 2 8.000 120 20.690 to 0.0 105 31.420 86.34 2.157 8.000 0.0581 0.465 Vet = 7.58 105 31.420 16.80 77.27 2 T 12.307 76.500 120 21.155 to X 10.461 22.768 0.290 M2 30.750 163.61 2.157 99.268 0.1898 18.844 Vet = 14.36 0.0 M2 163.61 40.289 K Factor= 25.78 L3 30.750 -222.82 2 T 12.307 28.500 120 39.738 to X 10.461 22.768 -0.290 106 31.420 -222.82 2.157 51.268 -0.3361 -17.233 Vet = 19.56 106 31.420 16.80 79.18 2 8.000 120 22.215 to 0.0 107 31.420 -143.64 2.157 8.000 -0.1492 -1.194 Vet = 12.61 107 31.420 16.80 77.03 2 8.000 120 21.021 to 0.0 108 31.420 -66.61 2.157 8.000 -0.0360 -0.288 Vet = 5.85 108 31.420 16.80 76.49 2 8.000 120 20.733 to 0.0 109 31.420 9.88 2.157 8.000 0.0011 0.009 Vet = 0.87 109 31.420 16.80 76.52 2 8.000 120 20.742 to 0.0 110 31.420 86.4 2.157 8.000 0.0582 0.466 Vet = 7.59 110 31.420 16.80 77.36 2 T 12.307 76.500 120 21.208 to X 10.461 22.768 0.290 M3 30.750 163.76 2.157 99.268 0.1902 18.876 Vet = 14.38 0.0 M3 163.76 40.374 K Factor= 25.77 L4 30.750 -102.84 2 T 12.307 52.500 120 40.144 to X 10.461 22.768 -0.290 111 31.420 -102.84 2.157 75.268 -0.0804 -6.053 Vet = 9.03 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 7 Thermo Fisher 4D RACKS-16.8K OH Date 5-3-2021 Nodel Etevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe ******* Notes Node2 Etev2 Fact Qt Act Eqiv Len Total PfIFt Pf 111 31.420 16.80 97.67 2 8.000 120 33.801 to 0.0 112 31.420 -5.17 2.157 8.000 -0.0002 -0.002 Vet = 0.45 112 31.420 16.80 97.67 2 T 12.307 76.500 120 33.799 to X 10.461 22.768 0.290 M4 30.750 92.5 2.157 99.268 0.0661 6.561 Vet = 8.12 0.0 M4 92.50 40.650 K Factor = 14.51 L5 30.750 13.22 2 2T 24.613 137.000 120 40.749 to 2X 20.921 45.534 0.0 M5 30.750 13.22 2.157 182.534 0.0018 0.330 Vet = 1.16 0.0 MS 13.22 41.079 K Factor= 2.06 L6 30.750 10.23 2 2T 24.613 137.000 120 41.326 to 2X 20.921 45.534 0.0 M6 30.750 10.23 2.157 182.534 0.0011 0.206 Vet = 0.90 0.0 M6 10.23 41.532 K Factor = 1.59 L7 30.750 7.67 2 2T 24.613 137.000 120 41.883 to 2X 20.921 45.534 0.0 M7 30.750 7.67 2.157 182.534 0.0007 0.120 Vet = 0.67 0.0 M7 7.67 42.003 KFactor= 1.18 L8 30.750 5.54 2 2T 24.613 137.000 120 42.424 to 2X 20.921 45.534 0.0 M8 30.750 5.54 2.157 182.534 0.0004 0.066 Vet = 0.49 0.0 M8 5.54 42.490 K Factor = 0.85 L9 30.750 3.81 2 2T 24.613 137.000 120 42.954 to 2X 20.921 45.534 0.0 M9 30.750 3.81 2.157 182.534 0.0002 0.033 Vel = 0.33 0.0 M9 3.81 42.987 K Factor = 0.58 L10 30.750 2.50 2 2T 24.613 137.000 120 43.476 to 2X 20.921 45.534 0.0 M10 30.750 2.5 2.157 182.534 0.0001 0.015 Vel = 0.22 0.0 M10 2.50 43.491 K Factor= 0.38 Lii 30.750 1.65 2 2T 24.613 137.000 120 43.994 to 2X 20.921 45.534 0.0 Mill 30.750 1.65 2.157 182.534 0 0.007 Vel = 0.14 0.0 Mill 1.65 44.001 K Factor = 0.25 L12 30.750 1.42 2 2T 24.613 137.000 120 44.508 to 2X 20.921 45.534 0.0 M12 30.750 1.42 2.157 182.534 0 0.005 Vel= 0.12 0.0 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 8 Thermo Fisher 4D RACKS-16.8K OH Date 5-3-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes ****** Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf M12 1.42 44.513 K Factor = 0.21 L13 30.750 1.91 2 2T 24.613 137.000 120 45.019 to 2X 20.921 45.534 0.0 M13 30.750 1.91 2.157 182.534 0 0.009 Vel = 0.17 0.0 M13 1.91 45.028 KFactor= 0.28 L14 30.750 2.96 2 2T 24.613 137.000 120 45.527 to 2X 20.921 45.534 0.0 M14 30.750 2.96 2.157 182.534 0.0001 0.021 Vel = 0.26 0.0 M14 2.96 45.548 K Factor = 0.44 L15 30.750 4.43 2 2T 24.613 137.000 120 46.029 to 2X 20.921 45.534 0.0 M15 30.750 4.43 2.157 182.534 0.0002 0.043 Vel = 0.39 0.0 M15 4.43 46.072 K Factor = 0.65 L16 30.750 6.31 2 2T 24.613 137.000 120 46.522 to 2X 20.921 45.534 0.0 M16 30.750 6.31 2.157 182.534 0.0005 0.084 Vel = 0.55 0.0 M16 6.31 46.606 K Factor = 0.92 L17 30.750 8.61 2 2T 24.613 137.000 120 47.003 to 2X 20.921 45.534 0.0 M17 30.750 8.61 2.157 182.534 0.0008 0.149 Vel = 0.76 0.0 M17 8.61 47.152 K Factor = 1.25 L18 30.750 11.33 2 2T 24.613 137.000 120 47.468 to 2X 20.921 45.534 0.0 M18 30.750 11.33 2.157 182.534 0.0014 0.248 Vel = 0.99 0.0 M18 11.33 47.716 KFactor= 1.64 L19 30.750 14.50 2 2T 24.613 137.000 120 47.912 to 2X 20.921 45.534 0.0 M19 30.750 14.5 2.157 182.534 0.0021 0.392 Vel = 1.27 0.0 M19 14.50 48.304 K Factor = 2.09 L20 30.750 18.13 2 2T 24.613 137.000 120 48.330 to 2X 20.921 45.534 0.0 M20 30.750 18.13 2.157 182.534 0.0032 0.592 Vel = 1.59 0.0 M20 18.13 48.922 K Factor = 2.59 L21 30.750 22.23 2 2T 24.613 137.000 120 48.716 to 2X 20.921 45.534 0.0 M21 30.750 22.23 2.157 182.534 0.0047 0.863 Vel = 1.95 0.0 M21 22.23 49.579 K Factor = 3.16 L22 30.750 26.82 2 2T 24.613 137.000 120 49.064 to 2X 20.921 45.534 0.0 - M22 30.750 26.82 2.157 182.534 0.0067 1.222 Vel = 2.35 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 9 Thermo Fisher 4D RACKS-16.8K OH Date 5-3-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes ****** Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf M22 0.0 26.82 50.286 K Factor = 3.78 L23 30.750 31.92 2 21 24.613 137.000 120 49.370 to 2X 20.921 45.534 0.0 M23 30.750 31.92 2.157 182.534 0.0092 1.685 Vel = 2.80 0.0 M23 31.92 51.055 KFactor= 4.47 L24 30.750 37.52 2 2T 24.613 137.000 120 49.628 to 2X 20.921 45.534 0.0 M24 30.750 37.52 2.157 182.534 0.0125 2.274 Vel = 3.29 0.0 M24 37.52 51.902 K Factor = 5.21 L25 30.750 40.38 2 21 24.613 137.000 120 49.836 to 2X 20.921 45.534 0.0 M25 30.750 40.38 2.157 182.534 0.0143 2.603 Vel = 3.55 0.0 M25 40.38 52.439 K Factor = 5.58 L26 30.750 40.31 2 2T 24.613 137.000 120 49.994 to 2X 20.921 45.534 0.0 M26 30.750 40.31 2.157 182.534 0.0142 2.594 Vel = 3.54 0.0 M26 40.31 52.588 K Factor = 5.56 L27 30.750 40.73 2 2T 24.613 137.000 120 50.109 to 2X 20.921 45.534 0.0 M27 30.750 40.73 2.157 182.534 0.0145 2.645 Vel = 3.58 0.0 M27 40.73 52.754 K Factor = 5.61 L28 30.750 41.59 2 2T 24.613 137.000 120 50.187 to 2X 20.921 45.534 0.0 M28 30.750 41.59 2.157 182.534 0.0151 2.749 Vel = 3.65 0.0 M28 41.59 52.936 K Factor = 5.72 L29 30.750 42.82 2 2T 24.613 137.000 120 50.234 to 2X 20.921 45.534 0.0 M29 30.750 42.82 2.157 182.534 0.0159 2.902 Vel = 3.76 0.0 M29 42.82 53.136 K Factor = 5.87 L30 30.750 44.37 2 21 24.613 137.000 120 50.257 to 2X 20.921 45.534 0.0 M30 30.750 44.37 2.157 182.534 0.0170 3.099 Vel = 3.90 0.0 M30 44.37 53.356 K Factor = 6.07 L31 30.750 46.15 2 2T 24.613 137.000 120 50.264 to 2X 20.921 45.534 0.0 M31 30.750 46.15 2.157 182.534 0.0183 3.332 Vel = 4.05 0.0 M31 46.15 53.596 K Factor = 6.30 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 10 U Thermo Fisher 4D RACKS-16.8K OH Date 5-3-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe ******* Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf I *FAR Li 30.750 -19.10 4 10.000 120 39.636 to 0.0 L2 30.750 -19.1 4.26 10.000 -0.0001 -0.001 Vel = 0.43 L2 30.750 222.49 4 10.000 120 39.635 I to 0.0 L3 30.750 203.39 4.26 10.000 0.0103 0.103 Vel = 4.58 L3 30.750 222.82 4 10.000 120 39.738 to 0.0 L4 30.750 426.21 4.26 10.000 0.0406 0.406 Vel = 9.59 L4 30.750 102.84 4 10.000 120 40.144 to 0.0 L5 30.750 529.05 4.26 10.000 0.0605 0.605 Vel = 11.91 L5 30.750 -13.22 4 10.000 120 40.749 to 0.0 L6 30.750 515.83 4.26 10.000 0.0577 0.577 Vel = 11.61 L6 30.750 -10.23 4 10.000 120 41.326 to 0.0 L7 30.750 505.6 4.26 10.000 0.0557 0.557 Vel = 11.38 L7 30.750 -7.67 4 10.000 120 41.883 to 0.0 L8 30.750 497.93 4.26 10.000 0.0541 0.541 Vel = 11.21 L8 30.750 -5.54 4 10.000 120 42.424 to 0.0 L9 30.750 492.39 4.26 10.000 0.0530 0.530 Vel = 11.08 L9 30.750 -3.81 4 10.000 120 42.954 to 0.0 L10 30.750 488.58 4.26 10.000 0.0522 0.522 Vel = 11.00 L10 30.750 -2.50 4 10.000 120 43.476 to 0.0 Lii 30.750 486.08 4.26 10.000 0.0518 0.518 Vel = 10.94 Lii 30.750 -1.64 4 10.000 120 43.994 to 0.0 L12 30.750 484.44 4.26 10.000 0.0514 0.514 Vel = 10.90 L12 30.750 -1.42 4 10.000 120 44.508 to 0.0 L13 30.750 483.02 4.26 10.000 0.0511 0.511 Vel = 10.87 L13 30.750 -1.91 4 10.000 120 45.019 1 to 0.0 L14 30.750 481.11 4.26 10.000 0.0508 0.508 Vel = 10.83 L14 30.750 -2.96 4 10.000 120 45.527 to 0.0 L15 30.750 478.15 4.26 10.000 0.0502 0.502 Vel = 10.76 L15 30.750 -4.43 4 10.000 120 46.029 to 0.0 L16 30.750 473.72 4.26 10.000 0.0493 0.493 Vel = 10.66 L16 30.750 -6.31 4 10.000 120 46.522 to 0.0 L17 30.750 467.41 4.26 10.000 0.0481 0.481 Vel = 10.52 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 11 Thermo Fisher 4D RACKS-16.8K OH Date 5-3-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf L17 30.750 -8.61 4 10.000 120 47.003 to 0.0 L18 30.750 458.8 4.26 10.000 0.0465 0.465 Vel = 10.33 L18 30.750 -11.33 4 10.000 120 47.468 to 0.0 L19 30.750 447.47 4.26 10.000 0.0444 0.444 Vel = 10.07 L19 30.750 -14.50 4 10.000 120 47.912 to 0.0 L20 30.750 432.97 4.26 10.000 0.0418 0.418 Vel = 9.75 L20 30.750 -18.13 4 10.000 120 48.330 to 0.0 L21 30.750 414.84 4.26 10.000 0.0386 0.386 Vel = 9.34 L21 30.750 -22.24 4 10.000 120 48.716 to 0.0 L22 30.750 392.6 4.26 10.000 0.0348 0.348 Vel = 8.84 L22 30.750 -26.82 4 10.000 120 49.064 to 0.0 L23 30.750 365.78 4.26 10.000 0.0306 0.306 Vel = 8.23 L23 30.750 -31.92 4 10.000 120 49.370 to 0.0 L24 30.750 333.86 4.26 10.000 0.0258 0.258 Vel = 7.52 L24 30.750 -37.52 4 10.000 120 49.628 to 0.0 L25 30.750 296.34 4.26 10.000 0.0208 0.208 Vel = 6.67 L25 30.750 -40.38 4 10.000 120 49.836 to 0.0 L26 30.750 255.96 4.26 10.000 0.0158 0.158 Vel = 5.76 L26 30.750 -40.31 4 10.000 120 49.994 to 0.0 L27 30.750 215.65 4.26 10.000 0.0115 0.115 Vel = 4.85 L27 30.750 -40.73 4 10.000 120 50.109 to 0.0 L28 30.750 174.92 4.26 10.000 0.0078 0.078 Vel = 3.94 L28 30.750 -41.58 4 10.000 120 50.187 to 0.0 L29 30.750 133.34 4.26 10.000 0.0047 0.047 Vel = 3.00 L29 30.750 -42.83 4 10.000 120 50.234 to 0.0 L30 30.750 90.51 4.26 10.000 0.0023 0.023 Vel = 2.04 L30 30.750 -44.36 4 10.000 120 50.257 to 0.0 L31 30.750 46.15 4.26 10.000 0.0007 0.007 Vel = 1.04 0.0 L31 46.15 50.264 K Factor= 6.51 *NEAR Ml 30.750 19.10 4 10.000 120 40.288 to 0.0 M2 30.750 19.1 4.26 10.000 0.0001 0.001 Vel = 0.43 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 12 Thermo Fisher 4D RACKS-16.8K OH Date 5-3-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf I M2 30.750 163.61 4 10.000 120 40.289 to 0.0 M3 30.750 182.71 4.26 10.000 0.0085 0.085 Vel = 4.11 M3 30.750 163.77 4 10.000 120 40.374 to 0.0 M4 30.750 346.48 4.26 10.000 0.0276 0.276 Vel = 7.80 M4 30.750 92.50 4 10.000 120 40.650 to 0.0 M5 30.750 438.98 4.26 10.000 0.0429 0.429 Vel = 9.88 M5 30.750 13.22 4 10.000 120 41.079 to 0.0 M6 30.750 452.2 4.26 10.000 0.0453 0.453 Vel = 10.18 M6 30.750 10.23 4 10.000 120 41.532 to 0.0 M7 30.750 462.43 4.26 10.000 0.0471 0.471 Vel = 10.41 M7 30.750 7.67 4 10.000 120 42.003 to 0.0 M8 30.750 470.1 4.26 10.000 0.0487 0.487 Vel = 10.58 M8 30.750 5.54 4 10.000 120 42.490 to 0.0 M9 30.750 475.64 4.26 10.000 0.0497 0.497 Vel = 10.71 M9 30.750 3.81 4 10.000 120 42.987 to 0.0 M10 30.750 479.45 4.26 10.000 0.0504 0.504 Vel = 10.79 M10 30.750 2.49 4 10.000 120 43.491 to 0.0 M11 30.750 481.94 4.26 10.000 0.0510 0.510 Vel = 10.85 M11 30.750 1.65 4 10.000 120 44.001 to 0.0 M12 30.750 483.59 4.26 10.000 0.0512 0.512 Vel = 10.89 M12 30.750 1.42 4 10.000 120 44.513 to 0.0 M13 30.750 485.01 4.26 10.000 0.0515 0.515 Vel = 10.92 M13 30.750 1.91 4 10.000 120 45.028 to 0.0 M14 30.750 486.92 4.26 10.000 0.0520 0.520 Vel = 10.96 M14 30.750 2.96 4 10.000 120 45.548 to 0.0 MIS 30.750 489.88 4.26 10.000 0.0524 0.524 Vel = 11.03 M15 30.750 4.43 4 10.000 120 46.072 to 0.0 M16 30.750 494.31 4.26 10.000 0.0534 0.534 Vel = 11.13 M16 30.750 6.31 4 10.000 120 46.606 to 0.0 M17 30.750 500.62 4.26 10.000 0.0546 0.546 Vel = 11.27 M17 30.750 8.61 4 10.000 120 47.152 to 0.0 M18 30.750 509.23 4.26 10.000 0.0564 0.564 Vel = 11.46 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 13 Thermo Fisher 4D RACKS-16.8K OH Date 5-3-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes Node2 EIev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf M18 30.750 11.33 4 10.000 120 47.716 to 0.0 M19 30.750 520.56 4.26 10.000 0.0588 0.588 Vet = 11.72 M19 30.750 14.50 4 10.000 120 48.304 to 0.0 M20 30.750 535.06 4.26 10.000 0.0618 0.618 Vel = 12.04 M20 30.750 18.13 4 10.000 120 48.922 to 0.0 M21 30.750 553.19 4.26 10.000 0.0657 0.657 Vet = 12.45 M21 30.750 22.23 4 10.000 120 49.579 to 0.0 M22 30.750 575.42 4.26 10.000 0.0707 0.707 Vel = 12.95 M22 30.750 26.83 4 10.000 120 50.286 to 0.0 M23 30.750 602.25 4.26 10.000 0.0769 0.769 Vel = 13.56 M23 30.750 31.92 4 10.000 120 51.055 to 0.0 M24 30.750 634.17 4.26 10.000 0.0847 0.847 Vet = 14.27 M24 30.750 37.52 4 5.000 120 51.902 to 0.0 M24A 30.750 671.69 4.26 5.000 0.0940 0.470 Vet = 15.12 M24A 30.750 0.0 6 5.000 120 52.372 to 0.0 M25 30.750 671.69 6.357 5.000 0.0134 0.067 Vel = 6.79 M25 30.750 40.38 6 10.000 120 52.439 to 0.0 M26 30.750 712.07 6.357 10.000 0.0149 0.149 Vel = 7.20 M26 30.750 40.31 6 10.000 120 52.588 to 0.0 M27 30.750 752.38 6.357 10.000 0.0166 0.166 Vel = 7.61 M27 30.750 40.73 6 10.000 120 52.754 to 0.0 M28 30.750 793.11 6.357 10.000 0.0182 0.182 Vet = 8.02 M28 30.750 41.58 6 10.000 120 52.936 to 0.0 M29 30.750 834.69 6.357 10.000 0.0200 0.200 Vel = 8.44 M29 30.750 42.83 6 10.000 120 53.136 to 0.0 M30 30.750 877.52 6.357 10.000 0.0220 0.220 Vet = 8.87 M30 30.750 44.36 6 10.000 120 53.356 to 0.0 M31 30.750 921.88 6.357 10.000 0.0240 0.240 Vel = 9.32 M31 30.750 46.15 6 31 37.72 13.670 120 53.596 to 37.720 0.0 TORi 30.750 968.03 6.357 51.390 0.0263 1.354 Vel = 9.79 TORi 30.750 0.0 6 Bvca 17.603 27.750 120 54.950 to BR 3 968.03 6.357 17.603 45.353 0.0264 12.018 1.196 Vet = 9.79 OHSYS#4 DEMAND Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 14 Thermo Fisher 4D RACKS-16.8K OH Date 5-3-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes Node2 EIev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf BR 3 445.56 6 21 25.147 7.000 120 68.164 to H 6.287 31.434 1.083 UG5 .500 1413.59 6.357 38.434 0.0531 2.039 Vel = 14.29 UG5 .500 0.0 8 G 6.326 10.000 140 71.286 OHSYS#4 to 6.326 1.949 + IN-RACK UG6 -4 1413.59 8.27 16.326 0.0111 0.181 Vel = 8.44 DEMAND UG6 -4 0.0 8 T 43.857 40.000 150 73.416 to 43.857 0.0 UG7 -4 1413.59 7.68 83.857 0.0140 1.173 Vel = 9.79 UG7 -4 0.0 8 12.000 150 74.589 to 0.0 UG2 -4 1413.59 7.68 12.000 0.0140 0.168 Vel = 9.79 UG2 -4 0.0 8 T 43.857 389.000 150 74.757 to L 16.29 60.147 0.0 UG3 -4 1413.59 7.68 449.147 0.0140 6.283 Vel = 9.79 UG3 -4 0.0 8 T 55.354 7.000 140 81.040 to 55.354 -3.032 BF1 3 1413.59 8.27 62.354 0.0111 0.691 Vel = 8.44 BF1 3 0.0 8 Zwc 0.0 0.250 120 78.699 to L 13.0 13.000 5.241 * * Fixed Loss = 5.241 BF2 3 1413.59 7.981 13.250 0.0175 0.232 Vel = 9.07 BF2 3 0.0 8 L 20.56 7.000 140 84.172 to 20.560 3.032 UG4 -4 1413.59 8.27 27.560 0.0111 0.306 Vel = 8.44 UG4 -4 0.0 8 T 43.857 17.000 150 87.510 to 43.857 0.0 HOSE -4 1413.59 7.68 60.857 0.0140 0.851 Vel = 9.79 HOSE -4 H250 250.00 8 1.000 150 88.361 to -1.732 TEST 0 1663.59 7.68 1.000 0.0180 0.018 Vel = 11.52 0.0 DEMAND TEST 1663.59 86.647 K Factor = 178.72 ATTEST *4D TOP 51 17.580 8.00 32.44 2 T 12.307 1.330 120 16.439 to 12.307 0.0 55 17.580 32.44 2.157 13.637 0.0095 0.130 Vel = 2.85 0.0 55 32.44 16.569 KFactor= 7.97 52 17.580 8.00 30.00 1 2.670 120 14.060 to 0.0 53 17.580 30.0 1.049 2.670 0.2757 0.736 Vel = 11.14 53 17.580 8.00 30.77 1.25 T 6.0 0.630 120 14.796 to 6.000 0.0 55 17.580 60.77 1.38 6.630 0.2674 1.773 Vel = 13.04 0.0 55 60.77 16.569 K Factor= 14.93 54 17.580 8.00 30.36 1 T 5.0 2.710 120 14.398 to 5.000 0.0 55 17.580 30.36 1.049 7.710 0.2816 2.171 Vel = 11.27 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 15 Thermo Fisher 4D RACKS-16.8K OH Date 5-3-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf 0.0 55 30.36 16.569 K Factor = 7.46 56 17.580 8.00 30.84 1 2.670 120 14.860 to 0.0 57 17.580 30.84 1.049 2.670 0.2899 0.774 Vel = 11.45 57 17.580 8.00 31.63 1.25 1 6.0 0.630 120 15.634 to 6.000 0.0 59 17.580 62.47 1.38 6.630 0.2814 1.866 Vel = 13.40 0.0 59 62.47 17.500 K Factor= 14.93 58 17.580 8.00 31.21 1 T 5.0 2.710 120 15.216 to 5.000 0.0 59 17.580 31.21 1.049 7.710 0.2962 2.284 Vel = 11.59 0.0 59 31.21 17.500 K Factor = 7.46 55 17.580 123.56 2 8.250 120 16.569 to 0.0 59 17.580 123.56 2.157 8.250 0.1128 0.931 Vel = 10.85 59 17.580 93.68 2 T 12.307 33.080 120 17.500 to 12.307 0.0 60 17.580 217.24 2.157 45.387 0.3207 14.557 Vel = 19.07 0.0 60 217.24 32.057 K Factor= 38.37 *4D BOTTOM 71 9.250 8.00 34.08 2 1 12.307 1.330 120 18.148 to 12.307 0.0 75 9.250 34.08 2.157 13.637 0.0105 0.143 Vel = 2.99 0.0 75 34.08 18.291 K Factor = 7.97 72 9.250 8.00 31.54 1 2.670 120 15.539 to 0.0 73 9.250 31.54 1.049 2.670 0.3022 0.807 Vel = 11.71 73 9.250 8.00 32.34 1.25 T 6.0 0.630 120 16.346 to 6.000 0.0 75 9.250 63.88 1.38 6.630 0.2934 1.945 Vel = 13.70 0.0 75 63.88 18.291 KFactor= 14.94 74 9.250 8.00 31.91 1 T 5.0 2.710 120 15.910 to 5.000 0.0 75 9.250 31.91 1.049 7.710 0.3088 2.381 Vel = 11.85 0.0 75 31.91 18.291 K Factor = 7.46 76 9.250 8.00 32.41 1 2.670 120 16.417 to 0.0 77 9.250 32.41 1.049 2.670 0.3180 0.849 Vel = 12.03 77 9.250 8.00 33.25 1.25 1 6.0 0.630 120 17.266 to 6.000 0.0 79 9.250 65.66 1.38 6.630 0.3086 2.046 Vel = 14.08 Computer Programs by Hydratec Inc. Revision: 50.54.4 Final Calculations: Hazen-Williams Western Fire Protection Page 16 Thermo Fisher 4D RACKS-16.8K OH Date 5-3-2021 Nodel Elevi K Qa Nom Fitting Pipe CFact Pt to or Ftngs Pe ******* Notes Node2 Elev2 Fact Qt Act Eqiv Len Total Pf/Ft Pf 0.0 79 65.66 19.312 K Factor= 14.94 78 9.250 8.00 32.80 1 1 5.0 2.710 120 16.807 to 5.000 0.0 79 9.250 32.8 1.049 7.710 0.3249 2.505 Vel = 12.18 0.0 79 32.80 19.312 K Factor = 7.46 75 9.250 129.87 2 8.250 120 18.291 to 0.0 79 9.250 129.87 2.157 8.250 0.1238 1.021 Vel = 11.40 79 9.250 98.45 2 T 12.307 33.080 120 19.312 to 12.307 0.0 80 9.250 228.32 2.157 45.387 0.3517 15.961 Vel = 20.05 0.0 80 228.32 35.273 K Factor= 38.44 80 9.250 228.32 3 8.330 120 35.273 to -3.608 60 17.580 228.32 3.26 8.330 0.0471 0.392 Vel = 8.78 60 17.580 217.24 3 V 6.72 17.580 120 32.057 to 2X 34.943 41.663 -4.729 61 28.500 445.56 3.26 59.243 0.1621 9.602 Vel = 17.13 0.0 61 445.56 36.930 K Factor= 73.32 *RACK BULK 61 28.500 445.56 4 X 21.067 47.000 120 36.930 to 21.067 0.0 A3 28.500 445.56 4.26 68.067 0.0441 2.999 Vel = 10.03 A3 28.500 0.0 4 7V 62.675 315.000 120 39.929 to 62.675 -0.684 TR 30.080 445.56 4.26 377.675 0.0440 16.634 Vel = 10.03 TR 30.080 0.0 6 Bvca 17.603 27.080 120 55.879 to V 12.573 61.609 11.728 BR 3 445.56 6.357 X 31.433 88.689 0.0063 0.557 Vel = 4.50 0.0 IN RACK BR 445.56 68.164 K Factor= 53.97 DEMAND Computer Programs by Hydratec Inc. Revision: 50.54.4 SEISMIC CALCULATIONS Contractor: Western Fire Protection Project Address: Thermo Fisher Address: 13630 Danielson Street F alt N Poway, CA 92064 5781 Van Allen 'Ay Phone: 858.5134949 Carlsbad, CA 92008 Licence: Job #20-1830-04 Calculations based on 2016 NFPA Pamphlet#13 Brace Information TOLCOTM Brace Components Maximum Brace Length 7'0" (2.134 m) TOLCOTM Component Listed Load Adjusted Load Diameter of Brace 1" Fig. 1001 Clamp 1200 lbs (544 kg) 1200 lbs (544 kg) Fig.980 Universal Swivel 1970 lbs (894 kg) 1970 lbs (894 kg) Type of Brace Sch.40 See Fastener Information Angle of Brace 450 Mm. *Calculation Based on CONCENTRIC Loading *please Note: These calculations are for TOLCOTM components only. Use of any other components voids these calculations and the listing of the assembly. Least Rad. of Gyration 0.42 (11 mm) Seismic Brace Assembly Detail LJR Value 200 Max Horizontal Load 1310 lbs (594 kg) TOLCO FIG. 98 Other Requirements - FM Approved Loads UNIVERSAL SWAY BRACE ATTACHMENT Fastener Information 0 STEEL PIPE Orientation to Connecting Surface NFPA Type B Fastener Type Bolt Diameter 1/2n. (12 mm) Length N/A TOLCO FIG. 1001 FAST CLAMP Maximum Load 2050 lbs (930 kg) Brace Identification on Plans Prying Factor N/A Brace Type Lateral [X] Longitudinal [] 4-Way Sprinkler System Load Calculation (Fpw = CpWp) Cp = 0.5316 Diameter Type Length Total Length Weight Per Unit Length Total Weight 3(80mm) Sch. 10 30ft(9.1 m) 30ft(9.1 m) 7.94 lb/ft (11.82kg/m) 238 lbs (lo8kg) 2(50mm) Sch. 10 118.08 ft (36 m) 118.08 ft(36 m) 4.22 lb/ft (6.28 kg/m) 498 lbs (226 kg) Subtotal Weight 736 lbs (334 kg) Wp (id. 15%) 846 lbs (384 kg) Main Size 3" - Type/Sch. Sch. 10 Spacing (ft) 30 I Total (Fpw) Maximum Fpw per 9.3.5.5.2 (if applicable) 450 lbs (204 kg) 633 lb (287 kg) I u race - version o use at I urace"" is suoject to terms and conditions per me end user license agreement iuLbrace eusmic .aicuiauons Thermo Fisher 5781 Van Allen Way Brace Identification Brace Type (Per NFPA#13) Braced Pipe (ft) Spacing of Brace Orientation of Brace Bracing Material Maximum Brace Length Slenderness Ratio used for Load Calculation True Angle of Brace for Calculation Type of Fastener Length of Fastener Job #20-1830-04 1J.N llfl 8SSthS1de 3 Lateral Freezer NFPA Type B 3 Sch.10 Steel Pipe 300' (9.14m) Lateral 1" Sch.40 70(2.13 m) 200 450 1/2 (12mm) Bolt N/A Summary of Pipe within Zone of Influence 3" Sch.10 Steel Pipe (76.2 mm) 130 ft (9.1 m) 2" Sch.10 Steel Pipe (50.8 mm) Ill8.08 ft (36 m) G-Factor Used 0.5316 Allowance for Heads and Fittings 15% Conclusions Total Adjusted Load of Pipe in Zone of Influence 450 lbs (204 kg) Material Capacity 1310 lbs (594 kg) Fastener Capacity 2050 lbs (930 kg) Fig. 1001 Clamp 1200 lbs (544 kg) Fig.980 Universal Swivel 1970 lbs (894 kg) Structural Member Angle iron (3x2x1/4) Calculations prepared by WFP * The description of the Structural Member is for informational purposes only. TOLBrace" software calculates the brace assembly only, not the structure it is attached to. Calculated with TOLBrace* 8 Visit us at www.tolco.com Contractor: Western Fire Protection Address: 13630 Danielson Street Poway, CA 92064 Phone: 858-5134949 Carlsbad, CA 92008 Licence: Job #20-1830-04 Calculations based on 2016 NFPA Pamphlet#13 Project Address: Thermo Fisher 5781 Van Allen Way FIXON Fbeth 8usine& 44*t*e Brace Information TOLCOTM Brace Components Maximum Brace Length 70" (2.134 m) TOLCOTM Component Listed Load Adjusted Load Diameter of Brace 1" Fig. 4L Clamp 730 lbs (331 kg) 730 lbs (331 kg) Fig.980 Universal Swivel 1970 lbs (894 kg) 1970 lbs (894 kg) Type of Brace SCh.40 See Fastener Information Calculation Based on CONCENTRIC Loading Angle of Brace 450 Mm. *please Note: These calculations are for TOLCOTm components only. Use of any Least Rad. of Gyration 0.42" (11 mm) other components voids these calculations and the listing of the assembly. L/R Value 200 Seismic Brace Assembly Detail TOLCO FIG. 980 Max Horizontal Load 1310 lbs (594 kg) UNIVERSAL SWAY BRACE A1TACH M ENT STEEL Other Requirements - FM Approved Loads PIPE " ,X T,,' Fastener Information Orientation to Connecting Surface NFPA Type B Fastener Type Bolt Diameter 1/2n. (12 mm) Length N/A Maximum Load 2050 lbs (930 kg) Prying Factor N/A TOLCO FIG. 4L PIPE CLAMP FOR SWAY BRACING Brace Identification on Plans onguiFreeei Brace Type Lateral[ ] Longitudinal [X] 4-Way F Sprinkler System Load Calculation (Fpw = CpWp) Cp = 0.5316 Diameter Type Length Total Length Weight Per Unit Length Total Weight 150 17.94 3" (80 mm) Sch. 10 50 ft (15.2 m) ft (15.2 m) lb/ft (11.82 kg/m) 397 lbs (180 kg) Subtotal Weight 397 lbs (180 kg) Wp (id. 15%) 457 lbs (207 kg) Main Size TypelSch. Spacing (ft) - ........ Sch. 10 5° I Total (Fpw) - Maximum Fpw per 9.3.5.5.2 (if applicable) 243 lbs (110 kg) N/A i wuoiduv ib buujt:vLw WI-Iris ano tunuiuuns per me ena user jicense agreement i vLbrace seismic i.aicuiauons Job #20-1830-04 1 3 Longitudinal Freezer NFPA Type B 3 Sch.10 Steel Pipe 50 0" (15.24 m) Longitudinal 1" Sch.40 7'0" (2.13 m) 200 450 1/2 (12mm) Bolt N/A Thermo Fisher 5781 Van Allen Way Brace Identification Brace Type (Per NFPA#13) Braced Pipe (ft) Spacing of Brace Orientation of Brace Bracing Material Maximum Brace Length Slenderness Ratio used for Load Calculation True Angle of Brace for Calculation Type of Fastener Length of Fastener Summary of Pipe within Zone of Influence 3" Sth.10 Steel Pipe (76.2 mm) 150 ft (15.2 m) G-Factor Used 0.5316 Allowance for Heads and Fittings 15% Conclusions Total Adjusted Load of Pipe in Zone of Influence 243 lbs (110 kg) Material Capacity 1310 lbs (594 kg) Fastener Capacity 2050 lbs (930 kg) Fig. 4L Clamp 730 lbs (331 kg) Fig.980 Universal Swivel 1970 lbs (894 kg) Structural Member Angle iron (3x2x1/4) Calculations prepared by WFP * The description of the Structural Member is for informational purposes only. T01-Brace software calculates the brace assembly only, not the structure it is attached to. Calculated with lOLBrace'" 8 Visit us at www.tolco.com Contractor: Western Fire Protection Project Address: Thermo Fisher Address: 13630 Danielson Street Poway, CA 92064 FMTON 5781 Van Allen Way Phone: 858-513-4949 Carlsbad, CA 92008 Licence: Job #20-1830-04 Calculations based on 2016 NFPA Pamphlet #13 Brace Information TOLCOTM Brace Components Maximum Brace Length TO" (2.134 m) TOLCOTM Component Listed Load Adjusted Load Diameter of Brace 1" Fig. 1001 Clamp 1200 lbs (544 kg) 1200 lbs (544 kg) Fig.980 Universal Swivel 1970 lbs (894 kg) 1970 lbs (894 kg) Type of Brace Sch.40 See Fastener Information Angle of Brace 45' Min. *Calculation Based on CONCENTRIC Loading *please Note: These calculations are for TOLCOTM components only. Use of any other components voids these calculations and the listing of the assembly. Least Rad. of Gyration 0.42 (11 mm) Seismic Brace Assembly Detail hR Value 200 Max Horizontal Load 1310 lbs (594 kg) TOLCO FIG. 98 Other Requirements - FM Approved Loads UNIVERSAL SWAY BRACE ATTACHMENT Fastener Information 0 STEEL PIPE / Orientation to Connecting Surface NFPA Type B Fastener - Type Bolt + Diameter 1/2n. (12 mm) / Length N/A TOLCO FIG. 1001 FAST CLAMP Maximum Load 2050 lbs (930 kg) Brace Identification on Plan) Prying Factor N/A Brace Type Lateral [X] Longitudinal [] 4-Way [1 Sprinkler System Load Calculation (Fpw = CpWp) Cp= 0.531_ Diameter Type Length Total Length Weight Per Unit Length Total Weight 4(100mm) Sch. 10 15 ft (4.6 rn) 15ft(4.6 rn) 11.78 lb/ft (17.53 kg/m) 177 lbs (80 kg) 3" (80 mm) Sch. 10 18 ft (5.5 rn) 18 ft (5.5 m) 7.94 lb/ft (11.82 kg/m) 143 lbs (65 kg) 2" (50 mm) Sch. 10 188 ft (57.3 m) 188 ft (57.3 rn) 4.22 lb/ft (6.28 kg/m) 793 lbs (360 kg) Subtotal Weight 1113 lbs (505 kg) Wp (id. 15%) 1280 lbs (581 kg) Main Size . Sch. Type/Sch. 10 Spacing (ft) 15 Total (Fpw) - Maximum Fpw per 9.3.5.5.2 (if applicable) 680 lbs (309 kg) 1635 lb 41 kg) I uJLDraIe veriuri Ot use OT I IS suoject to terms and conditions per the end user license agreement IuLbrace eusmuc Laicuiaxions Thermo Fisher Job #20-1830-04 5781 Van Allen Way P4,WM,fi**1abUft Brace Identification Brace Type (Per NFPA#13) Braced Pipe (ft) Spacing of Brace Orientation of Brace Bracing Material Maximum Brace Length Slenderness Ratio used for Load Calculation True Angle of Brace for Calculation Type of Fastener Length of Fastener 4 Lateral Freezer In rack NFPA Type B 4 Sch.10 Steel Pipe 150' (4.57m) Lateral 1" Sch.40 70(2.13 m) 200 450 1/2 (12mm) Bolt N/A Summary of Pipe within Zone of Influence ,V' Sch.10 Steel Pipe (101.6 mm) 115 ft(4.6 m) 3" Sch.10 Steel Pipe (76.2 mm) 18 ft (5.5 m) 2" Sch.10 Steel Pipe (50.8 mm) 188 ft (57.3 m) G-Factor Used 0.5316 Allowance for Heads and Fittings 15% Conclusions Total Adjusted Load of Pipe in Zone of Influence 680 lbs (308 kg) Material Capacity 1310 lbs (594 kg) Fastener Capacity 2050 lbs (930 kg) Fig. 1001 Clamp 1200 lbs (544 kg) Fig.980 Universal Swivel 1970 lbs (894 kg) Structural Member Angle iron (3x2x1/4) Calculations prepared by WFP * The description of the Structural Member is for informational purposes only. T0LBrac&" software calculates the brace assembly only, not the structure it is attached to. Calculated with TOLBracem 8 Visit us at www.tolco.com Contractor: Western Fire Protection Address: 13630 Danielson Street Poway, CA 92064 FAXON Phone: 858-5134949 Licence: Calculations based on 2016 NFPA Pamphlet #13 Project Address: Thermo Fisher 5781 Van Allen Carlsbad, CA 92008 lr,h fl1flJM Brace Information Maximum Brace Length 7' 0(2.134 m) Diameter of Brace 1" Type of Brace SCh.40 Angle of Brace 450 Mm. Least Rad. of Gyration 0.42" (11 mm) LJR Value 200 Max Horizontal Load 1310 lbs (594 kg) Other Requirements - FM Approved Loads Fastener Information Orientation to Connecting Surface NFPA Type B Fastener Type Bolt Diameter 1/2n. (12 mm) Length N/A Maximum Load 2050 lbs (930 kg) TOLCOTM Brace Components TOLCOTM Component Listed Load Adjusted Load Fig. 4L Clamp 730 lbs (331 kg) 730 lbs (331 kg) Fig.980 Universal Swivel 1970 lbs (894 kg) 1970 lbs (894 kg) See Fastener Information *Calculation Based on CONCENTRIC Loading *please Note: These calculations are for TOLCOIM components only. Use of any other components voids these calculations and the listing of the assembly. Seismic Brace Assembly Detail TOLCO FIG. 980. UNIVERSAL SWAY BRACE ATTACHMENT STEEL PIPE TOLCO FIG. 4L PIPE CLAMP FOR SWAY BRACING Brace Identification on Plans Prying Factor N/A Brace Type Lateral [] Longitudinal [X] 4-Way I Sprinkler System Load Calculation (Fpw = CpWp) Cp= 0.5316 Diameter Type Length Total Length Weight Per Unit Length 150 Total Weight 4" (100 mm) Sch. 10 150 ft (15.2 m) ft (15.2 m) 111.78 lb/ft (17.53 kg/m) 589 lbs (267 kg) Subtotal Weight 589 lbs (267 kg) Wp (id. 15%) 677 lbs (307 kg) Main Size Type/Sch. - Sch. 10 Spacing (ft) so I Total (Fpw) Maximum Fpw per 9.3.5.5.2 (if applicable) 360 lbs (163 kg) N/A ,jav U, •jiia.v is suujna LU .51111* wIU cur,uiuu.w pet uie ettu user uicerise agreetrlerit ivLbrace seismic ..aicuiauons Thermo Fisher Job #20-1830-04 5781 Van Allen Way Poweizng BismessYVwfde Brace Identification Brace Type (Per NFPA#13) Braced Pipe (ft) Spacing of Brace Orientation of Brace Bracing Material Maximum Brace Length Slenderness Ratio used for Load Calculation True Angle of Brace for Calculation Type of Fastener Length of Fastener 4 Longitudinal Freezer In rack NFPA Type B 4 Sch.10 Steel Pipe 500" (15.24m) Longitudinal 1 Sch.40 7'0" (2.13 m) 200 450 1/2 (12mm) Bolt N/A Summary of Pipe within Zone of Influence 4 Sch.10 Steel Pipe (101.6 mm) 150 ft (115.2 m) G-Factor Used 0.5316 Allowance for Heads and Fittings 15% Conclusions Total Adjusted Load of Pipe in Zone of Influence 360 lbs (163 kg) Material Capacity 1310 lbs (594 kg) Fastener Capacity 2050 lbs (930 kg) Fig. 4L Clamp 730 lbs (331 kg) Fig.980 Universal Swivel 1970 lbs (894 kg) Structural Member Angle iron (3x2x1/4) Calculations prepared by WFP * The description of the Structural Member is for informational purposes only. T0LBrace" software calculates the brace assembly only, not the structure it is attached to. Calculated with TOLBrace° 8 Visit us at www.tolco.com Contractor: Western Fire Protection Project Address: Thermo Fisher Address: 13630 Danielson Street Poway, CA 92064 5781 Van Allen "."'' Phone: 858-5134949 Carlsbad, CA 92008 Licence: Job # 20-1830-04 Calculations based on 2016 NFPA Pamphlet#13 Brace Information TOLCOTM Brace Components Maximum Brace Length 9'0" (2.743 m) TOLCOTM Component Listed Load Adjusted Load Diameter of Brace 1.25" Fig. 1001 Clamp 1470 lbs (667 kg) 1470 lbs (667 kg) Fig.980 Universal Swivel 2310 lbs (1048 kg) 2310 lbs (1048 kg) Type of Brace Sch.40 Fig.825 Across Beam 1670 lbs (758 kg) N/A Angle of Brace 60' Min. *Calculation Based on CONCENTRIC Loading *please Note: These calculations are for TOLCOTM components only. Use of any other components voids these calculations and the listing of the assembly. Least Rad. of Gyration 0.54" (14 mm) Seismic Brace Assembly Detail UR Value 200 Max Horizontal Load 2173 lbs (986 kg) TOLCO FIG. 825 - - - BAR JOIST SWAY BRACE ATTACHMENT Other Requirements - FM Approved Loads TOLCO FIG. 980 0 Fastener Information UNIVERSAL SWAY BRACE ATTACHMENT 0 Orientation to Connecting Surface NFPA Type C STEEL PIPE Fastener Type Fig.825 Across Beam Diameter N/A + Length N/A Maximum Load 1670 lbs (758 kg) TOLCO FIG. 1001 / FAST CLAMP Ambient Warehouse Brace Identification on Plans ateiáE Prying Factor N/A [Brace Type Lateral [Xl Longitudinal [ ] 4-Way Sprinkler System Load Calculation (Fpw = CpWp) Cp = 0.5316 Diameter Type Length Total Length Weight Per Unit Length Total Weight 140 4(100mm) Sch. 10 140ft(12.2m) ft (12.2 m) 11.78 lb/ft (17.53kg/m) 471 lbs (214kg) Subtotal Weight 471 lbs (214 kg) Wp (id. 15%) 542 lbs (246 kg) Main Size Type/Sch. - 4" Sch. 10 Spacing (ft) 40 I Total (Fpw) Maximum Fpw per 9.3.5.5.2 (if applicable) 288 lbs (131 kg) 769 lb (8 kg) uLbrace -- version ot use or i uLurace "us suDject to tenns and conditions per true end user license agreement .uLrace eusmic Laicuiaxions Thermo Fisher Job #20-1830-04 5781 Van Allen Way seeng 8wwss 4tKde Brace Identification Brace Type (Per NFPA#13) Braced Pipe (ft) Spacing of Brace Orientation of Brace Bracing Material Maximum Brace Length Slenderness Ratio used for Load Calculation True Angle of Brace for Calculation Type of Fastener Length of Fastener 4 Lateral NFPA Type C 4" Sch.10 Steel Pipe 40 0" (12.19 m) Lateral 1.25 Sch.40 9'0" (2.74 m) 200 60" Fig.825 Across Beam N/A Summary of Pipe within Zone of Influence 4" Sch.10 Steel Pipe (101.6 mm) 140 ft (12.2 m) G-Factor Used 0.5316 Allowance for Heads and Fittings 15% Conclusions Total Adjusted Load of Pipe in Zone of Influence 288 lbs (131 kg) Material Capacity 2173 lbs (986 kg) Fastener Capacity 1670 lbs (758 kg) Fig. 1001 Clamp 1470 lbs (667 kg) Fig.980 Universal Swivel 2310 lbs (1048 kg) Structural Member Open web steel truss Calculations prepared by WFP * The description of the Structural Member is for informational purposes only. TOLBrace"" software calculates the brace assembly only, not the structure it is attached to. Calculated with TOLBrace'" 8 Visit us at www.tolco.com Contractor: Western Fire Protection Project Address: Thermo Fisher Address: 13630 Danielson Street ,TON Poway, CA 92064 a 5781 Van Allen Way Phone: 858-513-4949 Carlsbad, CA 92008 Licence: Job # 20-1830-04 Calculations based on 2016 NFPA Pamphlet #13 Brace Information TOLCOTM Brace Components Maximum Brace Length 9'0" (2.743 m) TOLCOTM Component Listed Load Adjusted Load Diameter of Brace 1.25' Fig. 4L Clamp 890 lbs (404 kg) 890 lbs (404 kg) Fig.980 Universal Swivel 2310 lbs (1048 kg) 2310 lbs (1048 kg) Type of Brace SCh.40 Fig.825 Along Beam 770 lbs (349 kg) N/A Angle of Brace 600 Min. *Calculation Based on CONCENTRIC Loading *pl se Note: These calculations are for TOLCOTM components only. Use of any other components voids these calculations and the listing of the assembly. Least Rad. of Gyration 0.54" (14 mm) Seismic Brace Assembly Detail URValue 200 TOLCO FIG. 825 Max Horizontal Load 2173 lbs (986 kg) BAR JOIST SWAY BRACE ATTACHMENT Other Requirements - FM Approved Loads TOLCO FIG. 980 0 UNIVERSAL SWAY BRACE ATTACHMENT ol STEEL PIPE / Fastener Information Orientation to Connecting Surface NFPA Type C Fastener Type Fig.825 Along Beam / Diameter N/A TOLCO FIG. 4L PIPE CLAMP FOR 0 SWAY BRACING, . Length N/A Maximum Load 770 lbs (349 kg) q -" Ambient Warehouse Brace Identification on Plans ôñittklina!) Prying Factor N/A Brace Type Lateral[ ] Longitudinal [X] 4-Way Sprinkler System Load Calculation (Fpw = CpWp) Cp= 0.5316 Diameter Type Length Total Length Weight Per Unit Length Total Weight 4" (100 mm) Sch. 10 180 ft (24.4 m) 80 ft (24.4 m) 111.78 lb/ft (17.53 kg/m) 942 lbs (427 kg) Subtotal Weight 942 lbs (427 kg) Wp (id. 15%) 1083 lbs (491 kg) Main Size Type/Sch. 4" Sch. 10 Spacing (ft) 80 I Total (Fpw) Maximum Fpw per 9.3.5.5.2 (if applicable) 576 lbs (261 kg) N/A I uL.orace - version o use or i urace "is suoject to terms ana conditions per me ena user license agreement uuLbrace eusmic ..aicuuauons Thermo Fisher Job #20-1830-04 5781 Van Allen Way Brace Identification Brace Type (Per NFPA#13) Braced Pipe (ft) Spacing of Brace Orientation of Brace Bracing Material Maximum Brace Length Slenderness Ratio used for Load Calculation True Angle of Brace for Calculation Type of Fastener Length of Fastener 4 Longitudinal NFPA Type C 4" Sch.10 Steel Pipe 80'0" (24.38 m) Longitudinal 1.25" Sch.40 9 0" (2.74 m) 200 60° Fig.825 Along Beam N/A ft~*&dW&tS.,Wpf&* Summary of Pipe within Zone of Influence 4" Sch.10 Steel Pipe (101.6 mm) 180ft(24.4 m) G-Factor Used 0.5316 Allowance for Heads and Fittings 15% Conclusions Total Adjusted Load of Pipe in Zone of Influence 576 lbs (261 kg) Material Capacity 2173 lbs (986 kg) Fastener Capacity 770 lbs (349 kg) Fig. 4L Clamp 890 lbs (404 kg) Fig.980 Universal Swivel 2310 lbs (1048 kg) Structural Member Open web steel truss Calculations prepared by WFP * The description of the Structural Member is for informational purposes Only. TOL6race°" software calculates the brace assembly only, not the structure it is attached to. Calculated with TOLBrace'" 8 Visit us at www.tolco.com Contractor: Western Fire Protection Project Address: Thermo Fisher Address: 13630 Danielson Street Poway, CA 92064 FiliaTON 5781 Van Allen Way Phone: 858-513-4949 Carlsbad, CA 92008 Licence: Job # 20-1830-04 Calculations based on 2016 NFPA Pamphlet #13 Brace Information TOLCOTM Brace Components Maximum Brace Length 9'0" (2.743 m) TOLCOTM Component Listed Load Adjusted Load Diameter of Brace 1.25" Fig. 1001 Clamp 890 lbs (404 kg) 890 lbs (404 kg) Fig.980 Universal Swivel 2310 lbs (1048 kg) 2310 lbs (1048 kg) Type of Brace Sth.40 Fig.825 Across Beam 1670 lbs (758 kg) N/A Angle of Brace 60° Min. *Calculation Based on CONCENTRIC Loading *PleaseNote: These calculations are for TOLCOTM components only. Use of any other components voids these calculations and the listing of the assembly. Least Rad. of Gyration 0.54" (14 mm) Seismic Brace Assembly Detail LJR Value 200 Max Horizontal Load 2173 lbs (986 kg) TOLCO FIG. 825 - - - BAR )OIST SWAY BRACE ATTACHMENT Other Requirements - FM Approved Loads fi TOLCO FIG. 980 Fastener Information UNIVERSAL SWAY BRACE ATTACHMENT oil Orientation to Connecting Surface NFPA Type C STEEL PIPE Fastener Type Fig.825 Across Beam , Diameter N/A + Length N/A Maximum Load 1670 lbs (758 kg) TOLCO FIG. 1001 FAST CLAMP Ambient Warehouse Brace Identification on Plans ([átëraI Prying Factor N/A Brace Type Lateral IX] Longitudinal [1 4-Way Sprinkler System Load Calculation (Fpw = CpWp) Cp = 0.5316 Diameter Type Length Total Length Weight Per Unit Length 140 123.03 Total Weight 6(150mm) Sch. 10 40ft(12.2m) ft (12.2m) lb/ft (34.27 kg/m) 921 lbs (418 kg) Subtotal Weight 921 lbs (418 kg) Wp (incl. 15%) 1059 lbs (480 kg) Main Size Type/Sch. - 6" Sch. 10 Spacing (ft) 40 I Total (Fpw) Maximum Fpw per 9.3.5.5.2 (if applicable) 563 lbs (255 kg) 1900 lb (861 kg) j IuL.braoe - version at use or i uurace is suojectro terms and conauuons per me end user license agreement iurace eismuc aucuuations I al, TON sWd,fds Thermo Fisher 5781 Van Allen Way Brace Identification Brace Type (Per NFPA#13) Braced Pipe (ft) Spacing of Brace Orientation of Brace Bracing Material Maximum Brace Length Slenderness Ratio used for Load Calculation True Angle of Brace for Calculation Type of Fastener Length of Fastener Job # 20-1830-04 6 Lateral NFPA Type C 6' Sch.10 Steel Pipe 400" (12.19 m) Lateral 1.25" Sch.40 9' 0' (2.74 m) 200 60° Fig.825 Across Beam N/A Summary of Pipe within Zone of Influence 6" Sch.10 Steel Pipe (152.4 mm) 140 ft (12.2 m) G-Factor Used 0.5316 Allowance for Heads and Fittings 15% Conclusions Total Adjusted Load of Pipe in Zone of Influence 563 lbs (255 kg) Material Capacity 2173 lbs (986 kg) Fastener Capacity 1670 lbs (758 kg) Fig. 1001 Clamp 890 lbs (404 kg) Fig.980 Universal Swivel 2310 lbs (1048 kg) Structural Member Open Web Steel truss Calculations prepared by WFP * The description of the Structural Member is for informational purposes Only. T01-Brace" software calculates the brace assembly only, not the structure it is attached to. Calculated with TOLBrace'° 8 Visit us at www.tolco.com Contractor: Western Fire Protection Project Address: Thermo Fisher Address: 13630 Danielson Street ETON Poway, CA 92064 5781 Van Allen Way Phone: 858.5134949 ftmft W,!tr4*IE3 Carlsbad, CA 92008 Licence: Job #20-1830-04 Calculations based on 2016 NFPA Pamphlet #13 Brace Information TOLCOTM Brace Components Maximum Brace Length 9'0" (2.743 m) TOLCOTM Component Listed Load Adjusted Load Diameter of Brace 1.25" Fig. 4L Clamp 830 lbs (376 kg) 830 lbs (376 kg) Fig.980 Universal Swivel 2310 lbs (1048 kg) 2310 lbs (1048 kg) Type of Brace Sch.40 Fig.825 Along Beam 770 lbs (349 kg) N/A Angle of Brace 600 Min. Calculation Based on CONCENTRIC Loading *please Note: These calculations are for TOLCOTM components only. Use of any other components voids these calculations and the listing of the assembly. Least Rad. of Gyration 0.54" (14 mm) Seismic Brace Assembly Detail LJR Value 200 TOLCO FIG. 825 Max Horizontal Load 2173 lbs (986 kg) BAR JOIST SWAY BRACE ATTACHMENT Other Requirements - FM Approved Loads TOLCO FIG. 980 UNIVERSAL SWAY BRACE ATTACHMENT STEEL PIPE /7 Fastener Information Orientation to Connecting Surface NFPA Type C _ Fastener Type Fig.825 Along Beam Diameter N/A TOLCO FIG. 4L PIPE CLAMP FOR Length N/A SWAY BRACING Maximum Load 770 lbs (349 kg) - _...._J Ambient Warehouse Brace Identification on Plans Prying Factor N/A Brace Type Lateral[ Longitudinal [X] 4-Way Sprinkler System Load Calculation (Fpw = CpWp) Cp = 0.5316 Diameter Type Length Total Length Weight Per Unit Length 140 123.03 Total Weight 6(150mm) Sch. 10 40ft(12.2m) ft (12.2 m) lb/ft (34.27 kg/m) 921 lbs (418 kg) Subtotal Weight 921 lbs (418 kg) Wp (id. 15%) 1059 lbs (480 kg) Main Size Type/Sch. Spacing (ft) 6" Sch. 10 40 I Total (Fpw) Maximum Fpw per 9.3.5.5.2 (if applicable) 563 lbs (255 kg) N/A i .... VerSion 0? use or TuLtirace7ii is suojectto terms ana conamons per me end user license agreement uvLDrace . eusmic .aicuiations Thermo Fisher 5781 Van Allen Way Brace Identification Brace Type (Per NFPA#13) Braced Pipe (ft) Spacing of Brace Orientation of Brace Bracing Material Maximum Brace Length Slenderness Ratio used for Load Calculation True Angle of Brace for Calculation Type of Fastener Length of Fastener Job # 20-1830-04 6 Longitudinal NFPA Type C 6" Sch.10 Steel Pipe 400" (12.19m) Longitudinal 1.25 Sch.40 9 0" (2.74 m) 200 60° Fig.825 Along Beam N/A Summary of Pipe within Zone of Influence 6 Sch.10 Steel Pipe (152.4 mm) 140 ft(12.2 m) G-Factor Used 0.5316 Allowance for Heads and Fittings 15% Conclusions Total Adjusted Load of Pipe in Zone of Influence 563 lbs (255 kg) Material Capacity 2173 lbs (986 kg) Fastener Capacity 770 lbs (349 kg) Fig. 4L Clamp 830 lbs (376 kg) Fig.980 Universal Swivel 2310 lbs (1048 kg) Structural Member Open web steel truss Calculations prepared by WFP * The description of the Structural Member is for informational purposes Only. TOLBrace" software calculates the brace assembly only, not the structure it is attached to. Calculated with T0LBrace'° 8 Visit us at www.tolco.com Western Fire Protection Inc. Thermo Fisher 5781 Van Allen Way Carlsbad, CA 92008 Automatic Wet Fire Sprinkler System 20-1830-04 Distribution Center Product Submittal 5-7-2021 1 13630 Danielson Street • Poway, CA 92064 9 Phone: (858) 513-4949 9 Fax: (858) 513-1322 SECTION DESCRIPTION CONTENTS SPRINKLERS TYCO K17-231 TY7151 SR UPRIGHT 16.8K TYCO ELO-231 B TY5 151 SR UPRIGHT 11.2K GLOBE GL8118 QR UPRIGHT 8K VICTAULIC SERIES FL-QR V3402 8K VICTAULIC V27 GUARD GLOBE MODEL JGS GUARD AND SHIELD 2. PIPE & FITTINGS BULLMOOSE SCH 10 & SCH 40 BLACK STEEL PIPE WHEATLAND SCH 10 & SCH 40 BLACK STEEL PIPE VICTAULIC FIRELOCK FITTINGS VICTAULIC FIRELOCK RIGID COUPLING STYLE 009N VICTAULIC FIRELOCK RIGID COUPLING STYLE 005H VICTAULIC FIRELOCK FLEXIBLE COUPLING STYLE 75 VICTAULIC STYLE 920 MECHANICAL TEE MERIT WELDED OUTLET FITTINGS SMITH COOPER DUCTILE IRON THREADED FITTINGS 3. VALVES WATTS MODEL 709 DCDA BACKFLOW RELIABLE MODEL DDX DIPA TYPE F VALVE GENERAL DRY AIR PAC VICTAULIC FIRELOCK STYLE 705 BUTTERFLY VALVE VICTAULIC FIRELOCK SERIES 717 CHECK VALVE 4. HANGERS &EQB TOLCO FIG 200 ADJUSTABLE BAND HANGER TOLCO FIG 25 SURGE RESTRAINER TOLCO FIG 100 ALL THREAD ROD TOLCO FIG 58 THREADED SIDE BEAM BRACKET TOLCO FIG 51 THREADED SIDE BEAM BRACKET TOLCO FIG 825 SWAY BRACE ATTACHMENT TOLCO FIG 980 SWIVEL SWAY BRACE ATTACHMENT TOLCO FIG 4L IN-LINE SWAY BRACE ATTACHMENT TOLCO FIG 1001 SWAY BRACE ATTACHMENT ERICO CADDY BRANCH LINE RESTRAINT 5. MISCELLANEOUS ARGCO FIRE SPRINKLER SPARE HEADBOX ARGCO FIRE SPRINKLER IDENTIFICATION SIGNS *MATERIALS MAY BE SUBSTITUTED WITH LISTED EQUAL DUE TO PRODUCT AVAILABILITY* Worldwide I tqciclo Contacts www.tyco-fire.com Model K17-231 - 16.8 K-factor Upright and Pendent Sprinklers Standard Response, Standard Coverage General Description The TYCO 16.8 K-factor, Model K17-231, Standard Response, Standard Coverage, Upright and Pendent Sprin- klers (Ref. Figure 1) are automatic sprin- klers of the frangible bulb type. They are standard response spray sprinklers which produce a hemispherical water distribution pattern below the deflector. The 16.8 K-factor, K17-231 Sprinklers were subjected to full scale, high-piled storage, fire tests to qualify their use in lieu of 8.0 or 11.2 K-factor standard spray sprinklers for the protection of high-piled storage. Higher flow rates can be achieved at much lower pressures with the 16.8 K-factor, K17-231 Sprinklers - making their use highly advantageous in high density applications, such as the pro- tection of high-piled storage. Applications for the 16.8 K-factor, Model K17-231 Pendent and Upright Sprinklers are expanding beyond the current listings/approvals. For infor- mation regarding research fire tests which may be acceptable to an author- ity having jurisdiction, please contact the Technical Services Department. ESM The 16.8 K-factor, Model K17-231 Upright and Pendent Sprinklers described herein must be installed and maintained in compliance with this document and with the applica- IMPORTANT Refer to Technical Data Sheet TFP2300 for warnings pertaining to regulatory and health information. Always refer to Technical Data Sheet TFP700 for the "INSTALLER WARNING" that provides cautions with respect to handling and instal- lation of sprinkler systems and com- ponents. Improper handling and installation can permanently damage a sprinkler system or its compo- nents and cause the sprinkler to fail to operate in a fire situation or cause it to operate prematurely. Page 1 of 4 We standards of the National Fire Pro- tection Association, in addition to the standards of any authorities having jurisdiction. Failure to do so may impair the performance of these devices. The owner is responsible for main- taining their fire protection system and devices in proper operating con- dition. Contact the installing contrac- tor or product manufacturer with any questions. Sprinkler Identification Number (SIN) Refer to Table A for sprinkler identifica- tion numbers. Technical Data Approvals UL and C-UL Listed FM Approved NYC Approved Refer to Table C for specific details on labo-ratory listings and approvals. The approvals apply to the service conditions indicated in the Design Criteria section. Finish Natural Brass Physical Characteristics Frame ............................Bronze Button ............................Bronze Sealing Assembly. . Beryllium Nickel w/TEFLON Bulb (5 mm).........................Glass Compression Screw ..................Brass Deflector ...........................Brass Additional Technical Data Refer to Table A for additional techni- cal data. AUGUST 2018 Operation The glass bulb contains a fluid that expands when exposed to heat. When the rated temperature is reached, the fluid expands sufficiently to shatter the glass bulb, allowing the sprinkler to activate and flow water. TFP332 Item Description TY7151) Sprinkler Identification Number (SIN) TY7251 TY7151 is a redesignation for c7151. G1888, and S8040 TY7251 is a redesignation for c7251. G1889, and S8041 K-factor, (gpm/psi) (lpm/bar) 16.8 gpm/psi (241,9 1pm/bar½) (55OF)(680C)1 Temperature Rating F ( C)1 200°F (93°C) 286°F (141°C) Thread Size 3/4 in. NPT Sprinkler Orientation Upright and Pendent Maximum Working Pressure, psi (bar) 175 psi (12,1 bar) Note: 1. Refer to Table C for laboratory listings and approvals. TABLE A MODEL K17-231 UPRIGHT AND PENDENT SPRINKLER TECHNICAL DATA a minimum deflector to top of stor- • a minimum deflector to top of stor- age clearance of 18 in. (457 mm); age clearance of 18 in. (457 mm); a minimum design density of 0.60 • a minimum design density of gpm/ft2 (24,4 mm/mm); 0.80 gpm/ft2 (32,6 mm/mm); a minimum residual (flowing) pres- • a minimum residual (flowing) sure of 7 psi (0,5 bar); pressure of 7 psi (0,5 bar); a minimum design area of 2000 ft2 • a minimum design area of 2000 ft2 (186 m2) for wet systems or 2600 ft2 (186 m2) for wet systems or 4500 ft2 (242 m2) for dry pipe systems (418 m2) for dry pipe systems TFP332 Page 2 of 4 _ 1 - Frame 6 2 - Button 5* 3 - Sealing Assembly 4 1/2 4 - Bulb ) 5 - Deflector (12,7 mm ________ ________ 2-3/8 6 - Compression IIIII';' NOMINAL (60,3 mm) Screw 2 MAKE-IN Temperature rating is indicated on deflector. * 1 WRENCH 3/4" FLAT NPT CROSS SECTION (UPRIGHJ PENDENT FIGURE 1 MODEL K17-231 UPRIGHT (TY7151) AND PENDENT (TY7251) SPRINKLERS Design Criteria UL and C-UL Listing Requirements The TYCO 16.8 K-factor, Model K17-231 Sprinklers may be installed in accor- dance with NFPA 13 standard sprinkler position and area/density flow calcu- lation requirements for light, ordinary, or extra hazard occupancies with a minimum residual (flowing) pressure of 7 psi (0,5 bar) in wet or dry pipe sprin- kler systems, or they may be installed in accordance with NFPA 13 standard sprinkler position and area/density flow calculation requirements for high piled storage occupancies (solid piled, palletized, rack storage, bin box, and shelf storage including but not limited to Class I-IV and Group A plastics) with a minimum residual (flowing) pressure of 7 psi (0,5 bar) for wet or dry pipe systems. The following two examples are typical of the types of arrangements permit- ted by NFPA 13. For all combinations of lesser and greater building heights, lesser and greater storage heights, storage arrangements, commodity classifications, and lesser or greater required design densities, refer to NFPA 13 for specifics. Example 1: NFPA 13 provides ceiling only protection (that is, no in-rack sprinklers) criteria using open frame (that is, no solid shelves) single, double, multiple-row, or portable rack storage (without the need for in-rack sprinkler protection) of cartoned unexpanded Group A or B plastics, or, cartoned expanded Group A or B plastics, with: a storage height of up to 20 ft (6,1 m); a maximum ceiling height of 27 ft (8,2 m); Example 2: NFPA 13 provides ceiling only protection (that is, no in-rack sprinklers) criteria using open frame (that is, no solid shelves) single, double, multiple-row, or portable rack storage (without the need for in-rack sprinkler protection) of cartoned unexpanded Group A or B plastics, or, cartoned expanded Group A or B plastics, with: a storage height of up to 25 ft (7,6 m); a maximum ceiling height of 30 ft (9,1 m); FM Approval Requirements The TYCO 16.8 K-factor, Model K17-231 (TY7151) Upright Sprinklers may be installed in accordance with the appli- cable control mode density/area guide- lines provided by Factory Mutual. (FM guidelines may differ from UL and C-UL Listing criteria.) I I I TFP332 Page 3 of 4 Storage Type NFPA FM Global (Upright Sprinklers Only) Sprinkler Type Standard Coverage Storage Response Type SR SR System Type Wet and Dry Wet and Dry 155°F (68°C)1 155°F (68°C)1 Temperature Rating F ( C)1 200°F (93°C) 200°F (93°C) 286°F (141°C) 286°F (141°C) Open Frame (i.e., no solid shelves) Single, Double, Multiple- Row, or Portable Rack Storage of Class -IV and Group A or Refer to NFPA 13 Refer to FM 2-0 and 8-9 B Plastics Solid Pile or Palletized Storage of Class l-IV and Group A or Refer to NFPA 13 Refer to FM 2-0 and 8-9 B Plastics Idle Pallet Storage Refer to NFPA 13 Refer to FM 2-0, 8-9, and 8-24 Rubber Tire Storage Refer to NFPA 13 Refer to FM 2-0 and 8-3 Roll Paper Storage (Refer to the Standard) Refer to NFPA 13 Refer to FM 8-21 Flammable/Ignitable Liquid Storage Refer to NFPA 30 Refer to FM 7-29 (Refer to the Standard) Aerosol Storage (Refer to the Standard) Refer to NFPA 30B Refer to FM 7-31 Automotive Components in Portable Racks Refer to NFPA 13 N/A (Control mode only; refer to the Standard) Notes: 1. Refer to Table C for laboratory listings and approvals. N/A - Not Applicable TABLE B MODEL K17-231 UPRIGHTAND PENDENT SPRINKLERS COMMODITY SELECTION AND DESIGN CRITERIA OVERVIEW BULB SPRINKLER FINISH _______________________ TYPE TEMPERATURE LIQUID NATURAL BRASS 75!F (68°C) Red (UPRIGHT..) K=16.8 (TY7151) 200°F (93°C) Green 1, 2, 3, 4 286°F(141°C) Blue 155°F (68°C) Red PENDENT 1, 2, 4 200°F (93°C) Green K=16.8 (TY7251) 286-F (141-C) Blue Notes: Listed by Underwriters Laboratories, Inc. (UL Listed). Listed by Underwriters Laboratories, Inc. for use in Canada (C-UL Listed). Approved by Factory Mutual Research Corporation (FM Approved). Approved by the City of New York under MEA 177-03-E. TABLE C LABORATORY LISTINGS AND APPROVALS (Refer To The Design Criteria Section) TFP332 Page 4 of 4 Installation The TYCO Model K17-231 Sprinklers must be installed in accordance with this section. General Instructions A leak tight 3/4 in. NPT sprinkler joint should be obtained by applying a min- imum-to-maximum torque of 10 to 20 lb-ft (13,4 to 26,8 N.m). Higher levels of torque may distort the sprinkler inlet with consequent leakage or impairment of the sprinkler. Do not install any bulb type sprinkler if the bulb is cracked or there is a loss of liquid from the bulb. With the sprin- kler held horizontal, a small air bubble should be present. The diameter of the air bubble is approximately 1/16 in. (1,6 mm). Step 1. With pipe thread sealant applied to the pipe threads, hand tighten the Model K17-231 Sprinkler into the sprinkler fitting. Step 2. Using the W-Type 8 Sprinkler Wrench (Ref. Figure 2) applied to the sprinkler Wrench Flats (Ref. Figure 1), tighten the Model K17-231 Sprinkler into the sprinkler fitting. Care and Maintenance The TYCO Ultra K17 Sprinklers must be maintained and serviced in accordance with this section. Before closing a fire protection system main control valve for maintenance work on the fire protection system that it controls, permission to shut down the affected fire protection systems must be obtained from the proper authorities and all personnel who may be affected by this action must be notified. Sprinklers that are found to be leaking or exhibiting visible signs of corrosion must be replaced. Automatic sprinklers must never, be painted, plated, coated, or other- wise altered after leaving the factory. Modified sprinklers must be replaced. Sprinklers that have been exposed to corrosive products of combustion, but have not operated, should be replaced if they cannot be completely cleaned by wiping the sprinkler with a cloth or by brushing it with a soft bristle brush. Care must be exercised to avoid damage to the sprinklers before, during, and after installation. Sprin- klers damaged by dropping, striking, wrench twist/slippage, or the like, must be replaced. Also, replace any sprinkler that has a cracked bulb or that has lost liquid from its bulb. Refer to Installation section for additional information. The owner is responsible for the inspec- tion, testing, and maintenance of their fire protection system and devices in compliance with this document, as well as with the applicable standards of the National Fire Protection Associ- ation, such as NFPA 25, in addition to the standards of any other authorities having jurisdiction. Contact the install- ing contractor or product manufacturer with any questions. Automatic sprinkler systems are rec- ommended to be inspected, tested, and maintained by a qualified Inspec- tion Service in accordance with local requirements and/or national codes. Limited Warranty For warranty terms and conditions, visit www.tyco-fire.com Ordering Procedure Contact your local distributor for avail- ability. When placing an order, indicate the full product name and Part Number (P/N). Sprinkler Assemblies with NPT Thread Connections Specify: (specify SIN), 16.8 K-factor, Model K17-231, (specify) temperature rating, (specify Pendent or Upright) Sprinkler, P/N (specify): Upright (SIN TY7151) 155°F (68°C)..................51-888-1-155 200°F (93°C) ................. 51-888-1 -200 286°F (141°C) .................51-888-1-286 Pendent (SIN TY7251) 155°F (68°C)..................51-889-1 -155 200°F (93°C) .................51-889-1-200 286°F (141°C) ................. 51-889-1 -286 Sprinkler Wrench Specify: W-Type 8 Sprinkler Wrench, P/N 56-892-1-001 I I 1400 Pennbrook Parkway, Lansdale, PA 194461 Telephone +1-215-362-0700 02018 Johnson Controls. All rights reserved. All specifications and other Information shown were current soot document revision data and are subject to changa without notice. NATIONAL FIRE PROTECTION ASSOCIATION and NFPA am rngiclumnd trademarks at National FirR Protection Association; TEFLON is registered trademark RI DuPont ø ,I Johnson '/j' Controls I tqcc(i, Worldwide www.tyco-fire.com Contacts Series ELO-231B - 11,2 K-factor Upright and Pendent Sprinklers Standard Response, Standard Coverage General Description TYCO Series ELO-231B 11.21K Standard Response, Standard Coverage Upright and Pendent Sprinklers (Ref. Figure 1) are automatic sprinklers of the frangible bulb type. They are standard response, spray sprinklers that produce a hemi- spherical water distribution pattern below the deflector. The 11.2 K-factor, ELO-231B Sprinklers were subjected to full-scale, high-piled storage fire tests to qualify their use in lieu of 5.6 or 8.0 K-factor standard spray sprinklers for the protection of high-piled storage. Higher flow rates can be achieved at much lower pressures with the 11.2 K-factor, ELO-231B Sprinklers, making their use highly advantageous in high density applications, such as the pro- tection of high-piled storage. Wax or lead coatings can be used to extend the life of the copper alloy components used in Series ELO-231 B Sprinklers beyond that which would otherwise be obtained when exposed to corrosive atmospheres. Although wax, lead, and polyester coated sprin- klers have passed the standard corro- sion tests of the applicable approval agencies, the testing is not repre- sentative of all possible corrosive atmospheres. Consequently, it is rec- ommended that the end-user be con- sulted with respect to the suitability of these corrosion resistant coatings IMPORTANT Refer to Technical Data Sheet TFP2300 for warnings pertaining to regulatory and health information. Always refer to Technical Data Sheet TFP700 for the "INSTALLER WARNING" that provides cautions with respect to handling and instal- lation of sprinkler systems and com- ponents. Improper handling and installation can permanently damage a sprinkler system or its compo- nents and cause the sprinkler to fail to operate in a fire situation or cause it to operate prematurely. Page 1 of 6 for any given corrosive environment. The effects of ambient temperature, concentration of chemicals, and gas/ chemical velocity, should be consid- ered, as a minimum, along with the cor- rosive nature of the chemical to which the sprinklers will be exposed. An upright intermediate level version of the Series ELO-231B Sprinklers for in-rack applications can be obtained by utilizing the Series ELO-231B Upright Sprinkler with the WSG-2 Guard & Shield, and a pendent intermediate level version of the Series ELO-231B Sprinklers can be obtained by utilizing the Series ELO-231B Pendent Sprinkler with the WS-2 Shield. If there is a pos- sibility of the pendent intermediate level version being exposed to mechanical damage, a G-2 Guard can be added. NOTICE The 11.2 K-factor, Series ELO-231B Upright and Pendent Sprinklers described herein must be installed and maintained in compliance with this document, as well as with the applica- ble standards of the National Fire Pro- tection Association (NFPA), in addition to the standards of any other authori- ties having jurisdiction. Failure to do so may impair the performance of these devices. The owner is responsible for main- taining their fire protection system and devices in proper operating con- dition. Contact the installing contrac- tor or product manufacturer with any questions. Installation of Series ELO-231B Pendent Sprinklers in recessed escutcheons will void all sprinkler warranties, as well as possibly void the sprinkler's Approvals and/or Listings. AUGUST 2018 Sprinkler Identification Numbers (SINs) Refer to Table A for sprinkler identifica- tion numbers. TFP342 UPRIGHT (UPRIGHT) TY5851 TY5151j L 7/16 (11,1 mm) NOMINAL MAKE-IN _r__ 2-13/16' (71,4 mm) TYP. VRENCH FLATS 1/2(12,7mm) NOMINAL MAKE-IN TFP342 Page 2 of 6 1/2' (12,7 mm) [NOMINAL MAKE-IN NPT HREAD RELIEF W IPT PENDENT TY5251 Components: 1 - Frame 2 - Seal Assembly 3 - Cap 4 - Bulb 5 - Compression Screw 6 - Deflector* * Temperature rating is indicated on deflector. CROSS SECTION FIGURE 1 SERIES ELO-231B 11.2K UPRIGHT 3/4 INCH NPT (TY5151), UPRIGHT 1/2 INCH NPT (TY5851), AND PENDENT 3/4 INCH NPT (TY5251) SPRINKLERS, STANDARD RESPONSE Technical Data Approvals UL and C-UL Listed FM Approved NYC Approved Refer to Table C for specific details on laboratory and approvals, including corrosion-resistant status. The approv- als apply to the service conditions indi- cated in the Design Criteria section.) Finishes Refer to Table C Physical Characteristics Frame ............................Bronze Cap ..............................Bronze Sealing Assembly. . Beryllium Nickel w/TEFLON Bulb (5 mm dia.) .....................Glass Compression Screw .................Bronze Deflector ..........................Bronze Additional Technical Data Refer to Table A for additional techni- cal data. Item Description TY5151- Upright 3/4 in. NPT) TY5251 -Pendent 3/4 in. NPT TY5851 - Upright 1/2 in. NPT Sprinkler Identification Number (SIN) 1Y5151 is a re-designation for Central SIN C5151. TY5251 is a re-designation for Central, Gem, and Star SINs C5251, 61871, and S2531, respectively. TY5851 is re-designation for central SIN c5851. K-factor, (gpm/psi) (lpm/bar) 11.2 GPM/psi½ (161,4 LPM/bar) 155 F(68 C)l Temperature Rating °F (°C)l 20LE.(93C) 1286 F(141C) Thread Size 3/4 in. NPT or 1/2 in. NPT Sprinkler Orientation Upright/Pendent Maximum Working Pressure, psi (bar) 175 psi (12,1 bar) Note: 1. Refer to Table C for laboratory listings and approvals. TABLE A SERIES ELO-231B 11.2K UPRIGHT AND PENDENT SPRINKLERS TECHNICAL DATA Operation The glass bulb contains a fluid that expands when exposed to heat. When the rated temperature is reached, the fluid expands sufficiently to shatter the glass bulb, allowing the sprinkler to activate and water to flow. Design Criteria UL and C-UL Listing Requirements TYCO Series ELO-231B 11.2K Standard Response, Standard Coverage Upright and Pendent Sprinklers are to be installed in accordance with NFPA 13 standard sprinkler position and area/ density flow calculation requirements for light, ordinary, or extra hazard occu- pancies, as well as high-piled storage occupancies (solid-piled, palletized, rack storage, bin box, and shelf storage including but not limited to Class I-IV and Group A plastics) with a minimum residual (flowing) pressure of 7 psi (0,5 bar) for wet or dry pipe systems. Refer to Table B for additional information. FM Approval Requirements The 11.2 K-factor, Model ELO-231B Sprinklers are to be installed in accor- dance with the applicable control mode density/area guidelines provided by FM Global. Note: FM Approval guidelines may differ from UL and C-UL Listing criteria. I I TFP342 Page 3 of 6 Storage Type NFPA FM Global Sprinkler Type Standard Coverage Storage Response Type SR SR System Type Wet, Dry Wet, Dry 155 F (68 C)1 155 F (68 C)1 Temperature Rating 'F ('C)' 200 F (93 C) 200 F (93 C) 286 F (141 C) 286 F (141 C) Open Frame (that is, no solid shelves) Single, Double, Multiple- Row, or Portable Rack Storage of Class l-IV and Group A or B Refer to NFPA 13 Refer to FM 2-0 and 8-9 Plastics Solid Pile or Palletized Storage of Class I-IV and Group A or B Refer to NFPA 13 Refer to FM 2-0 and 8-9 Plastics Idle Pallet Storage Refer to NFPA 13 Refer to FM 2-0, 8-9, and 8-24 Rubber Tire Storage Refer to NFPA 13 Refer to FM 2-0 and 8-3 Rolled Paper Storage (Refer to the standard.) Refer to NFPA 13 Refer to FM 8-21 Flammable Liquid Storage (Refer to the standard.) Refer to NFPA 30 Refer to FM 7-29 Aerosol Storage (Refer to the standard.) Refer to NFPA 30B Refer to FM 7-31 Automotive Components in Portable Racks (Control mode only, Refer to NFPA 13 N/A refer to the standard.) Note: 1. Refer to Table c for laboratory listings and approvals. N/A - Not Applicable TABLE B SERIES ELO-231B 11.2K UPRIGHT AND PENDENT SPRINKLERS COMMODITY SELECTION AND DESIGN CRITERIA OVERVIEW SPRINKLER FINISH SPRINKLER TEMPERATURE BULB TYPE RATING LIQUID NATURAL I CHROME LEAD WAX WAX-OVER-LEAD BRASS PLATED COATED 1 COATED COATED 155°F (68°C) Red UPRIGHT (fV151)&TY5851) 1,2, 3,4 200°F (93°C) Green (286°F(141°C) Blue 3 3a 155°F (68°C) Red PENDENT 1, 2, 3, 4 200°F (93°C) Green 286°F(141°C) Blue 3 3a Notes: Listed by Underwriters Laboratories. Inc. (UL) Listed by Underwriters Laboratories, Inc. for use in Canada (C-UL) Approved by FM Global (FM Approvals) Approved by the city of New York (NYC) under MEA 291-04-E a. Listed/Approved for a maximum ceiling temperature of 150F (66'C). TABLE C SERIES ELO-231B 11.2K UPRIGHT AND PENDENT SPRINKLERS, STANDARD RESPONSE LABORATORY LISTINGS AND APPROVALS TFP342 Page 4 of 6 FITTING SIDE TOWARDS SPRINKLER FITTING / WRENCH RECESS (END A) FIGURE 2 W-TYPE 3 SPRINKLER WRENCH Installation TYCO Series ELO-231B 11.2K Stan- dard Response, Standard Coverage Upright and Pendent Sprinklers must be installed in accordance with this section. A leak-tight 3/4 in. NPT sprinkler joint should be obtained by applying a min- imum-to-maximum torque of 10 to 20 lb-ft (13,4 to 26,8 N.m). A leak-tight 1/2 in. NPT sprinkler joint should be obtained by applying a minimum-to- maximum torque of 7 to 14 lb-ft (9,5 to 19,0 N.m). Higher levels of torque can distort the sprinkler inlet with con- sequent leakage or impairment of the sprinkler. Notes: Do not install any bulb type sprinkler if the bulb is cracked or there is a loss of liquid from the bulb. With the sprinkler held horizontally, a small air bubble should be present. The diameter of the air bubble is approxi- mately 1/16 in. (1,6 mm) for the 155°F (68°C) to 3/32 in. (2,4 mm) for the 286°F (141°C) temperature ratings. Do not attempt to make up for insuf- ficient adjustment in the escutcheon plate by under- or over-tightening the sprinkler. Re-adjust the position of the sprinkler fitting to suit. The Series ELO-231B Upright and Pendent Sprinklers must be installed in accordance with the following instructions. Note: Pendent sprinklers are to be installed in the pendent position; upright sprinklers are to be installed in the upright position. Step 1. With pipe thread sealant applied to the pipe threads, hand- tighten the sprinkler into the sprinkler fitting. Step 2. Tighten the sprinkler into the sprinkler fitting using only the W-Type 3 Sprinkler Wrench (Ref. Figure 2), except that an 8 in. or 10 in. adjustable wrench is to be used for wax-coated sprinklers. With reference to Figure 1, the W-Type 3 Sprinkler Wrench or the adjustable wrench, as applicable, is to be applied to the wrench flats. When installing wax-coated sprinklers with the adjustable wrench, additional care needs to be exercised to prevent damage to the wax coating on the sprinkler wrench flats or frame arms and, consequently, exposure of bare metal to the corrosive environment. The jaws of the wrench should be opened sufficiently wide to pass over the wrench flats without damaging the wax coating. Before wrench-tightening the sprinkler, the jaws of the wrench are to be adjusted to just contact the sprin- kler wrench flats. After wrench-tight- ening the sprinkler, loosen the wrench jaws before removing the wrench. After installation, the sprinkler wrench flats and frame arms must be inspected and the wax coating retouched (repaired) whenever the coating has been damaged and bare metal is exposed. The wax coating on the wrench flats can be retouched by gently applying a heated 1/8 in. diam- eter steel rod to the areas of wax that have been damaged, to smooth it back over areas where bare metal is exposed. Notes: Only retouching of the wax coating applied to the wrench flats and frame arms is permitted, and the retouching is to be performed only at the time of the initial sprinkler installation. The steel rod should be heated only to the point at which it can begin to melt the wax, and appropriate precau- tions need to be taken, when handling the heated rod, in order to prevent the installer from being burned. If attempts to retouch the wax coating with complete coverage are unsuc- cessful, additional wax can be ordered in the form of a wax stick (the end of which is color-coded). Only the correct color-coded wax is to be used, and retouching of wrench flats and frame arms is only permitted at the time of initial sprinkler installation. With the steel rod heated as previ- ously described, touch the rod to the area requiring additional wax with the rod angled downward, and then touch the wax stick to the rod approximately 1/2 in. away from the area requiring retouching. The wax will melt and run down onto the sprinkler. Care and Maintenance TYCO Series ELO-231B 11.2K Standard Response, Standard Coverage Upright and Pendent Sprinklers must be main- tained and serviced in accordance with this section. Before closing a fire protection system control valve for maintenance work on the fire protection system that it con- trols, permission to shut down the affected fire protection system must be obtained from the proper authorities and all personnel who may be affected by this action must be notified. Sprinklers that are found to be leaking or exhibiting visible signs of corrosion must be replaced. Automatic sprinklers must never be painted, plated, coated or other- wise altered after leaving the factory. Modified sprinklers must be replaced. Sprinklers that have been exposed to corrosive products of combustion, but have not operated, should be replaced if they cannot be completely cleaned by wiping the sprinkler with a cloth or by brushing it with a soft bristle brush. Care must be exercised to avoid damage to the sprinklers before, during, and after installation. Sprin- klers damaged by dropping, striking, wrench twist/slippage, or the like, must be replaced. Also, replace any sprin- kler that has a cracked bulb or that has lost liquid from its bulb. For additional information, refer to Installation section. Frequent visual inspections are rec- ommended to be initially performed for corrosion resistant sprinklers, after the installation has been completed, to verify the long term potential integrity of the sprinkler coatings. Thereafter, annual inspections per NFPA 25 should suffice; however, instead of inspecting from the floor level, a random sampling of close-up visual inspections should be made, so as to better determine the exact sprinkler condition and the long term integrity of the corrosion resistant coating, as it may be affected by the corrosive conditions present. The owner is responsible for the inspection, testing, and maintenance of their fire protection system and devices in compliance with this document, as well as with the applicable standards of the National Fire Protection Associ- ation, such as NFPA 25, in addition to the standards of any other authorities having jurisdiction. Contact the install- ing contractor or product manufacturer with any questions. I I SIN SPRINKLER FINISH NATURAL BRASS 501 11.2K UPRIGHT (1/2 in. NPT) TY5851 1 WAX COATED 510 11.2K UPRIGHT (3/4 in. NPT) TY5151 6 LEAD COATED 512 11.2K PENDENT (3/4 in. NPT) TY5251 7 WAX-OVER-LEAD COATED 8 r'ur'RA TEMPERATURE RATING 155 155°F (68°C) 200 200°F (93°C) 286 286°F (141°C) TFP342 Page 5 of 6 PIN 50-XXX-X-XXX 9 PLATED TABLED SERIES ELO-231B 11.2K UPRIGHT AND PENDENT SPRINKLERS, STANDARD RESPONSE PART NUMBER SELECTION It is recommended that automatic sprinkler systems be inspected, tested, and maintained by a qualified Inspec- tion Service in accordance with local requirements and/or national codes. Limited Warranty For warranty terms and conditions, visit www.tyco-fire.com. Ordering Procedure Sprinkler Assemblies with NPT Thread Connection Specify: Series ELO-231B 11.2K Stan- dard Response (specify Pendent or Upright) Sprinkler, SIN (specify), (specify temperature rating), with (specify) finish, P/N (specify from Table D) Sprinkler Wrench Specify: W-Type 3 Sprinkler Wrench, P/N 56-895-1-001 Wax Sticks (for retouching wrench-damaged wax coating) Specify: (specify Color) color-coded Wax Stick for retouching (specify tem- perature rating) temperature rated Series ELO-231B Sprinklers, P/N (specify): Red for 155°F (68°C) ...........56-065-1-155 Blue for 200°F (93°C) and 286°F (141°C) ............. 56-065-1 -286 Notes: Each wax stick is suitable for retouching up to twenty-five sprinklers. The wax used for 286°F (14 1°C) sprin- klers is the same as for 200°F (93°C) sprinklers, and, therefore, the 286°F (141°C) sprinkler is limited to the same maximum ceiling temperature as the 200°F (93°C)sprinkler, such as 150°F (66°C). TFP342 Page 6 of 6 1400 Pennbrook Parkway, Lansdale, PA 194461 Telephone +1-215-362-0700 @2018 Johnson Controls. All rights reserved. All specifications and other information shown more current as of document revision date and are subject to change without notice. NATIONAL FIRE PROTECTION A050CLETION and NFPA are registered tradovvlts 01 National Fire Protection Ao0vvivIivfl TEFLON ma registered trademark at Dupont Johnson 0)1'~o Controls 4077 -GLO)DE SERIES GL-QR STANDARD COVERAGE, QUICK RESPONSE UPRIGHT, PENDENT & RECESSED PENDENT SPRINKLERS K-FACTOR: 2.8, 4.2, 5.6, 8.0 GENERAL DESCRIPTION Globe Series GL-QR sprinklers are Listed Quick Response sprinklers which utilize a 3mm frangible glass bulb as the thermosensitive operating element. These sprinklers are available in upright, pendent, and recessed pendent orien- tations. They are Listed and Approved as Standard Cover- age sprinklers and are to be installed in accordance with the guidelines of the appropriate Installation Standard being mandated by the AHJ (i.e. NFPA 13; FM 2-0). These sprin- klers are available in various K-factors, temperatures and finishes as shown. Recessed escutcheons with either 1/2" or 3/4" vertical adjustment are available (See Approvals Ta- bles for appropriate sprinkler/escutcheon combinations and Listings). Some pendent models are additionally available with a special "Seismic" escutcheon to meet the IBC-ASCE/ SEI 7 requirements for use in seismic design categories C, D & E. OPERATION W RECESSED PENDENT (UPRIGHT) PENDENT RECESSED PENDENT SEISMIC IBClASCElSEI CODES FINISHES AND ACCESSORIES Upon exposure to heat such as from a fire, the fluid in the Finishes bulb expands, compressing the air bubble within the bulb. Factory Bronze • Chrome • White Polyester When the air bubble can no longer compress, the fluid ex- Black Polyester - special order pansion causes breakage of the glass bulb, resulting in re- Escutcheons lease of the water seat assembly, and discharge of water Brass • Chrome • White Polyester. Black Polyester from the sprinkler. Wrenches Standard • Recess • 1/2" NPT • 3/4" NPT TECHNICAL DATA SIN _____ Upright: GL2815, GL4215, GL5615, GL8115,(L8118) Pendent, Recessed Pendent: GL2801, GL4201, GL5601, GL8I01, GL8106 Approvals cULus• FM • LPCB • CE See Approval Tables Maximum Working Pressure 175 psi (l2bar) Factory tested to 500 psi (34 bar) Minimum Operating Pressure 7 psi (48 kPa) Temperature Rating See Approval Tables Materials of Construction Frame - bronze • Deflector - brass • Screw - brass Lodgement Wire - stainless steel • Bulb seat - copper Spring - nickel alloy. Seal - teflon Bulb - glass with alcohol based solution, 3mm Escutcheon Assembly - carbon steel SEP 2019 NOTE: Corrosion resistant coatings, where applicable, are utilized to extend the life of copper alloy sprinklers beyond that which would otherwise be expected when exposed to corrosive atmospheres. Although corrosion resistant coated sprinklers have passed the standard corrosion tests of the applicable approval agencies, the testing is not representative of all possible corrosive atmo- spheres. Consequently, it is recommended that the end user be consulted with respect to the suitability of these coatings for any given corrosive environment. The effects of ambient temperature, concentration of chemicals, humidity, and gas/chemical velocity, should be considered, as a minimum, along with the corrosive nature of the chemical to which the sprinklers will be exposed. NOTE: Users should refer to Globe's web site (www.globesprinkler.com) to ensure that the most recent technical literature is being utilized. GFS-1 00 PAGE 1 OF 6 INSTALLATION NOTICE I Do not install any bulb-type sprinkler if the bulb is cracked or there is loss of liquid from the bulb. Sprinklers should be tightened enough to obtain a leak-tight joint when water pressure is applied and/or hydrostatic test is performed. Sprinklers should not be overtightened as this can result in distortion and subsequent leak- age. It is recommended not to exceed 14 if-lb. (19.0 Nm) torque for 1/2 inch NPT sprinkler threads; 20 fl-lb. (26.8 Nm) to 3/4 inch NPT threads. Stepi. Sprinklers must be properly oriented. Step2. With pipe thread sealant applied to the pipe threads, hand tighten the sprinkler into the sprin- kler fitting. Note: Do not grasp the sprinkler by the deflector. Step3. Wrench-tighten the sprinkler using only the appropriate wrench. Wrenches are only to be applied to the sprinkler wrench flats or wrench hex as applicable. Note: Do not apply wrench to frame arms. FIGURE 1: STANDARD SPRINKLER WRENCH V NPT P/N 325390 V NPT P/N 312366 L. MOM FIGURE 2: RECESSED SPRINKLER WRENCH 1/2 NPT P/N 325391 %" NPT PIN 325401 CARE AND MAINTENANCE Prior to installation, it is important to read and follow the "Sprinkler Caution" sheet (GFS-840) included within each box of sprinklers. This sheet is available on Globe's web site (www.globesprinkler.com). Store sprinklers in a cool, dry place. Exposure to extreme heat will damage the thermal sensing element, possibly re- sulting in premature activation. Avoid direct sunlight. Replace any sprinkler that shows any corrosion, damage, or loss of liquid from the glass bulb. Do not attempt to paint or alter the sprinkler's coating in any manner after leaving the manufacturing plant. Do not attach wiring, ropes, decorations or fixtures to a sprinkler. Absence of an escutcheon, used to cover a ceiling hole, may delay sprinkler operation in a fire situation. It is the owner's responsibility for inspection, testing and maintenance of the fire sprinkler system with all components and devices in accordance with the National Fire Protection Association Pamphlet 25 as well as any other requirements as set forth by the local Authority Having Jurisdiction (AHJ). I I SEP 2019 GFS-100 PAGE 2 OF 6 TABLE A: UPRIGHT SPRINKLER APPROVALS SIN GL2815 GL4215 1' GL5615 1> GL8115* GL8118(1) ORIENTATION UPRIGHT UPRIGHT UPRIGHT UPRIGHT UPRIGHT K-FACTOR 2.8 (40 metric) 4.2 (60 metric) 5.6 (80 metric) 8.0 (115 metric) 8.0 (115 metric) NPT 1/2' (15mm) 1/2" (15mm) 1/2° (15mm) 1/2" (15mm) 3/4" (20mm) HAZARD L.H. L.H L.H./O.H. L.H./O.H. L.H./O.H. 135°F (57°C) 135°F (57°C) 135°F (57°C) 135°F (57°C) 135°F (57°C) 155°F (68°C) 155°F (68°C) 155°F (68°C) 155°F (68°C) 155°F (68°C) cULus Listed 175°F (79°C) 175°F (79°C) 175°F (79°C) 175°F (79°C) 175°F (79°C) 200°F (93°C) 200°F (93°C) 200°F (93°C) 200°F (93°C) 200°F (93°C) 286°F (141°C) 286°F (141°C) 286°F (141°C) 286°F (141°C) 286°F (141°C) 135°F (57°C) 135°F (57°C) 155°F (68°C) 155°F (68°C) FM Approved NA NA 175°F (79°C) NA 175°F (79°C) 200°F (93°C) 200°F (93°C) 286°F (141°C) 286°F (141°C) 135°F (57°C) 135°F (57°C) LPCB 155°F (68°C) 155°F (68°C) Ref. No. 147c/05 NA NA 175°F (79°C) NA 175°F (79°C) 200°F (93°C) 200°F (93°C) 286°F (141°C) 286°F (141°C) 135°F (57°C) 135°F (57°C) 155°F (68°C) 155°F (68°C) CE NA NA 175°F (79°C) NA 175°F (79°C) 200°F (93°C) 200°F (93°C) 286°F (141°C) 286°F (141°C) * FOR RETROFIT USE ONLY (1) cULus LISTED CORROSION RESISTANT WITH POLYESTER COATING. DEFLECTOR FRAME COMPRESSION SCREW BULB 2-1/4° ( BULB SEAT 57.1 mm) H FLAT WRENCH NPT 1/2' 7/16 (11.1 mm) NOMINAL MAKE-IN FIGURE 3: SERIES GL-QR UPRIGHT SPRINKLERS GL2815, GL4215, GL5615, GL8115 COMPRESSION 2-7/16' BULB SEAT- Ii (62 mm) WRENCH FLA 3/4° NPT SEP 2019 1/2" (12.7 mm) NOMINAL MAKE-IN FIGURE 4: SERIES GL-QR UPRIGHT SPRINKLERS GL8118 GFS-1 00 PAGE 3 OF 6 TABLE B: PENDENT SPRINKLER APPROVALS SIN GL2801 GL4201 (1) GL5601 (1) GL8I0I * GL8106 (1) ORIENTATION PENDENT PENDENT PENDENT PENDENT PENDENT K-FACTOR 2.8(40 metric) 4.2 (60 metric) 5.6 (80 metric) 8.0 (115 metric) 8.0 (115 metric) NPT 1/2" (15mm) 1/2" (15mm) 1/2" (15mm) 1/2" (15mm) 3/4" (20mm) HAZARD L.H. L.H L.H./O.H. L.H./O.H. L.H./O.H. 135°F (57°C) 135°F (57°C) 135°F (57°C) 135°F (57°C) 135°F (57°C) 155°F (68°C) 155°F (68°C) 155°F (68°C) 155°F (68°C) 155°F (68°C) cULus Listed 175°F (79°C) 175°F (79°C) 175°F (79°C) 175°F (79°C) 175°F (79°C) 200°F (93°C) 200°F (93°C) 200°F (93°C) 200°F (93°C) 200°F (93°C) 286°F (141°C) 286°F (141°C) 286°F (141°C) 286°F (141°C) 286°F (141°C) 135°F (57°C) 135°F (57°C) 155°F (68°C) 155°F (68°C) FM Approved NA NA 175°F (79°C) NA 175°F (79°C) 200°F (93°C) 200°F (93°C) 286°F (141°C) 286°F (141°C) 135°F (57°C) 135°F (57°C) LPCB 155°F (68°C) 155°F (68°C) Ref. No. 147c105 NA NA 175°F (79°C) NA 175°F (79°C) 200°F (93°C) 200°F (93°C) 286°F (141°C) 286°F (141°C) 135°F (57°C) 135°F (57°C) 155°F (68°C) 155°F (68°C) CE NA NA 175°F (79°C) NA 175°F (79°C) 200°F (93°C) 200°F (93°C) 286°F (141°C) 286°F (141°C) * FOR RETROFIT USE ONLY (1) cULus LISTED CORROSION RESISTANT WITH POLYESTER COATING. SEP 2019 7/16" (11.1 mm) NOMINAL MAKE-IN 1/2" NPT WRENCH FLAT BULB S O1DI $ BULB COMPRESSION SCREW FRAME DEFLECTOR FIGURE 5: SERIES GL-QR PENDENT SPRINKLERS GL2801, GL4201, GL5601, GLBIOI 1/2" (12.7 mm) NOMINAL MAKE-IN 3/4° NPT WRENCH FLAT 2-7/;" BULB SEAT BULB COMPRESSION SCREW FRAME DEFLECTOR FIGURE 6: SERIES GL-QR PENDENT SPRINKLERS GL8106 GFS-1 00 PAGE 4 OF 6 TABLE C: RECESSED PENDENT SPRINKLER APPROVALS SIN GL2801 (2) GL4201 ((2) GL5601 (1)(2) GL8I0I * (1)(2) GL8106 (1)(2)(3) ORIENTATION RECESSED FEND. RECESSED PEND. RECESSED PEND. RECESSED PEND. RECESSED FEND. K-FACTOR 2.8 (40 metric) 4.2 (60 metric) 5.6 (80 metric) 8.0 (115 metric) 8.0 (115 metric) NPT 1/2" 1/2" 1/2" 1/2" 3/4" HAZARD L.H. L.H L.H./O.H. L.H./O.H. L.H./O.H. 135°F (57°C) 135°F (57°C) 135°F (57°C) 135°F (57°C) 135°F (57°C) 155°F (68°C) 155°F (68°C) 155°F (68°C) 155°F (68°C) 155°F (68°C) cULus Listed 175°F (79°C) 175°F (79°C) 175°F (79°C) 175°F (79°C) 175°F (79°C) 200°F (93°C) 200°F (93°C) 200°F (93°C) 200°F (93°C) 200°F (93°C) 286°F (141°C) 286°F (141°C) 286°F (141°C) 286°F (141°C) 286°F (141°C) FM Approved 135°F (57°C) 135°F (57°C) Note: 1/2" Adjustable Recessed NA NA NA Escutcheon only 200°F (93°C) 200°F (93°C) 135°F (57°C) 135°F (57°C) LPCB 155°F (68°C) 155°F (68°C) - Ref. No. 147c10.5 NA NA 175°F (79°C) NA 175°F (79°C) 200°F (93°C) 200°F (93°C) 286°F (141°C) 286°F (141°C) 135°F (57°C) 135°F (57°C) E NA NA 155°F (68°C) NA 155°F (68°C) 175°F (79°C) 175°F (79°C) 200°F (93°C) 200°F (93°C) * FOR RETROFIT USE ONLY cULus LISTED CORROSION RESISTANT SPRINKLER WITH POLYESTER COATING cULus I LPCB ICE APPROVED WITH 1/2" ADJUSTABLE AND 3/4" ADJUSTABLE RECESSED ESCUTCHEON FM APPROVED FOR BRASS FINISH ONLY -2 15/16- DIA. 2" DIA. MIN. HOLE IN CEILIS -1 29/32" DIA. REDUCER 5/8' MAD.- 1/2" AD). ,7/8 MAD. - 3/4" AD). 1/8' (3mm) MIN. 5/8" (16mm) MAX. - 112" (12mm) AD). 7/8" (22mm) MAD.. 3/4" (19mm) AD). I. (25mm) MIN. 1 1/3" (38mm) MAX. - 1/2" AD). 1' MIN. 13/4" (44mm) MAX. -3/4" AD). 13/4" MAX. 3 7/8" DIA. MI CEILING REDUCER FIGURE 7: RECESSED ESCUTCHEON TABLED: STANDARD ESCUTCHEONS 3/4" ADJUSTABLE FRICTION FIT RECESSED ESCUTCHEON FINISH 1/2" NPT 3/4" NPT Chrome 325422 325423 Brass 325424 325420 White Polyester 325426-W 325427-W Black Polyester 325426-B 325427-B Stainless Steel 326140 NA 1/2" ADJUSTABLE FRICTION FIT RECESSED ESCUTCHEON FINISH 1/2" NPT 3/4" NPT Chrome 332071 326040 Brass 332072 326041 White Polyester 332073-W 326042-W Black Polyester 332073-B 326042-B FIGURE 8: SEISMIC RECESSED ESCUTCHEON Meets IBC-ASCE/SEI 7 Codes for Seismic areas C, D, & E. TABLE E: SEISMIC ESCUTCHEONS 3/4" ADJUSTABLE FRICTION FIT RECESSED ESCUTCHEON (SEISMIC) FINISH 1/2" NPT 3/4" NPT Chrome 326170 326177 White 326172-W 326178-W 1/2" ADJUSTABLE FRICTION FIT RECESSED ESCUTCHEON (SEISMIC) FINISH 1/2" NPT 3/4" NPT Chrome 326201 326208 White 326203-W 326210-W SEP 2019 GFS-100 PAGE 5 OF 6 TABLE F: PART NUMBER SELECTION PART NUMBER SIN + TEMPERATURE + FINISH xxxx xxx xx IliL F SIN I I I TEMPERATURE FINISH GL2815 2815 GL4215 4215 GL5615 5615 GL8115 8115 GL8118 1 8118 GL2801 2801 GL4201 4201 GL5601 5601 GL8101 8101 GL8106 I8106 135 135-F (57-C) 155 155-F (68-C) 175 175°F (79°C) 200 200°F (93°C) 286 286°F(141°C) 01 I BRONZE I I 02 I CHROME 03 WHITE POLYESTER 04 BLACK POLYESTER Note: All combinations may not be available. Refer to Listing/Approval Tables for available listed combinations. ORDERING INFORMATION SPECIFY: SPRINKLER Quantity. SIN • Orientation • Orifice" NPT• Temperature Rating Finish • Part Number (See TABLE F) ESCUTCHEON Quantity• Finish• Part Number (See TABLE D & TABLE E) WRENCH Quantity. Part Number 1/2" NPT Standard ....................325390 3/4" NPT Standard ....................312366 1/2" NPT Recess . . . . . . . . . . . . . . . . . . . . . 325391 3/4" NPT Recess . . . . . . . . . . . . . . . . . . . . . 325401 GLOBE® PRODUCT WARRANTY Globe agrees to repair or replace any of its manufactured products found to be defective in material or workmanship for a period of one year from date of shipment. For specific details of our warranty please refer to Price List Terms and Conditions of Sale (Our Price List). 4077 Airpark Dr. Standish, Ml 48658 989-846-4583 • www.globesprinkler.com Technical Support• 989-414-2600. techservice@gIobesprinkler.com 6) SEP 2019 GFS-100 PAGE 6 OF 6 Standard Coverage, Quick Response Upright, Pendent and Recessed Pendent Sprinklers '4tauiicr K2.8 (4.0), K4.2 (6.1), K5.6 (8.1), K8.0 (11.5) 41.01 1.0 PRODUCT DESCRIPTION QUICK RESPONSE UPRIGHT SPRINKLERS SIN V2815 V4215 V2704 V3402 ORIENTATION UPRIGHT UPRIGHT UPRIGHT UPRIGHT K-FACTOR' 2.8 Imp./4.0 S.I. 4.2 Impi6.1 S.I. 5.6 Imp./8.1 S.I. 8.0 Imp./11.5 SI. CONNECTION ½" NPT/15mm BSPT ½" NPT/15mm BSPT ½" NPT/15mm BSPT/IGS 3/4" NPT/20mm BSPT/IGS MAX.. WORKING PRESSURE - 175 psi/1200kPa - 175 p51/1200 kPa 175 200 kPa CUL '725 kPa 175 psi/1200 kPa GLOBE RE-DESIGNATION GL2815 GL4215 - - GLOBE EQUIVALENT - - GL5615 GL8118 QUICK RESPONSE PENDENT SPRINKLERS SIN V2801 V4201 V2708 V3406 ORIENTATION PENDENT PENDENT PENDENT PENDENT KFACTOR' -28Imp./4051 421mp/61SI 56Imp/81S1 80lmp/11551 CONNECTION ½" NPT/15mm BSPT ½" NPT/15mm BSPT ½" NPT/15mm BSPT/IGS 1/4" NPT/20mm BSPT/IGS MAX. WORKING PRESSURE 175 psi /1200 kPa 175 psi /10 kPa - 175 psi /1200 kPa cULus 250 p51/1725 kPa 175 psi/1 200 kPa GLOBE RE-DESIGNATION GL2801 GL4201 - - GLOBE EQUIVALENT - .. GL5601 GL8101 QUICK RESPONSE RECESSED PENDENT SPRINKLERS SIN V2801 V4201 V2708 V3406 ORIENTATION PENDENT PENDENT PENDENT PENDENT K-FACTOR' 2.8Impi4.OS.I. 4.21mpj6.1 SI. 5.61mpi8.1 S.I. 8.0 Imp./l1.5 S.I. CONNECTION ½' NPT/15mm BSPT ½" NPT/lsmm BSPT ½" NPT/15mm BSPT/IGS 3/4' NPT/20mm BSPT/IGS MAX. WORKING PRESSURE 175 psL/1200 kPa -- - 175 psl/1200kPa 175 psi/1 200 kPa __,cULus 250, psi/1 725 kPa 175 psi/1200 kPa ESCUTCHEON Recessed Recessed Recessed Recessed GLOBE RE-DESIGNATION GL2801 GL4201 - - GLOBE EQUIVALENT - - GL5601 GL8101 AVAILABLE GUARDS/SHIELDS SPRINKLER V28 _V42 V27 - V34 Upright Pendent U AVAILABLE WRENCHES SPRINKLER V56-2 Recessed V56 Open End V27-2 Recessed V27 Open End V34-2 Recessed .V34 Open End 3/,5 Hex-Bit V2815 and V4215 V2707 and V2704 V3402 V2706 and V2708 __ V2801, and V4201.U . __________ V3406 i U Factory Hydrostatic Test: 100% @ 500 psi/3447 kPa/34 bar Mm. Operating Pressure: UL/FM: 7 psi/48 kPa/.5 bar VdS: 5 psi/35 kPa/.35 bar (Upright only) Temperature Rating: See tables in section 2.0 1 For K-Factor when pressure is measured in bar, multiply S.I. units by 10.0 I ALWAYS REFER TO ANY NOTIFICATIONS AT THE END OF THIS DOCUMENT REGARDING PRODUCT INSTALLATION, MAINTENANCE OR SUPPORT. S victaulic.com 41.01 16343 Rev C Updated 04/2021 © 2021 Victaulic Company. All rights reserved. 1 iCtUIiC siit'tiiIit- rnm 2.0 CERTIFICATION/LISTINGS UPRIGHT APPROVALS/LISTINGS SIN V2815 V4215 V2704 V3402 Nominal K Factor Imperial 2.8 4.2 5.6 8.0 Nominal K Factor S.1.2 4.0 6.1 8.1 11.5 Orientation UPRIGHT UPRIGHT UPRIGHT UPRIGHT Approved Temperature Ratings F°IC° 135F/57°C 135°F157°C 135°F/57*C 135°F/57°C 155°F/68C 155F/68°C 155°F/68°C 155°F/68°C cULus 175°F/79C 175°F179°C 175F/79°C 175F/79°C 200°F/93C 200F/93°C 200°F/93°C 200F/93°C 286'F/141 *C 286°F/141°C 286°F/141 C 286°F/141°C 135°F157°C 135°F/57°C 155°F/68°C 155°F/68°C FM - - 175°F/79°C 175°F/79C 200F/93C 200°F/93°C 286°F/141°C 286°F/141°C 135°F/57°C 135°F/57°C 155°F/68°C 155F/68°C LPCB - - 175°F/79°C 175°FI79C 200°F/93°C 200°F/93C 286F/141C 286°F/141°C 135°F/57°C 135°F/57°C 155°F/68°C 155°F/68°C CE - - 175°F/79°C 175°F/79°C 200°F/93°C 200°F/93°C 286°F/141°C 286°F/141C 135F/57°C 135FI57*C 155F/68C 155°F/68°C VdS - - 175F/79°C 175°F/79C 200°F/93C 200°F/93°C 286°F/141°C 286F/141C CCC 155°F/68°C 155F/68C K-ZSTZ - - 175°F/79°C 286°F/141°C For K-Factor when pressure is measured in Bar, multiply S.I. units by 10. PENDENT APPROVALS/LISTINGS SIN V2801 I V4201 V2708 V3406 Nominal K Factor Imperial 2.8 j 4.2 5.6 8.0 Nominal K Factor S.l.2 - 4.0 - 6.1 8.1 11.5 Orientation PENDENT PENDENT PENDENT PENDENT Escutcheon Flush/Extended Flush/Extended Flush/Extended Flush/Extended Approved Temperature Ratings F°/C 135°F/57°C 135F/57°C 135F/57°C 135F/57'C 155°F/68C 155°F/68°C 155F/68C 155°F/68*C cULus 175°F/79°C 175°F/79°C 175°F/79°C 175°F/79°C 200°F/93°C 200°F/93°C 200F/93°C 200°F/93°C 286°F/141°C 286'F/141°C - 286°F/141°C - 286°F/141C 135°F/57°C 135F/57°C 155°F/68°C 155F/68°C FM - - 175°F/79°C 175F/79°C 200°F/93°C 200F/93C 286°F/141°C 286°F/141C CCC - - 155°F/68°C - - -. 155'F/68'C K-ZSTX - - 200°F/93°C .286 F/141 C 286°F/141°C - 2 For K-Factor when pressure is measured in Bar, multiply S.I. units by 10. NOTES Listings and approval as of printing. Where cULus Listed, Polyester and VC-250 Coatings Listed as Corrosion Resistant (V3402 with VC-250 Only) Where FM Approved, VC-250 Coating Approved as Corrosion Resistant New York City Acceptance - All UL Listed and/or FM Approved sprinklers acceptable to NYC per section 28-113 of the Administrative Code and the 01CR Rule 41.01 16343 Rev C Updated 04/2021 © 2021 Victaulic Company. All rights reserved. victaulic.com 2 \jitauIic I I I victaulic.com 2.0 CERTIFICATION/LISTINGS (CONTINUED) RECESSED PENDENT APPROVALS/LISTINGS SIN V2801 V4201 V2708 V3406 Nominal K Factor Imperial 2.8 4.2 5.6 8.0 Nominal KFactor 51.2 - 4.0 6.1 8.1 11.5 Orientation PENDENT PENDENT PENDENT PENDENT Escutcheon Recessed Recessed _Recessed - Recessed Approved Temperature Ratings F°/C° 135°F/57°C 135°F/57°C 135°F/57°C 155°F/68°C 155°F/68°C 1 °F °' 155°F/68°C cULus 175°F/79°C 175°F/79°C 1 55°F68° 175°F179°C 200°F/93°C 200°F/93°C 175°F'79°C 200°F193°C 286°F/141°C 286°F/141°C 200°F193°C 286°F/1 41°C FM 135°F/57°C 135°F/57°C WITH 1/2" ADJUSTME\IT - - ESCUTCHEON ONLY °C 175*F/79 200°F/93°C 175°F179°C 200°F/93°C K - ZSTX - 286°F/141°C 2 For K-Factor when pressure is measured in Bar, multiply S.I. units by 10. NOTES Listings and approval as of printing. Where cULus Listed, Polyester and VC-250 Coatings Listed as Corrosion Resistant (V3402 with VC-250 Only) Where FM Approved, VC-250 Coating Approved as Corrosion Resistant New York City Acceptance - All UL Listed and/or FM Approved sprinklers acceptable to NYC per section 28-113 of the Administrative Code and the 01CR Rule. 41.01 16343 Rev C Updated 04/2021 © 2021 Victaulic Company. All rights reserved. victaulic.com 3 X. 4tauijc r 1 5A6I 3mm 7 rn L 13 mm Nominal make-in victaulic.com S 3.0 SPECIFICATIONS - MATERIAL I Deflector: Bronze Bulb Nominal Diameter: 3.0mm Load Screw: Bronze Pip Cap: Bronze Spring Seal: PTFE coated Beryllium nickel alloy Frame: Brass Lodgement Spring: Stainless steel Installation Wrench: Ductile iron Sprinkler Frame Finishes: Plain brass Chrome plated White polyester painted34 Flat black polyester painted34 Custom polyester painted3 VC-2505 Not available on the Intermediate Level Style Pendent. UL Listed for corrosion resistance. UL Listed and FM Approved for corrosion resistance. NOTE For cabinets and other accessories refer to separate sheet. tfo!11 mm rNomina make-in Lodgement spring Pip cap and spring seal Bulb 58 mm Load screw Frame Deflector 31 mm PA6! Defector Load screw 37 mm Bulb Pip cap and spring seal Lodgement spring;im 2/2 / Frame L 1/2713 mm Nominal make-in W/l3mm Nominal make-in Frame Lodgement spring Pip cap and spring seal 63mm Bulb Load screw Deflector Deflector Load screw Bulb Pip cap and spring seal Lodgement spring Frame 1A6/ Deflector 40 mm Load screw Bulb Pip cap and spring seal 57 mm Lodgement spring v__ Frame L /io/11 mm Nominal make-in PA/I Deflector 37 mm Load screw 2½'! Bulb Pip cap and spring seal Lodgement spring im Frame L 1/2713 mm Nominal make-in 41.01 16343 Rev C Updated 04/2021 © 2021 Victaulic Company. All rights reserved. victaulic.com 4 ___________ I I I victaulic.com 4.0 DIMENSIONS 2/8"/6O mm - 2751 mm -i Hole in ceiling '/8722 mm Max. (3/4" Ad).) 1/8 /16 mm Max. (½ Adj.) V8'/3 mm Mm. Typical ceiling l%734 mm Mm. (½ Ad).) 1 Ys"/29 mm Mm. (~ Adj) I Finished surface 1'/s"/47 mm Max. %W) 25A6"/75 mm 2%76O mm 2751 mm - Hole in ceiling W/lômm Max. (½ Ad).) 7/s"/22 mm Max. (3/4"Adj.) W/3 mm Mm. Typical ceiling Finished surface 17/8"/47 mm Max it 2'A6775 mm 1Ya"/29 mm Min. (1/4" Adj.) 13/s734 mm Mm. (½ Ad).). 2/876O mm 2/51 mm Hole in ceiling 1/25 mm Max. (1/4 Ad).) W/19 mm Max. (½ Ad).) _______ /476 mm Mm _________ Typical ceiling 1'Av/30 mm Mm. (1/2"Adj.) 15A6"/24 mm Min. (~' Ad).) Finished surface 11'i'/43 mm Max. 2'Av/75 mm 41.01 16343 Rev C Updated 04/2021 © 2021 Victaulic Company. All rights reserved. victaulic.com 5 JtluIiC victaulic.com S 5.0 PERFORMANCE Sprinkler is to be installed and designed as per NFPA, FM Datasheets, or any local standards. 6.0 NOTIFICATIONS WARNING 1 Ok fOu Read and understand all instructions before attempting to install any Victaulic products. Always verify that the piping system has been completely depressur- ized and drained immediately prior to installation, removal, adjust- ment, or maintenance of any Victaulic products. Wear safety glasses, hardhat, and foot protection. Failure to follow these instructions could result in death or serious personal injury and property damage. These products shall be used only in fire protection systems that are designed and installed in accordance with current, applicable National Fire Protection Association (NFPA 13, 13D, 13R, etc.) standards, or equivalent standards, and in accordance with applicable building and fire codes. These standards and codes contain important information regarding protection of systems from freezing temperatures, corrosion, mechanical damage, etc. The installer shall understand the use of this product and why it was specified for the particular application. The installer shall understand common industry safety standards and potential consequences of improper product installation. It is the system designer's responsibility to verify suitability of materials for use with the intended fluid media within the piping system and external environment. The material specifier shall evaluate the effect of chemical composition, pH level, operating temperature, chloride level, oxygen level, and flow rate on materials to confirm system life will be acceptable for the intended service. Failure to follow installation requirements and local and national codes and standards could compromise system integrity or cause system failure, resulting in death or serious personal injury and property damage. 7.0 REFERENCE MATERIALS Ratings: All glass bulbs are rated for temperatures from -67°F/-550C to those shown in the table below. -40: Victaulic FireLockTM Automatic Sprinklers Installation and Maintenance Instructions l-V9: Style V9 Victaulic FireLocktM IGSTM Installation-ReadyTM Sprinkler Coupling Installation Instructions I I I I I User Responsibility for Product Selection and Suitability Each user bears final responsibility for making a determination as to the suitability of Victaulic products for a particular end-use application, in accordance with industry standards and project specifications, as well as Victaulic performance, maintenance, safety, and warning instructions. Nothing in this or any other document, nor any verbal recommendation, advice, or opinion from any Victaulic employee shall be deemed to alter, vary, supersede, or waive any provision of Victaulic company's standard conditions of sale, installation guide, or this disclaimer. Intellectual Property Rights No statement contained herein concerning a possible or suggested use of any material, product, service, or design is intended, or should be constructed, to grant any license under any patent or other intellectual property right of Victaulic or any of its subsidiaries or affiliates covering such use or design, or ass recommendation for the use of such material, product, service, or design in the infringement of any patent or other intellectual property right. The terms "Patented" or "Patent Pending" refer to design or utility patents or patent applications for articles and/or methods of use in the United States and/or other countries. Note This product shall be manufactured by Victaulic or to Victaulic specifications. All products to be installed in accordance with current Victaulic installation/assembly instructions. Victaulic reserves the right to change product specifications, designs and standard equipment without notice and without incurring obligations. Installation Reference should always be made to the Victaulic installation handbook or installation instructions of the product you are installing. Handbooks are included with each shipment of Victaulic products, providing complete installation and assembly data, and are available in POE format on our website at www.victaulic.com. Warranty Refer to the Warranty section of the current Price List or contact Victaulic for details. Trademarks Victaulic and all other Victaulic marks are the trademarks or registered trademarks of Victaulic company, and/or its affiliated entities, in the U.S. and/or other countries. S S 41.01 16343 Rev C Updated 04/2021 © 2021 Victaulic Company. All rights reserved. victaulic.com 6 \sttluIic, I X Xictaulicr FireLock® Sprinkler Guards PRODUCT DESCRIPTION V27 Intermediate Upright Guard V34 Intermediate Upright Guard The Models V27 and V34 Sprinkler Guards are designed to protect the sprinkler from mechanical damage. Each guard is constructed from chrome plated steel wire welded to steel plates. The Model V27 Guard is designed for use with the Model V27* Series pen- dent, intermediate pendent and upright sprinklers in standard and quick response. The Model V27 Series Intermediate Upright Guard is designed for use with the Model V27* Series See Victaulic publication 10.01 for details. V341V36 Guard upright sprinklers in stan- dard and quick response. The Model V34 Guard is designed for use with the Model V34* Series pen- dent, intermediate pendent and upright sprinklers, standard and large orifice, in standard and quick response. The Model V34 Intermedi- ate Upright Guard is designed for use with the Model V34* Series upright sprinklers in standard and quick response. Model V341V36 Guard is designed for use on either Models V34* or V36* Series sprinklers. The retaining screws are applied from one side of the part and are equipped with retainers to prevent loss of loose screws during instal- lation. *Please refer to chart on next page for specific sprinkler models. TECHNICAL SPECIFICATIONS Guard: Steel wire (13 gage) welded to steel (UNS C 10100) plates Finish: Chrome plated Screws: Two #8-32 X ½', Steel, Type 1A combination drive VICTAULIC® IS AN ISO 9001 CERTIFIED COMPANY Victaulic Company of America Victaulic Company of Canada Victaulic Europe Victaulic America Latina Victaulic Asia Pacific Phone: 1-800-PICK-PlC (1-800-742-5842) Phone: 905-884-7444 Phone: 32-9-381-1500 Phone: 610-559-3300 Phone: 65-6235-3035 Fax: 610-250-8811 Fax: 905-884-9774 Fan: 32-9-380-4438 Fan: 610-559-3608 Fax: 65-6235-0535 e-mail:pickvicco'victaulic,corn e-mail: viccanada@victaulic.com e-mail: xiceuro@victaulic.be e-mail: vical@victaulic.com e-mail: oicap@victaulic.com 2562 Rev 3/04 a Registered Trademark of Victaulic © Copyright 2004 Victaulic Printed in U.S.A. _ DIMENSIONS Dimensions Inches/millimeters Guard Height Diameter Part Number Agency Description For Use With A B SA51000020 UL, ULC, FM Model V27 Guard V2701, V2702, V2703, V2704, V2]05, V2706, 2,56 2.75 V2]0], V2708, V2723, V2724 65,1 69,9 SA51 000020 UL, ULC, FM Model V27 Intermediate Upright Guard V2703, V2704 2.56 651 4.00 101,6 SA52000020 UL, ULC, FM Model 934 Guard V3401, V3402, V3403, V3404, V3405, 93406, 2.56. 2.75 V3407, 93408, V3419, 93420 65,1 69,9 SA52000020 UL, ULC, FM Model 934 Intermediate Upright Guard 93401, 93402, V3403, 93404 2.56 65,1 4.00 101,6 SA72000020 UL, ULC Model 934/936 Guard 93601 through V3608, V3401, 93402, V3403, V3404, 2.56 2.75 93405, 93406, V340], V3408, 93419, 93420 65,1 69,9 I I V27 Guard (Upright or Pendent) V34 Guard (Upright or Pendent) V27 Intermediate Upright V34 Intermediate Upright ORDERING INFORMATION Please specify the following when ordering: Guard Part Number D Style (Guard only or Intermediate Upright) Li Quantity E"R-7""T ¶ I WARRANTY Victaulic Company agrees to repair or replace goods found to be defective in material and/ or workmanship for a period of one year from the date of shipment, as described in the Warranty section of the current Price List or Catalog. Any alteration to the sprinkler after it laves the factory, including but not limited to: deflection bending, painting, plating, coating or other modification, may render the sprinkler inoperative and will nullify approvals and void any warranty, express or implied, made by Victaulic Company. This product shall be manufactured by Victaulic Company. All products to be installed in accordance with current Victaulic installation/asse m bly instructions, Victaulic reserve the right to change product specifications, designs and standard equip m ent without notice and without incurring obligations. 40.83 - 2 6,BE 4077 Airpark Dr. Standish, Ml 48658 • 989w-846-4583 www.globesprinkler.com FIRE SPRINKLER CORPORATION Technical Support. 989-414-2600. techserviceglobesprinkler.com SPRINKLER GUARDS AND SHIELDS GUARD MODELS JG & JGS SHIELD MODEL GL SERIES GENERAL DESCRIPTION Globe Model JG sprinkler guards are accessories designed to protect specific GL Series sprinklers where the poten- tial of mechanical damage might be expected. In addition, GL Series water shields are used to protect the sprinkler's thermosensitive element from the water spray discharge of higher elevation sprinklers. The use of the Model JGS guard and shield assembly with an appropriate upright sprinkler provides an approved "Intermediate Level" upright sprinkler assembly suitable for rack storage applications (See Table A for specific approvals). Likewise, the use of the GL Series water shield with an appropriate pendent sprinkler, provides a listed/approved "Intermediate Level" pendent sprinkler as- sembly suitable for rack storage applications (See Table A for specific listings/approvals). If a head guard is also de- sired for this pendent "Intermediate Level" sprinkler assem- bly, the JG head guard, in accordance with Table A, may be utilized in addition to the shield. The guards are available in red or chrome plated. Model JG - (cULus) Part No. 312253-1 (Red) Part No. 312253-C (Chrome) Model JG - (FM) Part No. 312253-1-B (Red) TECHNICAL DATA Approvals See Table Aon page 2 Material Headguard - steel Water shield - steel - 3%" Diameter Finish Headguard - red or chrome Water shield - zinc plated Model JGS Part No. 321406 (Red enamel painted) Part No. 321407 (Chrome plated) NOTE: Users should refer to Globe's web site (wwwglobesprinkler.com) to assure that the most recent technical literature is being utilized. GL Series Shield Part No. 325706 1/2" NPT Part No. 325707 3/4" NPT APRIL 2019 GFS-450 (Formerly B-I) PAGE 3 OF 5 I TABLE A. SPRINKER GUARD, SHIELD, LISTINGS & APPROVALS SIN NO. T.D.S. RESPONSE ORIENTATION K-FACTOR NPT MODEL JG 312253-1-B MODEL JG 312253-1 312253-C SHIELD MODEL JIGS GL5601 GFS-100a QUICK PENDENT 5.6 1/2" FM cULus cULus, FM N/A GL5601 GFS-400 QUICK PENDENT 5.6 1/2" FM cULus cULus, FM N/A GL5615 GFS-100a QUICK UPRIGHT 5.6 1/2" FM cULus N/A cULus, FM GL5617 GFS-400 QUICK. UPRIGHT 5.6 1/2" N/A N/A Assembled cULus, FM N/A GL5651 GFS-430 STANDARD PENDENT 5.6 1/2" FM cULus cULus, FM N/A GL5661 GFS-100b STANDARD UPRIGHT 5.6 1/2' FM cULus N/A cULus, FM GL5663 GFS-430 STANDARD UPRIGHT 5.6 1/2" N/A N/A Assembled cULus, FM N/A GL810I GFS-400 QUICK PENDENT 8.0 1/2" N/A cULus cULus N/A GL8106 GFS-400 QUICK PENDENT 8.0 3/4" FM cULus cULus, FM N/A GL8115 GFS-100a QUICK UPRIGHT 8.0 1/2" N/A cULus N/A cULus GL8117 GFS-400 QUICK UPRIGHT 8.0 1/2" N/A N/A Assembled cULus N/A GL8118 GFS-100a QUICK UPRIGHT 8.0 3/4" FM cULus N/A cULus, FM GL8120 GFS-400 QUICK UPRIGHT 8.0 3/4" N/A N/A Assembled cULus, FM N/A GL8151 GFS-430 STANDARD. PENDENT 8.0 1/2" N/A cULus cULus N/A GL8156 GFS-430 STANDARD PENDENT 8.0 3/4" FM cULus cULus, FM N/A GL8161 GFS-100b STANDARD UPRIGHT 8.0 1/2" N/A cULus N/A cULus GL8163 GFS-430 STANDARD UPRIGHT 8.0 1/2' N/A N/A Assembled cULus N/A GL8164 GFS-100b STANDARD UPRIGHT 8.0 3/4' FM cULus N/A cULus, FM GL8166 GFS-430 STANDARD UPRIGHT 8.0 3/4" N/A N/A Assembled cULus, FM N/A GL1114 GFS-400 QUICK PENDENT 11.2 3/4" N/A cULus cULus N/A GL1123 GFS-410 QUICK UPRIGHT 11.2 3/4" N/A cULus N/A cULus GL1124 GFS-400 QUICK UPRIGHT 11.2 3/4" N/A N/A Assembled cULus N/A GL1160 GFS-430 STANDARD PENDENT 11.2 3/4" N/A cULus cULus N/A GL1167 GFS-440 STANDARD UPRIGHT 11.2 3/4" N/A cULus cULus cULus GL1168 GFS-430 STANDARD UPRIGHT 11.2 3/4" N/A N/A Assembled cULus, FM N/A 0 .2] L2 7] 12 .7] [69.01 [69.0] MODEL JIG (cULus) MODEL JIG (FM) MODEL JGS FIGURE 1 FIGURE 2 FIGURE 3 3.78" DIA. FITrING GL SERIES SHIELD FIGURE 4 APRIL 2019 GFS-450 (Formerly B-I) PAGE 4 OF 5 Installation of Guard Model JG Step 1. Unclip the hooks from the Cage of the sprinkler guard assembly. Step 2. Spread the cage open slightly at the base to provide sufficient space to install the sprinkler guard over the sprinkler frame. (NOTE— spreading the cage too much may damage the sprinkler guard) Step 3. With the guard positioned over the sprinkler frame, close the cage such that the notches at the base of the cage fit around the thread relief of the sprinkler. (space between the top of the threads and the wrench flats) Step 4. While holding the cage closed, slide one of the hooks down the cage frame to the notch to where it clicks into place. Step 5. While squeezing the open side of the cage, slide the second hook down to the notch in the same manner as the opposing side Step 6. Inspect the sprinkler and sprinkler guard for any damage. Replace either if any damage is observed. NOTE: The guard cage maybe oriented in any position relative to sprinkler frame arms. Installation of Series GL Shield The GL Series Shield must be installed onto sprinkler prior to sprinkler installation into fitting. The GL Series Shield may be used on sprinklers alone or in combination with a JG Sprinkler Guard. Step 1. Install the Shield over the sprinkler threads down to the end of the sprinkler threads. (Do not thread shield past threads and onto sprinkler relief area). Step 2. With pipe thread sealant applied, hand tighten the sprin- kler into the sprinkler fitting. Step 3. Tighten the sprinkler into the sprinkler fitting using the appropriate sprinkler wrench. Step 4. After the sprinkler is installed, spin the shield back up the threads towards the sprinkler fitting until the shield comes in contact with the fitting. ORDERING INFORMATION SPECIFY: Model • Finish PN JG Red painted . . . . . . . . . . 312253-1 -B JG Red painted . . . . . . . . . . 312253-1 JG Chrome plated . . . . . . . . 312253-C Installation of Shield Series GL with Guard Model JG The GL Series Shield must be installed onto sprinkler prior to sprinkler installation into fitting. Step 1. Install the Shield over the sprinkler threads down to the end of the sprinkler threads. (Do not thread shield past threads and onto sprinkler relief area). Step 2. With pipe thread sealant applied, hand tighten the sprin- kler into the sprinkler fitting. Step 3. Tighten the sprinkler into the sprinkler fitting using the appropriate sprinkler wrench. Step 4. After the sprinkler is installed, spin the shield back up the threads towards the sprinkler fitting until the shield comes in contact with the fitting. Step 5. Unclip the hooks from the Cage of the appropriate sprin- kler guard assembly. Step 6. Spread the cage open slightly at the base to provide sufficient space to install the sprinkler guard over the sprinkler frame. (NOTE - spreading the cage too much may damage the sprinkler guard) Step 7. With the guard positioned over the sprinkler frame, close the cage such that the notches at the base of the cage fit around the thread relief of the sprinkler (space between the top of the threads and the wrench flats). Step 8. While holding the cage closed, slide one of the hooks down the cage frame to the notch to where it clicks into place. Step 9. While squeezing the open side of the cage, slide the second hook down to the notch in the same manner as the opposing side. Step 10. Inspect the sprinkler and sprinkler guard for any dam- age. Replace either if any damage is observed. NOTE: The guard cage maybe oriented in any position relative to sprinkler frame arms. GLOBE® PRODUCT WARRANTY Globe agrees to repair or replace any of its own manufac- tured products found to be defective in material or work- manship for a period of one year from date of shipment. For specific details of our warranty please refer to Price List Terms and Conditions of Sale (Our Price List). JGS Red painted .........321406 JGS Chrome plated . . . . . . . . 321407 GL Shield 1/' NPT .........325706 GL Shield %" NPT .........325707 NOTE: See Table A for appropriate Listings/Approval combinations. 4077 Airpark Dr. Standish, Ml 48658 989-846-4583 www.globesprinkler.com Technical Support. 989-414-2600. techservice@globesprinkIer.com lb- APRIL 2019 GFS-450 (Formerly B-I) PAGE 5 OF 5 As the leading supplier of steel sprinkler pipe, we understand that there are no second chances in fire suppression. You need products of enduring quality and exceptional strength—plus reliable service. You need Bull Moose. 1.900 3500 4. 8.625 (in) _____ 1.091 1.442 1.682 2.157 2.635 3.260 4.260 6.357 8.249 -_1.049 _1.610 2.061 2.469 3.068 4.026 EmptV 1.410 1.810 2.090 2.640 3.530 4.340 5.620 9.290 16.940 1.680 _2.120 3.650 5.800 7.580 10.800 Water Filled Weight (lb/ft) 1.820 2.518 3.053 4.223 5.893 7.951 11.796 23.038 40.086 2055. -_1.00 ! 10 _1.380 _2.210 _2.918 _1.00 _3.602 _1.00 5.114 1.00 30 2,306 7.875 1.00 30 3,654 10.783 too 19 3,024 16.316 too 19 4,309 LI I.D. 4.92 3.54 2.50 1.158 1.805 -_C.R.R. 15.21 9.91 7.76 621 Pieces per lift 91 61 61 31 lift Weight(Ibs)21_lengths 2,695 2,319 2,617 2,051 30 19 2,224 1,732 19 2,242 10 1,951 7 2,490 ' Lift weight (Ibs) 24 lengths 3,019 2,650 3,060 2,344 2,542 1,919 2,563 2,230 2,848 u_2,410 2,822 _51 _2.431 2,178 _44 _2,513 2,812 2,635 4,176 3,456 4,925 lJlt Weight (ibs)25_lengths 3,208 2,760 3,181 2,442 2,648 2,062 2,610 2,940 2,894 2,992 2,745 4350 3,501 5,130 SCHEDULE 10 & 40 ADVANTAGES: UL listed (US & Canada) and FM approved ASTM A135 and A795 Type E, Grade A Certified Complies with NFPA-13, 13R and 14 Industry-leading hydraulic characteristics CRR of 1.0 and greater All pipe NDT weld tested OTHER BENEFITS/SERVICES: We have the most stocking Locations in the industry, for best delivery and availability Plain end or roll groove Eddy Guard II" bacterial-resistant internal coaling Custom length options Hot dipped galvanization Reddi-Pipe® red or black pipe eliminates field painting Compatible for use in wet, dry, preaction and deluge sprinkler systems The only maker with EPDs (to help earn LEED points). cus LISTED I] A ONFSA APPROVED NFPA FM Approved and Fully Listed Sprinkler Pipe Wheatland Tube's Schedule 10 and Schedule 40 steel fire sprinkler pipe is FM Approved and UL® and C-UL Listed. Wheatland Tube is the only manufacturer with FM Approval on 10 NPS Schedule 10 steel fire sprinkler pipe. Approvals and Specifications Schedule 10 and Schedule 40 meet or exceed the following standards: ASTM A135, Type E, Grade A (Schedule 10, 1-10 NPS) ASTM A795, Type E, Grade A (Schedule 40,11-2 NPS) ASTM A53, Type E, Grade B (Schedule 40,2-8 NPS) ASTM A53, Type F, Grade A (Schedule 40,11-4 NPS) NFPA® 13 and NFPA 14 Manufacturing Protocols Schedule 10 and Schedule 40 are subjected to the toughest possible testing protocols to ensure the highest quality and long-lasting performance. Finishes and Coatings Schedule 10 and Schedule 40 can be ordered in black or hot-dip galvanized to meet FM/UL requirements for dry systems that meet the zinc coating specifications of ASTM A53 or A795. Schedule 10 and Schedule 40 receive a proprietary mill coating to ensure a clean, corrosion-resistant surface that outperforms and outlasts standard lacquer coatings. This coating allows the pipe to be easily painted without special preparation. Every black steel Schedule 10 and Schedule 40 pipe also receives our MIC SHIELD TM antimicrobial coating to limit corrosion from microbes on the interior of the pipe. Product Marking Each length of Wheatland fire sprinkler pipe is continuously stenciled to show the manufacturer, type of pipe, grade, size and length. Bar coding is acceptable as a supplementary identification method. PROJECT: CONTRACTOR: DATE: ENGINEER: SPECIFICATION REFERENCE: SYSTEM TYPE: LOCATIONS: COMMENTS: BLACK E HOT-DIP GALVANIZED 1 Council Avenue, P.O. Box 608 info@wheatland.com Wheatland, PA 16161 wheatland.com P 800.257.8182 Follow us on Twitter; F724.346.7260.. C8WheatlandTub____________ - t%"eatland Tube A DIVISION OF ZEKEL MAN INDUSTRIES (SCHEDULE 101 WEIGHTS AND DIMENSIONS WT./FT. WT./LIFT WT./LIFT WT./LIFT NPS NOMINAL OD NOMINAL ID NOMINAL WALL WT./FT. H2OFILLED PCS./LIFT 21 24 25 UL J[ in]J mm in. I[ mm In. mm 'lb.. lbs. lbs. lbs. lbs. 7[ CRR 1 1.315 33.4 1.097 27.9 0.109 2.77 1.405 1.814 70 2065 2360 2459 11.4 1% 1.660 J4j 1.442 [ 36.67t 0.109 IF -]f 1.807 L?14 J[ 61 2315 2645 IL 2756 IF ' I 1% 1.900 48.3 1.682 42.7 0.109 2.77 2.087 3.049 61 2673 3055 3183 5.8 2.375 ===== [ 2.67[ 4.222 [ 2051 2344 _j[ 4.7 2½ 2.875 73.0 2.635 66.9 0.120 3.05 3.354 5.895 30 2226 2544 2651 3.5 I[3.5007[ 88.9 3.260 82.8 0.120 3.05 4.336 7.949 19 1730 2.6 4 4.500 114.3 4.260 108.2 0.120 3.05 5.619 11.789 19 2242 2562 2669 1.6 5 5.563 141.3 - 5.29571 134.5 0.134 3.40 ILz.780 IL17.309 13 if 2124 2427j[ 2529 iF 1.5 1 6 6.625 168.3 6.357 161.5 0.134 3.40 9.298 23.038 10 1953 2232 2325 1.0 8 8.625 j[219.1 1[ 8.249 209.5 0.188 ][_4.78_][16.960 II 40.086][ 7 2493 1[ 2849 7[87t 1.7 10" 10.750 273.0 10.374 263.5 0.188 4.78 21.230 57.803 2 892 1019 1062 - (SCHEDULE 40) WEIGHTS AND DIMENSIONS WT./FT. WT./LIFT WT./LIFT WT./LIFT NPS NOMINALOD NOMINAL ID NOMINAL WALL WT./FT. H.0 FILLEDPCS./LIFT 21 24 25 UL I it in. mm I[1t mm H In. Itm J lbs. lbs. if lbs. lbs. II lbs. IL CRR 1 1.315 33.4 1.049 26.6 0.133 3.38 1.68 2.055 70 2470 2822 2940 1.000 1.380 IF 35.1 ILo.14011 3.56 IF 2.27 2.922 51 2431 2778 2894 1.000 1'/a 1.900 48.3 1.610 40.9 0.145 3.68 2.72 3.602 44 2513 2872 2992 1.000 t2 ][ 2.375 60.3 2.067 52.5 0.154 1[ 3.91 3.66 II 5.109 24 1845 Jf 2108 IL 2196 1.000 21/2 2.875 73.0 2.469 62.7 0.203 5.16 5.80 7.871 20 2436 2784 2900 1.000 ][ 3.068 77.9 0.216 iF iL71[ 10.783 ][ 13 2069 2365 2464 1.000 ] 31/2 4.000 101.6 3.548 90.1 0.226 5.74 9.12 13.400 10 1915 2189 2280 1.000 F IL 4.500 11 114.37[ 4.026 102.3 0.237 6.02 JLJO.80 f 16.311 J[ 226i7[ 2592 IL 2700 f 1.000 5 5.563 141.3 5.047 158.2 0.258 6.55 14.63 23.262 7 2151 2458 2560 1.000 [ 6 ][6.62571 168.3 II 6.065 154.1 0.280 7.11 18.99 31.498 5 1994 EH] 8" 8.625 219.1 7.981 202.7 0.322 8.18 28.58 50.240 5 3001 3430 3573 1.000 Calculated using Standard UL CRR formula, UL Fire Protection Directory; Category VIZY The CRR is a ratio value used to measure the ability of a pipe to withstand corrosion. Threaded Schedule 40 steel pipe is used as the benchmark (value of 1.0). "8 NPS Schedule 40 and 10 NPS Schedule 10 are FM Approved but not UL Listed @ c@ APPROVED I WE 5.072921 1 Council AvenUe, P.O.Box 608 PA 16161 ' fo©wheaUand.com Wheatland, wheatland.corn It Wheatland Tube [ P800.257.8182 Follow us on Twitter: A DIVISION OFZEKELMAN INDUSTRIES F124.346.7260 ________________cbWheatlandIube (VictauIic FireLocr Fitting) AC- —ta U —1i C r 10.03 1.0 PRODUCT DESCRIPTION Available Sizes 11/4 - 8/DN32 - DN200 Maximum Working Pressure Pressure ratings for Victaulic FireLockTM Fittings conform to the ratings of Victaulic FireLock EZTM Style 009N couplings (refer to rublication 10.64 for more information). Application FireLockTM fittings are designed for use exclusively with Victaulic couplings that have been Listed or Approved for Fire Protection Services. Use of other couplings or flange adapters may result in bolt pad interference. Connects pipe, provides change in direction and adapts sizes or components Pipe Materials Carbon steel 2.0 CERTIFICATION/LISTINGS USTED EN 10311 Regulation (EU) No. 305/2011 3.0 SPECIFICATIONS - MATERIAL Fitting: Ductile iron conforming to ASTM A536, Grade 65-45-12. Fitting Coating: Orange enamel. El Red enamel in Europe, Middle East, Africa, and India. O Optional: Hot dipped galvanized. ALWAYS REFER TO ANY NOTIFICATIONS AT THE END OF THIS DOCUMENT REGARDING PRODUCT INSTALLATION, MAINTENANCE OR SUPPORT. System No. Location Spec Section Paragraph Submitted By Date Approved Date victaulic.com 10.03 1539 Rev N Updated 09/2017 © 2017 Victaulic Company. All rights reserved. 1 ictaulic victaulic.com 4.0 DIMENSIONS kCtoE C to B C C -b toE B l to E to No. 001 No. 003 No. 002 No. 006 No. 001 No. 003 No. 002 No. 006 90° Elbow 45° Elbow Straight Tee Cap Approximate Approximate Approximate Approximate Actual Nominal Outside Weight Weight Weight Weight Size Diameter C to E Each C to E Each C to E Each T Each inches inches inches lb inches lb inches lb inches lb DN mm mm kg mm kg mm kg mm kg 11/4 1.660 - - - - - - 0.82 0.3 DN32 42.4 - - - - - 21 0.1 1 ½ 1.900 - - - - - - 0.82 0.4 DN40 48.3 - - - - - - 21 0.2 2 2.375 2.75 1.7 2.00 .1.8 2.75 2.4 0.88 0.6 DN50 60.3 70 0.8 51 0.8 70 1.1 22 0.3 21/2 2.875 3.00 3.1 2.25 2.2 3.00 3.6 0.88 1.0 73.0 76 1.4 57 1.0 76 1.6 22 0.5 3.000 3.00 3.30 2.25 2.4 3.00 3.8 DN65 76.1 76 1.5 57 1.1 76 1.7 - - 3 3.500 3.38 4.0 2.50 3.1 3.38 5.3 0.88 1.2 DN80 88.9 86 1.8 64 1.4 86 2.4 22 -- 0.5 - 4.250 4.00 5.7 .3.00 5.1 4.00 7.5 108.0 102 2.6 76 2.3 102 3.4 - - 4 4.500 4.00 6.7 3.00 5.6 4.00 8.7 1.00 2.4 DN100 114.3 102 3.0 76 2.5 102 3.9 25 1.1 5 5.563 4.88 12.6 3.25 8.3 4.88 15.7 1.00 4.1 141.3 124 5.7 83 3.8 124 7.1 25 1.9 5.500 4.88 12.4 3.25 8.2 4.88 15.4 DN125 139.7 124 5.6 82.6 3.7 124 6.9 - - 6.250 5.50 12.6 3.50 9.2 5.50 . 17.9 158.8 140 5.7 89 4.2 140 8.0 - - 6 6.625 5.50 18.3 3.50 11.7 5.50 22.7 1.00 5.9 DN150 168.3 140 8.3 89 5.3 140 10.3 25 2.7 6.500 5.43 17.6 3.50 11.4 5.50 22.0 165.1 140 7.9 89 5.2 140 9.9 - - 8 8.625 6.81 25.5 4.25 20.4 6.94 38.7 1.13 12.7 0N200 219.1 173 11.6 108 9.3 176 17.6 29 5.8 8.515 6.81 23.1 - - 6.94 33.6 - - 216.3 173 10.5 - - 176 15.2 - - 10.03 1539 Rev N Updated 09/2017 © 2017 Victaulic Company. All rights reserved. victauliC.com \JtauIic° I victaulic.com 5.0 PERFORMANCE Flow Data Size Frictional Resistance Equivalent of Straight Pipe' No. 002 Actual Elbows Straight Tee No. 001 No. 003 Nominal Outside Size Diameter 900 Elbow 450 Elbow Branch Run inches inches feet feet feet feet DN mm meters meters meters meters 11/4 1.660 - - - - DN32 42.4 - - - - 11/2 1.900 - - - - DN40 48.3 - - - - 2 2.375 3.5 1.8 8.5 3.5 DNSO 60.3 1.1 0.5 2.6 1.1 21/2 2.875 4.3 2.2 10.8 4.3 73.0 1.3 0.7 3.3 1.3 3.000 4.5 2.3 11.0 4.5 DN65 76.1 1.4 0.7 3.4 1.4 3 3.500 5.0 2.6 13.0 5.0 DN80 88.9 1.5 0.8 4.0 1.5 4.250 6.4 3.2 15.3 6.4 108.0 2.0 0.9 4.7 2.0 4 4.500 6.8 3.4 16.0 6.8 DN100 114.3 2.1 1.0 4.9 2.1 5 5.563 8.5 4.2 21.0 8.5 141.3 2.6 1.3 6.4 2.6 5.500 8.3 4.1 20.6 8.3 DN125 139.7 2.5 1.3 6.3 2.5 6.250 9.4 4.9 25.0 9.6 158.8 2.9 1.5 7.6 2.9 6 6.625 10.0 5.0 25.0 10.0 DN150 168.3 3.0 1.5 7.6 3.0 6.500 9.8 4.9 24.5 9.8 165.1 3.0 - 1.5 7.5 3.0 8 8.625 13.0 5.0 33.0 13.0 DN200 219.1 - 4.0 1.5 10.1 4.0 8.515 13.0 - 33.0 13.0 216.3 4.0 - 10.1 4.0 The flow data listed is based upon the pressure drop of Schedule 40 pipe. 10.03 1539 Rev N Updated 09/2017 © 2017 Victaulic Company. All rights reserved. victaulic.com 'j't1muIic. victaulic.com 6.0 NOTIFICATIONS General Notes NOTE: When assembling FireLock EZTM couplings onto end caps, take additional care to make certain the end cap is fully seated against the gasket end stop. For FireLock EZTM Style 009N/009H couplings, use FireLock TM No. 006 end caps containing the "EZ" marking on the inside face or No. 60 end caps containing the 'QV EZ" marking on the inside face. Non-Victaulic end cap products shall not be used with Style 009/009V/009H/009N couplings. 7.0 REFERENCE MATERIALS 10.64: Victaulic® FireLock°M Rigid Coupling Style 009N 10.02: Victaulic® FireLock TM Rigid Coupling Style 005H with VicPlusTM Gasket System 29.01: Victaulic® Terms and Conditions of Sale I User Responsibility for Product Selection and Suitability Each user bears final responsibility for making a determination as to the suitability of Victaulic products for a particular end-use application, in accordance with industry standards and project specifications, and the applicable building codes and related regulations as well as Victaulic performance, maintenance, safety, and warning instructions. Nothing in this or any other document, nor any verbal recommendation, advice, or opinion from any Victaulic employee, shall be deemed to alter, vary, supersede, or waive any provision of Victaulic Company's standard conditions of sale, installation guide, or this disclaimer. Intellectual Property Rights No statement contained herein concerning a possible or suggested use of any material, product, service, or design is intended, or should be constructed, to grant any license under any patent or other intellectual property right of Victaulic or any of its subsidiaries or affiliates covering such use or design, or as a recommendation for the use of such material, product, service, or design in the infringement of any patentor other intellectual property right. The terms "Patented" or "Patent Pending" refer to design or utility patents or patent applications for articles and/or methods of use in the United States and/or other countries. Note This product shall be manufactured by Victaulic or to Victaulic specifications. All products to be installed in accordance with current Victaulic installation/assembly instructions. Victaulic reserves the right to change product specifications, designs and standard equipment without notice and without incurring obligations. Installation Reference should always be made to the Victaulic installation handbook or installation instructions of the product you are installing. Handbooks are included with each shipment of Victaulic products, providing complete installation and assembly data, and are available in PDF format on our website at www.victaulic.com. Warranty Refer to the Warranty section of the current Price List or contact Victaulic for details. Trademarks Victaulic and all other Victaulic marks are the trademarks or registered trademarks of Victaulic Company, and/or its affiliated entities, in the U.S. and/or other countries. p 10.03 1539 Rev N Updated 09/2017 © 2017 Victaulic Company. All rights reserved. victaulic.com 4 '.JtauIic victaulic.com User Responsibility for Product Selection and Suitability Each user bears final responsibility for making a determination as to the suitability of Victaulic products for a particular end-use application, in accordance with industry standards and project specifications, and the applicable building codes and related regulations as well as Victaulic performance, maintenance, safety, and warning instructions. Nothing in this or any other document, nor any verbal recommendation, advice, or opinion from any Victaulic employee, shall be deemed to alter, vary, supersede, or waive any provision of Victaulic Company's standard conditions of sale, installation guide, or this disclaimer. Intellectual Property Rights No statement contained herein concerning a possible or suggested use of any material, product, service, or design is intended, or should be constructed, to grant any license under any patent or other intellectual property right of Victaulic or any of its subsidiaries or affiliates covering such use or design, or as recommendation for the use of such material, product, service, or design in the infringement of any patent or other intellectual property right. The terms "Patented" or Patent Pending" refer to design or utility patents or patent applications for articles and/or methods of use in the United States and/or other countries. Note This product shall be manufactured by Victaulic or to Victaulic specifications. All products to be installed in accordance with current Victaulic installation/assembly instructions. Victaulic reserves the right to change product specifications, designs and standard equipment without notice and without incurring obligations. Installation Reference should always be made to the Victaulic installation handbook or installation instructions of the product you are installing. Handbooks are included with each shipment of Victaulic products, providing complete installation and assembly data, and are available in PDF format on our website at www.victaulic.com. Warranty Refer to the Warranty section of the current Price List or contact Victaulic for details. Trademarks Victaulic and all other Victaulic marks are the trademarks or registered trademarks of Victaulic Company, and/or its affiliated entities, in the U.S. and/or other countries. 07.01 1449 Rev AF Updated 08/2017 © 2017 Victaulic Company. All rights reserved. victaulic.com Kel JtauIic Victaulic® FireLockTM Installation-Ready1M Rigid Couplings (tyle_009N)and Style 109 4tauIicr 10.64 Patented 1.0 PRODUCT DESCRIPTION Available Sizes Style 009N: 11/4 - 12/DN32 - DN300 Style 109: 1 ¼ - 2 ½/DN32 - 73.0 mm Pipe Material Schedule 10, Schedule 40 or specialty carbon steel pipe listed in Section 5. For use with alternative materials and wall thicknesses please contact Victaulic Carbon Steel Stainless Steel For exceptions reference section 6.0 Notifications Maximum Working Pressure Up to 365 psi/2517 kPa Function Joins carbon steel pipe with grooved ends conforming to oublication 25.01 Provides a rigid pipe joint designed to restrict axial or angular movement 2.0 CERTIFICATION/LISTINGS ® ILPCBI J CE USTED C104-la/36 EN 10311 Regulation (EU) No. 305/2011 ALWAYS REFER TO ANY NOTIFICATIONS AT THE END OF THIS DOCUMENT REGARDING PRODUCT INSTALLATION, MAINTENANCE OR SUPPORT. I System No. Location I I Spec Section Paragraph Submitted By Date Approved Date victaulic.com 10.64 7072 Rev N Updated 06/2020 © 2020 Victaulic company. All rights reserved. 1ictaullicr victaulic.com 3.0 SPECIFICATIONS - MATERIAL Housing: Ductile iron conforming to ASTM A 536, Grade 65-45-12. Ductile iron conforming to ASTM A 395, Grade 65-45-15, is available upon special request. Housing Coating: (specify choice) O Orange enamel (North America, Asia Pacific) O Red enamel (Europe) O Optional for Style 009N: Hot dipped galvanized Gasket: (specify choice) O Grade "E" EPDM (Type A) Vic-PIusTM Pre-lubricated Gasket EPDM (Violet Color Code). Applicable for wet and dry (oil-free air) fire protection systems only. Listed/Approved for continuous use in wet and dry systems. Listed/Approved for dry systems at -40°F/-400C and above. Not compatible for use with hot water services or steam services. NOTES Reference should always be made to publication 1-100, victaulic Field Installation Handbook for gasket lubrication instructions. Services listed are General Service Guidelines only. It should be noted that there are services for which these gaskets are not compatible. Reference should always be made to oublication 05.01, victaulic Gasket Selection Guide for specific gasket service guidelines and for a listing of services which are not compatible. Bolts/Nuts: (specify choice) Standard: Carbon steel oval neck track bolts meeting the mechanical property requirements of ASTM A449 (imperial) and ISO 898-1 Class 9.8 (M10416) Class 8.8 (M20 and greater). Carbon steel hex nuts meeting the mechanical property requirements of ASTM A563 Grade B (imperial) and ASTM A563M Class 9 (metric). Track bolts and hex nuts are zinc electroplated per ASTM B633 Fe/Zn 5, finish Type Ill (imperial) or Type II (metric). Optional for Style 009N: Stainless steel oval neck track bolts meeting the requirements of ASTM F593, Group 2 (316 stainless steel), condition CW. Stainless steel Heavy Hex nuts meeting the requirements of ASTM F594, Group 2 (316 stainless steel), condition CW, with galling-resistant coating.' 1 Optional bolts/nuts are available in imperial size only. Coupling Linkage: High Strength Steel with comparable physical properties to that of the Track Bolt (ASTM A449). Linkage is zinc electroplated per ASTM B633 Fe/Zn 5, Type Ill Finish. 10.64 7072 Rev N Updated 06/2020 © 2020 Victaulic Company. All rights reserved. victaulic.com 2 \JtauIic victaulic.com 4.0 DIMENSIONS Style 009N Two-Bolt Installation-Ready Coupling AEli I Emil tIi __IIiII _IIuII Size Bolt/Nut Dimensions Weight Actual Maximum Maximum Allow. Outside Working End Pipe End Pre-assembled Joint Assembled Approx. X V X V Nominal Diameter Pressure2 Load2 Separation3 Qty. Size Z (Each) inches inches psi lb inches inches inches inches inches inches inches lb DN mm kPa N mm - mm mm mm mm mm mm kg 11/4 1.660 365 790 0.10 3/8 X2 3.13 5.00 2.75 5.00 2.00 1.4 ,PN32 1 42.4 2517 3514 2.54 2 M10x51 79 127 70 127_ 51 0.6 11/2 1.900 365 1035 0.10 /8 x 2 3.38 5.13 3.00 5.13 2.00 1.5 DN40 48.3 2517 4604 2.54 2 M10x51 86 130 76 130 51 0.7 2 2.375 365 1617 0.12 2 31ax2½ 4.00 5.63 3.50 5.63 2.00 1.9 DNSO 60.3 2517 7193 3.05 M10x63 102 143 89 143 51 0.9 21/2 2.875 365 2370 0.12 2 3/8X2½ 4.50 6.13 4.00 6.13 2.00 2.1 73.0 2517 1 10542 3.05 1 M10x63 114 156 1 102 156 51 1.0 3.000 365 2580 0.12 2 3/sX21/2 4.63 6.00 4.13 6.13 2.00 2.1 DN65 - 76.1 2517 11476 3.05 M10x63 118 152 105 156 51 1.0 3 3.500 365 3512 0.12 2 3/8 X2'/2 5.13 6.75 4.63 6.75 2.00 2.3 DN80 88.9 2517 15622 3.05 M10x63 130 171 117 171 - 51 1.0 4 4.500 365 5805 0.17 - 2 /8X2,'2 6.00 7.88 5.63 7.50 2.13 2.9 DN100 114.3 - 2517 25822 4.32 M10x63 152 200 143 191 54 1.3 4.250 365 5178 0.17 /8X2 5.63 7.38 5.38 7.38 2.13 3.1 108.0 2517 - 23020 4.32 2 M10x63 152 1.87 137 187 54 1.4 5 5.563 365 8872 0.17 2 ½x3 7.25 9.25 6.75 9.13 2.25 5.0 1413 2517 39456 432 M12x76 184 235 171 232 57 2.3 5.250 365 7901 0.17 2 ½x3 6.63 9.00 6.38 9.00 2.25 4.8 133.0 2 51 7 35106 4.32 M12x76 168 229 162 229 57 2.2 5.500 365 8672 0.17 2 ½x3 6.88 9.25 6.75 9.13 2.25 4.9 DN125 139.7 - 2517 38529 4.32 - M12x76 175 235 171 232 • 57 2.2 6 6.625 365 12582 0.17 ½x3¼ 8.38 10.38 7.88 10.13 2.25 6.0 DN150 168.3 2517 44469 4.32 2 M12x83 213 264 200 257 57 2.7 6.250 365 11198 0.17 1/2 x 3 1/4 7.88 10.00 7.38 9.88 2.25 5.6 159.0 - 2517 49753 4.32 2 M12x83 200 254 - 187 251 57 2.5 6.500 365 12112 0.17 ½x3¼ 8.00 10.25 7.75 10.13 2.25 6.0 165.1 2517 1 53813 4.32 2 - M12x83 203 260 197 257 57 2.7 8 8.625 365 21326 0.17 5/a x4 10.88 13.38 10.25 13.13 2.50 11.4 DN200 219.1 2517 94863 4.32 2 M16x 101 -- 276 340 260 - 333 64 5.2 8.500 365 20712 0.17 5/8 X4 10.63 13.25 10.25 10.13 2.63 11.4 216.0 2517 55968 4.32 2 M16x 101 270 337 260 257 67 5.2 10 10.750 300 27229 0.25 718X6½ 13.75 17.00 1322 5 17.13 2.75 22.6 DN250 273.0 2068 121.121 6.4 - 2 M22 165 - 349 432 337 435 .70 10.3 12 12.750 300 38303 0.25 '/8X6½ 16.00 19.00 15.50 19.13 2.75 27.6 DN300 323.9 2068 170380 6.4 2 - M22 x 165 406 483 394 486 70 12.5 2 Working Pressure and End Load are total, from all internal and external loads, based on standard weight (ANSI) steel pipe, standard roll or cut grooved in accordance with Victaulic specifications. See the Listings/Approvals section of this publication for ratings on other pipe. The allowable pipe separation dimension shown is for system layout purposes only. Style 009N couplings are considered rigid connections and will not accommodate expansion or contraction of the piping system. NOTES When assembling Style 009N or Style 109 couplings onto end caps, take additional care to make certain the end cap is fully seated against the gasket end stop. For Style 009N or Style 109 couplings, use FireLock No. 006 end caps containing the "EZ" marking on the inside face or No. 60 end caps containing the QV EZ" marking on the inside face. Non-Victaulic end cap products shall not be used with Style 009N or Style 109 couplings. IMPORTANT: Gaskets intended for the Style 009 or Style 009V couplings cannot be used with the Style 009N or Style 109 coupling. There is no interchanging of gaskets or housings between coupling styles. Use Of FlushSeal Gaskets For Dry Pipe Systems Style 009N or Style 109 couplings are supplied with Grade E" Type A gaskets. These gaskets include an integral pipe stop, that once installed provides the similar benefits as a FlushSeal gasket for dry pipe systems. It should be noted that standard Victaulic FlushSeal gaskets cannot be used with the Style 009N or Style 109 couplings. 10.64 7072 Rev N Updated 06/2020 © 2020 Victaulic Company. All rights reserved. victaulic.com 3 vj'1tauuic I 10.64 7072 Rev N Updated 06/2020 © 2020 Victaulic Company. All rights reserved. victaulic .com 4 ../ctauIicr victaulic.com 4.1 DIMENSIONS Style 109 One-Bolt Installation-Ready Coupling YB Z YB Z O YL ?_ YL <0 XA Style 109 Pre-Assembled Style 109 Joint Assembled Size Maximum Maximum Pipe End - Bolt/Nut Dimensions Weight Actual Pre-assembled Joint Assembled Outside Working End Separation - - Approx. Nominal Diameter Pressure4 Load4 Allowable5 Qty. Size I YL YB X Z YL YB X Z (Each) inches inches psi lb inches inches inches inches inches inches inches inches inches inches lb mm mm kPa N mm mm mm mm mm mm mm mm mm mm kg 1 1/4 1.660 365 790 0.10 3/sx21/4 1.88 2.50 3.13 1.88 1.88 2.63 2.75 1.88 1.4 DN32 42.4 2517 3514 2.54 1 M10x57 48 64 79 48 48 67 70 48 - 0.6 1½ 1.900 365 1035 0.10 3/8X2¼ 2.00 2.63 3.25 1.88 2.00 2.75 3.00 1.88 1.5 DN40 48.3 2517 4604 2.54 1 M10x57 51 67 1 83 48 51 70 1 76 48 0.7 2 2.375 365 1616 012 /sx2½ 225 288 388 200 2 313 350 825 200 1 DN50 60.3 2517 7193 3.05 1 M10x63 57 73 98 51 57 79 89 51 0 21/2 2.875 365 2370 0.12 %x2½ 2.50 3.13 1 4.38 2.00 2.50 3.38 3.88 2.00 2.1 73.0 1 2517 10542 3.05 1 - M10x63 64 79 111 51 1 64 86 98 51 0.9 Working Pressure and End Load are total, from all internal and external loads, based on standard weight (ANSI) steel pipe, standard roll or cut grooved in accordance with Victaulic specifications. See the Listings/Approvals section of this publication for ratings on other pipe. The allowable pipe separation dimension shown is for system layout purposes only. Style 109 couplings are considered rigid connections and will not accommodate expansion or contraction of the piping system. NOTES When assembling Style 009N or Style 109 couplings onto end caps, take additional care to make certain the end cap is fully seated against the gasket end stop. For Style 009N or Style 109 couplings, use FireLock No. 006 end caps containing the 'EZ" marking on the inside face or No. 60 end caps containing the "QV EZ" marking on the inside face. Non-Victaulic end cap products shall not be used with Style 009N or Style 109 couplings. IMPORTANT: Gaskets intended for the Style 009 or Style 009V couplings cannot be used with the Style 009N or Style 109 coupling. There is no interchanging of gaskets or housings between coupling styles. Use Of FlushSeal Gaskets For Dry Pipe Systems Style 009N or Style 109 couplings are supplied with Grade E" Type A gaskets. These gaskets include an integral pipe stop, that once installed provides the similar benefits as a FlushSeal gasket for dry pipe systems. It should be noted that standard Victaulic FlushSeal gaskets and cannot be used with the Style 009N or Style 109 couplings. 5.0 PERFORMANCE Style 009N Two-Bolt Installation-Ready Coupling Listings/Approvals6 The information provided below is based on the latest listing and approval data at the time of publication. Listings/Approvals are subject to change and/or additions by the approval agencies. Contact Victaulic for performance on other pipe and the latest listings and approvals. Size cULus" FM11 VdS LPCB Actual Outside Sch. 10 Sch. 40 Sch. 10 Sch. 40 Nominal Diameter psi psi psi psi psi psi inches inches kPa kPa kPa kPa kPa kPa DIN mm bar bar bar bar bar bar 365 365 363 363 363 11 363 1.660 DN32 2517 2517 2503 2503 2500 2500 25 25 25 25 25 j 25 365 365 363 363 363 363 1 1/2 1.900 cr'0 48.3 2517 2517 2503 2503 2500 2500 25 25 25 25 25 25 365 365 363 363 363 363 2 2.375 DN50 60.3 2517 2517 2503 2500 2500 2500 25 25 25 25 25 25 365 365 363 363 363 363 21/2 875 2517 2517 2503 2500 2500 2500 73.0 25 25 25 25 25 25 365 3638 363 363 3.000 2517 N/A 25038 N/A 2500 2500 DN65 • 25 258 25 25 365 365 363 363 363 363 3 DN80 3.500 88.9 2517 2517 2503 2503 2500 2500 25 25 25 25 25 25 365 365 363 363 363 363 4 4.500 DN100 114.3 2517 2517 2503 2503 2500 2500 25 25 25 25 25 25 363 363 4.250 N/A N/A 2503 2503 N/A N/A 108.0 25 25 _____ 290 365 363 363 232 363 5 141.3 63 2000 2517 2503 2503 1600 2500 20 25 25 25 16 25 3638 5.250 N/A N/A 25038 N/A N/A N/A 30 25 2909 3638 232 363 0N125 500 139.7 2000 N/A 25038 N/A 1600 2500 20 258 25 25 300 365 363 363 232 363 6 6.625 DN150 1683 2068 2517 2503 2503 1600 2500 20 25 257 25 16 25 3638 6.250 N/A N/A 25038 N/A N/A N/A 159.0 25 6.500 29010 3638 363 2000 N/A 25038 1 N/A N/A 1 2500 165.1 20 258 25 6 Listed/Approved for continuous use in wet and dry systems. Listed/Approved for dry systems 400 F/C and above. Please see the VictaulicInstallation Manual 1-009N for details concerning when supplemental lubrication is required. cULus listed for DIN 2458 (EN 10220) 2.6 mm pipe wall. 8 FM approved for BS 1387 (EN 10255) Medium 3.6 mm pipe wall. cULus listed for EN 10220 4.0 mm pipe wall. 10 cULus listed for EN 10255 4.5 mm pipe wall. " With optional stainless steel fasteners, cULus Listed to 175p5i/1207 kPa/12 bar and FM Approved to the FM ratings shown in the above table. The stainless steel fasteners have a marking designation of 316 on the end face of the bolt. 12 cUL listed to 250 psi/1720 kPa /17 bar. 10.64 7072 Rev N Updated 06/2020 © 2020 Victaulic Company. All rights reserved. victaulic.com 5 \J(t9uuIic. victaulic.com 5.0 PERFORMANCE (CONTINUED) I Style 009N Two-Bolt Installation-Ready Coupling Listings/Approvals6 - The information provided below is based on the latest listing and approval data at the time of publication. Listings/Approvals are subject to change and/or additions by the approval agencies. Contact Victaulic for performance on other pipe and the latest listings and approvals. Size cULus" FM1' VdS LPCB Actual Outside Sch. 10 Sch. 40 Sch. 10 Sch. 40 Nominal Diameter psi psi psi psi psi psi inches inches kPa kPa kPa kPa kPa kPa DIN mm bar bar bar bar bar bar 300 365 363 363 232 363 8 8625 DN200 2191 ~_] 2068 2517 2503 2503 1600 2500 20 25 25 25 16 25 8.500 290 3638 I I I 216.0 2000 N/A 25038 N/A N/A N/A I -- 10 I 10.750 300 I 068 DN250 273.0 I 2 -- 300 300 300 2068 2068 2068 N/A N/A 30012 300 250 300 12 12.750 DN300 2068 2068 1720 2068 N/A N/A 2012 25 17 20 6 Listed/Approved for continuous use in wet and dry systems. Listed/Approved for dry systems -40° F/c and above. Please see the VictaulicInstallation Manual 1-009N for details concerning when supplemental lubrication is required. cULus listed for DIN 2458 (EN 10220) 2.6 mm pipe wall. 8 FM approved for BS 1387 (EN 10255) Medium 3.6 mm pipe wall. cULus listed for EN 10220 4.0 mm pipe wall. 10 cULus listed for EN 10255 4.5 mm pipe wall. 11 With optional stainless steel fasteners, cULus Listed to 175psi/1207 kPa/12 bar and FM Approved to the FM ratings shown in the above table. The stainless steel fasteners have a marking designation of 316 on the end face of the bolt. 12 cUL listed to 250 psi/1720 kPa /17 bar. 5.1 PERFORMANCE Style 109 One-Bolt Installation-Ready Coupling Listings/Approvals13 The information provided below is based on the latest listing and approval data at the time of publication. Listings! Approvals are subject to change and/or additions by the approvals agencies. Contact Victaulic for performance on other pipe and the latest listings and approvals. Size cULus FM_______________ Actual Outside Sch. 10 Sch. 40 Sch. 10 Sch. 40 Nominal Diameter psi psi psi psi inches inches kPa kPa kPa kPa ON mm bar bar bar bar 365 365 365 365 1.660 2517 2517 2517 2517 DN3 2 42.4 25 25 25 25 365 365 365 365 1 1/2 1.900 DN40 8.3 2517 2517 2517 2517 25 25 25 25 365 365 365 365 2 2.375 DNSO 2517 2517 2517 2517 25 25 25 25 365 365 365 365 2½ 2.875 2517 2517 2517 2517 73.0 25 25 25 25 13 Listed/Approved for continuous use in wet and dry systems. Listed/Approved for dry systems -40° F/C and above. Please see the Victaulic Installation Manual 1-109 for details concerning when supplemental lubrication is required. 10.64 7072 Rev N Updated 06/2020 © 2020 Victaulic Company. All rights reserved. victaulic.com 6 A~—c-taullicr victaulic.com 5.2 PERFORMANCE Specialty Pipe Style 009N Two-Bolt Installation-Ready Coupling Listings/Approvals I I Size I Pressure Rating cULus FM psi psi inches kPa kPa Pipe Type DIN bar bar 1¼-4 300 EF DN32— DIN 100 2068 N/A 20 300 300 EL 2068 2068 DN32—DN50 20 20 300 ET40 2068 N/A 20 300 EZF 3-4 2068 N/A DN8O- DIN 100 20 300 300 EZT 2068 2068 , DN32—DN50 20 20 300 FF 1 1/2-4 2068 N/A DN40—DN100 20 300 300 GL 2068 2068 DN32—DN50 20 20 300 300 0N32— DIN 100 2068 2068 MF 20 20 175 175 DN150 1205 1205 12 12 300 300 MT DN2"50 2068 2068 20 20 MILT N/A 2068 DN32-DN50 20 300 TF 21/2-4 N/A 2068 73.0 rnm- DIN 100 20 175 300 WG5, WGSE, WFS, WG7, WG7E, WL7 1205 2068 DN32— ON 100 12 20 300 300 WLS 1¼-2 1 1 2068 2068 0N32 - DN50 20 20 NOTES EF = EDDY FLOW steel pipe manufactured by Bull Moose Tube Co. EL = EDDYLITE steel pipe manufactured by Bull Moose Tube Co. ET40 = Eddythread 40 steel pipe manufactured by Bull Moose Tube Co EZF = EZ-Flow steel pipe manufactured by Northwest Pipe Co. EZT = EZ-Thread steel pipe manufactured by Youngstown Tube Co. FF = Fire-Flo steel pipe manufactured by Youngstown Tube Co. GL = GL steel pipe manufactured by Wheatland Tube Co. ME = Mega-Flow steel pipe manufactured by Wheatland Tube Co. MT = Mega-Thread steel pipe manufactured by Wheatland Tube Co. MILT = MILT steel pipe manufactured by Wheatland Tube Co IF = Tex-Flow steel pipe manufactured by Tex-Tube Co. WG5, WG5E, WF5 = WGalweld 5, WGalweld 5E, WFlow 5 steel pipe manufactured by Wuppermann Stahl GmbH. WG7, WGJE, WL7 = WGalweld 7, Wgalweld 7E, WLight 7 steel pipe manufactured by Wuppermann Stahl GmbH WLS = WLS steel pipe manufactured by Wheatland Tube Co. 10.64 7072 Rev N Updated 06/2020 © 2020 Victaulic Company. All rights reserved. victaulic.com 7 Lictaullicr victaulic.com 5.3 PERFORMANCE Specialty Pipe Style 109 One-Bolt Installation-Ready Coupling Listings/Approvals Size PressureRating cULus FM inches psi psi kPa kPa Pipe Type DN bar bar 300 1¼-2½ DN32 —73.0mm N/A 2068 EF 20 300 1½-2½ 2068 N/A DN40 -73.0mm 20 Easy-Flow N/A 2068 DN32—DN50 300 EL 1 1/4-2 N/A j 2068 DN32—DN50 20 300 300 E140 2068 2068 DN32—DN50 20 20 300 N/A 2068 DN32—DN5O 20 EZT 300 2068 N/A DN40—DN50 20 300 300 FF 2068 2068 DN40-73.0mm 20 20 300 GL 1/4 -2 N/A 2068 DN32—DN50 300 300 MF 2068 2068 DN32-73.0mm 20 20 300 300 MT 2068 2068 DN32—DN50 J 20 20 300 300 MLT 2068 2068 DN32—DN50 1 .--.--- 300 TF I 2½ N/A 2068 73.0 mm - j 20 I WG7, WG7E 0N32—DN50 1 ¼-2 WLS DN32 - DN50 NOTES [F = EDDY FLOW steel pipe manufactured by Bull Moose Tube Co. Easy-Flow = Easy-Flow steel pipe manufactured by Borusan Mannesmann Boru. EL = EDDYLITE steel pipe manufactured by Bull Moose Tube Co. ET40 = Eddythread 40 steel pipe manufactured by Bull Moose Tube Co. EZT = EZ-Thread steel pipe manufactured by Youngstown Tube Co. FF = Fire-Flo steel pipe manufactured by Youngstown Tube Co. 300 N/A 2068 20 300 N/A 2068 20 GL = GL steel pipe manufactured by Wheatland Tube Co. ME = Mega-Flow steel pipe manufactured by Wheatland Tube Co. MT = Mega-Thread steel pipe manufactured by Wheatland Tube Co. MLT = MLT steel pipe manufactured by Wheatland Tube Co. TF = Tex-Flow steel pipe manufactured by Tex-Tube Co. WG7, WG7E = WGalweld /and WGalweld 7E steel pipe manufactured by Wuppermann Stahl GmbH. WLS = WLS steel pipe manufactured by Wheatland Tube Co. 10.64 7072 Rev N Updated 06/2020 © 2020 Victaulic Company. All rights reserved. victaulic.com 8 \4tauIic victaulic.com 6.0 NOTIFICATIONS WARNING ' Read and understand all instructions before attempting to install any Victaulic products. Always verify that the piping system has been completely depressurized and drained immediately prior to installation, removal, adjustment, or maintenance of any Victaulic products. Wear safety glasses, hardhat, and foot protection. Failure to follow these instructions could result in death or serious personal injury and property damage. These products shall be used only in fire protection systems that are designed and installed in accordance with current, applicable National Fire Protection Association (NFPA 13, 13D, 13R, etc.) standards, or equivalent standards, and in accordance with applicable building and fire codes. These standards and codes contain important information regarding protection of systems from freezing temperatures, corrosion, mechanical damage, etc. The installer shall understand the use of this product and why it was specified for the particular application. The installer shall understand common industry safety standards and potential consequences of improper product installation. It is the system designer's responsibility to verify suitability of materials for use with the intended fluid media within the piping system and external environment. The material specifier shall evaluate the effect of chemical composition, pH level, operating temperature, chloride level, oxygen level, and flow rate on materials to confirm system life will be acceptable for the intended service. Failure to follow installation requirements and local and national codes and standards could compromise system integrity or cause system failure, resulting in death or serious personal injury and property damage. NOTICE Victaulic does not recommend the use of any furnace butt-welded pipe with sizes 2"IDN50 and smaller Victaulic gasketed joint products. This includes, but is not limited to, ASTM A53 Type F pipe. 7.0 REFERENCE MATERIALS 05.01: Seal Selection Guide 25.01: Original Groove System (OGS) Groove Specifications I-009N: Installation Instructions FireLock EZTM Rigid Coupling Style 009N 1-100: Victaulic Field Installation Handbook 1-109: Installation Instructions FireLockTM One-Bolt Rigid Coupling Style 109 l-ENDCAP: Victaulic End Caps Installation Instructions User Responsibility for Product Selection and Suitability Each user bears final responsibility for making a determination as to the suitability of Victaulic products for a particular end-use application, in accordance with industry standards and project specifications, and the applicable building codes and related regulations as well as Victaulic performance, maintenance, safety, and warning instructions. Nothing in this or any other document, nor any verbal recommendation, advice, or opinion from any Victaulic employee, shall be deemed to alter, vary, supersede, or waive any provision of Victaulic Company's standard conditions of sale, installation guide, or this disclaimer. Intellectual Property Rights No statement contained herein concerning a possible or suggested use of any material, product, service, or design is intended, or should be constructed, to grant any license under any patent or other intellectual property right of Victaulic or any of its subsidiaries or affiliates covering such use or design, or as a recommendation for the use of such material, product, service, or design in the infringement of any patentor other intellectual property right. The terms "Patented" or "Patent Pending" refer to design or utility patents or patent applications for articles and/or methods of use in the United States and/or other countries. Note This product shall be manufactured by Victaulic or to Victaulic specifications. All products to be installed in accordance with current Victaulic installation/assembly instructions. Victaulic reserves the right to change product specifications, designs and standard equipment without notice and without incurring obligations. Installation Reference should always be made to the Victaulic installation handbook or installation instructions of the product you are installing. Handbooks are included with each shipment of Victaulic products, providing complete installation and assembly data, and are available in PDF format on our website at www.victaulic,com. Warranty Refer to the Warranty section of the current Price List or contact Victaulic for details. Trademarks Victaulic and all other Victaulic marks are the trademarks or registered trademarks of Victaulic Company, and/or its affiliated entities, in the U.S. and/or other countries. 10.64 7072 Rev N Updated 06/2020 © 2020 Victaulic Company. All rights reserved. victaulic.com ,NJLictaullice Victaulic® FireLockTM Rigid Coupling (tyle 005H) Jttl2luIic 10.02 Exaggerated for clarity Patented 1.0 PRODUCT DESCRIPTION Available Sizes 11/4 -8/DN32—DN200 Maximum Working Pressure Up to 350 psi/2413 kPa Function Joins carbon steel pipe with grooved ends conforming to publication 25.01 This product is designed for fire protection systems only Pipe Material Schedule 10, Schedule 40 or specialty carbon steel pipe listed in Section 5. For use with alternative materials and wall thicknesses please contact Victaulic Carbon Steel Stainless Steel For exceptions reference section 6.0 Notifications 2.0 CERTIFICATION/LISTINGS FLPCB USTED 104-la/02 See Victaulic Publication 10.01 for more details. ALWAYS REFER TO ANY NOTIFICATIONS AT THE END OF THIS DOCUMENT REGARDING PRODUCT INSTALLATION, MAINTENANCE OR SUPPORT. System No. Location Spec Section Paragraph Submitted By Date Approved Date victaulic.com 10.02 1538 Rev N Updated 06/2020 © 2020 Victaulic Company. All rights reserved. '\taUIiC 1 _________________ victaulic.com 3.0 SPECIFICATIONS - MATERIAL Housing: Ductile iron conforming to ASTM A-536, grade 65-45-12. Ductile iron conforming to ASTM A-395, - grade 65-45-15, is available upon special request. Housing Coating: (specify choice) Standard: Orange enamel (North America); red enamel (Europe) El Optional: Hot dipped galvanized. Coupling Gasket (specify choice): D Grade "E" EPDM Type A VicPlusTM Gasket System' EPDM (Violet color code). FireLock products have been Listed by Underwriters Laboratories Inc. and Approved by Factory Mutual Research for wet and dry (oil free air) sprinkler services up to the rated working pressure using the Grade "E" Type A VicPlusTM Gasket System, requiring no field lubrication for most installation conditions. El Grade "L" silicone Recommended for dry heat, air without hydrocarbons to +350°F and certain chemical services. For dry services, Victaulic continues to recommend the use of Grade "E" Type A FlushSeal® Gasket. Contact Victaulic for details. Standard gasket and FlushSeal gasket approved for dry pipe systems to —40°F/-40°C. Based on "typical" pipe surface conditions, supplemental lubricant is recommended for services installed below O°F/-18°C and for all dry pipe systems or systems to be subjected to air tests prior to being filled with water. Supplemental lubrication may also be required on pipe with raised or undercut weld seams or pipe that has voids and/or cracks at the weld seams. Victaulic continues to recommend the use of FlushSeal gaskets for dry services. NOTE Additional gasket styles are available. Contact Victaulic for details. Bolts/Nuts: Heat-treated plated carbon steel, trackhead meeting the physical and chemical requirements of ASTM A-449 and physical requirements of ASTM A-183. 10.02 1538 Rev N Updated 06/2020 © 2020 Victaulic Company. All rights reserved. victaulic.com 2 _JttauIic I victaulic.com 4.0 DIMENSIONS Style 005H Rated for wet and dry sprinkler systems at 350 psi/2413 kPa for 11/4 - 4/32 - 100 mm sizes and 300 psi /2068 kPa for 4 ¼ - 8/108 - 200 mm sizes; Schedule 10 roll grooved or Schedule 40 cut or roll grooved steel pipe. Style 005H is rigid and does not accommodate expansion, contraction or angular deflection. AL NVIR IiU Style 005H Size Maximum Maximum Allow. Dimensions Approx. Actual Outside Working End Pipe End Weight Nominal Diameter Pressure' ' Load' Separation2 Bolt/Nut3 X Y Z Each inches inches psi lbs inches No-size inches inches inches lbs mm mm kPa N mm inches mm mm mm kg 11/4 1.660 350 755 0.05 2.75 4.50 1.88 1.2 32 42.4 2413 3370 1.2 1 2-%X2/4 70 114 48 05 11/2 1.900 350 990 0.05 3.00 4.75 1.88 1.2 2-3/8 1 X2 /4 40 48.3 2413 4415 1.2 76 121 48 0.5 2 2.375 350 1550 0.07 3.50 5.25 1.88 1.6 50 60.3 2413 6900 2-%X21 /2 89 133 - 48 0.7 21/2 2.875 350 2270 0.07 4.00 5.75 1.88 1.9 65 73.0 2413 10110 1.7 2- 3/8 X21 /2 102 146 48 .09 3.000 350 2475 0.07 4.13 5.75 1.88 1.9 76.1 mm 2-3/ax21/2 76.1 2413 11010 1.7 105 146 48 0.9 3 3.500 350 3365 0.07 4.63 6.13 1.88 2.1 2-3/8 1 X2 /2 80 88.9 2413 14985 1.7 118 156 48 1.0 4 4.500 350 5565 0.16 5.75 7.25 2.13 3.1 100 114.3 2413 24770 4.1 2 - S 3/ X 2½ 146 184 54 1.4 4.250 300 4255 0.16 5.63 7.25 2.13 3.1 108.0mm 2-3/8 X2½ 108.0 2068 18940 4.1 143 184 54 1.4 5 5.563 300 7290 0.16 6.88 9.00 2.13 4.5 125 1413 2068 32445 4.1 2- / 1 2 X3 175 229 54 2.0 5.250 300 6495 0.16 6.63 9.00 2.13 4.5 133.0mm 2-½X2 3/4 133.0 2068 28900 4.1 168 229 54 2.0 5.500 300 7125 0.16 6.88 9.00 2.13 4.8 139.7 mm 2-½x2~ 139.7 2068 31715 4.1 175 229 54 2.2 6 6.625 300 10340 0.16 8.00 10.00 2.13 5.0 150 168.3 2068 46020 4.1 2-, x3 1 203 254 53 2.3 6.250 300 9200 0.16 7.63 10.00 2.13 5.5 159.0mm 2-/2X2 159.0 2068 40955 - 4.1 - 194 254 54 -- 2.5 165.1 mm 6.500 300 9955 0.16 2-½x3 8.15 10.00 2.13 5.5 165.1 2068 44295 4.1 207 254 54 2.5 8 8.625 300 17525 0.19 10.50 13.14 2.63 11.3 200 219.1 2068 - 78000 4.8_ 2- 5/8 1 X4/4 267 334 - 67 5.1 1 Working Pressure and End Load are total, from all internal and external loads, based on standard weight (ANSI) steel pipe, standard roll or cut grooved in accordance with Victaulic specifications. Contact Victaulic for performance on other pipe. WARNING: FOR ONE TIME FIELD TEST ONLY, the Maximum Joint Working Pressure may be increased to 11h times the figures shown. 2 The allowable pipe separation dimension shown is for system layout purposes only. Style 005H couplings are considered rigid connections and will not accommodate expansion or contraction of the piping system. Number of bolts required equals number of housing segments. Metric thread size bolts are available (color coded gold) for all coupling sizes upon request. Contact Victaulic for details. Style 005H couplings are VdS and LPC Approved to 16 Bar/235 psi. 10.02 1538 Rev N Updated 06/2020 © 2020 Victaulic Company. All rights reserved. victautic.com 3 \4taulicr victaulic.com 5.0 PERFORMANCE Style 005H The information provided below is based on the latest listing and approval data at the time of publication. Listings! Approvals are subject to change and/or additions by the approvals agencies. Contact Victaulic for performance on other pipe and the latest listings and approvals. Related Working Pressure psi Related Working Pressure psi Related Working Pressure psi Pipe Sch. Size UL ULC FM Pipe Sch. Size UL ULC FM Pipe Sch. Size UL ULC FM inches inches I inches 5 11/4 -3 175 175 175 EL 11/4 -2 300 N/A N/A MT 11/4 _2 300 N/A N/A 11/4 -3 350 350 350 ET 11/4 _2 300 N/A N/A STF 11/4-4 N/A N/A 300 14 0 0 5-8 300 300 300 EZ 4-6 3006 N/A 300 Steady Thd. 11/4 -2 N/A N/A 300 BLT 11 -2 300 300 N/A FF 11/4-4 N/A N/A 300 TF 3-8 N/A N/A 300 DF 11 —4 300 300 300 GAL -7 11/4 -2 300 N/A N/A WLS 1¼ - 2 300 300 N/A DI 11/4-2 300 300 N/A MLT 11/4 -2 300 N/A N/A 1 11/4-3 300 300 300 EF 11/4-4 1 175 7 1 N/A 175 MF 11/4 -4 300 N/A 300 FM approved for service in 11/2 - 4 pipe. 6 UL Listed for service up to 4 pipe only. UL Listed for service up to 3 only. S I 10.02 1538 Rev N Updated 06/2020 © 2020 victaulic Company. All rights reserved. victaulic.com 4 _ ictaullilme _________ 1 victaulic.com 6.0 NOTIFICATIONS WARNING 101, tOUxI Read and understand all instructions before attempting to install any Victaulic products. Always verify that the piping system has been completely depressurized and drained immediately prior to installation, removal, adjustment, or maintenance of any Victaulic products. Wear safety glasses, hardhat, and foot protection. Failure to follow these instructions could result in death or serious personal injury and property damage. These products shall be used only in fire protection systems that are designed and installed in accordance with current, applicable National Fire Protection Association (NFPA 13, 13D, 13R, etc.) standards, or equivalent standards, and in accordance with applicable building and fire codes. These standards and codes contain important information regarding protection of systems from freezing temperatures, corrosion, mechanical damage, etc. The installer shall understand the use of this product and why it was specified for the particular application. The installer shall understand common industry safety standards and potential consequences of improper product installation. It is the system designer's responsibility to verify suitability of materials for use with the intended fluid media within the piping system and external environment. The material specifier shall evaluate the effect of chemical composition, pH level, operating temperature, chloride level, oxygen level, and flow rate on materials to confirm system life will be acceptable for the intended service. Failure to follow installation requirements and local and national codes and standards could compromise system integrity or cause system failure, resulting in death or serious personal injury and property damage. NOTICE Victaulic does not recommend the use of any furnace butt-welded pipe with sizes 27/DN50 and smaller Victaulic gasketed joint products. This includes, but is not limited to, ASTM A53 Type F pipe. 7.0 REFERENCE MATERIALS 10.01 Victaulic Products for Fire Protection Piping Svsteris - Regulatory Approval Reference Guide 1-100 Victaulic Field Installation Handbook User Responsibility for Product Selection and Suitability Each user bears final responsibility for making a determination as to the suitability of Victaulic products for a part.cular end-use application, in accordance with industry standards and project specifications, and the applicable building codes and related regulations as well as Victaulic performance, maintenance, safety, and warning instructions. Nothing in this or any other document, nor any verbal recommendation, advice, or opinion from any Victaulic employee, shall be deemed to alter, vary, supersede, or waive any provision of Victaulic Company's standard conditions of sale, installation guide, or this disclaimer. Intellectual Property Rights No statement contained heroin concerning a possible or suggested use of any material, product, service, or design is intended, or should be constructed, to grant any license under any patent or other in-ellectual property right of Victaulic or any of its subsidiaries or affiliates covering such use or design, or as a recommendation for the use of such material, product, service, or design in the infringement of any patent or other intellectual property right. The terms "Patented" or "Patent Pending" refer to design or utility patents or patent applications for articles and/or methods of use in the United States and/or other countries. Note This product shall be manufactured by Victaulic or to Victaulic specifications. All products lobe installed in accordance with current Victaulic installation/assembly instructions. Victaulic reserves the right to change product specifications, designs and standard equipment without notice and without incurring obligations. Installation Reference should always be made to the Victaulic installation handbook or installation instructions of the product you are installing. Handbooks are included with each shipment of Victaulic products, providing complete installation and assembly data, and are available in PDF format on WeChat. Warranty Refer to the Warranty section of the current Price List or contact Victaulic for details. Trademarks Victaulic and all other Victaulic marks are the trademarks or registered trademarks of Victaulic Company, and/or its affiliated entities, in the U.S. and/or other countries. 10.02 1538 Rev N Upcated 06/2020 © 2020 Victaulic Company. All rights reserved. victaulic.com 5 JtauIic Victaulic® Flexible Coupling CSt--.7t AC— —ta U li c r 06.05 1 - 87DN25 - DN200 1.0 PRODUCT DESCRIPTION Available Sizes 1 - 8/DN25 - DN200 Pipe Material Carbon steel Stainless steel For exceptions see section 6.0 Notifications Maximum Working Pressure Accommodates pressures ranging from full vacuum (29.9 in Hg/760 mm Hg) up to 500 psi/3447 kPa/34 bar Working pressure dependent on material, wall thickness and size of pipe Application Joins standard roll grooved and cut grooved pipe, as well as grooved fittings, valves and accessories Provides a flexible pipe joint which allows for expansion, contraction and deflection Up to 50% lighter in weight than standard Victaulic Style 77 or Style 177N flexible couplings 2.0 CERTIFICATION/LISTINGS :®us FM R LPCBJ Qy NOTES Download publication 10.01 for Fire Protection certifications/Listings Reference Guide. See publication 02.06: victaulic Potable Water Approvals ANSI/NSF for potable water approvals if applicable. ALWAYS REFER TO ANY NOTIFICATIONS AT THE END OF THIS DOCUMENT REGARDING PRODUCT INSTALLATION, MAINTENANCE OR SUPPORT. System No. Location Spec Section Paragraph Submitted By Date Approved Date p victaulic.com 06.05 1470 Rev Q Updated 05/2020 © 2020 victaulic company. All rights reserved. 1 ictaulic victaulic.com 3.0 SPECIFICATIONS - MATERIAL Housing: Ductile iron conforming to ASTM A536, Grade 65-45-12. Ductile iron conforming to ASTM A395, Grade 65-45-15, is available upon special request. Housing Coating: (specify choice) Standard: Orange enamel 0 Optional: Hot dipped galvanized El Optional: Contact Victaulic with your requirements for other coatings. Gasket: (specify choice') El Grade "E" EPDM EPDM (Green stripe color code). Temperature range —30"F to +230"F/-34"C to +110"C. May be specified for hot water service within the specified temperature range plus a variety of dilute acids, oil-free air and many chemical services. UL Classified in accordance with ANSI/NSF 61 for cold +73°F/+23°C and hot +180°FI+82°C potable water service and ANSI/NSF 372. NOT COMPATIBLE FOR USE WITH PETROLEUM SERVICES OR STEAM SERVICES. El Grade "1" Nitrile Nitrile (Orange stripe color code). Temperature range —20"F to +180"FI-29"C to +82"C. May be specified for petroleum products, air with oil vapors, vegetable and mineral oils within the specified temperature range; not compatible for hot dry air over +140017/+600C and water over +150°F/+66°C. NOT COMPATIBLE FOR USE WITH HOT WATER. a Others For alternate gasket selection, reference publication 05.01: Victaulic Seal Selection Guide - Elastomeric Seal Construction. Services listed are General Service Guidelines only. It should be noted that there are services for which these gaskets are not compatible. Reference should always be made to the latest Victaulic Seal Selection Guide for specific gasket service guidelines and for a listing of services which are not compatible. Bolts/Nuts: (specify choice2) 0 Standard: Carbon steel oval neck track bolts meeting the mechanical property requirements of ASTM A449 (imperial) and ISO 898-1 Class 9.8 (M10-M16) Class 8.8 (M20 and greater). Carbon steel hex nuts meeting the mechanical property requirements of ASTM A563 Grade B (imperial - Heavy Hex nuts) and ASTM A563M Class 9 (metric - hex nuts). Track bolts and hex nuts are zinc electroplated per ASTM B633 ZN/FE5, finish Type III (imperial) or Type II (metric). 0 Optional (imperial): Stainless steel oval neck track bolts meeting the mechanical property requirements of ASTM F593, Group 2 (316 stainless steel), condition CW. Stainless steel heavy nuts meeting the mechanical property requirements of ASTM F594, Group 2 (316 stainless steel), condition CW, with galling reducing coating. 2 Optional bolts/nuts are available in imperial sizes only. 06.05 1470 Rev 0 Updated 05/2020 © 2020 Victaulic Company. All rights reserved. victhulic.com JtauIic victaulic.com 4.0 DIMENSIONS Style 75 Flexible Coupling IN 4 )IjII Pipe End Deflection from Size Separation3 Centerline3 Bolt/Nut - Dimensions Weight Actual Outside Approx. Nominal Diameter Allowable Per Cplg. Pipe Qty. Size X Y Z (Each) inches inches inches inches/ft. imperial inches inches inches lb DN mm mm Degrees mm/rn - metric mm mm mm kg 1 1.315 0-0.06 0.57 %x2 2.38 4.27 1.77 13 DN25 33.7 0-1.6 2 48 2 M10x51 61 108 45 0.6 1 1/4 1.660 0-0.06 2 -10 , 0.45 2 x2 2.68 4.61 1.77 1.4 DN32 42.4 0-1.6 38 M10x51 68 117 45 0.6 11/2 1.900 0-0.06 1 -56' 0.40 2 x 2 2.91 4.82 1.77 1.5 0N40 48.3 0-1.6 33 - M10x51 74 122 45 0.6 2 2.375 0-0.06 1 -3 1 , 0.32 2 %x2 3.43 5.22 1.88 1.7 DNSO 60.3 0-1.6 26 M10x51 87 133 48 0.8 21/2 2.875 0-0.06 , 0.26 %x2 3.88 5.68 1.88 1.9 73.0 0-1.6 1 -15 22 2 - M1Ox51 98 144 48 0.9 3.000 0-0.06 1 - 12' 0.26 2 x2 4.00 5.90 1.88 1.9 0N65 76.1 0-1.6 22 M10x51 102 150 1 48 0.9 3 3.500 0-0.06 1'-2 , 0.22 2 ½X23/4 4.50 7.00 1.88 2.9 DN80 88.9 , 0-1,6 18 M12x70 114 178 48 1.3 31/2 4.000 0-0.06 0 -54 , 0.19 2 ½x23.4 5.00 7.50 1.88 2.9 DN90 101.6 0-1.6 16 M12x70 127 191 48 1.3 4 0-0.13 , 0.34 ½x23.4 5.80 8.03 2.13 4.1 4.5001DN100 114.3 0-3.2 1-6 28 2 M12x70 147 204 54 1.9 4.250 0-0.13 1 -41 ' 0.35 2 ½x23/4 5.55 7.79 2.13 3.7 108.0 0-3.2 29 M12x70 141 198 54 1.7 5.000 0-0.13 1 -26' 0.25 2 x3¼ 6.13 9.43 2.13 5.5 127.0 0-3.2 21 M16x83 156 240 54 2.5 5.250 0-0.13 , 1 -21 0.28 2 x3¼ 6.55 9.37 2.13 6.0 133.0 0-3.2 24 M16x83 166 238 54 2.7 5.500 0-0.13 0.28 2 x3 ¼ 6.80 9.59 2.13 6.3 0N125 139.7 0-3.2 1 - 18' 24 M16x83 173 244 54 2.9 5 5.563 0-0.13 1 -18' 0.27 2 x3¼ 6.88 10.07 2.13 5.8 141.3 0-3.2 23 - M16x83 175 256 54 2.6 6.000 0-0.13 112 , 0.21 2 x3¼ 7.38 10.48 1.88 6.2 152.0-3.2 18 M16x83 187 266 - 48 2.8 6.250 0-0.13 1 - 91 0.24 2 x3¼ 7.63 10.49 2.13 6.8 159.0 0-3.2 20 M16x83 194 266 54 3.1 6.500u 0-0.13 1 7' 0.23 2 x3 ¼ 7.84 10.66 2.08 6.6 165.lt 0-3.2 - 58 M16x83 199 271 53 3.0 6 6.625 0-0.13 15 , 0.23 2 x 3 1/4 8.00 11.07 2.13 7.0 DN150 168.3 0-3.2 18 M16x83 203 281 54 3.2 0-0.13 , 0-51 0.18 2 3Ax4¼ 10.19 13.75 2.32 13.2 200A4 216.3 0-3.2 46 M20 108 259 350 59 6.0 8 8.625 0-0.13 0 0' 0.18 2 3%x4¼ 10.34 13.97 2.13 12.4 DN200 219.11 0-3.2 1 14 - M20 108 263 355 1 59 1 5.6 Allowable Pipe End] Separation and Deflection figures show the maximum nominal range of movement available at each joint for standard roll grooved pipe. Figures for standard cut grooved pipe may be doubled. These figures are maximums; for design and installation purposes these figures should be reduced by: 50% for 3%_3 W/DN20 - DN90; 25% for 4/DN100 and larger. Japanese Industrial Standard (JIS) size NOTE Metric thread size bolts are available (color coded gold) for all coupling sizes upon request. Contact Victaulic for details. 06.05 1470 Rev Q Updated 05/2020 © 2020 Victaulic Company. All rights reserved. victaulic.cnm 3 JtaUIicr victaulic.com 5.0 PERFORMANCE Style 75 Flexible Coupling Size Maximum Actual Outside Working Maximum Nominal Diameter Pressures End Loads inches inches psi lb DN mm kPa N 1 1.315 500 680 DN25 33.7 3447 3025 1¼ 1.660 500 1080 DN32 42.4 3447 4805 1 ½ 1.900 500 1420 DN40 48.3 3447 6320 2 2.375 500 2215 DN50 60.3 3447 9860 21/2 2.875 500 3245 73.0 3447 14440 3.000 500 3535 DN65 76.1 3447 15730 3 3.500 500 4800 DN80 88.9 3447 21360 31/2 4.000 500 6300 DN90 101.6 3447 28035 4 4.500 500 7950 DN100 114.3 3447 35380 4.250 450 6380 108.0 3103 28395 5.000 450 8820 127.0 3103 39250 5.250 450 9735 133.0 3103 43325 5.500 450 10665 DN125 139.7 3103 47460 5 5.563 450 10935 141.3 3103 48660 6.000 450 12735 152.4 3103 56670 6.250 450 13800 - 159.0 3103 61405 6 6.625 450 15525 DN150 168.3 3103 69085 6.500 450 14930 165.1 3103 - 66412 450 25625 200A4 216.3 3103 113986 8 8.625 450 26280 DN200 219.1 3103 116945 Japanese Industrial Standard (JIS) size Working Pressure and End Load are total, from all internal and external loads, based on ANSI B36.10 sized carbon steel pipe, grooved in accordance with Victaulic specifications. Contact Victaulic for performance on other pipe. NOTE WARNING: FOR ONE TIME FIELD TEST ONLY, the Maximum Joint Working Pressure may be increased to 11h times the figures shown. 06.05 1470 Rev Q Updated 05/2020 © 2020 Victaulic Company. All rights reserved. victaulic.com 4 STYLES 920 AND 920N STYLE 920 CROSS PATENTED Mechanical-I® Bolted Branch Outlets ® [LPCBI VNIIPO SEE VICTAULIC PUBLICATION 10.01 FOR DETAILS STYLES 920 AND 920N Victaulic MechanicalT® Outlet provides a direct branch connection at any location a hole can be cut in pipe. The hole is cut oversize to receive a "holefinder" locating collar which secures the outlet in position permanently. A pressure responsive gasket seals on the pipe O.D. Cross-type connections can be achieved by utilizing two upper housings of the same style and size, with the same or differing branch size connections. NOTE: Style 920 and Style 920N housings cannot be mated to each other to achieve a cross connection. Style 920 and Style 920N Mechanical-T outlets are available with grooved or female threaded outlet. Specify choice on order. Units are supplied painted with plated bolts. Galvanized hous- ings are available, supplied with plated bolts. All sizes of Style 920 and 920N are rated at 500 psi/3450 kPa working pressure on Schedule 10 and 40 carbon steel pipe. They may also be used on high density polyethylene or poly- butylene (HDPE) pipe. Pressure ratings on HDPE are dependent on the pipe rating. Contact Victaulic for ratings on other pipe. Style 920 and 920N are not recommended for use on PVC plastic pipe. Standard piping practices dictate that the Mechanical-T Styles 920 and 920N must be installed so that the main and branch connections are a true 900 angle when permanently attached to the pipeline surface. Additionally, the Vic-Tap Il® hole cutting tool, which allows for hole cutting capabilities on pressurized systems, utilizes the Style 920 Mechanical-T in conjunction with the Series 726 Vic-Ball Valve to create the Style 931 Vic-Tap II Mechanical-T unit. See page 8 for further information. MATERIAL SPECIFICATIONS Housing/Coating: Ductile iron conforming to ASTM A-536, grade 65-45-12, with orange enamel coating. Ductile iron conforming to ASTM A-395, grade 65-45-15, is available upon special request. Optional: Hot dipped galvanized Gasket: (Specify choice*) Grade "E" EPDM EPDM (Green color code). Temperature range —30°F to +230°F/-34°C to +110°C. Recommended for cold and hot water service within the specified temperature range plus a variety of dilute acids, oil-free air and many chemical services. UL Classified in accordance with ANSI/NSF 61 for cold +86°F/+30°C and hot +180°F/+82°C. NOT RECOMMENDED FOR PETROLEUM SERVICES. Grade "T" nitrile Nitrile (Orange color code). Temperature range —20°F to +180°F/-29°C to +82°C. Recommended for petroleum products, air with oil vapors, vegetable and mineral oils within the specified temperature range. Not recommended for hot water services over +150°F/+66°C or for hot dry air over +140°F/+60°C. *Services listed are General Service Recommendations only. It should be noted that there are services for which these gaskets are not recommended. Reference should always be made to the latest Victaulic Gasket Selection Guide for specific gasket service recommendations and for a listing of services which are not recommended. Bolts/Nuts: Heat-treated plated carbon steel, trackhead meeting the physical and chemical requirements of ASTM A-449 and physical requirements of ASTM A-183. JOB/OWNER CONTRACTOR ENGINEER System No. Submitted By Spec Sect Para Location Date Approved Date www.victaulic.com vIclAuLic Is A REGISTERED TRADEMARK OF vICTAULIc COMPANY. © 2018 VICTAULIC COMPANY. ALL RIGHTS RESERVED. REV U _It Aic__taulic 11.02 1 CARBON STEEL PIPE- HOLE CUT PRODUCTS Mechanical-I® Bolted Branch Outlets STYLES 920 AND 920N 1 IJ1 ItI1•h. 4 (Q21 lip 920N 500 1.50 2.00 2.53 1.61 5.35 2.75 3.1 2 1/2 (a) a 50 15 - - 3450 381 51 64 41 136 70 15 '/4 (a) a 920N 500 1.50 1.97 2.53 1.61 5.35 2.75 3.1 20 3450 38.1 50 64 - 41 136 70 1.5 - 1(a) a 920N 500 1.50 1.85 2.53 1.61 5.35 2.75 3.0 25 3450 38.1 47 64 - 41 136 70 1.4 1 1/4 (a) to 920N 500 1.75 2.05 2.75 3.00 1.61 5.35 3.00 3.5 3.2 32 3450 44.5 52 70 76 41 136 76 1 1.7 1.5 1½ (a) 3a 920N 500 1.75 2.03 2.75 3.12 1.61 5.35 3.25 3.6 3.2 40 3450 44.5 52 70 79 41 136 83 1.7 1.5 2½ 1/2 (a) § a920N 500 1.50 2.21 2.74 1.82 5.64 2.75 3.0 65 15 3450 38.1 56 70 - 46 143 70 1.4 - 1/4 (a) § a920N 500 1.50 2.18 2.74 1.82 5.64 2.75 3.0 20 3450 38.1 55 70 - 46 143 70 1.4 - 1(a) §a 920N 500 1.50 2.06 2.74 1.82 5.64 2.75 2.9 25 3450 38.1 52 70 - 46 143 70 1.4 - 11/4t(a)a 920N 500 1.75 230 3.00 3.25 1.82 6.29 3.00 3.5 3.2 32 3450 44.5 58 76 83 46 160 76 1.7 1.5 1½ t (a) a 920N 500 2.00 2.28 3.00 3.25 1.82 6.26 3.25 3.6 3.3 40 3450 50.8 58 76 1 83 46 159 83 1.7 1.6 761 x ½(a) 920N 300 1.50 2.22 2.75 2.25 6.46 3.18 3.9 15 2065 38.1 56 70 57 164 81 1.8 - Y4 (a) 920N 300 1.50 2.19 2.75 2.25 6.46 3.18 3.9 20 2065 38.1 56 70 57 164 81 1.8 - 1(a) 920N 300 1.50 2.07 2.75 2.25 6.46 3.18 3.8 25 2065 38.1 53 70 iL _±_ L_ .JL... 11/4 (a) a 920N 500 1.75 2.30 3.00 + 3.31 1.92 6.29 3.00 3.5 3.2 32 3450 44.5 58 76 84 49 160 76 1.6 1.5 1½ (a) a 920N 500 2.00 2.28 3.00 3.31 1.92 6.29 3.25 3.5 3.3 40 3450 50.8 58 76 84 49 160 83 1.6 1.5 3 x ½ (a) G 920N 500 1.50 2.52 3.05 2.28 6.15 2.75 3.4 80 15 3450 38.1 64 78 - 58 156 70 1.6 - 3/4 (a) a 920N 500 1.50 2.49 3.05 2.28 6.15 2.75 3.4 20 3450 38.1 63 78 - 58 156 70 1.6 - 1(a) 920N 500 1.50 2.38 3.06 2.28 6.15 2.75 3.3 25 3450 38.1 61 78 - 58 156 70 1.6 11/4 (a) to 920N 500 1.75 2.55 3.25 3.56 2.28 6.15 3.00 3.8 3.7 32(b) 4 1 1/z (a) la 920N 500 2.00 2.78 3.50 3.56 2.28 6.15 3.25 4.1 3.8 40(b) 0 8 2 (a) a 920N 500 2.50 2.75 3.50 3.56 2.28 6.75 3.88 4.9 4.6 50 3450 63.5 70 89 90 58 172 99 2.3 21 31/2 2 500 1 2.50 3.00 3.75 244 6.72 3.88 3.8 90 50 3450 63.5 76 - 95 62 171 99 1.8 TABLE CONTINUED ON PG. 3 Center of run to engaged pipe end, female threaded outlet only (dimensions approximate). t Available with grooved or female threaded outlet. Specify choice on order. * Center of run to end of fitting. # Female threaded outlets are available to NPT and BSPT specifications. @ See page 7 for Fire Protection approvals and pressure ratings. (a) British Standard female pipe threaded outlet is available as listed. Specify BSPT" clearly on order. (b)For 76.1 mm threaded outlet, specify 21/2 BSPT clearly on order. Vds approved for fire protection services a _PCB approved for fire protection services 0 Approved for use in China by Tianjin Approvals Company. DIMENSIONS y -1-91" r-r_ Z 7-11 V IR GROOVED OUTLET NICE,iiiiiii lei FEMALE THREADED OUTLET Provides a direct branch connection at any location where a hole can be cut in the pipe A pressure responsive gasket provides the seal Request Publication 11.03 for Mechanical-T cross assemblies Pressure rated up to 500 psi/3450 kPa on steel pipe; also available for use with HDPE pipe Sizes from 2 x 1/2750 x 15mm through 8 x 4/200 x 100 mm IMPORTANT NOTES: Style 920 and Style 920N housings cannot be mated to one another to achieve cross connections. www.victaulic.com VIcTAuLIc IS REGISTERED TRADEMARK OF VIcTAULIC COMPANY © 2018 VICTAULIC COMPANY. ALL RIGHTS RESERVED 1.1.02 2 jtauUiC I REV 0 DIMENSIONS Moat .. Na@i - v . 1111-811VIN-1. " S GROOVED OUTLET FEMALE THREADED OUTLET Provides a direct branch connection at any location where a hole can be cut in the pipe A pressure responsive gasket provides the seal Request Publication 11.03 for Mechanical-I cross assemblies Pressure rated up to 500 psi/3450 kPa on steel pipe; also available for use with HDPE pipe Sizes from 2 x W/50 x 15mm through 8 x 4/200 x 100 mm CARBON STEEL PIPE - HOLE CUT PRODUCTS Mechanical-I® Bolted Branch Outlets STYLES 920 AND 920N li, mensions Weight Each +0.13 Inches Inches Inches Inches Inches Inches Lbs. L's TABLE CONTINUED FROM PAGE 2 4 1/2 (a) a 920N 500 1.50 3.03 1 3.56 2.69 7.01 2.75 3.7 100 15 3450 38.1 77 90 - 68 178 70 1.8 - 3/4 (a) D920N 500 1.50 3.00 3.56 2.69 7.01 2.75 3.7 20 3450 38.1 76 90 - 68 178 70 1.8 - 1(a) a 920N 500 1.50 2.88 3.56 2.69 7.01 2.75 3.6 25 3450 38.1 73 90 - 68 178 70 1.8 - 1.75 3.08 3.78 4.00 269 7.01 3.00 4.0 3.6 1 1/4 (a) to 920N 500 32(b) 3450 44.5 78 96 102 68 178 76 1.9 1.8 11/2 (a) to 920N 500 2.00 3.28 4.00 4.00 2.69 7.01 3.25 4.2 3,9 40(b) 3450 50.8 83 102 102 68 178 83 2.0 1.9 2 (a) to 920N 500 2.50 3.25 4.00 4.00 2.69 7.01 3.88 5.0 4.6 50 3450 63.5 83 102 102 68 178 99 2.3 2.1 21/2 (a) t 920 500 2.75 2.88 4.00 4.00 2.69 7.34 4.63 5.8 5.0 65 3450 69.9 73 102 102 68 186 118 2.6 2.3 76.1 mm 920 500 2.75 2.88 4.00 2.69 7.34 4.63 6.4 3450 69.9 73 - 102 68 186 118 - 29 3(a) t 920 500 3.50 3.31 4.50 4.12 2.69 7.73 5,12 8,4 6.4 80 3450 88.9 84 114 105 68 196 130 3.8 2.9 1080 x 1 /4 (a)M 920N 500 1.75 3.08 3.78 2.63 7.64 3.05 5.0 32 3450 44.5 78 96 - 67 194 78 2.3 - 1½ (a)a 920N 500 2.00 3,28 4.00 2.63 7.64 3.25 5.0 40 3450 50.8 83 102 - 67 194 83 2.3 - 2 (a) 920N 500 2.50 3.25 4.00 2.63 7,64 4.00 4,0 50 3450 63.5 83 102 - 67 194 102 1.9 - 761 mm 920 500 2.75 2.88 4.00 4.00 2.63 7.64 4.29 8.0 7.8 3450 69.9 73 102 102 67 194 109 3.6 3.5 3 (a) 920 500 3.50 3.31 4.50 4.50 2.63 7.63 4.88 6.8 6.5 80 3450 88.9 84 114 114 67 194 124 3.1 3.0 5 x 11/2 (a) t 920 500 2.00 4.03 4.75 4.75 3.16 9.70 3.69 7.4 7.6 125 40 3450 50.8 102 121 121 80 246 94 3.4 3.4 2 (a) t . 920 500 2.50 4.00 4.75 4.75 3.16 9.70 4.38 8.2 8.0 50 1 3450 63.5 102 121 121 80 246 111 3.7 3.6 21/2 (a) t 920 500 2.75 3.63 4.75 4.75 3,16 9,70 4.63 8.3 7.9 65 3450 69.9 92 121 121 80 246 118 3.8 3.6 761 m m 920 500 2.75 3.75 4.75 3,16 9.70 4.63 8.0 3450 69.9 95 - 121 80 246 118 - 3.6 3(a) t 920 500 3.50 3.81 5.00 4.63 3,16 9.70 5.31 8.4 8.8 80 3450 88.9 97 127 118 80 246 135 3.8 4.0 1330 2 920N 500 2.50 3.75 4.50 3.17 8.00 3.88 8.0 50 3450 63.5 95 114 - 81 203 99 3.6 - 920 500 350 3.81 5.00 3.00 9.46 5.31 8.0 80 3450 88.9 97 127 - 76 240 1 135 3.6 - TABLE CONTINUED ON PG. 4 IMPORTANT NOTES: center of run to engaged pipe end, female threaded outlet only (dimensions approximate). Style 920 and Style 920N housings cannot be t Available with grooved or female threaded outlet. Specify choice on order. mated to one another * Center of run to end of fitting. to achieve cross connections. # Female threaded outlets are available to NFl and BSPT specifications. @ See page 7 for Fire Protection approvals and pressure ratings. (a) British Standard female pipe threaded outlet is available as listed. Specify "BSPT" clearly on order. (b)For 76.1 mm threaded outlet, specify 21/2" BSPT clearly on order. § Vds approved for fire protection services LPCB approved for fire protection services 0 Approved for use in China by Tianjin Approvals Company. www.victaulic.com VicTAuuc is A REGISTERED TRADEMARK OF vicTAuLic COMPANY. © 2018 VICTAULIC COMPANY, ALL RIGHTS RESERVED. PFV fl \4taulicr CARBON STEEL PIPE - HOLE CUT PRODUCTS Mechanical-I® Bolted Branch Outlets STYLES 920 AND 920N DIMENSIONS GROOVED OUTLET FEMALE THREADED OUTLET Provides a direct branch connection at any location where a hole can be cut in the pipe A pressure responsive gasket provides the seal Request Publication 11.03 for Mechanical-T cross assemblies Pressure rated up to 500 psi/3450kPa on steel pipe; also available for use with HDPE pipe Sizes from 2 x W/50 x 15mm through 8 x 4/200 x 100 mm IMPORTANT NOTES: Style 920 and Style 920N housings cannot be mated to one another to achieve cross connections. Size Style • Max. Work Approx. IJI11.Id. Weight 1W W 4+J I T Li TABLE CONTINUED FROM PAGE 3 1397 x 1½t 920N 500 200 I 378 450 330 823 325 7.0 40 3450 508 96 114 - 84 209 83 3.2 2 t 92014 500 2.50 3.75 4.50 3.30 8.23 3.88 9.0 50 3450 63.5 95 114 - 84 209 99 4.1 - 6 11/4 (a) 920N 500 1.75 4.43 5.13 5.13 3.79 9.15 3.25 5.1 4.8 150 32(b) 3450 44.5 112 130 130 96 232 83 2.3 2.2 1½ (a) to 920N 500 2.00 4.40 5.13 5.13 3.79 9.15 3.25 5.4 5.1 40(b) 3450 50.8 112 130 130 96 232 83 2.4 2.3 2(a) to 920N 500 250 4.38 5.13 5.13 3.79 9.15 3.88 6.0 5.6 50 3450 63.5 111 130 130 96 232 99 2.7 2.5 21/2 920 500 2.75 4.01 5.13 5.12 3.69 10.51 4,63 8.3 7.6 65 3450 69.9 110 130 130 94 267 118 3.8 3.4 761 mm n 920 500 2.75 4.15 5.21 3.69 10.51 4.63 8.4 3450 69.9 105 - 132 94 267 118 - 3.8 3(a) t 920 500 3.50 4.31 5.50 5.13 3.69 10.51 5.31 9.9 8.4 80 3450 88.9 110 140 130 94 267 135 4.5 3.8 4(a) to920 500 4.50 3.81 5.75 5.38 3.69 10.51 6.25 10.1 10.1 100 3450 114.3 97 146 137 94 267 159 4.6 4.6 1590 x 1½ (a) 920N 500 2.00 4.41 5.13 3.63 9.40 3.25 7.8 40 3450 50.8 112 130 - 92 239 83 3.5 - 2(a) 920N 500 2.50 4.38 5.13 3.63 9.40 3.88 8.0 50 3450 63.5 111 130 - 92 239 99 3.6 - 761 mm 920 500 2.75 4.38 5.50 5.13 3.63 9.40 4.63 9.5 9.5 3450 69.9 111 140 130 92 239 118 4.3 4.3 920 500 3.50 4.31 5.50 5.13 3.63 9.40 5.31 8.1 14.0 80 3450 88.9 110 140 130 92 239 135 3.7 6.4 1080mm 920 500 4.50 4.45 5.38 3.63 9.40 6.12 10.0 3450 114.3 113 - 137 92 239 155 - 4.5 920 500 450 3.81 5.75 3.63 9.40 6.25 180 100 3450 114.3 96.80 146 - 92 239 159 8.2 - TABLE CONTINUED ON PG. 5 Center of run to engaged pipe end, female threaded outlet only (dimensions approximate). t Available with grooved or female threaded outlet. Specify choice on order. * Center of run to end of fitting. # Female threaded outlets are available to NPT and BSPT specifications. @ See page 7 for Fire Protection approvals and pressure ratings. (a) British Standard female pipe threaded outlet is available as listed. Specify "BSPT" clearly on order. (b)For 76.1 mm threaded outlet, specify 21/2" BSPT clearly on order. § Vds approved for fire protection services LPCB approved for fire protection services 0 Approved for use in China by Tianjin Approvals Company. www.victaulic.com A~-Ctaulice vIcTAuLIC IS REGISTERED TRADEMARK OF vICTAULIC COMPANY. 02018 VICTAULIC COMPANY. ALL RIGHTS RESERVED 11.02 4 REV 0 CARBON STEEL PIPE - HOLE CUT PRODUCTS .1. i.0 Mechanical-I® Bolted Branch Outlets STYLES 920 AND 920N DIMENSIONS SjIL IK TI GROOVED OUTLET FEMALE THREADED OUTLET Provides a direct branch connection at any location where a hole can be cut in the pipe A pressure responsive gasket provides the seal Request Publication 11.03 for Mechanical-T cross assemblies Pressure rated up to 500 psi/3450 kPa on steel pipe; also available for use with HDPE pipe Sizes from 2 x W/50 x 15mm through 8 x 4/200 x 100 mm St, le Max.Work Approx. Size No. Pressure@ Dimensions Weight Each ma III, i 1 FE199: 770-~ i inches ja :, Inch Inche RWc +013 es s inches Inches Inches Lbs. Lbs: TABLE CONTINUED FROM PAGE 4 1 65.1 x 1 920N 500 1.50 1 3.88 456 3.79 9.34 275 8.0 25 3450 38.1 99 116 - 96 237 70 1 3.6 - 11/4 0 920N 500 1.75 4.43 5.13 3.79 9.34 3.25 8.4 32 3450 44.5 113 130 96 237 83 3.8 - 1½ (a) to 920N 500 2.00 4.41 5.13 5.13 3.79 9.34 3.25 8.4 5.4 40 3450 50.8 112 130 130 96 237 83 3.8 2.4 2(a) t 920N 500 2.50 4.38 5.13 5.13 3.79 9.34 3.88 8.5 6.0 50 3450 63.5 111 130 130 96 237 99 3.9 2.7 761 mm 920 500 2.75 4.01 5.13 5.21 3.63 10.51 4.63 8.6 7.6 3450 69.9 110 130 132 92 267 118 3.9 3.4 3 (a)t 0 920 500 3.50 4.31 5.50 5.13 3.63 10.51 5.31 10.2 8.4 80 3450 88.9 110 140 130 92 267 135 4.6 3.8 4(a) to 920 500 4.50 3.81 5.75 5.38 3.63 10.51 6.25 10.5 8.4 100 3450 114.3 97 146 137 92 267 159 4.8 3.8 8 2(a) t 920 500 2.75 5.44 6.19 6.25 4.81 12.42 4.50 116 11.6 200 50 3450 69.9 138 157 159 122 316 114 5.3 5.3 21/2 (a) t 920 500 2.75 5.07 6.19 6.19 4.81 12.42 4.50 11.6 11.6 65 3450 69.9 129 157 157 122 316 114 5.3 5.3 761 mm n 920 500 2.75 5.25 6.25 4.81 12.42 4.56 11.6 3450 69.9 133 - 159 122 316 116 - 5.3 3(a) to 920 500 3.50 5.31 6.50 6.50 4.81 12.42 5.31 12.6 11.6 80 3450 88.9 135 165 165 122 316 135 5.7 5.3 4(a) t 920 500 4.50 4.81 6.75 6.38 4.81 12.42 6.25 15.3 12.5 100 3450 114.3 122 J 171 162 122 316 159 6.9 5.7 Center of run to engaged pipe end, female threaded outlet only (dimensions approximate). t Available with grooved or female threaded outlet. Specify choice on order. * Center of run to end of fitting. # Female threaded outlets are available to NPT and BSPT specifications. @ See page 7 for Fire Protection approvals and pressure ratings.' (a) British Standard female pipe threaded outlet is available as listed. Specify "BSPT" clearly on order. (b)For 76.1 mm threaded outlet, specify 2½ BSPT clearly on order. § Vds approved for fire protection services o LPCB approved for fire protection services 0 Approved for use in China by Tianjin Approvals Company. IMPORTANT NOTES: Style 920 and Style 920N housings cannot be mated to each other to achieve cross connections. www.victaulic.com viclAuLic IS REGISTERED TRADEMARK OF VICTAULIC COMPANY. © 2018 VICTAULIC COMPANY. ALL RIGHTS RESERVED. PFV fl htauiic° CARBON STEEL PIPE - HOLE CUT PRODUCTS 1. i.Ui Mechanical-I® Bolted Branch Outlets STYLES 920 AND 920N FLOW DATA Flow test data has shown that the total head loss between point (1) and (2) for the Style 920, 920N and 929 Mechanical-r fittings can best be expressed in terms of the pressure difference across the inlet and branch. The pressure difference can be obtained from the relationship below. C, and Ky Values IValues for flow of water at +60°F/-i-16°C are shown in the table below. Formulas for Cv,K, Values: AR = Q2 Where: - p = Q2 Where: C 2 Q = Flow (GPM) Q = Flow (m3/hr) K 2 AR = Pressure Drop (psi) v AR = Pressure Drop (Bar) 4 Q = C x C = Flow Coefficient Q = K, x IFP (4 = Flow Coefficient Exaggerated for clarity Equivalent Length of Outlet Size Sc hedule 40 Carbon Steel Pipe (per UL 213, 16) OUTLET SIZE , Values A VV ½ 0.840 11 15 21.3 - 2 - 9.4 3/4 1.050 16 20 267 - 4 - 13.7 1 1.315 21 3 8 25 33.7 - 1.8 1¼ 1.660 I 50 48 32 42.7 5 6 42.9 41.1 1 ½ 1.900 11 53 53 40 48.3 11 45,4 45.4 2 2.375 112 104 50 60.3 9 10½ 96 89.1 2½ 2.875 119 150 65 73.0 20 12 ½ 102 128.5 76.1 mm 3,000 16 - 161 - 76.1 138.1 3 3.500 249 237 80 889 14 151/2 213.4 203.1 4 4.500 421 401 100 114.3 20 22 360.8 343.6 Hazen-Williams coefficient of friction is 120. Pipe with a wall thickness of 0.165in14.2mm. 1' FireLock"3 Innovative Groove System (IGS) outlet www.victaulic.com VICTAULIC IS A REGISTERED TRADEMARK OF VICTAULIC COMPANY 822018 vlcTAuLlc COMPANY ALL RIGHTS RESERVED. Ac- 11-02 a REV 0 CARBON STEEL PIPE - HOLE CUT PRODUCTS Mechanical-I® Bolted Branch Outlets STYLES 920 AND 920N FIRE PROTECTION APPROVALS AND PRESSURE RATINGS The information provided below is based on the latest listing and approval data at the time of publication. Listings/Approvals are subject to change and/or additions by the approvals agencies. Contact Victaulic for performance on other pipe and the latest listings and approvals. Run Size Outlet Size Pipe Approval Agency Rated Working Pressures — psi/kPa ---------------- Vds In All 10,40 400 400 400 790 21/2.6 2875- 6625 232 362 65-150 73.0-168.3 2755 2755 2755 1999 1599 2496 21/2-4 2.875 - 4.500 All D 300 300 300 290 232 362 65-100 73.0-114.3 2065 2065 2065 1999 1599 2496 21/2-4 2.875 - 4.500 All SF 300 300 300 290 232 362 65-100 73.0-114.3 2065 2065 2065 1999 1599 2496 6 6.625 3,4 10 300 300 250 290 232 362 150 168.3 2065 2065 -1724 1999 1599 2496 6 6.625 34 30,40 300 300 300 290 232 362 150 168.3 2065 2065 2065 1999 1599 2496 8 8.625 21/2 10,40 400 - - - 145 - 200 219.1 2755 1000 8 8.625 34 10 300 250 - 145 - 200 219.1 ___________ 2065 - 1724 1000 8 8.625 34 04 300 - 300 - 145 - 200 219.1 2065 2065 1000 NOTES: 10 refers to Listed/Approved Schedule 10 steel sprinkler pipe. 40 refers to Listed/Approved Schedule 40 steel sprinkler pipe. DF refers to Listed/Approved Dyna-Flow steel sprinkler pipe manufactured by American Tube Company. SF refers to Listed/Approved Super-Flo steel sprinkler pipe manufactured by Allied Tube and Conduit Corporation. VIC-TAP II HOLE CUTTING TOOL FOR The Vic-Tap II hole cutting tool is designed for use with the Style 931 Vic-Tap II Mechanical-T unit, 4 - 87100 - 200 MM CARBON STEEL PIPE which is a combination of the Style 920 Mechanical-T and Series 726 Vic-Ball Valve. The Vic-Tap II is capable of tapping into carbon steel pipe systems under pressures up to 500 psi/3450 kPa. The Style 931 Vic-Tap II Mechanical-T unit is a full port ball valve which can be mounted on 4'/100mm, 57125 mm, 6/150mm and 87200 mm diameter pipe. The Style 931 comes with a 2½/65mm grooved outlet. The drill motor is an electric motor with ground fault circuit interrupter (GFCI) in accordance with safety codes. For more information, refer to publication 24.01 www.victaulic.com VICTAULIC IS A REGISTERED TRADEMARK OF VICTAULIG COMPANY. © 2018 vIcTAULIc COMPANY. ALL RIGHTS RESERVED. PFV 0 \J4't9UIjC 11.02 7 Mechanical-I® Bolted Branch Outlets STYLES 920 AND 920N INSTALLATION Reference should always be made to the 1-100 Victaulic Field Installation Handbook for the product you are installing. Handbooks are included with each shipment of Victaulic products for complete installation and assembly data, and are available in PDF format on our website at www.victaulic.com. WARRANTY Refer to the Warranty section of the current Price List or contact Victaulic for details. NOTE This product shall be manufactured by Victaulic or to Victaulic specifications. All products to be installed in accordance with current Victaulic installation/assembly instructions. Victaulic reserves the right to change product specifications, designs and standard equipment without notice and without incurring obligations. For complete contact information, visit www.victaulic.com 11.02 1480 REV UPDATED 1112018 '\ A Cta U I i ice vicTAuLic IS A REGISTERED TRADEMARK OF vlcrAuuc COMPANY. © 2018 VICTAULIC COMPANY, ALL RIGHTS RESERVED. 11.02 L IKI Jgi1 WWanViI.stär.com : MERIT WeIdMiserTM Tee-Let® Welding Outlet Fittings Unified DesignTM Series H Merits Unified Design Series carries all important design considerations into its entire line of welding branch outlet fittings. Merit® Weld_MiserlM Tee-Lets® are designed and Manufactured to reduce the amount of weld required to install the Tee-Lets on thin wall or proprietary flow pipe. Typically only one weld-pass completes the installation. Merit Tee-Lets install with less weld volume than any other brand of welding outlet fittings for fire sprinkler applications. To accomplish this: - - -- - - The contoured end of the fittings employs a reduced outside diameter. Two major advantages are immediately apparent: The thinner wall on the contoured end permits welding temperatures to be matched to the thickness of the branch line or main thereby insuring complete penetration without cold welds, weld roll-off, burn-through or excessive distortion. On smaller sizes a heavier section is maintained on the threaded end of the fitting. This protects the threads from damage during shipping and handling prior to installation as well as from weld distortion. Each outlet size 11/2 and larger, whether male or female threaded, cut grooved or beveled requires the same hole size in the header pipe. This simplifies the installation process. General Specifications Tee-Let welding outlet fittings are manufactured from highly weldable steel which conforms to the chemical and physical requirements of ASTM A-53, Grades A or B, Type E. Ease of installation is assured when automatic welding equipment is used to install Merit Tee-Lets. Threads are cut in accordance with the requirements of ANSI 61.20.1, national standard for tapered pipe threads, or ISO-7-1 threads are available. Tee-Let threaded and grooved welding outlet fittings are UL/ULC Listed and FM Approved for use in the fire sprinkler systems installed in accordance with the requirements of NFPA Bulletin 13. They are rated for 300 PSI operation in fire sprinkler systems, and higher pressures in other non-critical piping systems. Tee-Lets are offered in a wide variety of header sizes. The consolidated header sizes shown in the following charts allow the fittings to be installed on more than one header size, permitting the first size listed to fit the header perfectly, while a small gap along the longitudinal center line of the header will appear for the second size listed. Merit® WeldMiserTM Tee-Lets® are identified by a lot number that provides full traceability per ISO 9000 specifications. For Your Piping Systems Specify WeldMiserTM Tee-Let® Branch Outlet Fittings shall be Merit Weld-Miser Tee-Let, Lightweight forged steel, employing low weld volume profile to provide for full penetration welds with minimum burn through and pipe distortion on Schedule 5 thru 10, proprietary thin wall, and standard wall pipe. Threads are to be ANSI B1.20.1, or ISO-7-1, and the bore of the fittings calculated to improve flow. Welding outlets to be UL Listed, FM Approved for use conforming to NFPA, Bulletin 13 and pressure rated for 300 PSI maximum. How to Order - Use either of the following methods for ordering Merit® WeldMiserTM Tee-Let®. Method No. 1 Method No. 2 Specify quantity desired followed by the part number shown in the "dimensions" chart for the type and size of outlet desired. Quantity Part Number Use the following system: - x Quantity Outlet Size I Always Column "A" order a few of Chart more than actually required for the job. Type Merit Steel Header Size I Weight End Tee-Let Material I * Insert size Sch. 10 A - Female Thread consolidation Standard B - Male Thread from Column C - Cut Groove "B" of chart. C/R - Roll Groove —2— iIJLStar — Fire Products Division WeIdMiserTM Tee-Let® Welding Outlet Fittings For Fire Protection & Other Low Pressure Piping Systems Merit Weld-Miser1M Tee-Let® Welding Branch Outlet Fittings offer the user a high strength, low cost forged threaded and grooved line of fittings spe- cifically designed and manufactured to be installed on Schedules 5 thru 10, proprietary thin wall flow pipe and standard wall pipe. Merit Tee-Lets are forged steel welding outlet fittings. The material used in manufacture meets the chemical and physical requirements of ASTM A 53, Grades A or B, Type E, A-135, A-795, Tee-Lets employ a low weld volume design to provide for either a partial or full penetration weld employing a single pass with minimum burn-through and pipe distortion. Weld Miser Tee-Lets are recommended for use on proprietary thin wall, Schedules 5, 10 and 40 pipe. Threads comply with ANSI B1.20.1 or 1S07/1. They are UL Listed and FM Approved for use conforming to the requirements of Bulletin 131999 of the National Fire Protection Association. When used in fire sprinkler systems, Tee-Lets are rated for 300 psi. When used in mechanical systems, maximum pressures are calculated using criteria de- veloped for ASME B31 piping code. APPROVED For listing/approval details contact your AnvllSta, RepresentatIve. TEE-LET WELDED O EIU1FITTING iriI(UL J!iP1I EX6032, FM APPROVAL GUIDE CHAPTER I PIPE IIliIei Outlet Model Outlet Pipe Size Header Pipe Size Rated Pressure (Inch) (Inch) (psig) 1,3/4 1 1/2-8(Sch.10,40) 1, 4 (Sch. 5, DynaFlow) Tee-Let Type A 11/4, 11/2, 2, 2½, 3,4 (F-Threaded End) 300 2 4 (EZ-Flow) 2,4 6 (EZ-Flow) Tee-Let Type C 11/4.8 11/4 - 8 (Sch.1 0, 40) (Grooved End) 300 2½-8 1.4 (Sch. 5, DynaFlow) Tee-Let Type C/R 11/4.6 11/4.8 (All Schedules) 300 (Roll _Grooved _End) Size-on-size (i.e. 2 x 2) Tee-Lets are not FM Approved. FM rated working pressure when welded on Sch. 5 or non-threadable IightwaII pipe is 175 psi. ANJh..Star Fire Products Division Type A Female Threa M WeIdMiserTM Tee-Let® Welding Outlet Fittings WELD -MISER TmIIUET' DIMENSIONS & PARTNUMBERS Ii Nominal Nominal Outlet Inside Make Weight Number Outlet Header Length Diameter Up Each A B C 0 M NPT(BSPT) In (mm) In (mm) In (mm) In (mm) In (mm) Lb. (kg) 1002002 1/4 X 11/4 -8 0.080 - 6K 6-200 1 004 1005012 11/4 1½ 1.063 0.700 0.500 0.171 - 32 -40 27.0 17.8 12.7 0.08 1005015 11h -2 1.063 0.700 0.500 0.171 - 1, x 13 , 40 -50 27.0 17.8 12.7 0.08 1005020 2- 2½ 1.063 0.700 0.500 0.171 - 50 -65 27.0 178 12.7 0.08 1005025 21/t -8 1.063 0.700 0.500 0.169 65-200 270 17.8 12.7 0.08 1007012 11/4 - 1½ 1.125 0.900 0.500 0.260 - 32-40 28.6 22.9 12.7 0.12 1007015 1½ -2 1.125 0.900 0.500 0.260 - 3/4 X 19x 40-50 28.6 22.9 12.7 0.12 1007020 2- 2½ 1.125 0.900 0.500 0.260 - 50-65 28.6 22.9 12.7 0.12 1007025 21A -8 1.125 0.900 0.500 0.256 - 65 -200 1 28.6 22.9 12.7 0.12 1010012 11/4 - 1½ 1.250 1.145 0.500 0.331 1110012 32-40 31.8 29.1 12.7 0.15 1010015 11A -2 1.250 1.145 0.500 0.331 1110015 40-50 31.8 29.1 12.7 0.15 1010020 2- 21A 1.250 1.145 0.500 0.320 1110020 1 x 25x 50-65 31.8 29.1 12.7 0.15 1010025 2½-3 1.250 1.145 0.500 0.314 1110025 65-80 31.8 29.1 12.7 0.14 1010030 3-4 1.250 1.145 0.500 0.309 1110030 80-100 31.8 29.1 12.7 0.14 1010050 5-8 1.250 1.145 0.500 0.291 125-200 1 31.8 29.1 12,7 0.13 1012012 11/4 1½ 1.375 1.490 0.500 0.432 1112012 32-40 34.9 378 12.7 .019 1012015 1½ -2 1.375 1.490 0.500 0.421 1112015 40-50 34.9 37.8 12.7 .019 1012020 2- 21A 1.375 1.490 0.500 0.421 1112020 11/4 x 32x 50-65 34.9 378 12.7 .019 1012025 2½-3 1.375 1.490 0.500 0.411 1112025 65-80 34.9 378 12.7 .019 1012030 3-4 1.375 1.490 0.500 0.389 1112030 80-100 34.9 37.8 12.7 .018 1012050 5-8 1.375 1.490 0.500 0.389 1112050 1 125-200 34.9 37.8 12.7 .018 1015015 1½ 1.625 1.610 0.875 0.477 1115015 40 41.3 40.9 22.2 .022 1015020 2 1.625 1.610 0.875 0.477 1115020 11,x 50 41.3 40.9 22.2 .022 1015025 21A 1.625 1.610 0.875 0.477 1115025 40x 65 41.3 40.9 22.2 .022 1015030 3-4 1.625 1.610 0.875 0.477 1115030 80-100 41.3 40.9 22.2 .022 1015040 4 1.625 1.610 0.875 0.477 1115040 100 41.3 40.9 22.2 .022 1015050 5-8 1.625 1 1.610 0.875 0.477 1115050 125-200 1 41.3 40.9 22.2 .022 WELD-MISERL flI DIMENSIONS Nominal Nominal & PARTIN UMBERS Part Outlet Inside Make Weight Number Outlet Header Length Diameter Up Each A B C D M NPT(BSPT) In (mm) In (mm) In (mm) In (mm) In (mm) Lb. (kg) 1020020 2 1.750 2.067 0.875 0.857 1120020 50 44.5 52.5 22.2 0.38 1020025 2½ 1.750 2.067 0.875 0.829 1120025 65 44.5 52.5 22.2 0.38 1020030 3 1.750 2.067 0.875 0.829 1120030 2x 80 44.5 52.5 22.2 0.39 1020040 4 1.750 2.067 0.875 0.800 1120040 50x 100 44.5 52.5 22.2 0.36 1020050 5 1.750 2.067 0.875 0.743 1120050 125 44.5 52.5 22.2 0.34 1020060 6 1.750 2.067 0.875 0.743 1120060 150 44.5 52.5 22.2 0.34 1020080 8 1.750 2.067 0.875 0.743 1120080 1 200 1 44.5 52.5 22.2 1 0.34 1025025 21A 2.215 2.469 1.125 1.250 1125025 65 54.0 62.7 28.6 0.55 1025030 3 2.215 2.469 1.125 1.200 1125030 80 54.0 62.7 28.6 0.55 1025040 4 2.215 2.469 1.125 1.150 1125040 2½x 65x 100 54.0 62.7 28.6 0.52 1025050 5 2.215 2.469 1.125 1.150 1125050 125 54.0 62.7 28.6 0.52 1025060 6 2.215 2.469 1.125 1.150 1125060 150 54.0 62.7 28.6 0.52 1025080 8 2.215 2.469 1.125 1.150 1125080 200 54.0 62.7 28.6 0.52 1030030 3 2.500 3.068 1.500 1.750 - 80 63.5 1 779 38.1 0.79 1030040 4 2.500 3.068 1.500 1.700 - 3x 100 63.5 77.9 38.1 1 0.77 1030050 5 2.500 3.068 1.500 1.700 - 80X 125 63.5 779 38.1 0.77 1030060 6 2.500 3.068 1.500 1.650 - 150 63.5 779 38.1 0.75 1030080 8 2.500 3.068 1.500 1.650 200 63.5 779 38.1 0.75 1040040 4 3.000 4.026 2.000 3.000 - 100 76.2 102.3 50.8 1 1.36 1040050 5 3.000 4.026 2.000 2.900 - 4x bOx 125 76.2 102.3 50.8 1.32 1040060 6 3.000 4.026 2.000 2.800 - 150 76.2 102.3 50.8 1.27 1040080 8 3.000 4.026 2.000 2.800 - 200 76.2 102.3 50.8 1.27 Note: Part #1002002 is not UL Listed or FM Approved. All size-on-size (i.e. 2 X 2) Tee-Lets are not FM Approved. AN1tiStar Fire Products Division I I Type B Male Thread Standard Weight Type C Cut Groove Standard Weight WeIdMiserTM Tee-Let® Welding Outlet Fittings WELD-MISER Tm DIMENSIONS (NOMINAL SIZES 1" THRu 2") Male Thread Cut Groove Nominal Outlet Nominal Header Outlet Length Inside Diameter Outside Diameter Wall Thickness Std Wt Std. Wt. A B C E F NPT (BSPT) NPT(BSPT) !n.(mm) In. (MM) in. (mm) In. (MM) In.(mm) in. (mm) 1310012 2010012 1¼-1½ 3 1.049 1.315 0.133 32-40 80 26.6 33.4 3.4 1310015 2010015 11A -2 3 1.049 1.315 0.133 1 x 40-50 80 26.6 33.4 3.4 1310020 2010020 2- 21h 3 1.049 1.315 0.133 25x 50-65 80 26.6 33.4 3.4 1310025 2010025 2½-4 3 1.049 1.315 0.133 65-100 80 26.6 33.4 3.4 1310050 2010050 5-8 3 1.049 1.315 0.133 125-200 80 26.6 33.4 3.4 1312012 2012012 11/4 3 1.368 1.660 0.140 32 80 34.7 42.2 3.6 1312015 2012015 1½ 3 1.368 1.660 0.140 1¼x 40 80 34.7 42.2 3.6 1312020 2012020 2-2½ 3 1.368 1.660 0.140 32x 50-65 80 34.7 42.2 3.6 1312025 2012025 3-4 3 1.368 1.660 0.140 80-100 80 34.7 42.2 3.6 1312050 2012050 5-8 3 1.368 1.660 0.140 125-200 80 34.7 42.2 3.6 1315015 2015015 1½ 3 1.610 1.900 0.145 40 80 40.9 48.3 3.7 1315020 2015020 2 3 1.610 1.900 0.145 1½x 50 80 40.9 48.3 3.7 1315025 2015025 21/t 3 1.610 1.900 0.145 40x 65 80 40.9 48.3 3.7 1315030 2015030 3-4 3 1.610 1.900 0.145 80-100 80 40,9 48.3 3.7 1315050 2015050 5-8 3 1.610 1.900 0.145 125-200 80 40.9 48.3 3.7 1320020 2020020 2 3 2.067 2.375 0.154 50 80 52.5 60.3 3.9 1320025 2020025 2½ 3 2.067 2.375 0.154 65 80 52.5 60.3 3.9 1320030 2020030 3 3 2.067 2.375 0.154 2x 80 80 52.5 60.3 3.9 1320035 2020035 4 3 2.067 2.375 0.154 50x 100 80 52.5 60.3 3.9 1320050 2020050 5 3 2.067 2.375 0.154 125 1 80 52.5 60.3 1 3.9 1320060 2020060 6 3 2.067 2.375 0.154 150 80 52.5 60.3 3.9 1320080 2020080 8 3 2.067 2.375 0.154 200 80 1 52.5 1 60.3 3.9 Note: Tee-Lets are manufactured to fit size-on-size. that is the contoured shane on a niven Tee-I etc msde to fit oprfer.tlt, on the firct licterl hesder cie If in02IIed on the second header size marked on the fitting, a slight gap of approximately 1/432" will appear along the longitudinal centerline of the header. For example, a 1' x 2 - 21h' Tee-Let, is a 1' outlet fitting manufactured to fit perfectly on the 2 header size listed, while leaving a 1,432' gap along the longitudinal centerline of the 21/T size. It a perfect fit is required for a 21/t header pipe, then a 1 x 2½ -3' Tee-Let would be ordered. Size consolidations are employed to reduce inventory and provide for greater flexibility. AiñAi..Star Fire Products Division WeIdMiserTM Tee-Let® Welding Outlet Fittings Type B Male Thread Standard Weight Type C Cut Groove Standard Weight Type C/R Roll Groove Schedule 10 TTjfl 1'1I DIMENSIONS iu((NOMINAL Ii Cut Nominal Nominal Outlet Mae Inside Diameter - D Outside Wall Thickness - F Std. T ead Groove Std. Roll Groove 10 Outlet Header Length Diameter Standard Schedule Standard Schedule Wt. A B C Weight 10 E Weight 10 NPT(IS0-7-1) NPT (ISO-i-i) NPT(IS0-7-1) In.(mm) in. (mm) In.(mm) In.(mm) in- (mm) in. (mm) In.(mm) In.(mm) 1325025 2025025 2225025 2½ 3 2.469 2.635 2.875 0.203 0.120 2125025 65 80 62.7 67.0 76.2 1 5.0 3.0 1325030 2025030 2225030 3 3 2.469 2.635 2.875 0.203 0.120 2125030 80 80 62.7 67.0 76.2 5.0 3.0 1325035 2025035 2225035 4 3 2.469 2.635 2.875 0.203 0.120 2125035 2½x 65x 100 80 62.7 67.0 76.2 5.0 3.0 1325050 2025050 2225050 5 3 2.469 2.635 2.875 0.203 0.120 2125050 125 80 62.7 67.0 1 76.2 5.0 3.0 1325060 2025060 2225060 6 3 2.469 2.635 2.875 0.203 0.120 2125060 175 80 62.7 67.0 76.2 5.0 3.0 1325080 2025080 2225080 8 3 2.469 2.635 2.875 0.203 0.120 2125080 200 80 62.7 67.0 76.2 5.0 3.0 1330030 2030030 2230030 3 3 3.068 3.260 3.500 0.216 0.120 80 80 78.0 1 83.0 88.0 5.0 3.0 1330035 2030035 2230035 3½ 3 3.068 3.260 3.500 0.216 0.120 85 60 78.0 83.0 88.0 5.0 3.0 1330040 2030040 2230040 4 3 3.068 3.260 3.500 0.216 0.120 3x 80x 100 80 78.0 83.0 88.0 5.0 3.0 1330050 2030050 2230050 5 3 3.068 3.260 3.500 0.216 0.120 125 80 78.0 83.0 88.8 1 5.0 3.0 1330060 2030060 2230060 6 3 3.068 3.260 3.500 0.216 0.120 150 80 78.0 83.0 88.0 5.0 3.0 1330080 2030080 2230080 8 3 3.068 3.260 3.500 0.216 0.120 200 1 80 78.0 83.0 88.0 5.0 3.0 1340040 2040040 2240040 4 4 4.026 4.260 4.500 0.237 0.120 100 100 102.0 108.0 114.0 1 6.0 3.0 1340050 2040050 2240050 5 4 4.026 4.260 4.500 0.237 0.120 4x bOX 125 100 102.0 108.0 114.0 6.0 3.0 1340060 2040060 2240060 6 4 4.026 4.260 4.500 0.237 0.120 150 100 102.0 108.0 114.0 6.0 3.0 1340080 2040080 2240080 8 4 4.026 4.260 4.500 0.237 0.120 200 100 102.0 108.0 1 114.0 6.0 3.0 - 2060060 2260060 6 4 6.065 6.357 6.625 0.280 0.134 6x 150X 150 100 155.0 161.5 168.3 7.1 3.0 - 2060080 2260080 8 4 6.065 6.357 6.625 0.280 0.134 200 100 155.0 161.5 166,3 7.1 1 3.0 - 2080080 - 8 x 8 4 7.981 8.329 8.625 0.322 0.148 200, 200 100 203.0 212.0 213.0 8.0 3.0 Note: Tee-Lets are manufactured to fit size-on-size. that is the contoured shaoe on a aiven Tee-Let is made to fit oerfectiv on the first listed header size. If installed on the second header size marked on the fitting, a slight gap of approximately 1j2" will appear along the longitudinal centerline of the header. For example, a 1' x 2 - 21h" Tee-Let, is a 1" outlet fitting manufactured to fit perfectly on the 2" header size listed, while leaving a ½z" gap along the longitudinal centerline of the 21,'2" size. If a perfect fit is required for a 21A' header pipe, then a 1 x 21/t - 3" Tee-Let would be ordered. Size consolidations are employed to reduce inventory and provide for greater flexibility. -6- i1iLStar Fire Products Division Threading Practice Weld-Miser Tm Tee_Let® MedtTee.Lot Pitch ISO MERIT NPT THREAD FORM FoSho_\!bth Male Pipe Standard drill tmocatoon on STANDARD NPT THREAD FORM Installation Welding Outlet Fittings NPTiTAPERED THREADS Drop Nipple Li 13 Total 12 or Tee-Let Hand Tight Wrench Tight Li - L3 Effective Outlet Size Lenuth Threads In. (mm) 'JJi!V Threads 'jj!g' Threads ml Threads In. I Threads 1&0.320 4.48 0.214 3.00 0.534 7.48 0.534 15 81 13.6 13.6 7.47 _ 3/4" 0.339 4.75 0.214 3.00 0.553 20 86 _ 1' 0.400 4.60 0.261 3.00 0.661 7.60 785 25 _ 102 6.6 -i-- 17.3 _ 11/4n 0.420 4.83 0.261 3.00 0.681 7.83 0.707 813 32 107 17.3 18.0 _ 1½" 0.420 83 1 00 0.697 0.724 7.83 8.32 40 _ 107 6.6 17.7 184 2" 0.436 5.01 0.261 3.00 0.706 8.01 870 50 _ lii 6.6 179 21/2" 0.682 546 0.250 .00 0.932 7.46 1.138 9.10 65 173 3 0.766 613 0250 200 1.016 8.13 1.200 9.60 80 64 25.8 -30.5 4 1 0.8445025001.094 1.300 8.75 1040 100 _ _ 214 6.4 27.8 -- 330 Domestic Manufacture Increasingly, federal, state, municipal, and quasi municipal authorities require domestic content for fire sprinkler systems. Merit® Tee-Lets® meet these requirements. The need to maintain dual inventories; one domestic; one import is eliminated. Welding Practice Tee-Let® thread form is consistent with Aeronautical National Form (ANPT) AS71051. The thread is fully formed over both the L-1 hand tight and L-3 wrench tight threads. NPT tapered threads are typically gauged only over the L-1 threads. This makes Tee-Lets more forgiv- ing of field cut threaded pipe that may only marginally conform to the specification. Fewer leaks translate into lower costs. Ease of Installation Merit Manufacturing Tee-Lets are designed to sit higher on the pipe, thereby requiring less weld and eliminating burn through. Tee-Lets sit higher on the header or branch line pipe than competitive fittings. This allows the welding torch to remain in an optimum position for welding. In addition, 11&" and larger Type A female threaded and Type C grooved Tee-Lets require the same hole size for installation. This re- sults in fewer change overs when installed using automatic welders. When measured with respect to linear inches of weld required for installation, Tee-Lets require up to 15% less weld than competitive fittings. This reduces time and savings over time are substantial. The diameter of the contoured end of Type A Tee-Lets has been reduced so that the wall thickness more nearly matches the header or branch line pipe wall thickness. Therefore, current and voltage settings required for welding are set to provide for adequate penetration without burn through and cold shutting. Also, weld volume required for installation is lower for Tee-Lets than most other fittings. Typically, Tee-Lets re- quire one-weld pass for attachment. - F- 2.650 - niz 2.820 .205'-4 I-.--- 2" Merit Weld-Miser Tee-Let 325'-1 I- 2" Competitive Fitting WELDING PRACTICE Outlet MERIT WELD-MISER TEE-LET COMPETITIVE FITTING Size WELD VOLUME* LINEAR WELDING WELD VOLUME" LINEAR WELDING In. (mm) Cross Sec. Area %Iess In. (mm) %Iess Cross Sec. Area %more In- (mm) %less 1" 0.051 sq. in. 2.48 0.058 sq. in. 2.48 12% 0% 12% 0% 25 32.9 sq mm 62.9 37.4 sq mm 62.9 11/4° 0.032" 2.88 0.063 3.01 48% 4% 48% 4% 32 20.6 73.1 40.6 76.4 1½' 0.036" 3.12 0.060 3. 46 40% 10% 40% 10% 40 23.2 1 79.2 1 38.7 1 87.8 2" 0.040" 3.77 0.106 4. 41 62% 15% 62% 15% 50 1 25.8 95.7 68.3 112.0 ,iiIi...Star Fire Products Division RECOMMENDED TEE-LET HOLE SIZES Tee-Let Size I Type I Recommended Hole Size In./mm In./mm ½ Type 13 16 34 Type 7/ 19 22 1 Type 1'/a 25 28 1Y4 Type 11/2 31 38 11% Type 1/s 31 35 1½ Type AorC 1/8 38 41 2 Type AorC 2 50 50 21/4 Type AorC 2/,6 63 61 3 Type AorC 3 75 15 4 Type AorC 4 100 100 - Holes may be cut emolovina mechanical means—includina hole sawina. mechanical flame cutting (oxy-acetylene or propane), and air plasma cutting (constricted tungsten arc) machines. Merit offers a simple approach to cut- ting the hole. Hand-held templates are sized to match your plasma cutter. MERIT® WeIdMiserTM Tee-Let® Installation (cont.) Welding Outlet Fittings Recommended Installation Procedures Merit Weld-Miser Tee-Let Welding Outlet Fittings are designed and manufactured to reduce the cost of installa- tion from both the standpoint of labor required and energy consumed. In addition, by following the recommended in- stallation procedures, many of the problems associated with installing welding outlet fittings on standard weight or light weight pipe are eliminated, including burn through and excessive shrinkage resulting in pipe distortion. Recommended Hole Sizes The hole cut in the branch or header pipe can be cut prior or sub- sequent to attachment of the Tee-Let. One advantage of cutting the hole after welding is that the pipe is left intact during welding thereby reducing shrinkage and possible distortion. If holes are cut prior to welding, as some codes require, then the following hole sizes are recommended. Note that the same hole diameter for a given outlet size is required for both Type A and Type C Tee-Lets 1-1'/2" larger. Recommended Welding Procedures Merit Weld-Wiser Tee-Lets are designed to be installed on standard weight or light weight pipe with one weld pass on Type A outlet sizes from 1/20 through 21/2 inclu- sive, and on Type C outlet sizes through 4. Moreover, the wall thickness at the weld end of the fitting approximately matches standard weight pipe. Accordingly, heat setting can be made to optimize penetration on both the fitting and the pipe which it is being welded. Aside from reducing the likelihood of burn through and distortion resulting from excessive heat, the amount of weld required for adequate penetration is significantly reduced. Merit Tee-Lets are manufactured from continuous cast aluminum killed steel with a carbon range of from 0.05 to 0.25. Merit specifies that residuals, such as chrome, nickel and other metals resident in the scrap used for production of the steel be reported and kept to a minimum. On the other hand, certain grades of carbon steel pipe are manufactured from skelp whose chemical composition is not speci- fied. When the metal inert gas shield (MIG) welding process is employed, certain residuals may cause excessive porosity, spatter or lack of penetration. Specifically, gases released during the welding process do not escape before the molten puddle sets up. When porosity or lack of penetration occurs, one approach is to slightly increase the heat in order to give the gases time to escape from the puddle. A flux cored wire can also be used. This wire contains scavengers which allow gases in the molten weld puddle to escape before the weld solidifies.The following recom- mended settings for welding therefore may need to be adjusted slightly higher if any of the above mentioned adverse conditions exist. As a general rule, the weld should be only as hot as required to allow the weld to penetrate the materials being welded while concomitantly allowing gases developed in the welding process to escape. Every effort must be made to avoid welding too hot or overheating both the pipe and the Tee-Let. Excessive heat may cause the wrench tight threads (those in the bottom of the Tee-Let near the weld zone) to distort while also causing the branch pipe to bend. It should be noted that Merit Tee-Lets have been subjected to exhaustive testing and evaluation, and only negli- gibly distort when subjected to excessive heat. The threads, on the other hand, may not return to their gauged form after cooling if excessive heat causes them to expand. The following is intended only as a guide, and assumes that the welding equipment is properly calibrated and functioning normally and the operator is qualified. —8- —RECOMMENDED AMOUNT OF WELD Outlet A B Size In/mm In1mm In ./mm, 1/2 1/4 13 7 5 3/4 1/4 19 7 5 1 1% 3At 25 7 5 1Y., 1/4 31 7 5 1½ 1% 38 8 7 2 1/4 50 8 7 2½ '4 63 8 7 3 75 10 5 4 /t 100 10 5 IiJti...Star Fire Products Division 1/2, 3/4 & 1 Outlet 11/4 - 21/2 Outlet WeldMiserTM Tee-Let® Installation (cant.) Welding Outlet Fittings RECOMMENDED SETTINGS FOR MICROWIRE WELDING PROCESS, CONTINUED It1iIINEXT Header Size Pipe Wall Thickness Tee-Let Types A, B, C Electrode Size WeIdrn Curr.1 Arc. Volts Wire Feed Travel Speed In 1mm In 1mm I111mm AMPS-DC P08. IPM IPM 0.035 100-130 16-20 210 25-30 0.065 1350 2 2½-4 0.035 115-150 17-21 270 20-25 lh/4 2 63-100 31-50 ½-2 0.035 110-140 18-22 220 25-30 0.109 13-50 21/2-4 0.035 120-160 19-22 290 20-25 3 63-100 1,42 0.035 110-140 17-20 210 20-25 0.083 13-50 21h4 0.035 120-150 17-20 270 20-25 2.5 2½-4 63-100 63-100 ½-2 0.035 120-160 19-22 290 20-25 0.120 13-50 2½ -4 0.035 130-160 19-22 240 20-25 3 63-100 0.035 120-150 17-20 210 20-25 0.109 13-50 2½-4 0.035 130-150 18-20 270 15-20 3 63-100 5-6 ½-2 0.035 130-160 19-22 290 20-25 125-150 13-50 0.134 2½-4 0.035 140-160 20-22 270 15-20 3.5 63-100 2½-4 - 0.045 180-205 20-24 245 27-32 63-100 0.035 120-150 17-20 240 20-25 13-50 0.109 21/2 -4 0.035 130-150 18-20 260 15-20 3 63-100 2½ -4 0.045 170-220 18-22 290 12-18 8 63-100 ½-2 0.035 130-160 19-22 240 20-25 200 13-50 0.148 2½-4 0.035 140-160 20-22 260 15-20 3.5 63-100 21/2 -4 0.045 180-225 20-24 290 12-18 63-100 1 Shielding Gas Flow (FOR ALL SIZES) 20-25 CFH CO2 - Deeper penetration, faster welding, low cost. 25% - Argon, 75% - CO2, Recommended for .134 wall and lighter, high welding speeds without melt through, minimum distortion and spatter, good penetration. Merit assumes no liability for any consequential damages resulting from the improper use of its Tee-Let Welding Outlet Fittings, nor for any recommendations made with respect to installation procedures. IiJtLStar Fire Products Division —9— ' AOLWIL INTERNATIONAL. INC. Corporate Offices 110 Corporate Drive, Suite 10' P.O. Box 3180 Portsmouth, NH 03802-3180 Tel: 603-422-8000 • Fax: 603-422-8033 E-mail address - Webmaster@anvilintl.com www.anvilintl.com For Sales and Service Information Contact the Regional Service Center Nearest You or Visit Our Website at www.anvilstar.com U.S. Regional Service Centers NORTHEAST REGION Servicing: Connecticut, Delaware, Maine, Maryland, Massachusetts, New Hampshire, New Jersey, New York, East Pennsylvania, Rhode Island, Vermont, Virginia 2530 Pearl Buck Road Bristol, PA 19007 Tel: 215-788-4056 • Fax: 215-788-4475 Toll Free: 1-800-451-2935 MIDWEST REGION Servicing: Illinois, Indiana, Iowa, Kansas, Kentucky, Michigan, Minnesota, Missouri, Nebraska, North and South Dakota, Ohio, West Pennsylvania, West Virginia, Wisconsin 750 Central Avenue University Park, IL 60466 Tel: 708-534-1414 • Fax: 708-534-5441 Toll Free: 1-800-301-2701 SOUTHERN REGION Servicing: Alabama, Arkansas, Colorado, Florida, Georgia, Louisiana, Mississippi, New Mexico, North and South Carolina, Oklahoma, Tennessee, Texas, Wyoming 1313 Avenue R Grand Prairie, TX 75050 Tel: 972-343-9206 • Fax: 972-641-8946 Toll Free: 1-800-451-4414 WESTERN REGION Servicing: Alaska, Arizona, California, Hawaii, Idaho, Montana, Nevada, Oregon, Utah, Washington 1385 Greg Street Sparks, NV 89431 Tel: 775-331-7029 • Fax: 775-331-5075 Toll Free: 1-800-572-0051 EUROPE & MIDDLE EAST REGION Rick van Meesen, Business Director the Netherlands Tel: +31 53 5725570 Fax: +31 53 5725579 U.S. Customer Service Tel: +1 708 534 1414 LATIN AMERICA, PUERTO RICO & MEXICO Art Gutierrez, Sales Manager Tel: 813-300-3721 U.S. Customer Service Tel: 708-534-1414 • Fax: 708-534-5441 AiMLSta r TM Fire Products Division of AnviI International ANVILSTAR CUSTOMER SERVICE CENTER Tel: 708-534-1414 • Fax: 708-534-5441 Toll Free: 1-800-301-2701 #327 / Printed in USA/ RPI / 2.5M / 4.05/ ©2005 Anvil International, Inc. luctile Irc \ I lift- SCI ProPakml System Ductile Iron Threaded Fittings Specifications <@>branded fittings are UL Listed and FM Approved at 500 psi Rated to 300 psi WSP U ®L Ductile iron castings conform to ASTM A536 c us LISTED Fitting -dimensions conform to ASME B16.3 Bushings and plugs conform to ASME B16.14 All fittings are 100% air tested APPROVED NPT threads on all fittings conform to ASME B1.20.1 Independent lab verification that fittings meet applicable chemical & mechanical properties Manufacturing facilities are ISO 9001:2008 and ISO 14001 ProPakTM Packaging Temperature Degrees F Working Pressure, Non-Shock psig Class 300 Threaded Fillings -20 to 100 500 150 500 200 480 250 460 300 440 350 420 400 400 450 380 500 360 550 340 600 320 650 300 cous APPROVED Fig. 35E 3_900 Elbow LISTED I Size in Part Number A in Packing Weight lb Inner Master I 1/2 35E 3004 1.13 100 200 0.2 I 35E 3006 1.31 70 140 0.3 35E3010 1.50 40 80 0.5 1-1/4 35E 3012 1.75 1 25 50 0.8 I 1-1/2 35E3014 1.94 18 36 1.1 I 2 35E 3020 2.25 10 20 1.8 2-1/2 35E 3024 2.70 4 8 3.2 Fig. 35RE3 - 900 Reducing Elbow Size in Part Number A in B in Packing Weight lb Inner Master 3/4x 1/2 358E3006004 1.20 1.22 80 160 0.3 1 x 1/2 35RE3010004 1.26 1.36 70 140 0.4 1 x 3/4 35RE3010006 1.38 1.45 50 100 0.4 1-1/4 x1/2 35RE3012004 1.34 1.53 35 70 0.5 1-1/4x314 358E3012006 1.45 1.63 35 70 0.6 l-1/4 x1 35RE3012010 1.58 1.67 30 60 0.7 1-1/2x 1/2 358E3014004 1.52 1.75 30 60 0.6 1-112 x 3/4 35RE3014006 1.52 1.75 25 50 07 1-1/2 x 1 35RE3014010 1.65 1.80 20 40 0.8 1-1/2x1-1/4 35RE3014012 1,82 1.88 18 36 1.0 2 x 1/2 35RE3020004 1.60 1.97 18 36 1.0 2x 3/4 35RE3020006 1.60 1.97 18 36 1.0 2x 1 35RE3020010 1.73 2.02 16 32 1.2 2x1-1/4 35RE3020012 1.90 2.10 12 24 1.3 2x1-1/2 351RE3020014 2.02 2.16 10 20 1.5 2-1/2x 1-1/2 35RE3024014 2.16 2.51 6 12 2.2 2-1/2 x 2 35RE3024020 2.39 2.60 6 12 2.5 A Size in Part Number A in Packing Weight lb Inner Master 1/2 35F 3004 0.88 150 300 0.2 3/4 35F 3006 0.98 80 160 0.3 1 35F3010 1.13 40 80 0.5 1-1/4 35F3012 1.29 25 50 0.7 1-1/2 35F3014 1.44 20 40 1.0 2 35F3020 1.69 10 20 1.6 2-1/2 1 35F 3024 1.95 4 8 2.7 Fig. 35F 3-45° Elbow Fig. 35T3- Tee Size in Part Number A in Packing Weight lb Inner Master 1/2 3513004 1.13 80 160 0.3 3/4 3513006 1.31 30 60 0.5 1 3513010 1.50 25 50 0.7 1-1/4 3513012 1.75 10 20 1-1/2 35T3014 1.94 10 20 1.5 2 35T 3020 2.25 6 12 2.4 2-1/2 351 3024 2.70 4 1 8 4.3 37 SMITH-COOPER INTERNATIONAL® • TOLL FREE 1-800-766-0076 • FAX (323) 890-4456 0 www.smithcooper.com Size in Part Number A in B in C in Packing Weight lb Inner Master 3/4x1/2 35R13006004 1.20 1.20 1.22 60 120 0.4 lx 1/2 35R13010004 1.26 1.26 1.36 30 60 0.6 lx 1/2x 1 35RT3010004010 1.50 1.36 1.50 30 60 0.6 1x3/4 35RT3010006 1.38 1.38 1.45 25 50 0.6 1x 3/4 x3/4 35RT3010006006 1.38 1.31 1.45 35 70 0.6 I x 3/4 x 1 35R13010006010 1.50 1.45 1.50 25 50 0.7 1-1/4 x 1/2 35RT3012004 1.34 1.34 1.53 20 40 0.8 1-1/4 x1/2x1-1/4 35R13012004012 1.75 1.53 1.75 25 50 0.9 1-1/4 x3/4 35RT3012006 1.45 1.45 1.62 15 30 0.9 1-1/4x3/4x1-1/4 35R13012006012 1.75 1.62 1.75 20 40 1.0 1-1/4x1 35R13012010 1.58 1.58 1.67 15 30 1.0 1-1/4x1x1/2 35RT3012010004 1.34 1.26 1.53 25 50 0.7 1-1/4x1x3/4 35RT3012010006 1.45 1.38 1.63 20 40 0.8 1-1/4x1x1 35RT3012010010 1.58 1.50 1.69 20 40 0.9 1-1/4x1x1-1/4 35RT3012010012 1.75 1.69 1.75 15 30 1.0 1-1/2x1/2 35RT3014004 1.41 1.41 1.66 16 32 1.0 1-1/2x1/2x1-1/4 35R13014004012 1.81 1.56 1.88 24 48 1.1 1-1/2x1/2x1-1/2 35RT3014004014 1.94 1.66 1.94 12 24 1,2 1-1/2x3/4 35RT3014006 1.52 1.52 1.75 16 32 1.1 1-1/2x 3/4 x1-1/4 35R13014006012 1.94 1.66 1.88 20 40 1.1 1-1/2x3/4x1-1/2 35R13014006014 1.94 1.75 1.94 18 36 1.2 1-1/2x1 35RT3014010 1.65 1.65 1.80 12 24 1.2 1-1/2x1x1/2 35RT3014010004 1.44 1.25 1.69 20 40 0.8 1-1/2x1x3/4 35RT3014010006 1.50 1.44 1.75 16 32 0.9 1-1/2x1 x 35RT3014010010 1.65 1.50 1.80 16 32 1.0 1-1/2x1x1-1/4 35R13014010012 1.82 1.67 1.88 12 24 1.2 1-1/2x1x1-1/2 35R13014010014 1.94 1.80 1.94 12 24 1.3 1-1/2x1-1/4 35R73014012 1.82 1.82 1.88 12 i 24 1.4 1-1/2x1-1/4x1/2 35RT3014012004 1.41 1.34 1.66 16 32 0.9 1-1/2x1-1/4x314 35RT3014012006 1.52 1.45 1.75 16 32 1.0 1-1/2x1-1/4x1 35RT3014012010 1.65 1.58 1.80 16 32 1.1 1-1/2 x 1-1/4 x 1-1/4 35RT3014012012 1.82 1.75 1.88 14 28 1.3 1-1/2x1-1/4 x1-1/2 35RT3014012014 1.94 1.88 1.94 14 28 1.4 2x 1/2 35RT3020004 1.49 1.49 , 1.88 10 20 1.5 2x3/4 35RT3020006 1.60 1.60 1.97 10 20 1.6 2x1 35RT3020010 1.73, 1.73 2.02 8 16 1.7 2x 1 x2 35R13020010020 2.25 2.02 2.25 8 16 1.9 2x1-1/4 35RT3020012 1.90 1.90 2.10 8 16 1.9 2x1-1/4 x2 35RT3020012020 2.25 2.10 2.25 8 16 2.0 2x 1-1/2 35RT3020014 2.02 2.02 2.16 8 16 2.1 2x1-1/2x1/2 35R13020014004 1.49 1.41 1.88 10 20 1.3 2x1-1/2x3/4 35R13020014006 1.60 1.52 1.97 10 20 1.4 2x1-1/2x1 35R13020014010 1.73 1.65 2.02 8 16 1.5 2x1-1/2x1-1/4 I 35R13020014012I 1.90 1 1.82 2.10 8 16 1.7 2x1-1/2x1-1/2 I 35RT3020014014 1 2.02 1 1.94 2.16 8 1 16 1 1.8 I C® US Fig. 35RT3 - Reducing Tee LISTED APPROVED Fig. 35BT3 - Bull Head Tee Size in Part Number A in - B in - C in - Packing Weight lb Inner Master 3/4x 1 35B13006010 1.45 1.45 1.37 30 60 0.6 lx 1-1/4 35813010012 1,67 1.67 1.58 20 40 0.9 lx 1-1/2 358T3010014 1.80 1.80 1.65 15 30 1.0 1-1/4x1x1-1/2 35BT3012010014 1.88 1.80 1.82 15 30 1.2 1-1/4x1-1/2 35BT3012014 1.88 1.88 1.82 15 30 1.3 1-1/4 x2 35BT3012020 2.10 2.10 1.90 10 20 1.6 1-1/2x1-1/4 x2 35B13014012020 2.16 2.10 2.02 10 20 1.8 1-112 x 2 35BT3014020 216 216 202 8 16 18 Iii SMITH-COOPER INTERNATIONAL® 9 TOLL FREE 1-800-766-0076 • FAX (323) 890-4456 0 www.smithcooper.com 238 COUS APPROVED LISTED Size in Part Number A in Packing Weight lb Inner Master 1/2 35CP3004 1.38 200 400 0.1 3/4 35CP3006 1.63 100 200 0.2 1 35CP3010 1.75 60 120 0.4 1-1/4 35CP3012 2.00 35 70 0.5 1-1/2 35CP3014 2.19 25 50 0.7 2 35CP3020 2.62 15 30 1.2 2-1/2 35CP3024 3.00 9 18 2.2 A Fig. 3503 - Straight Coupling with Ribs =1I Fig. 35RC3 - Hex Reducing Coupling Size in Part Number A in Packing Weight lb Inner Master 1 x 1/2 35RC3010004 1.69 80 160 0.3 1x3/4 35RC3010006 1.69 60 120 0.4 1-1/4 x 3/4 35R03012006 2.06 40 80 0.6 2x 1(not hex) I 35R03020010 2.81 20 40 1.0 Fig. 35HB3 - Hex Bushing Size in Part Number A in B in Packing Weight lb Inner Master 1 x 1/2 35HB3010004 1.06 1.40 180 360 0.2 1 x 3/4 35HB3010006 1.06 1.40 180 360 0.1 1-1/4x1 35HB3012010 1.19 1.80 90 180 0.2 1-1/2x 1 35HB3014010 1.25 1.95 75 150 0.4 1-1/2x 1-1/4 35HB3014012 1.25 1.95 75 150 0.3 2 x 1 35HB3020010 1,38 2.55 40 80 0.6 2x 1-1/4 35HB3020012 1.38 2.55 40 80 0.6 2x1-1/2 35HB3020014 1.38 2.55 40 80 0.6 Fig. 355P3 - Square Head Plug I Size Part Number I in in Inner Master lb A Packing Weight 1/2 35SP3004 0.94 600 1200 0.07 3/4 35SP3006 1.12 350 700 0.1 I 1 35SP3010 1.25 200 400 0.1 L1-1/4 35SP3012 1 1.37 1 100 200 0.3 I 1-1/2 35SP3014 1 1.44 80 160 0.4 2 35SP3020 1 1.50 45 90 0.6 Fig. 35U 3- Union with Brass Seat Size in Part Number A in Packing Weight lb Inner Master 1 35U 3010 2.19 20 40 1.0 1-1/4 35U 3012 2.50 15 30 1.2 1-1/2 35U 3014 2.62 10 20 1.7 2 35U 3020 3.12 6 12 12.4 0 j 4 39 SMITH-COOPER INTERNATIONAL® 0 TOLL FREE 1-800-766-0076 • FAX (323) 890-4456 0 www.smithcooper.com c@ US <ze> APPROVED LISTED Size in Part Number A in Packing Weight lb Inner Master 1 35X3010 1.50 20 40 0.9 1-1/4 35X3012 1.75 12 24 1.4 - 1-1/2 35X3014 1.94 8 16 1.8 2 35X 3020 2.25 6 12 1 2.8 Fig. 35X 3- Cross Size in Part Number A in Packing Weight lb Inner Master 1/2 350 3004 0.87 300 600 0.1 3/4 35C 3006 0.97 200 400 0.1 1 35C 3010 1.16 110 220 0.2 1-1/4 35C 3012 1.28 70 140 0.4 1-1/2 3503014 1.33 50 1 100 0.5 2 35C 3020 1.45 25 F 50 0.8 2-1/2 35C3024 1.70 18 1 36 1.6 I Fig. 35RX3 - Reducing Cross I Size in ' Par I Part I I A I in I B I in I Packing I Weight I I lb I I Inner I Master I 1-1/4 x1 I 35RX3012010 I 1.67 I 1.58 I 15 30 I 1.2 I I 1-1/2x1 I 35RX3014010 I 1.80 I 1.65 12 I 24 1.4 I 2x 1 35RX3020010 I 2.02 1 1.73 8 16 2.0 Fig. 35C 3- Cap Fig. 35BC3 - Beam Clamp Size in Part Number A in Packing Weight lb Inner Master 3/8 35B03003 0.75 100 80 - 200 0.3 1/2 35B03004 0.75 160 0.5 I I SMITH-COOPER INTERNATIONAL® • TOLL FREE 1-800-766-0076 • FAX (323) 890-4456 • www.smithcooper.com 240 Job Name Job Location Engineer - Approval - For reference only-Existing Contractor Approval Contractor's P.O. No. Representative ES-7O9DCDA Series 709DCDA Double Check Detector Assemblies Sizes: 3" -10" (80-250mm) Series 709DCDA Double Check Detector Assemblies are designed exclusively for use in accordance with water authori- ty containment requirements. It is mandatoy to prevent the reverse flow of fire protection system substances, i.e. glycerin wetting agents, stagnant water and water of non-potable qual- ity from being pumped or siphoned into the potable water line. Benefits: Detects leaks. . . with emphasis on the cost of unac- countable water; incorporates a meter which allows the water utility to: detect leaks underground that historically create great annual cost due to waste. provide a detection point for unauthorized use. It can help locate illegal taps. Modular check design concept facilitates maintenance and assembly access. All sizes are standardly equipped with resilient seated OSY shutoff valves, /8" x ¼" (16 x 19mm) meter and ball type test cocks. Features Body construction fused epoxy coated cast iron Replaceable bronze seats Maximum flow at low pressure drop Compact for economy combined with performance Design simplicity for easy maintenance Furnished with 5/8" x 3/4 (16 x 19mm) bronze meter No special tools required for servicing Specifications A Double Check Detector Assembly shall be installed on fire protection systems when connected to a potable water sup- ply. Degree of hazard present is determined by the local authority having jurisdiction. The unit shall be a complete assembly including UL listed resilient seated OSY shutoff valves and test cocks. The unit shall be ULj'FM approved with ULJFM approved OSY shutoff valves. The auxiliary line shall consist of an approved backflow preventer and water meter. The assembly shall meet the basic requirements of ASSE 1048; A'MNA Std. C510 for Double Check Valves. Approved by the Foundation for Cross-Connection Control and Hydraulic Research at the University of Southern California. Assembly shall be a Watts Regulator Company Series 709DCDA. 7O9DCDAOSY Check / Mo Test Cock Cover Seat Disc Check Assembly Module Features a modular design concept which facilitates complete maintenance and assembly by retaining the spring load. First and second check valve spring modules are not inter- changeable. Now Available WattsBox Insulated Enclosures. For more information, send for literature ES-WB. IMPORTANT INQUIRE WITH GOVERNING AUTHORITIES FOR LOCAL INSTALLATION REQUIREMENTS Watts product specifications in U.S. customary units and metric are approximate and are provided for reference only. For precise measureme please contact Watts Technical Service. Watts reserves the right to change or modify product design, construction, specifications, or materials with- nts, 1IAUI_uIIS® out prior notice and without incurring any obligation to make such changes and modifications on Watts products previously or subsequently sold. Materials Body: Seat: Disc Holder: Trim: Check Valve Discs Test Cocks: Epoxy coated cast iron Bronze Bronze Stainless steel Rubber Bronze Models Suffix: OSY - ULJFM outside stem and yoke resilient seated gate valves CFM - cubic feet per minute meter GPM - gallons per minute meter LF - 4° - 10" (100 - 250mm) without shutoff valves Dimensions - Weights Pressure - Temperature Temperature Range: 33°F - 110°F (05 - 43°C) continuous, 140°F (60°C) intermittent Maximum Working Pressure: 175psi (12.1 bar) Standards AWINA Standard C510 Approvals AS S IN ® c (,,U1,) s Approved \/® c us 1 B.64 048 Approved by the foundation for Cross-Connection Controland Hydraulic Research at the University of Southern California. Sizes 4 - 10° (100— 250mm) approved for horizontal and vertical flow up". Size 3" (76mm) approved for horizontal only. Factory Mutual approved 4° - 10 (100-250mm) vertical "flow up". A 1FA1(!1J ,JIgIi[I1iFi WEIGHT In. mm in. A mm C in. mm D in. mm in. E mm in. L mm in. R mm I in. mm in. U. mm WlOSYt gates lbs. kgs. 3 80 40 1016 18/8 479 3½ 89 12 305 24 610 14 356 3 76 14 356 190 86 4 100 52 1321 22/4 578 33/4 95 17 432 34 864 15 381 6 152 14 356 403 183 6 150 62½ 1588 30½ 765 4½ 114 21 533 41½ 1054 16 406 7½ 191 16 406 727 330 8 200 1 75 1905 1 373/4 959 1 5½ 140 1 26 660 1 52 1321 1 17 432 1 9 229 1 21 533 1 1327 602 10 250 1 90 2286 1 453/4 1162 1 61/2 165 1 32 813 1 64 1626 1 18 457 1 101/4 260 1 25 635 1 2093 949 * Service clearance for check assembly from center. tULIFM approved backflow preventers must include ULJFM approved OSY. Capacity *Typical maximum system flow rate (7.5 ft/Sec.) **UL rated flow MMMMMM I MMINNEWWWREPM •• ______. ___=_ _____• rw= =... ....• r•••• ..•••• ...• i••..• 'p1 I • 41 I iui•i ! U iui. r i•iu ----- __I + Flow .T. = • ---- __I1______ ---- —-- =-- ---- •I,______ ---- ---- ---- I I ----- ---- ---- 6" (150mm) .T. •• I I__ ___•r—= au — • r.T.i1 V I•• i• ._ I____.• III For additional information, visit our web site at: www.watts.com WWArrS® A Watts Water Technologies Company USA: 815 Chestnut St., No. Andover, MA 01845-6098; www.watts.com Canada: 5435 North Service Rd., Burlington, ONT. L71L 5H7; wwwwattscanada.ca I I I ES-709DCDA 0638 0 2009 Watts 75 10 VRD Model DDX Type F Double Interlock Preaction Rellab Instructions for Installation, Operation, Care and Maintenance Bulletin 751 August 2020 Model DDX e Double Interlock PreactionSystem - Typf) 2" (50 mm), 21/2" (65 mm), 3" (80 mm), 76 mm, 4" (100 mm),(150 mm), c 165 mm &8" (200 mm) Available with 175 psi (12.1 bar) or 300 ° psi (20.7 bar) Rated Solenoid Valve Externally Resettable Clapper One Main Drain 8 - 24 PSI (0.6 - 1.7 bar) System Pressure Electric I Pneumatic Actuation Reliable Automatic Sprinkler Co., Inc., 103 Fairview Park Drive, Elmsford, New York 10523 General The Reliable Model DDX Type F Double Interlock Preaction System is designed for water sensitive areas that require the maximum protection from inadvertent water flow into the sprin- kler system piping. A refrigerated area is an example of this type of water sensitive environment. The Type F double interlock trim package includes a normally closed solenoid valve (175 psi (12.1 bar) or 300 psi (20.7 bar) rated) and the Model LP Dry Pilot Actuator arranged in series as releasing devices. The sprinkler system is pressurized with air or nitrogen (see note 1 below) that keeps the Model LP Dry Pilot Line Actuator closed. Two events must coexist in order to operate the Type F Double Interlock Preaction System: (a) the normally closed solenoid valve must be energized open by a listed releasing control panel when a fire detection device or manual pull station is operated, and (b) the Model LP Dry Pilot Actuator must open due to venting of pneumatic pressure from the system. In the event that the system piping is ruptured, or a sprinkler head is accidentally opened, the Model LP Dry Pilot Line Ac- tuator will open and a low system air pressure alarm will sound. The Model DDX Deluge Valve, however, will not be released to flow water since the detection system has not activated. Conversely, in the event of a false alarm from the detection system, the Model DDX Deluge Valve will not release water pro- vided air pressure in the system is maintained and the Model LP Dry Pilot Actuator has not opened. The requirement for both de- tector operation and loss of system pressure before the Model DDX Type F Double Interlock Preaction system releases water assures maximum protection against inadvertent water flow. Type F Double Interlock PReaction systems are primarily used to protect refrigerated areas where accidental water release can result in frozen pipes, ice blockage, and/or substantial property damage. At the heart of the Reliable Type F Double Interlock Preaction System is the Model DDX Deluge Valve, This deluge valve is a hydraulically operated, straight-through-design, differential latching clapper-type (see Fig. 1). System maintenance is sim- plified since the deluge valve can be reset externally without removing the cover plate. This feature provides a significant system-restoration time advantage. The Model DDX Deluge Valve has an intermediate chamber and thereby does not re- quire an in-line air check valve. Subsequently, the deluge valve only requires a single drain connection. The Reliable Model DDX Type F Double Interlock Preaction System trim set provides all of the necessary equipment for connections to the Model DDX Deluge Valve pushrod chamber inlet and outlet ports, a 11/4" (30 mm) main drain on 2" (50 mm), 21/2" (65 mm), 76 mm and 3" (80 mm) valve sizes or a 2" (50 mm) main drain on 4" (1100 mm), 165 mm, 6" (150 mm) and 8" (200 mm) valve sizes, alarm devices, air supply, and required pressure gauges. This trim set is available in individual (loose) parts, in time-saving, segmented assembled kit forms or fully assembled to the Model DDX Deluge Valve (with or without a control valve). All sizes of Type F Double Interlock Preaction Trims may be equipped with the optional Reliable Model B1 Accelerator, trim kit P/N 6516000003. This device acts as an exhauster which will hasten the operation of the Model LP Dry Pilot Actuator and minimize water delivery time for the system. 2. Listings & Approvals: (Only when used with Reliable Trim Sets.) Reliable Type F Double Interlock Preaction Systems 2" (50 mm), 21/2" (65 mm), 76 mm and 3" (80 mm), 4" (100 mm), 165 mm, 6" (150 mm) and 8" (200 mm) are Factory Mutual Approved Refrigerated Area Sprinkler Systems for use in refrigerated rooms or buildings. Refrigerated area sprinkler systems are FM Approved as complete systems. Systems are FM Approved for use with thermal detectors and Class A detector wiring only. Reliable Type F Double Interlock Preaction Systems 2" (50 mm), 21/2" (65 mm), 76 mm, 3" (80 mm), 4" (100 mm), 165 mm, 6" (150 mm) and 8" (200 mm) are Underwriters Labo- ratories, Inc. Listed and UL certified for Canada (cULus) in the Special System Water Control Valve-Double Interlock Type (VLJH) category. Note: Wherever the word "air" is used in this bulletin as a reference to the pneumatic pressure source it shall also mean "air or nitrogen." System Operation When set correctly for service, the Model DDX Deluge Valve is hydraulically established to separate the supply water from the sprinkler system piping. The Reliable Model DDX Deluge Valve is shown in both closed and open positions in Fig. 1. In the closed position, the supply pressure acts on the underside of the clapper and also on the pushrod through the pushrod chamber inlet restriction. The resultant force due to the supply pressure acting on the pushrod is multiplied by the mechanical advantage of the lever and is more than sufficient to hold the clapper closed against normal supply pressure surges. When the detection system is activated and a fire sprinkler opens, the Model DDX Deluge Valve pushrod chamber will be vented to atmosphere through the chamber outlet. Since the pressure can not be replenished through the inlet restric- tion as rapidly as it is vented, the pushrod chamber pressure falls instantaneously. When the pushrod chamber pressure ap- proaches approximately one-third of the supply pressure, the upward force of the supply pressure acting beneath the clapper overcomes the lever applied force, thereby opening the clap- per. Once the clapper has opened, the lever acts as a latch, pre- venting the clapper from returning to the closed position. Water from the supply flows through the Deluge Valve into the sprinkler system piping. Water also flows through the alarm outlet to the alarm devices. Resetting the clapper of the Model DDX Deluge Valve is ac- complished using the convenient external reset knob on the rear of the valve. The external reset feature of the Model DDX Deluge Valve provides a means for simple, economical system testing, which is one essential facet of a good maintenance program. The external reset feature does not, however, eliminate another important facet of good maintenance, namely, periodic cleaning and inspection of the internal valve parts. A valve body drain is provided in the event that water builds up due to condensate from the air supply system or water left inside from system testing. After closing the main supply valve, the condensate drain can be opened slightly until the water PUSH ROD CHAMBER F'ORT PL PUSH ROD CHAMBER OUTLET RESTRICTION PUSH ROD CHAMBER INLET WEEP HOLE EXTER RESET HI APPER IN EN POSITION LAPPER IN ATCHED" POSITION CLAPPER IN CLOSED POSITION ALARM PORT EST PORT DDX VALVE CLAPPER IN "OPEN,' "CLOSED," AND REAR VIEW OF MODEL DDX VALVE "LATCHED" POSITIONS TO SYSTEM FROM SUPPLY PUSH INWARD AND ROTATE KNOB CLOCKWISE (AS VIEWED FROM REAR) 338FG01A TO RESET CLAPPER. NOTE: PUSH ROD CHAMBER MUST BE VENTED TO DRAIN. Fig. 1 RELIABLE MODEL BI ACCELERATOR KIT (P/N 6516000003) AIR PRESSURE GAUGE FROM TYPE F DOUBLE INTERLOCK PREACTION SYSTEM TRIM MODEL Bi ACCELERATOR NIPPLE, 1/2' x 2" NIPPLE, 1/2" x 3" ELBOW, 1/2' NOTE: A MINIMUM OF 15 PSI BALL VALVE, 1/2" (1.0 BAR) OF SUPERVISORY AIR PRESSURE IS REQUIRED NIPPLE 1/2" 2' WHEN USING A MODEL Bi x ACCELERATOR. SEE BULLETIN 323 FOR DETAILS VENT TO ATMOSPHERE Fig. 2 inside the valve body and the main pipe column has drained. See the section titled 'Draining Excess/Condensate Water from System" in this bulletin for the detailed procedure. The Model B Manual Emergency Station is included in the Re- liable Type F Double Interlock Preaction System trim sets. It con- sists of an aluminum nameplate mechanically attached to a ball valve. The valve handle in its OFF position is guarded against accidental turning to the ON position (and system discharge) by a nylon cable tie provided with each trim kit. The cable tie is inserted after the system has been restored for operation. The nylon cable tie is designed to allow, in case of an emergency, forceful turning of the valve handle to the ON position. As an alternative to the Model B Hydraulic Manual Emergency Sta- tion, the Model A Hydraulic Manual Emergency Pull Box (see Reliable Bulletin 506) is also available and can be provided as an option. Whenever ambient temperature conditions are high, the water temperature in the Model DDX Deluge Valve pushrod chamber could possibly increase, thereby increasing the pressure in the chamber to values exceeding the rated pressure of the system. In an indoor installation where standard room temperatures are exceeded, a pressure relief kit may be needed. Pressure relief kit, P/N 6503050001, can be installed into the pushrod cham- ber's releasing line to limit the pressure to 250 psi (17.2 bar). Pressurizing Line Connection The water supply for the pushrod chamber must be provided through a dedicated connection to the water supply piping. rod chambers must never be manolded together. Each Model DDX Deluge Valve must have its own pushrod chamber pres- surizing line connection, This connection must be made on the supply side of the water supply control valve. This can be accomplished by: Using a tapped connection directly below or next to the main water supply control valve using a welded outlet or the appropriate mechanical fittings. A grooved-end outlet coupling is one way to achieve this; or Using a water supply control valve that has an available threaded (NPT) supply-side tap design to allow for a di- rect water supply connection to the Model DDX Deluge Valve's pushrod chamber. Caution: Reliable's DDX valve is designed with an inlet restriction built into the pushrod chamber. It is important not to introduce additional restrictions into the direct wa- ter supply connection or the discharge from the pushrod chamber by installing additional valves or improperly in- stalling the copper lines used in the trim of the valve. 4. MODEL B HYDRAULIC MANUAL EMERGENCY STATION 1'ItII fl') NYLON TIE PLASTIC TUBING 519FG09A TO DRIP CUP Fig.3 Hydrostatic Testing of DDX Valves and DDX Systems As required by NFPA 13, fire sprinkler systems with working pressures up to and including 150 psi are to be hydrostatically tested at a water pressure of 200 psi. Fire sprinkler systems with working pressures above 150 psi are required to be hydrostati- cally tested at 50 psi above the system working pressure. In ad- dition to the hydrostatic tests described above, dry pipe and double interlock preaction systems require an additional low pressure air test. In some cases, hydrostatic testing (in accordance with the NFPA 13 requirements noted above) will result in pressures that exceed the working pressure of the valve and trim kit for the two- hour test period. The valve and applicable thm kit have been tested, approved and listed under these conditions and as such, hydrostatic testing in accordance with NFPA 13 is ac- ceptable. In addition, the clapper can remain in the closed posftion and the trim kit need not be isolated, as each has been designed to withstand hydrostatic testing as required by NFPA 13. Hydrostatically testing the valve and trim to pressures higherthantheirrating is limitedtothe hydrostatictestas ref- erenced by NFPA 13. It does not address the occurrence(s) of a "water hammer" effect, which can indeed damage the valve. A "water hammer" in the water supply piping of the valve can create pressures in excess of the rated pressure and should be avoided by all necessary means. This con- dition may be created from improper fire pump settings, underground construction work. or an improper venting of trapped air in the water supply piping. System Design Considerations The automatic sprinklers, releasing devices, electric releasing control equipment, fire detection devices, manual pull stations, and signaling devices which are utilized with the Type F Double Interlock Preaction System must be UL or ULC Listed or FM Ap- proved, as applicable. Factory Mutual requires that detection devices in refrigerated areas be of the fixed temperature type. In addition, they must have a temperature rating lower than that of the sprinklers and preferably as low as possible for the given ambient conditions. The Deluge Valve and all interconnecting piping must be lo- cated in a readily visible and accessible location and in an area that can be maintained above 402F (42C). Note: Heat Tracing Pendent sprinklers, other than dry pendents, used on preac- tion systems shall be installed on return bends per NFPA 13. The solenoid valve must be operated and the system super- vised by a listed releasing control panel. System Air/ Nitrogen Pressure Requirements The system trim includes gauges to read the pneumatic and water pressures of the Type F Double Interlock Preaction Sys- tem. Table A specifies the air or nitrogen pressure to be con- stantly applied to the system. A properly designed pneumatic supply system automatically regulates pressure, provides a safeguard against small pressure leaks in the sprinkler piping, and properly restricts the flow of makeup air or nitrogen from the source. When the optional Reliable Model Bi Accelerator is used to expedite water delivery time, the pneumatic pressure must not be less than 15 psi (1.0 bar). See Reliable Bulletin 251 and 254 for complete information on air and nitrogen regulating equip- ment. Table A Water Pressure psi (bar) System Air or Nitrogen Pressure psi (bar) Maximum Not Less Than 20(1.4) 8(0.6) 30(2.1) 10(0.7) 50(3.4) 12(.8) 75(5.2) 13(9) 100(6.9) 15(1.) 125(8.6) 16(1.1) 150(10.3) 17(1.2) 175(12.1) 18(1.2) 200(13.8) 19(1.3) 225(15.5) 21(1.4) 250(17.2) 22(1.5) 275(19.0) 23(1.6) 300(20.7) 24(1.7) Notes- 1 . Supervisory air or nitrogen pressure should not exceed 30 psi (2.1 bar). Excess pressure may result in damage to the actuator. Fastest valve operation is achieved with supervisory air or nitrogen pressure indicated; however, pressure must never be less than the minimum specified in the table above. Air maintenance devices that maintain a constant pressure are recommended; however, if a tank-less compressor is used, the "compressor on" setting of the pressure switch must never be lower than 5. the minimum pressure in the table above. Nitrogen used in refrigerated area systems minimizes a possi- bility of ice build up and blockage inside the system piping that could inhibit proper system operation. The dewpoint of nitrogen compressed to 20 psig (1.4 bar) pressure is -46F (-43,3C) and -52°-F (-46.7C) when compressed to 10 psig (0.7 bar). High pressure nitrogen cylinders can typically be rented from a local source, with rental fees varying by supplier and cylinder sizes. The calculated nitrogen supply in lbs (kgs) to pressurize various system capacities to 10 psi (0.7 bar) at different freezer tem- peratures is shown in Table B. Table B System _____Freezer Temperature, °F (°C) Capacity 20 0 -20 -40 -60 Fill Time Gal. (L) (-6.7) (-18) (-29) (40) (-51) (min*) 250 1.90 1.90 2.00 2.10 2.20 1 (946) (0.86) (0.86) (0.91) (0.95) (1.00) 500 3.64 2.80 4.00 4.20 4.40 2 (1893) (1.65) (1.27) (1.81) (1.91) (2.00) 750 5.50 5.70 6.00 6.30 6.60 (2839) (2.49) (2.59) (2.72) (2.86) (2.99) 1000 7.30 7.60 8.00 8.33 8.80 (37 5) (3.31) (3.45) (3.63) (3.78) (3.99) Note: To obtain required nitrogen supply (lbs.) for 15 psi (1.0 bar) or 22 psi (1.5 bar), multiply the tabulated values by a factor of 1.5 or 2.2 respectively. (1 bar= 100kPa) * When filled with the Reliable Model A Pressure Mainte- nance Device bypass valve open. Whenever multiple systems are supplied by a common air or nitrogen source, each system must have its own pressure main- tenance device for individual maintenance of pressure (NFPA 13, 7.2.6.5). Valve Trip Time Information The Model LP actuator that operates the Model DDX Type F Double Interlock Preaction System has a variable differential trip ratio that limits the supervisory air/nitro- gen pressure needed as the water supply pressure in- creases. The differential trip ratio is the ratio of the water supply pressure to the supervisory air/nitrogen pressure when the actuator fully opens. (Note: The actuator may partially open prior to reaching the differential trip ratio which could trip the valve; therefore, always provide the minimum supervisory pressure indicated in Table A of this bulletin, which includes an appropriate safety fac- tor.) For a valve without an accelerator, use the following dif- ferential trip ratio in valve trip time calculations: Static Water Supply Pressure in psi (bar) Differential Trip Ratio for Trip Time Calculations 100 (6.9) 10 175 (12.1) 14 250 (17.2) 18 300 (20.7) 21 For other static water pressures, the differential trip ratio may be calculated using the following equations: [psi] Differential Trip Ratio = 0.056 x Static Water Supply Pressure in PSI + 4 [bar] Differential Trip Ratio = 0.811 x Static Water Supply Pressure in BAR + 4 For a valve with a Model B-i mechanical accelerator, use a differential trip ratio of 0 and a time delay of 10 seconds for the valve to trip. For a valve with an electronic accelerator, use a dif- ferential trip ratio of 0 and a time delay of 5 seconds for the valve to trip when the supervisory pressure is more than 15 psi, and 15 seconds when the supervisory pressure is 15 psi and less. System Electrical Requirements & Low Air! Nitrogen Pressure Supervision The solenoid valve and detection devices for Type F Double Interlock Preaction Systems may be operated and supervised by the Potter PFC-441 0-AC Releasing! Control Panel. The dou- ble interlock function is achieved by the operation of the Model LP Dry Pilot Actuator (due to sprinkler operation) in combina- tion with single interlock operation. Refer to Bulletin 700 'Special Hazards & Special Systems" for additional installation informa- tion. A Potter pressure switch, Model PS25-2 pressure switch, is provided with the Type F Double Interlock Preaction System trim for low air pressure supervision. This will provide a supervisory signal for identifying a low air pressure supply condition at 4 to 8 psi (0.3 to 0.4 bar) decreasing pressure. For systems utilizing air or nitrogen pressure below 15 PSI, it may be necessary to replace the PS25-2 low pressure switch with an PS 10-2 switch. Note: In order for the solenoid valve to maintain a warranty it must remain sealed as it came from the factory. If there are concerns about the valve's internal components, immediate re- placement is recommended. (Double Interlock Preaction System) (Electric/Pneumatic Release Trim (Type F)) Engineering Specifications General Description Preaction system shall be a double Interlock preaction system utilizing a [2" (50 mm)][21/2" (65 mm)][76 mm][3" (80 mm)1[4" (100 mm)][165 mm][6" (150 mm)][8" (200 mm)] [cULus List- ed] [FM Approved] hydraulically operated, differential latching clapper-type valve with pneumatic/electric release preaction trim. Deluge Valve construction shall be of lightweight, ductile iron construction with a screw in stainless steel seat and clap- per assembly. Stainless steel or Bronze seat shall have 0-ring seals to resist leakage and corrosion, Clapper facing shall be pressure actuated, providing a limited compression seat for the sealing force between the clapper rubber facing and the valve seat. Deluge valve shall have an external reset knob for reset- ting the clapper without requiring the removal of the valve face plate. Pushrod chamber design shall consist of a stainless steel piston/ pushrod and spring assembly with diaphragm seal se- cured to the casting through a pushrod guide constructed of a synthetic engineering plastic to resist corrosion. Casting shall have a bleeder hole located on the pushrod chamber for air/ water leakage indication. Trip ratio shall be approximately a 3:1 force differential. Deluge valve shall be of the straight through design to minimize friction loss. Inlet restriction orifice shall be factory installed into the inlet port of the deluge valve pushrod cover plate and not be a separate part of the deluge valve trim. End connection style to be [2" (50 mm)1[21/2" (65 mm)][76 mm] [3" (80 mm)][4" (100 mm)][165 mm][6" (150 mm)][8" (200mm)] grooved, per ANSI/A\ANVA C606 or flanged per ASME B16.5 or ISO 7005. Deluge valve shall have a rated working pressure of 250 psi (17.2 bar) for 2" (50mm), 21/2" (65mm), 3" (80mm), 76mm and 8" (200mm) valve sizes and 300 psi (20.7 bar) for 4(100mm), 6" (150mm) and 165mm valve sizes. Deluge valve to be [2" (50 mm)][21/2" (65 mm)][76 mm] [3" (80 mm)][4" (100 mm)][165 mm][6" (150 mm)][8" (200mm)] Reliable Model DDX Deluge Valve (Bulletin 519). Valve trim shall be Type F pneumat- ic/electric release trim consisting of the following components: Hydraulic trim shall be galvanized and brass compo- nents, specifically Listed/Approved with the deluge valve, including an emergency release valve and 11/4 or 2" main drain. Electrical releasing device shall be two- way, normally-closed, pilot operated solenoid valve [cU- Lus Listed] [FM Approved] for its intended use, and a low-pressure pneumatic actuator. The solenoid valve shall be constructed of a brass body with stainless steel sleeve tube, springs, stop and plunger, and with ½" female NPT end connections. So- lenoid valve shall have a maximum working pressure of [175 psi (12.1 bar)] [300 psi (20.7 bar)] and maximum ambient temperature rating of 150°F (660C). Power con- sumption of integrated coil shall be limited to [10 watts (175 psi (12.1 bar) Rated)] [22watts (300 psi (20.7 bar) Rated)] and require 24 VDC from a releasing/control panel listed for such service. Solenoid valve shall be a Skinner ½" normally-closed solenoid valve, [Model 73218BN4UNLVNOC1 11 C2 (175 psi (12.1 bar) Rated)] [Model 73212BN4TNLVN0C322C2 (300 psi (20.7 bar) Rated]. 7. The low-pressure pneumatic actuator shall be of cast iron construction utilizing a diaphragm and compres- sion spring design to separate the pushrod chamber water pressure from the system piping's pneumatic su- pervisory pressure. The low-pressure actuator shall only require between 8 and 28 psi (0.6 to 1.9 bar) supervi- sory pressure for proper setting in accordance with the manufacturer's instructions. Low-pressure pneumatic actuator shall be Reliable Model LP Dry Pilot Actuator. The low air supervisory pressure switch to indicate loss of air pressure in system piping shall be [cULus Listed] [FM Approved] and of the bellows-activated type en- closed in a weatherproof, 4x, NEMA 4-rated enclosure incorporating tamper-resistant screws. There shall be two sets of SPDT (Form C) contacts rated at 10.0 A @ 125/250 VAC and 2.5 A @ 6/12/24 VDC. The pressure switch shall have a maximum service pressure rating of 250 psi (17.2 bar). Switch shall be provided with a ½" NPT male pressure connection. Low air supervisory pressure switch shall be Potter PS25-2. Systems shall be a Reliable Model DDX Type F Double Inter- lock System, Bulletin 751. Supervisory Air Supply Options Note: See Reliable Bulletin 251 and 254 for complete in- formation on air and nitrogen regulating equipment. Owner's Air Supply Supervisory air supply shall be provided by an owner sup- plied air system in conjunction with a [cULus Listed] [FM Ap- proved] automatic pressure maintenance device, capable of maintaining a constant system pressure regardless of pressure fluctuations in the compressed air source. The pressure mainte- nance device shall consist of galvanized trim and brass parts, including a strainer and a field adjustable air pressure regula- tor, and have a working pressure rating of 175 psi (12,1 bar). The pressure regulator shall have an adjustable outlet pressure range of 5 to 100 psi (0.34 to 6.8 bar). Pressure maintenance device shall be Reliable Model A. Compressed Air Supply Supervisory air supply shall be provided by an automatic air compressor sized for the capacity of the double interlock preac- tion system piping, and be capable of restoring normal air pres- sure in the system within the time limits specified by NEPA 13. Double interlock preaction system shall only require between 8 and 28 psi (0.6 to 1.9 bar) supervisory pressure for proper set- ting of the low pressure pneumatic actuator in accordance with the manufacturer's instructions. Air supply shall be equipped with an automatic pressure maintenance device capable of maintaining a constant system pressure. The pressure mainte- nance device shall consist of galvanized trim and brass parts, including a strainer and a field adjustable air pressure regulator or pressure switch, and have a working pressure rating of 175 psi (12.1 bar). The pressure regulator shall have an adjustable outlet pressure range of 5 to 75 psi (0.34 to 5.2 bar). Pressure maintenance device shall be Reliable Model A or Reliable Mod- el B. (Note: For small systems with air compressors having a Ca- pacity less than 5.5 cfm @ 10 psi, a pressure maintenance device is not required per NFPA 13. Consideration should be given, however, to the impact of a direct air supply on the overall performance of the system.) Nitrogen Nitrogen cylinders provided by an approved source shall provide the nitrogen supply. Double interlock preaction system shall only require between 8 and 28 psi (0.6 to 1.9 bar) supervi- sory pressure for proper setting of the low pressure pneumatic actuator in accordance with the manufacturer's instructions. The nitrogen cylinder pressure shall be regulated and supervised through the use of nitrogen regulating device and low-pressure trim kit. This device shall consist of a brass, single stage pres- sure regulator, equipped with high pressure inlet and low pres- sure outlet gauges, and ¼" copper connection tubing with galvanized 3/4" x ¼" reducer bushing. This kit shall include a low-pressure switch with associated galvanized connection trim. Assembly shall be a Reliable Nitrogen Regulating Device. This device is to be used in conjunction with the Reliable Model A Pressure Maintenance Device. Optional System Accessories System Control Valve Preaction system control valve shall be a slow close, [cULus Listed] indicating butterfly type valve with a pre-wired super- visory tamper switch assembly. The valve shall be rated for a working pressure of [300 psi (17.2 bar)]. System control valve shall be for a [2" (50 mm)] Gruvlok AN7722-3A Butterfly Valve or [21/2" (65 mm)1[3" (80 mm)][4" (100 mm)][6" (150 mm][8" (200 mm] - Reliable BFG-300 Butterfly Valve, Detection System To initiate actuation of the preaction system's deluge valve, a supplemental electric detection system shall be provided [In- sert applicable product specification]. Releasing/Control Panel A [cULus Listed] [FM Approved] releasing/control panel shall be used to operate the preaction system, The releasing/control panel shall be a conventional, microprocessor-controlled panel containing two initiating device circuits, and waterflow and su- pervisory inputs. Output circuits shall include alarm, waterfiow, supervisory, and releasing circuits. The releasing/control panel shall be capable of providing any of the following desired modes of operation: single hazard, two zone; single hazard, cross- zoned; dual hazard, combined release; and dual hazard, split release (two area). Type F double interlock system shall require the single hazard mode of operation. Releasing/control panel shall be equipped with a local tone alarm to annunciate loss of AC power; system trouble, circuit trouble, and low auxiliary DC power supply. Panel shall be [cULus Listed] [FM Approved] and be capa- ble of providing power for compatible detectors and auxiliary devices used. Audible alarms shall be able to be silenced at releasing panel. Auxiliary DC power supply shall consist of (2) 12-volt lead acid batteries of the same ampere-hour rating, pro- viding [60 hours - cULus Listed] [90 hours - FM Approved]. Dry contacts shall be provided for remote annunciation of alarm, trouble, and supervisory panel signals. Main power supply to be a dedicated 120 VAC / 60 Hz circuit. Accelerator For system capacities in accordance with NFPA 13, an ac- celerator with associated galvanized trim kit shall be provided to exhaust air pressure from the pneumatic actuator trim piping in order to hasten operation of the double interlock preaction sys- tem. Minimum pneumatic pressure shall be 15 psi (1.0 bar) to ensure proper accelerator operation. Accelerator shall be [cU- Lus Listed] [FM Approved] for use with the double interlock pre- action trim. Accelerator shall be capable of adjusting for small fluctuations in system air pressure without causing operation. The accelerator shall contain an integral anti-flooding assembly to prevent entry of water and debris into critical internal areas during operation. Accelerator body and dome to be of cast alu- minum and epoxy coated inside and out. Diaphragm construc- tion shall consist of Dupont Fairprene BN 5049 with stainless steel filter assembly. Trim kit shall consist of all galvanized and brass parts, including an isolating ball valve. Accelerator and trim kit shall be Reliable Model Bi Accelerator Trim Kit. System Electrical Requirements All releasing and detection devices in Reliable Model DDX Type F Double Interlock Preaction System are operated and supervised by the PFC-4410-RC Releasing Control Panel. An emergency manual pull station should be provided near the sprinkler riser to facilitate setup of the system. The power supply, the standby emergency power supply, bat- tery charger, and the rectifier circuitry are all contained within the Potter PFC-4410-RC Releasing Control Panel. Batteries that provide ninety hours of standby power are required for Factory Mutual Approved systems. The solenoid valve is operated and supervised by the Pot- ter PFC-4410-RC Releasing Control Panel. The Potter PEG- 441 0-RC Releasing Control Panel can utilize either 120VAC or 22OVAC. Caution: Repairs or disassembly of the solenoid valve should only be done by a trained technician. An improperly repaired or partially assembled solenoid valve could result in failure of the valve to operate. Standard Solenoid Valve Specifications: Skinner Model 73218BN4UNLVNOC1 11 C2 Rated working pressure: 175 psi (12.1 bar) Voltage: 24 VDC Power: 10 Watts Current: 0.41 Amps Holding Enclosure Coil: NEMA 4X Pipe Size: 1/2" NPT Female Cv Factor: 4.0 Alternate Solenoid Valve Specifications: Skinner Model 73212BN4TNLVN0C322C2 Rated working pressure: 300 psi (20.7 bar) Voltage: 24 VDC Power: 22 Watts Current: 0.83 Amps Holding Enclosure Coil: NEMA 4X Pipe Size: 1/2" NPT Female Cv Factor: 2.8 I Technical Data The Reliable Model DDX Type F Double Interlock System is rated for a minimum water supply pressure of 20 psi (1.4 bar). When fitted with the optional 300 psi (20.7 bar) solenoid, the 2", 2-1/2", 3", and 8" sizes are rated for a maximum pressure of 250 psi (17.2 bar), and the 4" and 6" sizes are rated for a maxi- mum pressure of 300 psi (20.7 bar). Water temperature must be maintained between 40°F and 140°F (4°C and 600C), The following list of technical bulletins pertains to valves and devices that may be used in this preaction system: Deluge Valve Reliable 519 Hydraulic Emergency Station (Model A) Reliable 506 Mechanical Sprinkler Alarm Reliable 612/613 Pressure Maintenance Device Reliable 251 Nitrogen Regulating Device Reliable 254 Releasing/Control Panel Potter #5403550 Model Bi Accelerator Trim Kit Reliable 323 Low Air Pressure Supervisory Switch Potter 5401564 Naterf low Pressure Alarm Switch Potter 5400928 Model DDX Deluge Valve Description 1. Rated working pressure: Valve -250 psi (17.2 bar) for 2" (50mm), 21/2" (65mm), 3" (80mm), 76mm and 8" (200mm) valve sizes and 300 psi (20.7 bar) for 4" (100mm), 6" (150mm) and 165mm valve sizes. 2. End and trim connections: ANSI/AWWA C606 grooved inlet and outlet Nominal Pipe Outlet Groove Groove Outlet Size Diameter Diameter Width Face to Groove 2" (50 mm) 2.375" 2.250" 11/32" 5/8" (60mm) (57mm) (9.0mm) (16mm) 21/2" (65 mm) 2.875" 2.720" 11/32" 5/8" (73mm) (69mm) (9.0mm) (16mm) 76mm 3.000" 2.845" 11/32" 5/8" (76mm) (72mm) (9.0mm) (16mm) 3 (80 mm) 3.500" 3.344" 11/32" 5/8" (89mm) (85mm) (9.0mm) (16mm) 4" (100 mm) 4.500" 4.334" 3/8" 5/8" (114mm) (110mm) (9.5mm) (16mm) 165mm 6.500" 6.330" 3/8" 5/8" (165mm) (161 mm) (9.5mm) (16mm) 6" (150 mm) 6.625" 6.455" 3/8" 5/8" (168mm) (164mm) (9.5mm) (16mm) 8" (200 mm) 8.625" 8.441" 7/16" 3/4" (219mm) (214mm) (11mm) (19mm) Threaded openings Per ANSI B 2.1 Flange Dimensions Nomlinal Boll Boll flae Fe Muter Fge Pipe arde Holle Outde hick of Sm Deter Der Der rem Boll PSMEB16.5 4" T/' 3/4" 9" 15/" 8 Class 180 (100m) (191rrm) (1i-n) (i-n]) (244n) O7-2 4" 7/ 3/4" 9" 15/" 8 FN16 (1rni) (180Tni) (19m1) (nn) (244m) ,ASMEB16.5 6" 9W 7/s" 11" 15/1, 8 Sca 180 (1Ethm) (24lrrni) (27Tm) (24m) ISO 70-2 6" 97/11 ,ç' 11" " 15/ 8 FN16 (1bTn) 066)(2Trn) (279m]) (24m) ASMEB16.5 8" 113/4" 7/s" 131/2" 1" 8 Cbss (MM) (anmi) (343Trn) (25Amii) l70-2 1 8" 11' " 131/2" 1" 12 PN16 ()rrn) (265arn) (arm) (n) (54fl) 3. Valve Color: Valve Size Color 2(50mm) Black or Red 21/2" (65 mm) Black or Red 76mm Red 3(80mm) Black or Red 4(100mm) Black or Red 165mm Red 6" (150 mm) Black or Red 8(200mm) Black or Red 4. Face to face dimensions: Valve Size: End Connection: End to End: 2" (50mm), 21/2" (65mm), 76mm &_3(80mm) Groove/ Groove 12/2" (318mm) 4" (100mm) Groove/ Groove 14" (356mm) Flange/Groove 16" (406mm) Flange! Flange 16" (406mm) 6" (150mm) & 165mm Groove/ Groove 16" (406mm) Flange/ Groove 19" (483mm) Flange! Flange 19" (483mm) 8" (200mm) Groove! Groove 19/" (492mm) Flange! Flange 211/4' (540mm) 71 5. Valve Shipping Weight: Valve Size: End Connection: Weight 2" (50mm), 21/2"(65mm), 76mm & 3(80mm) Groove/ Groove 34 lbs (15 kg) 4(100mm) Groove! Groove 64 lbs (29 kg Flange! Groove 79 lbs (36 kg) Flange! Flange 92 lbs (42 kg) 6" (150mm) & 165mm Groove! Groove 95 lbs (43 kg) Flange! Groove 122 lbs (56 kg) Flange! Flange 138 lbs (69 kg) 8" (200mm) Groove/ Groove 148 lbs (67 kg) Flange! Flange 1 197 lbs (90 kg) 6. Trim Shipping Weight: 2" (50 mm), 4" (100 mm), Trim 21/211 (65 mm), 6"(150 mm), Configuration 311 (80 mm) 8" (200 mm) &76mm &165mm Type F Double Interlock 50 1bs (23 kg) 55 lbs (25 kg) 91 MODEL DDX HYDRAULIC FRICTION LOSS GRAPH FLOW RATE (L/SEC) p Beliabl* I 10. I Valve Cv Equivalent Size Factor Length of Pipe 2" 101 AN (1,3m) (0mm) 2112" (65mm) 236 6.0'(1.8m) 76mm 1 241 7.7' (2.3 m) 254 (80mm) 12.6' (3.8m) 4" 469 14.0(4.3rn) (100mm) 6" 886 29.4' (9.0 m)- 0 50mm) mm 886 29.4 (9.0 m) " 2mm) 1516 53.5'(16.3m) 0.1 0.5 0.1;- U) 0 —J w 0.05 co w a- 0.01 10 100 1000 10000 FLOW RATE (GPM) Fig.4 Friction loss (Expressed in equivalent length of Schedule 40 pipe, based on Hazen & Williams formula: Valve Size. Equivalent Length: Cv C = 120 C = 100 2(50mm) 4.4ft(1,3m) 3.1 ft(1,0m) 101 21/2' (65MML 6.0 ft(1,8 m) 4.3 ft (1,3 m) 236 76mm 7.7ft(2,3m) 5.5ft(1,7m) 241 3(80mm) 12.6 ft (3,8 m) 9.0 ft (2,7 m) 254 4(100mm) 14 ft (4,3 m) 10 ft (3,0 m) 29.4 ft (9,0 m) 20.9 ft (6,4 m) 6(150mm) 29.4 ft (9,0 m) M469 165mm 20.9 ft (6,4 m) 8(200mm) 53.5ft(16,3m) 38.1 ft(11,6m) Installation position: Vertical Trim Descriptions The Type F Double Interlock Preaction Trims for the Reliable Model DDX Deluge Valve are arranged for rapid, easy, and compact attachment, and serve as connection points to Reli- able Model C Mechanical Alarms and other devices. The Double Interlock Type F Preaction System trim configu- rations can be ordered as individual parts, in time-saving seg- mentally assembled kit forms, or fully assembled to the Model DDX Deluge Valve (with or without a control valve). Resetting Model DDX Type F Double Interlock Preaction System Close the valve controlling water supply to the Deluge Valve and close the air or nitrogen supply to the sprinkler system. Close the pushrod chamber supply valve. Open main drain valve and drain system. Open all drain valves and vents at low points throughout the system, closing them when flow of water has stopped. Open the Model B Manual Emergency Station to relieve pressure in the pushrod chamber of the Deluge Valve. With the alarm line valve open, push in the plunger of ball drip valve, forcing the ball from its seat, and drain the alarm line. With the Model B Manual Emergency Station open, push in and rotate the Deluge Valve's external reset knob counter- clockwise (when facing the valve), until you hear a distinct noise indicating that the clapper has reset. Note: The reset knob can be rotated only while pressure in the pushrod cham- ber is vented to atmospheric conditions (0 psig). Inspect and replace any portion of the detection system and/or sprinkler system subjected to fire conditions. Open the pushrod chamber supply valve and allow water to fill the pushrod chamber. Close the Model B Manual Emer- gency Station. Purge all air from the actuation piping: Open the solenoid valve by operating a detector or an electric manual emergen- cy station. Note that the Model LP Dry Pilot Actuator should also be open since there is no pneumatic pressure on the system. While water is flowing through the solenoid valve AND the actuator, cause the actuator to close first by applying air or nitrogen pressure to the system. Open the air or nitrogen supply quick fill valve to restore supervisory pressure in the sprinkler system and close the dry pilot actuator. Allow the pressure to build to the level specified in Table A, then set the pneumatic supply to automatic opera- tion. (Note: To build supervisory air pressure in the sprinkler system, it may be necessary to temporarily close the main drain valve and the alarm line valve until air pressure has built up to the recommended level.) After the Model LP Dry Pilot Actuator has been set, close the solenoid valve by resetting the release control panel. (All detectors and manual pull stations must be in a normal state before the panel can be reset.) Note: It is imoortant that the oioino between the snlencid Open the alarm line valve. Verify the main drain valve is open. Slightly open the main valve controlling water supply to the Model DDX Deluge Valve, closing the main drain valve when water flows. Observe if water leaks through the ball drip valve. If no leak occurs, the Deluge Valve clapper is sealed. Slowly open the main valve controlling water supply until fully open and verify that it is properly monitored. Verify that the pushrod chamber supply valve and alarm line valve are open. The pushrod chamber supply valve must remain open when the Deluge Valve has been reset, to main- tain water pressure in the pushrod chamber. Verify that the Model B Manual Emergency Station is se- cured in the OFF position with the appropriate nylon tie. Inspection and Testing Water supply - Confirm that valves controlling water sup- ply to the Deluge Valve are opened fully and properly moni- tored. Alarm line - Confirm that the alarm line valve is open and remains in this position. Other trim valves - Confirm that the pushrod chamber supply valve is open, as well as all pressure gauge valves. The main drain valve, condensate drain valve, and alarm test valve should be closed. Ball drip valve - Push in on the plunger to be sure ball check is off its seat. If no water appears, the Deluge Valve water seat is tight. Inspect the bleed hole on the underside of the pushrod chamber for leakage. Dry pilot trim - Inspect air pressure for conformance to Table A. Releasing device - Check outlet of the releasing device (i.e., solenoid valve and hydraulic manual emergency station) for leakage. Also verify that tubing drain lines from releas- ing devices are not pinched or crushed which could prevent proper releasing of the Deluge Valve, Testing alarms - Open the alarm test valve permitting water from the supply to flow to the electric sprinkler alarm switch and to the mechanical sprinkler alarm (water motor). After testing, close this valve securely. Push in on the plunger of ball drip valve until all water has drained from the alarm line. Operational test - Open the Model B Manual Emergency Station. Alternatively, operate the electrical detection system and deplete pneumatic pressure from the sprinkler system. Note: AN OPERATIONAL TEST WILL CAUSE THE DELUGE VALVE TO OPEN AND FLOW WATER INTO THE SPRINKLER SYSTEM. Secure the Model B Manual Emergency Station in the OFF position with nylon tie after Deluge Valve is reset. 11. LOW PRESSURE SWITCH I ff SOLENOID VALVE (SYSTEM RELEASE) / MODEL LP DRY PILOT ACTUATOR / MODEL Bi CCELERATOR (OPTIONAL) MAIN DRAIN _- VALVE (NORMALLY CLOSED) MANUAL EMERGENCY STATION (NORMALLY CLOSED & SECURED cjt — (c L PUSH ROD CHAMBER SUPPLY VALVE (NORMALLY OPEN) FLOW ALARM 1 _ PRESSURE SWITCH CONDENSATE DRAIN VGOL CLOSED) 0' CONDENSATE LINE VALVE (NORMALLY OPEN) BALL DRIP VALVE ALARM TEST VALVE (NORMALLY CLOSED) 751 FGO5B Fig.5 2. 1 Testing Detection System Without Operat- ing Deluge Valve Close the valve controlling water supply to the deluge valve and open the main drain valve. Verify that valve supplying hydraulic pressure to the piston/ pushrod chamber is open, allowing water to enter the pushrod chamber. Operate the electrical detection system and deplete pneu- matic pressure from the sprinkler system. Operation of the detection combined with loss of pneumatic pressure must result in a sudden drop of water pressure in the pushrod chamber, as indicated by the pressure gauge on the hydraulic release trim. Reset the valve per the reset instructions. Maintenance The owner is responsible for maintaining the fire protection system in proper operating condition. Any system main- tenance or testing that involves placing a control valve or detection/control system out of service may eliminate the fire protection that is provided by the fire protection system. The Reliable Model DDX valve and associated equipment shall periodically be given a thorough inspection and test. NFPA 25, 'Inspection, Testing, and Maintenance of Water Based Fire Protection Systems," provides minimum mainte- nance requirements. System components shall be tested, operated, cleaned, and inspected at least annually, and parts replaced as required. Replace any components found to be corroded, damaged, worn, or non-operable. Increase the frequency of inspections when the valve is exposed to cor- rosive conditions or chemicals that could impact materials or operation of the assembly. If face plate is removed during maintenance, torque face plate bolts to the following values during re-installation: 35 ft-lbs. (47 N-m) for 2" through 4" valves 70 ft-lbs. (95 N-m) for 6-8" valves Troubleshooting Mechanical sprinkler alarm not operating: This is most likely caused by a clogged screen in the strainer of the water motor. Proceed as follows: Remove plug from the strainer. Remove and clean the screen. Replace the screen and the plug, and then tighten securely (Ref. Bulletin 613). Water leaking from Ball Drip. This can be caused by either a water column on top of the clapper or a supply water leakage. Leakage due to water column. This condition is caused by leakage past the clapper seal assembly. Be sure the clapper seal and seat are free of any type of de-bris or damage. If necessary, follow steps below to replace the seal assembly and/or seat. Supply water leakage. This condition is caused by leakage past the lower seat 0-ring. Follow steps below for inspection and/or replacement of lower seat 0-ring Repair Procedures - Model DDX Deluge Valve The following section provides instructions to correct both conditions: Disable detection system. Shut down the valve controlling the water supply to the Del- uge Valve and open the main drain valve. Open the conden- sate drain valve. Close the pushrod chamber supply valve and open the Model B Manual Emergency Station. Remove the Deluge Valve front (handhold) cover and inspect the seat, clapper, and seal assembly for damage. If inspection indicates damage to the seal assembly, replace as follows: 4, Remove the bumpstop nuts and remove the seal assembly. Install a new seal assembly and thread the bumpstop nuts onto the threaded studs of the seal assembly. Tighten finger tight plus ¼ to 1/2 turn. If inspection indicates damage to the clapper, proceed to step 6. At the rear of the valve, disconnect the condensate drain trim section starting with the elbow connector. Then remove the ¼" globe valve, followed by the 3%"x1/4" reducing bushing. Remove the retaining rings from the clapper hinge pin, push the hinge through the condensate drain opening and remove the clapper subassembly. Install a new clapper subassembly in the reverse order making sure the clapper spacers are in their proper position. If the seat is damaged, or it is suspected that the leakage is through the seat 0-rings, proceed to step 8. Using Reliable P/N 6881603000 Seat Wrench for 2" (50mm), 21/2" (65mm), 76mm and 3" (80mm) valve sizes, Reliable P/N 6881604000 for 4" (100mm) valve size, Reliable P/N 6881606000 for the 6" (150mm) and 165mm valve sizes or Reliable P/N 6881608000 Seat Wrench for 8" (200mm) valve size, remove the seat by unscrewing. This will loosen the seat- clapper-mounting ring subassembly. Reach into the valve and grasp the seat and remove it from the valve. Then remove the clapper-mounting ring subassembly from the valve. Visually examine all components of the seat-clapper-mounting ring subassembly and replace any component that appears dam- aged. New 0-rings should always be used for reassembly. Reassembly: clean the bore of the valve body. Lubricate the bore with 0-ring grease. Lubricate and install the 0-rings onto the seat. Lubricate and install the mounting ring 0-ring into the body (8" (200mm) valve size only). Insert the clapper- mounting-ring subassembly into the handhold opening of the Deluge Valve using caution to not damage or dislodge the mounting ring 0-ring (8" (200mm) valve size only). Align the mounting ring so that the Lever is near the pushrod and the mounting ring "ears" are between the tabs of the valve body. Insert the seat into the valve body and through the clapper- mounting ring subassembly. Start to tread the seat into the body by hand, then tighten the seat with the seat wrench until it bottoms out on the mounting ring. Verify that the seat-clap- per-mounting ring subassembly is in the fully down position between the tabs of the body, and check to see that the lever lines up with the pushrod. Reassemble the handhold cover and set up the Model DDX Deluge Valve as per the section "Resetting Model DDX Type F Double Interlock Preaction System." 13. Pushrod Chamber Maintenance - Model DDX Deluge Valve A small bleed hole is located on the underside of the pushrod chamber. Water leakage from the bleed hole can be caused by a ruptured pushrod diaphragm: Disable detection system. Shut down the valve controlling water supply to the Deluge Valve. Relieve the inlet pressure by opening the main drain valve. Close the pushrod chamber supply valve and open the Model B Manual Emergency Station. Remove the trim at the unions nearest to the pushrod chamber cover. Take the pushrod chamber cover off by removing the six retaining screws. Visually inspect the pushrod chamber cover and piston to determine what could have damaged the diaphragm and then correct. Install a new diaphragm. Note: The diaphragm has two different surfaces: it is not bi-directional and will fail if installed backwards. Roll the diaphragm so that the smooth surface (the pressure side) conforms to the inside of the pushrod chamber cover and the fabric side engages the pushrod. Reassemble the six retaining screws with an installa- tion torque of 15 foot-pounds in a star pattern. Set up the Model DDX Deluge Valve as per the sec- tion 'Resetting Model DDX Type F Double Interlock Preac- tion System." Draining Excess/Condensate Water from the System Notify the owner and monitoring company that maintenance is being performed on the system. Close the main water control valve. Open the Main Drain Valve. Open the Condensate Drain Valve until all water has drained. Close Condensate Drain Valve. Partially open the Main Water Control Valve. Slowly close the Main Drain Valve. Fully open the Main Water Control Valve. Notify the owner and monitoring company that the system has been returned to service. Maintenance - Model LP Dry Pilot Line Actuator If water constantly flows through the Model LP Dry Pilot Actua- tor, or if the actuator will not set up, the diaphragm/seal assem- bly may need replaced. Close the main valve controlling water supply to the system, and close the air or nitrogen supply to the system. Remove air or nitrogen pressure from the system. Remove the actuator from the trim at the nearest convenient points. Remove six bolts holding the actuator halves together. Clean and inspect all interior surfaces. Replace the dia- phragm/seal assembly. Reassemble the actuator using a torque of 12 ft-lbs. on the six bolts in a cross-tightening pattern. Reinstall the actuator and set up the system following the section "Resetting Model DDX Type F Double Interlock Preac- tion Systems." MODEL LP DRY PILOT LINE ACTUATOR AIR TO DRAIN 3 DISCHARGE ' 71030010) 10 (RELIABLE PART NUMBER (SHOWN IN OPEN POSITION) WATER Fig.6 Model LP Dry Pilot Line Actuator Parts List P/N 71030010 Item No. Part No. Description Qty. Required 1 94106936 Lower Housing 1 2 94106935 Upper Housing 1 3 96006905 Seat 1 4 92206312 Diaphragm 1 5 95106911 Facing Plate Assembly 1 6 96906311 Diaphragm Washer 1 7 94906406 Facing Plate Nut 1 95406901 Seat 0-Ring 1 r 10 8 95606305 Bolt 6 96406902 Compression Spring 1 14. MODEL DDX VALVE WITH STAINLESS STEEL SCREW-IN SEAT IMPORTANT NOTE: Early generation 4" and 6" DDX valves may incorporate a brass drop-in seat. Prior to ordering replacement parts, confirm the pressence of a stainless steel screw-in seat or brass drop-in seat. For replacement parts for valves with brass drop-in seat, please contact Reliable Sprinkler Company Technical Services (techserv@reliablesprinkler.com) 9 27 TO SYSTEM 1 16 37 23&42 10 36 6 26 C 35 22 ED 8 TO RELEASIN SYSTEM DEVICE AIR 30 4~ 11 PORT 3 33 17 20 31 18 14 35 21&42 19 5 ORIFICE 6 29 FROM SUPPL 2&42 2/ 25 & 42 (LOWER SEAT 0-RING) PORT PORT 32 ALARM BLEED HOL PORT RAIN 24 & 42 (UPPER SEAT 0-RING) GAUGE POR TEST 12 29 32 EXTERNAL RESET ASSEMBLY 519FG 12B FROM SUPPLY Fig.7 Model DDX (Screw-In Seat Confiauration) Deluae Valves Parts List (Refer to Fia. 71 Item ° Part No. _____ ______ ______ Part Description (200mm) QT' Material 2' (50mm) 21/2" (65mm) 76mm 3" (80mm) 4" (100mm) 165mm 6" (150mm) 8" 1 91006011 91006012 91006023 91006013 91006005 91006027 91006007 91006028 'alveBody Groove/Groove 1 Valve Body Range/Flange Ductile Iron 65-45-12 N/A N/A N/A N/A 91006045 N/A 91006067 N/A Valve Body Range/Groove N/A N/A N/A N/A 91006035 N/A 91006037 91006039 2 N/A N/A N/A N/A N/A N/A 95406414 )-ring (Mounting Ring) 1 Buna-N 3 71040416 'ushrod Cover Assembly 1 Ductile Iron 65-45-12 & Brass C360000 4 91106123 N/A N/A N/A 1ex Bolt ½"-13x1¼" 6 N/A 95606107 N/A N/A lex Bolt ½"-13 x 1½' 6 N/A N/A 91106006 N/A lex Bolt 5/a"-11x13%" 6 Zinc Plated Steel - N/A N/A N/A 95606110 )ex Bolt 5/8"-11x2" 8 5 91306013 91306014 91306016 91306018 MountingRing 1 Stainless Steel CF8 or CF8M 6 91916003 91916014 91916016 91916008 lapper 1 Stainless Steel CF8orCF8M 7 92116063 92116064 92116065 1 92116066 92116068 ccess Cover 1 Ductile Iron 65-45-12 8 93416003 93416014 93416016 93416008 el Assembly 1 Stainless Steel 304&EPDM 9 93706003 93706004 93706006 93706008 Access Cover Gasket 1 Buna-N or Neoprene 10 93722000 93722000 N/A N/A Bumpstop Assembly 1 Stainless Steel UNS S31600 N/A N/A 93722000 N/A 2 N/A N/A N/A 93722000 3 11 93916006 Pushrod Guide 1 Acetal 12 93916066 Reset Shaft 1 Brass UNS C36000 13 94106066 ResetHousing 1 Brass UNSC36000 14 94356006 Reset Knob 1 Aluminum 6061 15 94506003 94506004 94506016 94506008 Lever 1 Stainless Steel UNS S17400 16 95006414 94006412 95006410 95006410 riker 1 Aluminum Bronze C954(X) 17 95106006 iston 1 Stainless Steel CF8M 15. Model DDX (Screw-In Seat Configuration) Deluge Valves Parts List (Refer to Fig. 7) (Continued) Item Part No. Part Description (200mm) QTY Material 2" (50mm) 21/2" I (65mm) 76mm 3" 1 (80mm) 4" I (100mm) 165mm 6" (150mm) 8" 18 95276006 Diaphragm 1 EPOM & Polyester 19 - 95306267 N/A N/A N/A Retaining Ring, 1,9' Shaft, Lever Pin 2 Retaining Ring, 3/4" Shaft, Lever Pin Stainless Steel 15-7 or 17-7 N/A 95306267 N/A N/A Retaining Ring, 1/2" Shaft, Lever Pin NA N/A 95306269 N/A Retaining Ring, '8" Shaft, Lever Pin N/A N/A N/A 95316408 20 95306268 N/A N/A N/A Retaining Ring, " Shaft, Hinge Pin 2 Stainless Steel 15-7 or 17-7 N/A 95306267 95306267 N/A Retaining Ring, ½" Shaft, Hinge in N/A N/A N/A 95316408 Retaining Ring, 3/4" Shaft, Hinge Pin 21 95406007 0-Ring, Reset Housing ID 1 Buna-N 22 95406024 0-Ring, Reset Housing & Pushrod Guide OD 2 Buna-N 23 95406407 0-Ring, Pushrod Guide ID 1 Buns-N 24 95406410 95406409 95436126 95406413 0-Ring, Upper Seat 1 Buna-N 25 95406411 95406420 95446226 95406412 )-Ring, Lower Seat 1 Buns-N 26 95506006 Pushrod 1 Stainless Steel UNS S30300 27 95606114 Socket Head Screw, ¼"-20x5li' 6 Steel 28 95606127 -let Head Socket Cap Screw ,-16x3% 1 Steel 29 - 95606133 NA N/A N/A Socket Head Screw #6-32 x ½" 1 - Stainless Steel 18-8 N/A 95606130 95606130 95606130 Socket Head Screw #10-32 x 1"' Stainless Steel UNS S31600 30 96016003 96016014 96016016 96016008 Seat 1 Stainless Steel CF8M 31 - 96206003 N/A N/A N/A Hinge Pin 1 - Stainless Steel UNS S30400 N/A 96216086 96216086 96206008 Stainless Steel UNS S21800 32 96216003 N/A N/A N/A Lever Pin 1 - Stainless Steel UNS S17400 N/A 96216044 96216047 96216008 Stainless Steel UNS S21800 33 96310003 96906904 96906904 96310008 ClapperSpacer 2 Teflon orAcetal 34 96406003 N/A N/A N/A Lever Spring 1 Stainless Steel UNS S30400 N/A 96406004 96406005 96406008 Stainless Steel UNS S31600 35 96406906 Piston/ Reset Spring 2 Stainless Steel UNS S31600 36 - 96906112 N/A N/A N/A Spring Lock Washer, #6 1 - Stainless Steel 18-8 N/A 96906111 96906111 96906111 SpringLock Washer, #10 [StnlessSteelUNSS31600 16. Ordering Information Specify: Model DDX Type F Double Interlock Preaction System Size End Configuration Trim Assembly Loose Trim Segmentally Assembled Fully Assembled no Control Valve Fully Assembled with Control Valve Optional 300 psi (20,7 bar) solenoid valve Use this table for ordering body only _valve Valve Size & End Connection Flange Type Color Reliable Part Number (50mm) Grv/Gry N/A Black 6103022000 Red 6103022001 21/2" (65mm) Grv/Gry N/A Black 6103022500 Red 6103022501 (80mm) Grv/Gry N/A Black 6103030000 Red 6103030001 76mmGrv/Gry N/A Red 6103027600 (100mm) Grv/Gry N/A Black 6103040026 Red 6103040030 4" (100mm) FIg/Gry ASME Class 150 Black 6103040044 ASME Class 150 Red 6103040046 ISO PN16 Red 6103040048 4" (100mm) FIg/FIg ASME Class 150 Black 6103040045 ASME Class 150 Red 6103040047 ISO PN16 Red 6103040049 6" (168mm) Grv/Gry N/A Black 6103060024 Red 6103060030 6" (168mm) Flg/Gry ASME Class 150 Black 6103060045 ASME Class 150 Red 6103060048 ISO PN16 Red 6103060049 6" (168mm) FIg/FIg ASME Class 150 Black 6103060046 ASME Class 150 Red 6103060047 ISO PN16 Red 6103060050 165mmGrv/Ory N/A Red 6103060028 165mm FIgIGry ASME Class 150 Red 6103060051 ISO PN16 Red 6103060052 8" (200mm) Grv/Gry N/A Black 6103080001 Red 6103080003 8" (200mm) FIg/FIg ASME Class 150 Black 6103080016 ASME Class 150 Red 6103080018 ISO PN16 Red 6103080020 17. Installation Dimensions in Inches (mm) Nominal Pipe Size A B C* D E F G H J 2" (50mm) 9-1/2 8 12-1/4 12-1/2 8-1/2 8-3/4 9-1/2 9-1/2 5 (241) (203) (311) (318) (216) (222) (241) (241) (127) 2-1/2" (65 mm), 9-1/2 8 12-1/4 12-1/2 8-1/2 9-1/4 9-1/2 9-1/2 5 3" (80 mm) & 76 mm (241) (203) (311) (318) (216) (235) (241) (241) (127) 4" (100 mm) 10-1/2 8 10 14 7 10 11 13 6 (270) (203) (254) (356) (178) (254) (279) (324) (148) 6" (150 mm) & 165 12-1/2 8-1/2 10-1/2 16 7 10-3/4 11 13 6 mm (318) (215) (267) (406) (178) (273) (279) (324) (148) 8" (200 mm) 13-1/2 11-1/4 9-1/2 19-3/8 3-3/4 11-1/4 12 12-5/8 5-3/4 (343) (286) (241) 1 (492) (95) 1 (286) 1 (305) (312) (140) Fig.9 *No : Dimension C is to the back edge of the lower drain trim or back edge of the upper release trim depending on valve size, and references the maximum projection of the valve trim. The equipment presented in this bulletin is to be installed in accordance with the latest published Standards of the National Fire Protection Association, Factory Mutual Research Corporation, or other similar organizations and also with the provisions of governmental codes or ordinances whenever applicable. Products manufactured and distributed by Reliable have been protecting life and property for almost 100 years. Manufactured by Reliable Automatic Sprinkler Co., Inc. Recycled 0 (800) 431-1588 Sales Offices - Paper I eli a b Ic (800) 848-6051 Sales Fax Revision lines indicate updated or new data. (914) 829-2042 Corporate Offices www.reliablesprinkler.com Internet Address EG. Printed in U.S.A. 08/20 P/N 9999970442 Complete Dry Sprinkler ** AIR PRODUCTS System Filling Solutions DAP ly Air PacO ry Pipe Sprinkler Systems Series Compressor/Dryer Packages for Corrosion Mitigation and Freezer Room Applications Specifically designed to fill the sprinkler system with moisture free air to 40 PSI in 30 minutes per NFPA 13. General Air Products DAP Series Dry Air Pac® is the only FM Approved, twin tower regenerative dryer I compressor package designed for fire protection. This turn-key system provides the dry pipe or pre-action sprinkler system with moisture free air to a 400 to -60°F dew point standard (-100°F dew point is achievable - consult factory for details). Ensuring that no moisture is sent downstream from the air compressor will significantly reduce corrosion in all systems and prevent ice plug formation in cold storage applications. 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The Dry Air Pac® has been the sprinkler industry's benchmark for nearly 30 years in cold storage facilities and other installations where moisture removal is essential. Turn-key Design for Easy Installation • UL Listed I FM Approved AMD -40Lto -60LF Dew Point Standard • Fully Integrated Control Panel NEMA Rated I UL Listed Motor • ASME Coded Air Receiver Industrial Duty Compressor Pump • UL Listed Pressure Switch Integrated Twin Tower Desiccant Dryer • Bubble Tight Air Check Valves Electronic Drain Valve with Timer Controls • ASME Pressure Safety Valves Combination Afterfilter I Regulator • Vibration Isolation Pads Compact Air Cooled Aftercooler • Pre-piped, Pre-wired & Pre-Tested Prefilter with Differential Pressure Gauge • Lifetime Customer Service & Tech Support Did You Know? - The FM Approval on the DryAir Pac® eliminates the requirement to connect the air intake to the freezer room. NFPA 13 exempts any approved packages from this costly requirement. General Air Products Dry Air Pac® is the only package on the market that meets this exemption. NOTE: Specific voltage required when ordering. www.generaJairproducts.com 1-800-345-8207 A ______ — — — — - - - — — - - — — A Moor- AMIW - -- - — — — — - — — - — — — — — — - r - — — — -- — AIR PRODUCTS Electronic Auto Drain Valve Fully Integrated Control Panel 13 [M U,y A nrr [Pago CompressorlDvyer Packages For Corrosion Mitigation & Freezer Room Applications Prefilter With Differential , Pressure Gauge UL Listed I FM Approved Air Maintenance Device Combination Afterfilter/ Regulator Prevent Ice Plug Formation In Cold Storage Facilities The Dry Air Pac® has been the sprinkler industry's benchmark for nearly 30 years in cold storage facilities and other installations where moisture removal is essential. This turn-key system provides the dry pipe or pre-action sprinkler system with moisture free air to a -400 to -60° F dew point standard. Ensuring that no moisture is sent downstream from the air compressor will prevent frost accumulation and ice plug formation in cold storage facilities /freezer room applications. *GENERAL WW AIR PRODUCTS Complete Dry Sprinkler System Filling Solutions TDc B .,0 ~ 13 13 13 Mitigate Corrosion In All Dry Pipe & Pre-Action Systems 4 0 Did you know? - The Dry Air Pac® can be a less expensive alternative to nitrogen generation for corrosion protection in dry pipe & pre-action systems. When the pressure dew point of air is controlled to -26°C (-14.8°F) or lower, the oxidation process is eliminated and corrosion cannot occur. Furthermore, the Dry Air Pac® does not significantly obstruct air flow like a much more restrictive nitrogen generator making this a better alternative in many applications. This is especially true in systems with higher leak rates. www.generaIairproducts.com 1-800-345-8207 FireLock®_Butterfly Valve LSeries 705)with Weatherproof Actuator jtauIic 10.81 1.0 PRODUCT DESCRIPTION Available Sizes: 2 - 12/50 - 300 mm cULus Listed, LPCB Listed, FM and VdS Approved for service up to 300 psi/2068 kPa /20 bar. Designed for fire protection services only. Features a weatherproof actuator housing Approved for indoor and outdoor use. Actuation options: Hand wheel (2 - 12"/50 - 300 mm) Exclusively for use with pipe and Victaulic products which feature ends formed with the Victaulic Original Groove System (OGS) groove profile (see section 7.0 for Reference Materials). 2.0 CERTIFICATION/LISTINGS ® ILPCBI USTED G410001 104j/04 I U I I ALWAYS REFER TO ANY NOTIFICATIONS AT THE END OF THIS DOCUMENT REGARDING PRODUCT INSTALLATION, MAINTENANCE OR SUPPORT. System No. Location Spec Section Paragraph Submitted By Date Approved Date 10.81 5662 Rev i updated 07/2020 © 2020 Victaulic company. All rights reserved. Ai-ct-aUIiC 1 _ ________ iir+iiiIii 2.1 CERTIFICATION/LISTINGS Approval/Listing Service Pressures Series 705 Butterfly Valve Size cULus FM Vds LPCB 50 up to 300psi/2068kPa up to 300psi/2068kPa up to 300ps1/2068kPa up to 300psi/2068kPa 21/2 65 up to 300psi/2068kPa up to 300psi/2068kPa n/a up to 300psi/2068kPa 76.1 mm up to 300psi/2068kPa up to 300ps1/2068kPa up to 300psi/2068kPa up to 300ps1/2068kPa 80 up to 300psi/2068kPa up to 300psi/2068kPa up to 300psi/2068kPa up to 300psi/2068kPa 100 up to 300psi/2068kPa up to 300psi/2068kPa up to 300psi/2068kPa up to 300psi/2068kPa 125 up to 300psi/2068kPa up to 300psi/2068kPa n/a up to 300psi/2068kPa 139.7mm up to 300psi/2068kPa up to 300psi/2068kPa up to 300psi/2068kPa up to 300psi/2068kPa 1 up to 300psi/2068kPa up to 300psi/2068kPa up to 300psi/2068kPa up to 300psi/2068kPa 165.1 mm up to 300psi/2068kPa up to 300psi/2068kPa n/a up to 300psi/2068kPa 200 up to 300psi/2068kPa up to 300psi/2068kPa up to 300psi/2068kPa up to 300psi/2068kPa 10 250 up to 300psi/2068kPa up to 300psi/2068kPa n/a up to 300psi/2068kPa 12 300 1 up to 300psi/2068kPa up to 300psi/2068kPa n/a up to 300psi/2068kPa 3.0 SPECIFICATIONS - MATERIAL Body: Ductile Iron conforming to ASTM A-536, Grade 65-45-12 End Face, 2 - 6"I50 - 150 mm: Ductile Iron conforming to ASTM A-536, Grade 65-45-12 Seal Retainer, 8 - 127200 - 300 mm: Ductile Iron conforming to ASTM A-536, Grade 65-45-12 Body Coating: Black alkyd enamel Disc: Ductile Iron conforming to ASTM A-536, Grade 65-45-12, with electroless nickel coating conforming to ASTM B-733 Seat: Grade "E" EPDM Stems: 416 stainless steel conforming to ASTM A-582 Stem Seal Cartridge: C36000 brass Bearings: Stainless steel with TEE lining Stem Seals: EPDM Stem Retaining Ring: Carbon steel Actuator: O 2 - 8/50 - 200 mm: Brass or bronze traveling nut on a steel lead screw, in a ductile iron housing El 10 - 12/250 - 300 mm: Steel worm and cast iron quadrant gear, in a cast iron housing 10.81 5662 Rev I Updated 07/2020 © 2020 Victaulic Company. All rights reserved. victaulic.com 2 'St9UIiC victaulic.com 4.0 DIMENSIONS Series 705 Size Dimensions Actual Outside E to E DIA Nominal Diameter A B C D E F G H J inches inches inches inches inches inches inches inches inches inches inches mm mm mm mm mm mm mm mm mm mm mm 2 2.375 4.25 2.28 6.41 - - 4.00 4.22 4.50 2.12 60.3 60.3 108.0 57.9 162.8 101.6 107.2 114.3 53.8 21/2 2.875 3.77 2.28 7.54 - - 4.00 4.22 4.50 1.77 73 73.0 95.8 57.9 191.5 101.6 107.2 114.3 45.0 761 mm 3.000 3.77 2.28 7.54 - 4.00 4.22 4.50 1.77 76.1 95.8 57.9 191.5 101.6 107.2 114.3 45.0 3 3.500 3.77 2.53 7.79 - - 4.50 4.22 4.50 1.77 88.9 88.9 95.8 64.3 197.9 114.3 107.2 114.3 45.0 108 mm 4.250 4.63 2.88 8.81 - - 5.50 4.22 4.50 2.20 108.01 117.6 73.2 223.8 139.7 107.2 114.3 55.9 4 4.500 4.63 2.88 8.81 - - 5.50 4.22 4.50 2.20 114.3 114.3 117.6 73.2 223.8 139:7 107.2 114.3 55.9 133mm 5.250 5.88 3.35 10.88 - 6.56 6.19 6.30 2.58 133.0 149.4 85.1 276.4 166.6 157.2 160.0 65.5 1 9.7mm 5.500 5.88 3.35 10.88 6.56 6.19 6.30 2.58 139.7 149.4 85.1 276.4 - - 166.6 157.2 160.0 65.6 5 5.563r 5.88 3.35 10.88 - - 6.56 6.19 6.30 2.58 - 141.3 141.3 149.4 85.1 276.4 - - 166.6 157.2 160.0 65.5 1 9mm 5 6.250 5.88 3.84 11.38 - 0.41 7.52 6.19 6.30 2.58 159.0 149.4 97.5 289.1 10.4 191.0 157.2 160.0 65.5 1651 mm 6.500 5.88 3.84 11.38 - 0.41 7.52 6.19 6.30 2.58 165.11 149.4 97.5 289.1 10.4 191.0 157.2 160.0 65.5 6 6.625 5.88 3.84 11.38 - 0.41 7.52 6.19 6.30 1.90 168.3 - 168.3 149.4 97.5 289.1 10.4 191.0 157.2 160.0 48.3 8 8.625 5.33 5.07 13.53 0.80 1.47 10.00 6.19 8.10 2.33 219.1 2191 135.4 128.8 343.6 20.3 37.3 254.0 157.2 205.7 59.2 10 10.750 6.40 6.37 15.64 1.41 1.81 12.25 8.10 9.00 - 273 273.0 162.6 161.8 397.3 35.8 46.0 311.2 205.7 228.6 12 12.750 6.50 7.36 16.64 2.30 2.80 14.25 8.10 9.00 - 323.9 323.9 165.1 186.9 422.7 58,4 71.1 362.0 NOTE Optional W/15mm tap available. Contact Victaulic for details. 10.81 5662 Rev I Updated 07/2020 © 2020 Victaulic Company. All rights reserved. victaulic .com victaulic.com 5.0 PERFORMANCE Series 705 The chart expresses the frictional resistance of Victaulic Series 705 Butterfly Valve in equivalent feet/meters of straight pipe. Nominal Outside Equivalent Size Diameter mm mm Feet/rn inches inches of pipe 2 2.375 6 50 60.3 1.8 2½ 2.875 6 65 73.0 1.8 76.1 mm 3.000 3 3.500 7 80 88.9 2.1 4 F 100 4.500 8 114.3 2.4 108 mm 108 mm 2.4 5 5.563 12 125 141.3 3.7 133 mm 133 mm 12 3.7 139.7 mm 500 12 139.7 3.7 6 6.625 14 150 168.3 4.2 14 159 mm 159 mm 4.3 mm .1 6.500 14 165.1 4.2 8 8.625 16 200 219.1 4.9 10 10.750 18 250 273.0 5.5 12 12.750 19 300 323.9 5.8 10.81 5662 Rev I Updated 07/2020 © 2020 Victaulic Company. All rights reserved. victaulic.com 4 JtauIic victaulic.com 5.1 PERFORMANCE Series 705 Cv values for flow of water at +60°F/+160C through a fully open valve are shown in the table below. For additional details, contact Victaulic. Formulas for C, values Formulas for K values Ap = Q2 Where: AP = Q2 c 2 Q = Flow (GPM) = Pressure Drop (psi) Q = C x rAP C= Flow Coefficient Q = Valve Size Full Open Actual Nominal Outside Size Diameter Flow Coefficient inches inches mm mm 2 2,375 170 50 603 2½ 2.875 260 65 73.0 76.1 mm 3.000 260 76.1 3 3.500 440 80 88.9 4 4.500 820 100 114.3 108mm 108mm 820 5 5.563 1200 125 141.3 133 mm 133 mm 1200 139.7 mm 5.500 1200 139.7 6 6.625 1 800 150 168.3 159 mm 159, mm 1800 165.1 mm 6.500 1800 165.1 8 8.625 3400 200 219.1 10 10.750 5800 250 273.0 12 12,750 9000 0 300 323.9 Where: Q = Flow (M3 /hr) AP = Pressure Drop (Bar) = Flow Coefficient Valve Size Full Open Actual Nominal Outside Size Diameter Flow Coefficient inches inches I(v mm mm 2 2.375 147 50 60.3 21/2 2.875 22 65 73.0 76.1 mm 3.000 225 76.1 3 3.500 380 80 88.9 4 4.500 710 100 114.3 108mm 108mm 710 5 5.563 1040 125 141.3 133 mm 133 mm 1040 139.7 mm 5.500 1040 139.7 6 6.625 1560 150 168.3 159 mm 159 mm 1560 165.1 mm 6.500 1560 165.1 8 8.625 2940 200 219.1 10 10.750 5020 250 273.0 12 12,750 7790 300 323.9 10.81 5662 Rev I updated 07/2020 © 2020 victauric Company. All rights reserved. victaulic.Com 5 \JtaUIiC %,k.f21 iIa 1rim 6.0 NOTIFICATIONS A WARNING Read and understand all instructions before attempting to install, remove, adjust, or maintain any Victaulic piping products. Depressurize and drain the piping system before attempting to install, remove, adjust, or maintain any Victaulic piping products. Wear safety glasses, hardhat, and foot protection. Failure to follow these instructions could result in death or serious personal injury and property damage. 7.0 REFERENCE MATERIALS Switch and Wiring The supervisory switch contains two single pole, double throw, pre-wired switches. Switches are rated: 10 amps @ 125 or 250 VAC/60 Hz 0.50 amps @ 125 VDC 0.25 amps © 250 VDC Switches supervise the valve in the "OPEN" position. One switch has two #18 insulated wires per terminal, which permit complete supervision of leads (refer to diagrams and notes below). The second switch has one #18 insulated wire per terminal. This double circuit provides flexibility to operate two electrical devices at separate locations, such as an indicating light and an audible alarm, in the area that the valve is installed. A #14 insulated ground lead (green) is provided. Switch #1 = 51 For connection to the supervisory circuit of a UL Listed alarm control panel Switch #2 = S2 Auxiliary switch that may be connected to auxiliary devices, per the authority having jurisdiction si Normally Closed: (2) Blue Common: (2) Yellow Normally Closed: Blue with Orange Stripe S2 Normally Open: Brown with Orange Stripe Common: Yellow with Orange Stripe UL LISTED JUNCTION BOX CONDUIT NP CON DU IT CON NECTORS WIRE NUTS FIRE ALARM TO END-OF-LINE RESISTOR, CONTROL PANEL OR NEXT INDICATOR SUPERVISORY CIRCUIT NC, NO COM SWITCH CONTACT RATING 1OAATI2SAND U SI 2SOVAC, O5AAT12SVDC, 025 AT250VDC 52 ELL OR VOLTAGE SOURCE HORN Switch 1 2 leads per termine Switch 2: 1 lead per terminal NOTES The above diagram shows a connection between the common terminal (yellow - Si and yellow-with-orange stripe - S2) and the normally closed terminal (blue — Si and blue-with-orange stripe —S2). In this example, the indicator light and alarm will stay on until the valve is fully open. When the valve is fully open, the indicator light and alarm will go out. cap off any unused wires (e.g. brown with orange stripe). Only Si (two leads per terminal) may be connected to the fire alarm control panel. The connection of the alarm switch wiring shall be in accordance with NFPA 72 and the auxiliary switch per NFPA 70 (NEC). 10.81 5662 Rev I Updated 07/2020 © 2020 Victaulic Company. All rights reserved. victaulic.com 6 j#(tauIiC victaulic.com 7.1 REFERENCE MATERIALS 10.01: Regulatory Approval Reference Guide 29.01: Terms and Conditions/Warranty -100: Field Installation Handbook User Responsibility for Product Selection and Suitability Each user bears final responsibility for making a determination as to the suitability of Victaulic products for a particular end-use application, in accordance with industry standards and project specifications, and the applicable building codes and related regulations as well as Victaulic performance, maintenance, safety, and warning instructions. Nothing in this or any other document, nor any verbal recommendation, advice, or opinion from any Victaulic employee, shall be deemed to alter, vary, supersede, or waive any provision of Victaulic company's standard conditions of sale, installation guide, or this disclaimer. Intellectual Property Rights No statement contained herein concerning a possible or suggested use of any material, product, service, or design is intended, or should be constructed, to grant any license under any patentor other intellectual property right of Victaulic or any of its subsidiaries or affiliates covering such use or design, or as a recommendation for the use of such material, product, service, or design in the infringement of any patent or other intellectual property right. The terms "Patented" or "Patent Pending" refer to design or utility patents or patent applications for articles and/or methods of use in the United States and/or other countries. Note This product shall be manufactured by Victaulic or to Victaulic specifications. All products to be installed in accordance with current Victaulic installation/assembly instructions. Victaulic reserves the right to change product specifications, designs and standard equipment without notice and without incurring obligations. Installation Reference should always be wade to the Victaulic installation handbook or installation instructions of the product you are installing. Handbooks are included with each shipment of Victaulic products, providing complete installation and assembly data, and are available in PDF format on our website at www.victaulic.com. Warranty Refer to the Warranty section of the current Price List or contact Victaulic for details. Trademarks Victaulic and all other Victaulic marks are the trademarks or registered trademarks of Victaulic Company, and/or its affiliated entities, in the U.S. and/or other countries. 10.81 5662 Rev I Updated 07/2020 © 2020 Victaulic Company. All rights reserved. victautic.com \LtauliC FireLocr Check Valves (Series 717 Check Valve Series 717H High Pressure Check Valve Series 717 (Sié717) (2½ - 3/65 - 80 mm) (4 - 12/100 - 300 mm) Series 717H High Pressure Check Valve (2 - 3/50-80 mm) 1.0 PRODUCT DESCRIPTION Available Sizes 2 - 3/DN50 - DN80 (Series 717H) 21/2 - 12/DN50 - DN300 (Series 717) Pressure Class Up to 365 p5i12517 kPa/25 bar Working pressure dependent on size of pipe, valve size and approval requirements. Application Designed for use in Fire Protection systems. Prevents back flow. Single-disc mechanism incorporates a spring-assisted feature for non-slamming operation. Can be installed either vertically (flow upwards only) or horizontally. Valve body cast with arrow indicator to assist with proper valve orientation. Optional upstream and downstream pressure taps included on select sizes. See Section 3.0. Provided with grooved ends. Rated for ambient temperature use in fire protection systems. 2.0 CERTIFICATION/LISTINGS J LPCBI @' NOTE Refer to Victaulic submittal publication 10.01 for details A—Cta-ulicr 10.08 ALWAYS REFER TO ANY NOTIFICATIONS AT THE END OF THIS DOCUMENT REGARDING PRODUCT INSTALLATION, MAINTENANCE OR SUPPORT. System No. Location Spec Section Paragraph Submitted By Date Approved Date victaulic.com 10.08 1479 Rev 5 updated 03/2017 © 2017 Victaulic company. All rights reserved. 'j4'taiiijc 1 _________________ victaulic.com 2.0 CERTIFICATION/LISTINGS (Continued) Approvals/Listings Size Approval/Listing Service Pressures Series 717H cULus FM LPCB Vds 2°/50 mm 365 p51/2517 kPa 365 psi/2517 kPa 365 psi/2517 kPa 365 psi/2517 kPa 21/2765 mm 365 psi/2517 kPa 365 psi/2517 kPa 365 psi/2517 kPa 365 psi/2517 kPa 76.1 mm 365 psi/251 7 kPa 365 psi/251 7 kPa 365 psi/251 7 kPa 365 p51/2517 kPa 3'780 mm 365 psi/2517 kPa 365 psi/2517 kPa 365 psi/2517 kPa 365 psi/2517 kPa Size Approval/Listing Service Pressures Series 717 cULus FM LPCB Vds 21/2"/65 mm 250ps1/1725kPa n/a 365 psi/2517 kPa n/a 76.1 mm 250p51/1725kPa n/a 365 psi/2517kPa 16bar/232ps1 3V80mm 250ps1/1725kPa n/a 365 psi/2517 kPa 16bar/232ps1 4/100mm 365 psi/2517 kPa 365 psi/251 7 kPa 365 psi/2517 kPa 16bar/232 psi 5"/125 mm 365 psi/251 7 kPa 365ps1/2517kPa 365 psi/2517kPa n/a 139.7 mm 365 psi/2517 kPa 365 psi/2517 kPa 365 psi/2517 kPa 16bar/232 psi 6°/150mm 365psi/25i7kPa 365ps1/2517kPa 365 psi/25i7kPa 16bar/232psi 165.1 mm 365 psi/251 7 kPa 365 psi/2517 kPa 365 psi/25i7kPa n/a 8/200mm 365 p1/2517 kPa 365.psi/2517 kPa 348 psi/2400 kPa 16bar/232 psi 10/250mm 250 psi/1 725 kPa 250 psi/1 725 kPa 1725 kPa/250 psi n/a 12/300mm 250 psi/1 725 kPa 250 psi/1 725 kPa 1725 kPa/250 psi n/a 10.08 1479 Rev S Updated 03/2017 © 2017 Victaulic Company. All rights reserved. victaulic.com 'j4tauIic ,irfiiIi,- rnm 3.0 SPECIFICATIONS - MATERIAL Body: 0 Ductile Iron conforming to ASTM A-536, Grade 65-45-12. Body Coating: O Series 717H Body: Black Paint 0 Series 717H Endface: Electroless Nickel conforming to ASTM B-733 O Series 717 (21/2 - 3/DN65 - DN80): PPS Coating 0 Series 717 (4 - 12'/DN100 - DN300): Black Paint Body Seat: 0 Series 717H: Nitrile 0-ring installed into an Electroless Nickel plating conforming to ASTM B-733 O Series 717 (2 ½" - 3"/DN65 - DN80): PPS Coated Ductile Iron O Series 717 (4 - 127DN100 - DN300): Ductile Iron with Electroless Nickel plating conforming to ASTM B-733 Disc Seal or Coating: (specify choice') o Nitrile (Series 717H only) 0 EPDM NOT COMPATIBLE FOR PETROLEUM SERVICES. Discs: O Series 717H: CF8M Cast Stainless Steel 0 Series 717 (21/2 - 3/DN65 - DN80): Aluminum bronze with elastomer seal El Series 717 (4 - 12/DN100 - DN300): Elastomer encapsulated disc. Shaft: El Series 717H: Brass O Series 717 (2112 - 3/DN65 - DN80): Type 416 Stainless Steel O Series 717 (4 - 12/DN100 - DN300): Type 316 Stainless Steel Spring: 0 Type 302/304 Stainless Steel Shaft Plug: El Series 717H: Carbon Steel Zinc Plated 0 Series 717: Carbon Steel Zinc Plated Pipe Plug: O Series 717H: Carbon Steel Zinc Plated O Series 717: Carbon Steel Zinc Plated Optional Pressure Taps: El Series 717H: Available on all sizes 0 Series 717: Available on sizes 4 - 12'/DN100 - DN300 10.08 1479 Rev S Updated 03/2017 © 2017 victaulic Company. All rights reserved. victaulic.com 3 \%taulic victaulic.com 4.0 DIMENSIONS Series 717 A -~ 0 ½" NPT Upstream Drain 0 ½" NPT Downstream Drain 0 2' NPT (Drain Optional) (Typical 4,871007200mm I K Al 0½" NPT Upstream Drain 01/2" NPT Downstream Drain I Typical 2 ½ - 3/65-80 mm Typical 10- 12/250 -300 mm Size Dimensions Weight Actual Outside E to E Approximate Nominal Diameter A B C 0 E J K P R (Each) inches inches inches inches inches inches inches inches inches inches inches lb mm mm mm mm mm mm mm mm mm mm mm kg 21/2 2.875 3.88 4.26 3.57 - - - - - - 3.6 65 73.0 99 108 91 - - 1.6 76.1 mm 3.000 3.88 4.26 3.57 - - - - - 3.6 76.1 99 108 91 - 1.6 3 3.500 4.25 5.06 4.17 - - - - - - 4.5 80 88.9 108 129 106 2.0 4 4.500 9.63 6.00 3.88 2.75 3.50 2.00 4.50 3.50 3.35 20.0 100 114.3 245 152 99 70 89 51 114 89 85 9.1 5 5.563 10.50 6.80 4.50 - 4.17 2,15 5.88 4.08 3.98 27.0 125 141.3 267 173 114 106 55 149 104 101 12.3 mm 1397 5.500 10.50 6.80 4.50 - 4.17 2.15 5.88 4.08 3.98 27.0 139.7 267 173 114 106 55 149 104 101 12.3 6 6.625 1150 800 500 - 450 238 667 473 389 380 150 168.3 292 203 127 114 61 169 120 99 17.2 mm 1651 6.500 11.50 8.00 5.00 - 4.50 2.38 6.67 4.73 3.89 38.0 165.1 292 203 127 114 61 169 120 99 17.2 8 8.625 14.00 9.88 6.06 5.05 5.65 2.15 8.85 5.65 5.75 64.0 200 219.1 356 251 154 128 144 55 225 144 146 29.0 10 10.750 17.00 12.00 7.09 5.96 6.69 2.15 10.92 6.73 - 100.0 250 273.0 432 305 180 151 170 55 277 171 45.4 12 12.750 19.50 14.00 8.06 6.91 7.64 2.51 12.81 7.73 - 140.0 300 323.9 495 356 205 176 194 64 - 925 196 63.5 10.08 1479 Rev S Updated 03/2017 © 2017 Victaulic Company. All rights reserved. jtauIic" victaulic.com 4.1 DIMENSIONS Series 717H I IF . m W., Typical 2/50 mm - 3/80 mm Size Dimensions Weight E to E Approximate Nominal A B C D E J K P R (Each) inches inches inches inches inches inches inches inches inches inches lb mm mm mm mm mm mm mm mm mm mm kg 2 8.66 6.46 3.23 1.48 3.02 2.80 - - 4.25 10.7 50 --21-9.8'-164.1 82.1 37.5 76.7 71.0 108.0 4.9 21/2 9.37 6.94 3.31 1.66 3.40 3.38 - - 4.38 13.8 65 238.0 176.3 84.1 42.2 86.4 85.9 111.3 6.3 761 mm 9.37 6.94 3.31 1.66 3.40 3.38 - - 4.38 13.8 238.011 176.3 84.1 42.2 86.4 85.9 111.3 6.3 3 9.62 7.44 3.53 1.91 3.65 3.38 - - 4.63 20.0 80 244.3 189.0 89.7 48.5 1 92.7 85.9 117.6 9.1 10.08 1479 Rev S Updated 03/2017 © 2017 Victaulic Company. All rights reserved. viCtaulic.com /n -C- jtaUIic Flow Characteristics The charts below express the flow of water at 60"F/16"C through valve. S717H / 717HR 10 0- 0.1 10 ---- ___ --- - -- - ---- --- ---- --- MEN UUIUIl AdUuuI IIIhI =NONNI ______i_ MMEMS011, uiini 100 Flow Rate - GPM 1000 victaulic.com 5.0 PERFORMANCE S717H / 717HR 100.00 0. 1.004- 100 1000 10000 Flow Rate - Litres/Mm. 10.08 1479 Rev S Updated 03/2017 © 2017 Victaulic Company. All rights reserved. Lctaullila~ 10 0. 1.01 victaulic.com 5.1 PERFORMANCE Flow Characteristics The charts below express the flow of water at 60"F/16"C through valve. S717/717R ---- ----- - SUH— ..uut uuuu • - AV U aWa,'A... II Al' AW7UIIIIIUII •• *V II MA••uII • ar ii ffA•••uIfl•uu 9JiiiIUIIIIIIflhIIflU — - 111111 ••• __I 100 1000 10000 ICC'OOO Flow Rate - GPM — ---S -- — _... u — - -- n _ _.0 - S•U• -- -- ___ fl• ... — =WW oi --- _..u. — • .i ___. I. -- .•i Ii ___....I ••uii uuiui milli ..wi*i•uiuu ii III ssmwvayAapyArAurAuIIa 111111 IIWaMfl74IVVJIuIII . " UI ON I - U iiiiiii____ -- UUiIi — 111U I .uuiii MINI___IIllI uiuiii ••iuiiii - M 710 ii luff, I I 11111111 0 11ii Flow Rate - Litres/Mm. 10.08 1479 Rev S Updated 03/2017 © 2017 Victaulic Company. All rights reserved. 7 4taUIic• 0.1 10 S717/717R 100.00 victaulic.com 6.0 NOTIFICATIONS A WARNING Depressurize and drain the piping system before attempting to install, remove, adjust, or maintain any Victaulic piping products. 7.0 REFERENCE MATERIALS 05.01: Seal Selection Guide 10.01: Regulatory Approval Reference Guide 29.01: Terms and Conditions/Warranty 1-100: Field Installation Handbook I User Responsibility for Product Selection and Suitability Each user bears final responsibility for making a determination as to the suitability of Victaulic products for a particular end-use application, in accordance with industry standards and project specifications, as well as Victaulic performance, maintenance, safety, and warning instructions. Nothing in this or any other document, nor any verbal recommendation, advice, or opinion from any Victaulic employee, shall be deemed to alter, vary, supersede, or waive any provision of Victaulic Company's standard conditions of sale, installation guide, or this disclaimer. Intellectual Property Rights No statement contained herein concerning a possible or suggested use of any material, product, service, or design is intended, or should be constructed, to grant any license under any patent or other intellectual property right of Victaulic or any of its subsidiaries or affiliates covering such use or design, or as a recommendation for the use of such material, product, service, or design in the infringement of any patent or other intellectual property right. The terms "Patented" or "Patent Pending" refer to design or utility patents or patent applications for articles and/or methods of use in the United Staten and/or other countries. Note This product shall be manufactured by Victaulic or to Victaulic specifications. All products to be installed in accordance with current Victaulic installation/assembly instructions. Victaulic reserves the right to change product specifications, designs and standard equipment without notice and without incurring obligations. Installation Reference should always be made to the Victaulic installation handbook or installation instructions of the product you are installing. Handbooks are included with each shipment of Victaulic products, providing complete installation and assembly data, and are available in PDF format on our website at www.victaulic.com. Warranty Refer to the Warranty section of the current Price List or contact Victaulic for details. Trademarks Victaulic and all other Victaulic marks are the trademarks or registered trademarks of Victaulic Company, and/or its affiliated entities, in the U.S. and/or other countries. 10.08 1479 Rev S Updated 03/2017 © 2017 Victaulic Company. All rights reserved. victaulic.com 8 \t1IUIiC AC@ T T Overall Height LISTED APPROVED B Center of pipe to top of knurled hanger rod nut D Top of pipe to bottom of hanger rod nut. Fig. 200-'/2& 200-/4 Fig. 00-1 to 200- 2 Pipe Hangers __200 - "Trimline" Adjustable Band Hanger TOLCO Fig. 200F - "Trimline" Adjustable Band Hanger with Felt Lining for Copper Tubing TOLCO Fig. 200C - "Trimline" Adjustable Band Hanger with Plastic Coated TOLCOTM Fig. 200S - "Trimline" Adjustable Band Hanger with Removable Nut (For sizes 1" thru 2") Size Range: Fig. 200 - 1/2" (15mm) thru 8" (200mm) pipe Material: Steel, Pre-Galvanized Function: For fire sprinkler and other general piping purposes. Knurled swivel nut design permits hanger adjustment after installation. Features: 1/2" (15mm) thru 2" (50mm) sizes have flared edges for ease of installation on all pipe types and protects CPVC plastic pipe from abrasion. Captured knurled nut design (flared top) on 1" thru 2" sizes keep nut from separating with hanger. Hanger is easily installed around pipe. 1/2" (15mm), 3/4" (20mm), and 21/2" (65mm) thru 8" (200mm)) Spring tension on nut holds it securely in hanger before installation. Knurled nut is easily removed. For 1/2" (15mm) and 3/4" (20mm) sizes with non-captured knurl nuts order Fig. 200S Approvals: Underwriters Laboratories listed (1/2" (15mm) thru 8" (200mm)) in the USA (UL) and Canada (cUL) for steel and CPVC plastic pipe and Factory Mutual Engineering Approved (FM) (3/4" (20mm) thru 8" (200mm)). Conforms to Federal Specifications WW-H-1 71 E & A-A-1 192A, Type 10 and Manufacturers Standardization Society ANSI/MSS SP-69 & SP-58, Type 10. Maximum Temperature: 650°F (343°C) Finish: Pie-Galvanized. Stainless Steel materials will be supplied with (2) hex nuts in place of a knurl nut. Order By: Part number and pipe size ** Note: For metric hanger rod sizes add the metric rod size to the figure number. Example: 200M8-11/2 or200Mi0-11/2 Fig. 200C Fig. 200F Fig. 200 Fig. 200 & Fig. 200S t M8 rod size is not UL Listed or FM Approved 200C-1'/2 shown 200E-1'/2 shown shown with captured nut shown with 1" thru 2 sizes only non-captured nut Part No.** Pipe Size in. (mm) Rod Size in. mm A in. (mm) B in. (mm) D in. (mm) Max. Rec. Load lbs. (kN) Approx. Wt./100 lbs. (kg) I 200-1/2 1/2"(15) /8'-16 M8t or M1O 31/' (794) 2/8° (66.7) 111/32° (34.1) 400 (1.78) 11 (5.0)__j 200-/4 3/4' (20) /8'-16 M8t or M10 31/8" (79.4) 21/2' (63.5) 11/16' (27.0) 400 (1.78) 11 (5.0) 1 200-1 1° (25) /8-16 M8t or M1O 3/8° (85.7) 2/8" (66.7) 11/8" (28.6) 400(1.78) 12 (5.5)__] 200-11/4 11/4° (32) /8'-16 MSt or M10 33/4' (94.0) 2/8' (73.0) 1/32' (29.3) 400 (1.78) 13 (5.9) [ 200-11/2 11/2° (40) /8"-16 Mt8 or M10 3/8" (98.4) 2/8" (13.0) 1/16 (30.2) 400 (1.78) 14 (6.4)_J 200-2 2' (50) /8'-16 M8t or M10 41 /2' (114.3) 3° (76.3) 1/16" (30.2) 400 (1.78) 15 (6.9) 200-21I2 21/2° (65) /8"-16 M10 5/8° (142.9) 41/8° (104.7) 1/16" (36.5) 600 (2.61) 27 (12.3IJ 200-3 30 (15) /8-16 M10 5/8" (149.1) 4" (101.6) 11/4' (31.7) 600 (2.67) 29 (13.3) 200_31/2 31/2° (90) /8°-16 M10 7/8° (187.3) 5/4° (133.3) 2/16 (55.6) 600 (2.67) 34 (15.6)_I 200-4 4" (100) /8'-16 M10 73/8' (187.3) 5° (127.0) 1/8' (34.9) 1000 (4.45) 35 (16.0) 200-5 5 (125) 1/2'-13 M12 91/8' (231.8) 61/4' (158.7) 311/32" (84.9) 1250 (5.56) 66 (30.2)_j 200-6 6' (150) 1/2 -13 M12 101/8 (257.2) 6/4' (111.4) 2/32° (56.3) 1250 (5.56) 73 (33.4) [ 200-8 8 (200) 1/2 -13 M12 131/8 (333.4) 8/4' (222.2) 3/32" (81.1) 1250 (5.56) 136 (62)1 All dimensions in charts and on drawings are in inches. Dimensions shown in parentheses are in millimeters unless otherwise specified. B-Line.series Fire Protection Solutions 23 Eaton Sizes 1° (25) thru i'/r (40) rneH TOCGQTM Fig. 1CBS - Clevis Bolt Spacer Size Range: 'ie 1" (25mm) thru 200 (500mm) clevis hanger Material: Steel Function: Used as as çr at a seismic brace location to keep clevis hanger from co'ing during seismic event. Approvals: Included in our Sei?? Engineering Guidelines approved by the State of California Oitje of Statewide Health Planning and Development (OSHPD). Fbdditional load, spacing and placement information relating to OSH?Qprojects, please refer to our Seismic Engineering Guidelines OPM-0 -13, for 21/2" -8" (B3100) only Installation Note: Fig. 1 CBS fits easily over the cross and attaches by pinching tabs down. Finish: Pre-Galvanized. Contact customer service for finishes and materials. Order By: Figure number and finish. OPM Part No. JWe Size in. (mm) Approx. WtJ100 lbs. (kg) 1CBS-1,," (25) 3.2 (1.4) 1 1C i'I4 11/4" (32) 4.1 (1.8) 1 CBS-1'I2 11/2" (40) 4.8 (2.2) 1 1CBS-2 (50) 9.4 (4.2) [ 1CBS-2'/2 21/2" (65) 11.4 (5.2) 1 1CBS-3 (75) 13.9 (6.8) 1CBS-3'/2 31/2" (90) 16.0 (7.2)11 1CBS-4 (100) 18.0 (8.1) I 1CBS.5 (125) 27.3 N,BS-6 (150) 32.5 (14.7) fiiSc( 8" (200) 42.5 [_1CBS-12 \,12" 10" (1 ICB -10 9.2) (250) (300) 72.7 86.3 (32.9) (39.1) 1 1CBS-14l'.,j350) 157.6 (71.5) [1CBS-16 16" 1CBS-18 18" (450)'N F 1CBS-20 20" (500) 183.7 83.3 224.6 (101.9) ". 254.0 (115.2) 1 I (TOLCOg. 25- Surge Restrainer Size Range: - One size fits 3/4° (20mm) thru 20 (40mm) pipe. Material: - Pre-Galvanized Steel Function: - Designed to be used in conjunction with Fig. 200 band hangers - to restrict the upward movement of piping as it occurs during sprinkler head activation or earthquake type activity. The surge restrainer is easily and efficiently installed by snapping into a locking position on the band hanger. This product is intended to satisfy the requirements as indicated in the National Fire Protection Association NFPA 13, 2016 edition, 9.2.3.4.4.1 and 9.2.3.4.4.4 Can be used to restrain either steel pipe or CPVC plastic Pipe. Approvals: - Underwriters Laboratories Listed only when used with band hanger Fig. 200, in the USA (UL) and Canada (cUL). Finish: Pre-Galvanized Order By: Figure number and band hanger, size from 3/4' (20mm) thru 2 (40mm). Patent #5,344,108 Approx. Wt./100 Part No. lbs. (kg) 25 4.8 (2.2) I All dimensions in charts and on drawin Eaton Revised 6/8/2014 are in inches. Dimensions shown in parentheses are in millimeters unless otherwise specified. 22 B-Line series Fire Protection Solutions TL Specify A Thread Size Threaded Accessories B3206-Threaded Rod (right-hand threads - both ends) B3205L14readed Rod (right & left hand threads) Size Range: 3/8"-'.ru /8'-9 rod Material: Steel Function: Recommended fNe as a hanger support in hanger assemblies. Rod is threaded on both ends wit ight hand threads of the length shown. Also available with left and right hand thre - specify Fig. B3205L when ordering. Maximum Temperature: 750°F 1399°Cl Finish: Plain or Electro-Galvanized. Contact cust er service for alternative finishes and materials. Order By: Figure number, rod size, length and finish Part No. Thread Size A Stpdd Ihpeff Length IL / in. (mm) DesIi4,oad 650°F (343°C) Lbs. (kN) 'N50°F (399°C) Ib (kN) B3205-318 x L j[ /8"-." 21I2' (63.5) 730 (3.25) 572 ( I B3205-1/2 x L )(13 21/2' (63.5) 1350 (6.00) 1057 [B3205-5/8 xL,.>" /8"-11 21/2' (63.5) 2160 (9.61) 1692 (7.52) B3205-3/4 /4"-10 3' (76.2) 3230 (14.37) 2530 (11.25) F B-3205,JfaXk /8'-9 31/2" (88.9) 4480 (19.93) 3508 (15.60) Fp(larger sizes consult full line pipe hanger catalog (AIR - All Threaded Rod - 120" (3.050egIn ) TOLCO Fig. 99 - All Threaded Rod Cut To Length Size Range: 1/4'20 thru /8"-9 rod in 120" lengths or cut to length Material: Steel Maximum Temperature: 750°F (399°Cl - Finish: Plain or Electro-Galvanized. Contact customer service for alternative finishes and materials. Approvals: Included in our Seismic Engineering Guidelines approved by the State of California Office of Statewide Health Planning and Development (OSHPD). For additional load, spacing and placement information relating to OSHPD projects, please refer to our Seismic Engineering Guidelines, OPM-0052-13. Order By: Figure number, rod size, length and finish Part No. - Size x Length AIR Fig. 99 Threads Per Inch Recommended Load Lbs. (kN) Approx. Wt./100 Ft. Lbs. (kg) I AIR 1/4" x 120 99-/4" x length 20 240 (1.07) 12 (5.44) AIR /8" x 120 99-/8" x length 16 730 (3.24) 29 (13.15) TAIR 'If 1120 1/2"iIiiiãjh 13 1350 (6.00) 53 _(_24__04_)__J AIR 5/8" x 120 99-/8" x length 11 2160 (9.60) 89 (40.37) rAR 3/4"x 120 993/4" x length 10 3230 (14.37) 123 (55.79) AIR /8" x 120 991/8" x length 9 4480 (19.93) 170 (77.11) For larger sizes consult full line pipe hanger catalog. All dimensions in charts and on drawings are in inches. Dimensions shown in parentheses are in millimeters unless otherwise specified. Eaton 96 B-Line series Fire Protection Solutions i'&AL <> APPROVED 2- #14x 1" Tek Type Screws Into Mm. 16 Gauge Steel Up to 4" (100mm) pipe UL Listed Fastener Table Pipe Size W Fastener Type Material Bolt & Hex Nuty 2" 2 11 #16 x 2' Drive screws Wood j Up to 4" (100mm) pipe 2" 1 i/s" Lag bolt Wood - 4" 1 T '/2" Lag bolt Wood 1/' 2 '/" x 1'I" Lag bolts Wood [ 4' 2 f x 2' Lag bolts ** Wood ] 4" 2 '/4'xl" Tek screws Metal (l5gauge) 4" 2 7 /,"x 1" Tek screws Metal (16 gg)_..J ** No pre-drilling Larger pipe sizes can be hung with reduced spacing. Part No. Pipe Size Rod A B C Approx. WtJ100 in. (mm) Size in. (mm) in. (mm) in. (mm) Lbs. (kg) 58 /2' -4' (15- 100) /8'-16 2/4" (69.8) 11/2' (38.1) 11/8' (28.6) 14 (6.3 Per NFPA 1 - or Vi' Lag Bolts Up to 4' (100mm) pipe 2- #16 x 2' Drive Screws 1/2"(115mm) - 4" (100mm) pipe UDDer Attachments (TOLCO Fig)- threaded side beam bracket Size Range: /8'-16 rod, pipe sizes 1/2 (15mm) thru 4' (100mm) Material: Pre-Galvanized Steel Function: Practical and economical bracket used to support piping from wood, concrete or steel beams. Features: Unique design allows rod to be easily threaded into bracket. Offset design permits unlimited rod adjustment. Center mounting hole will accept /8' and 1/2" fastener bolts. Per NFPA 13: 1/2" (15mm) thru 2" (50mm) pipe requires 3/ fastener, 21/2 (65mm) thru 4" (100mm) pipe requires 1/2" fastener.* Approvals: Underwriters Laboratories Listed in the USA (UL) and Canada (cUL), and Factory Mutual Engineering approved thru 4' (100mm) pipe. Finish: Pre-Galvanized Order By: Figure number and finish *Note: Additionally UL has listed the Fig. 58 with fasteners as shown in table below. 2 - Ii' x r Lag Bolts (No Pre-Drilling Up to 4' (100mm) pipe All dimensions in charts and on drawings are in inches. Dimensions shown in parentheses are in millimeters unless otherwise 8-Line series Fire Protection Solutions 91 Eaton Upper Attachments A CUS Us1,• E - (2 Holes) Material Wo Wood thru!/~gyp_board Hole Dia. D Thread Size Approx. I400 in. (mm) E Lbs. (kg) /l6" (7.9) /8"-16 15 (6.8) I Fig. 78 - all steel ceiling plate Size RangeNJ'-16 rod Material: Pre-G'ipized Steel Function: Attachme'.4p wood beams, ceilings, metal decks or walls. Can also be we to steel beams. Approvals: Underwriters Labtories Listed in the USA (UL) and Canada (cUL). Additionally, U as listed the Fig. 78 with fasteners as shown in the table belo Finish: Plain or Electro-Ga Ivan ized. Conta customer service for alternative finishes and materials. Order By: Figure number, rod size and finish Patent #5,702077 UL Listed Fastener Table Pipe Size Wy Fastener Type x111/4' A-point hex-washer-head shej4al screw 21/2" -4' 2 1/4" x V/f wood scre Lw_2 1/2" - Z. 2 #14 x 1/f A-point hex-w er-head sheet metal screw [.'/2'2'..2._..._..f.i4.Z'Prpoint-h asher-head sheet metal screw * No pre-drilling Larger pipe sizes can b.#1ung with reduced spacing Part No. jpSize A B C ,,Ai. (mm) in. (mm) in. (mm) in. (mm) 1/2'-2- (15-60) 3" (76.2) 21/8' (54.0) 11/8" (28.6) (TOLCO Fig)- side beam bracket for NFPA rod & fastener sizing Size Range: /8-16 thru 112'13 rod, 1/2" (15mm) thru 8' pipe (200mm) Material: Steel Function: Recommended for attaching hanger rod to side of beams or walls. Designed to accommodate current rod schedule and fastener requirements per National Fire Protection Association (NFPA) Pamphlet 13. Approvals: Underwriters Laboratories Listed in the USA (UL) and Canada (cUL), and Factory Mutual Engineering approved. Finish: Plain or Electro-Galvanized. Contact customer service for alternative finishes and materials. Order By: Figure number and finish us USO APPROVED Part No. Pipe Size Rod A B C Hole 1 Hole 2 Approx. Wt./100 in. (mm) Size in. (mm) in. (mm) in. (mm) in. (mm) in. (mm) Lbs. NO L51NFPA-I8 '/f-2"(15 - 60)/8"-16 2' (50.8) /4°(19)2'(58)/16'(111)/16'(11.1)35(15)J 51NFPA-3/41/2 21/2" 4" (65- 100) /8'-16 2" (50.8) 3/4' (19.0) 2" (50.8) /16' (14.3) /16' (11.1) 34 (15.4) [51iFPA-1/zx'/2 5'- 6' (125 - 150) /2'13 21/2' (63.5) /4'(19.0) 21/2" (63.5) /ie' (14.3)/i6 (14.3)71 (32.2)J 51NFPA-1/zx5/s 8' (200) 1/2'13 21/2' (63.5) 3/4" (19.0) 21/2" (63.5) 11/16" (17.5) /16" (14.3) 70 (31.7) All dimensions in charts and on drawings are in inches. Dimensions shown in parentheses are in millimeters unless otherwise specified. B-Line series Fire Protection Solutions 89 Eaton OPM <~> APPROVED /8" (9.5) Set Bolts & Hardware Included / Top View iLftfl. (25.4mm) I 'I? Bolt& Nut Furnished Fig. 825 Fig. 989 Seismic Brad (Toico Fig)- bar joist sway brace attachment to steel (FM approved) Size Range: One size accommodates all Fig. 900 Series sway brace attachments. Material: Steel Function: To attach sway bracing and hanger assemblies to steel members. Features: This product's design incorporates a concentric attachment point which is critical to the performance of structural seismic connections. NFPA 13 indicates the importance of concentric loading of connections and fasteners. Permits secure non-friction connection without drilling or welding. Unique design reinforces point of connection to joist. Break off head set bolt design assures verification of proper installation torque (mm. 31 ft-lbs.). Approvals: Approved by Factory Mutual Engineering (FM). Included in our Seismic Engineering Guidelines approved by the State of California Office of Statewide Health Planning and Development (OSHPD). For additional load, spacing and placement information relating to OSHPD projects, please refer to our Seismic Engineering Guidelines, OPM-0052-13 For UL Listed information refer to UL Listed page 54. Installation Instructions: Fig. 825 is the structural attachment componentof a longitudinal or lateral sway brace assembly. It is intended to be combined with a TOLCO' transitional attachment, "bracing pipe" and a TOLCO "braced pipe" attachment, to form a complete bracing assembly. NFPA 13 or FM guidelines should be followed. To Install: Place the Fig. 825 on the steel beam, tighten the cone point set bolts until heads break off. Attach other TOLCO transitional attachment fitting, Fig. 980, 910, 909, or any other TOLCO approved transitional fitting. Transitional fitting attachment can pivot for adjustment to proper brace angle. Finish: Plain, Electro-Galvanized and HDG Approx. Wt./100: 247.5 Lbs. 012.2kg1 Order By: Figure number and finish US Patent #6,098,942 Canada Patent #2,286,659 Designed to meet or exceed requirements of FM DS 2-8. Fig. All. Retaining strap not required. FM Approved design loads are based on ASD design method. Fig. 1000 Side View Fig. 1001 FM Approved Design Loads 300-44 4559 60 -14° 15.90° Ibs./(kN) lbs./(kN) Ibs./(kN) Ibs./(kN) Maximum Perpendicularto 990 1360 1670 1860 3/ Thick Flange Structural Member 14.401 (6.05) (7.43) (8.27) Maximum Parallel to 460 630 770 860 /' Thick Flange Structural Member (2.04) (2.80) (3.42) (3.82) Brace Eaton's B-Line series seismic bracing components are designed to be compatible only with other B-Line series bracing components, resulting in a listed seismic bracing assembly. Eaton B-Line Division warranty for seismic bracing components will be the warranty provided in Eaton B-Line Division standard terms and conditions of sale made available by Eaton, except that, in addition to the other exclusions from Eaton B-Line Division warranty, Eaton makes no warranty relating to B-Line series seismic bracing components that are combined with products not provided by Eaton. All dimensions in charts and on drawings are in inches. Dimensions shown in parentheses are in millimeters unless otherwise specified. B-Line series Fire Protection Solutions 55 Eaton Fig. 825 Fig. 980 I-Beam APPROVED 980 Set Bolt Mounting Hardware Included Is Not Included Fig. 4L Seismic Bracing (g. 98O I TOLCO Universal swivel sway brace attachment -/8"-16 to /4'40 rods Fig. 980H - TOLCO Universal swivel sway brace attachment -/8"-9 to 11I4"-7 Size Range: One size fits bracing pipe 1' (25mm) thru 2' (50mm), B-Line series 12 gauge (2.6mm) channel. Material: Carbon steel Function: Multi-functional attachment to structure or braced pipe fitting. Features: This product's design incorporates a concentric attachment opening which is critical to the performance of structural seismic connections and in accordance with NFPA 13, 2019 Section 18.5.11.5. The Fig. 980 mounts to any surface angle and the break off bolt head assures verification of proper installation. Installation: Fig.980 is the structural or transitional attachment component of a longitudinal or lateral sway brace assembly. It is intended to be combined with the "bracing pipe" and TOLCO' "braced pipe" attachment, Fig. 1000, 1001, 3000, 4L, or other TOLCO approved attachment to pipe to form a complete bracing assembly. NFPA 13 guidelines should be followed. To Install: Place the Fig. 980 onto the "bracing pipe". Tighten the set bolt until the head breaks off. Attachment can pivot for adjustment to proper brace angle. Approvals: —Approved by Factory Mutual Engineering (FM). Included in our Seismic Engineering Guidelines approved by the State of California Office of Statewide Health Planning and Development (OSHPD). For additional load, spacing and placement information relating to OSHPD projects, please refer to our Seismic Engineering Guidelines, OPM-0052-13. For UL Listed information refer to UL Listed page 60. Note: Fig. 980 Swivel Attachment and Fig. 1000, 1001, 4L or other TOLCO approved attachment to pipe that make up a sway brace system of bracing materials which satisfies the requirements of Factory Mutual Engineering and the National Fire Protection Association (NFPA) Finish: Plain, Electro-Ga Ivan ized or Stainless Steel. Contact customer service for alternative finishes. Order By: Figure number and finish. Pat. #6,273,372, Pat. #6,517,030, Pat. #6,953,174, Pat. #6,708,930, Pat. #7,191,987, Pat. #7,441,730, Pat. #7,669,806 Designed to meet or exceed requirements of FM DS 2-8. Catalog # A in. (mm) B in. (mm) D** in. (mm) Max. Design Load*** (FM) 1 60-74 7-90 lbskN) kN) lbskN) sI(kN)I___ Approx.WtJ100 lbs. (kg) [980-I9 4/16 (114.9) 21/16 (52.4) 7/15 (11.1) 2370 (10.54) 2790 (12.41) 3360 (14.94) 3750 (16.681 149 (67.6) 980 1/2 /16 (14.3) 148 (67.1) 11/16 (17.5) 147 l67 98O-/4 13/16 (20.6) 146 (66.2) 6/4 (171.4) 31/2 188.91 15/16 (23.8) - 402 (182.3) 980H1 11/16 (27.0) 980H is not UL Listed or FM Approved 1 400 1181.41 [981'/ 0H-a E3/ 1 ~(30.2) 3-97-7-8-071) 980H-1'/4 (33.3) I 390 (176.9) Mounting attachment hole size. Installed with 1' or 11/4'schedule 40 brace pipe. Eaton's B-Line series seismic bracing components are designed to be compatible only with other B-Line series bracing components, resulting in a listed seismic bracing assembly. Eaton B-Line Division warranty for seismic bracing components will be the warranty provided in Eaton B-Line Division standard terms and conditions of sale made available by Eaton, except that, in addition to the other exclusions from Eaton B-Line Division warranty, Eaton makes no warranty relating to B-Line series seismic bracing components that are combined with products not provided by Eaton. All dimensions in charts and on drawings are in inches. Dimensions shown in parentheses are in millimeters unless otherwise specified. B-Line series Fire Protection Solutions 61 Eaton Seismic Brad (TOLCO )- sway brace attachment (FM approved) Size Range: 1' (25mm) through 12' (300mm) IFS. Material: Steel. Function: For bracing pipe against sway and seismic disturbance. Approvals: Approved by Factory Mutual Engineering (FM), 1' (25mm) through 12' (300mm) pipe. For UL Listed information refer to UL Listed page 74. Included in our Seismic Engineering Guidelines approved by the State of California Office of Statewide Health Planning and Development (OSHPD). For additional load, spacing and placement information relating to OSHPD projects, please refer to our Seismic Engineering Guidelines, OPM-0052-13. Installation Instructions: Fig. 4L is the "braced pipe" attachment component of a longitudinal and lateral sway brace assembly. It is intended to be combined with the "bracing pipe" and TOLCO" structural attachment component to form a complete bracing assembly. NFPA 13 and/or FM guidelines should be followed. To Install: Place the Fig. 4L over the pipe to be braced and tighten bolts. Then engage "bracing pipe" into jaw opening and tighten set bolt until head snaps off. Jaw attachment can pivot for adjustment to proper brace angle. (For complete detailed instructions see instruction sheet 1L309015EN). Finish: Plain, Electrogalvanized. Order By: Figure number, pipe size and finish. Designed to meet or exceed requirements of FM DS 2-8. Lateral Longitudinal Brace Brace OPM <g> APPROVED Set Bolt & Hardware Included I/JLH With Plain & Electrogalvanized Finish - - FM Max. Rec. Load FM Max. Rec. Load Nom Pipe A Bolt Logitudinal Lateral Approx. Size (Max) C D Size 300 440 450590 600 740 150 900 300 440 450590 590740 750900 I 'Nt/10() Part No. in. in. in. in. in. lbs. (kN) lbs. (kN) lbs. (kN) lbs. lbs. (kN) lbs. NN) lbs. NN) lbs. NN) lbs. 414 14L-1 11 11/i (25) JI 5 21L 2 27iu 1/8 1/213 74131060(472)1160(516) 1060 (4.72) 1160 (5.16) 1400(6.23) 00(623( 1500(6.68) 1900(6 681 1370(6.10) 1970(610) 1940(8.63) 1940(8632380(W59( 2380 (10.59) 2650(11.79) 2650 (11 79) 176 182] 4L-11/2 11/2 (40) 51/2 21/3 1/3 1/213 740(3.30) 1020(4.54) 1250)5.57) 920)4.10) 1370(6.10) 1940(8.63) 2380)10.59) 2650(11.79) 187 41_21/2 2 21/2 0l L 6V7 6'/9 23 3 2 273 7413 '/z13 140 13301 520 (2.32) 1020 (4 54) 650 (2.90) 2 25J 790 I 1990 (8.86) 1 2440 (1 0.86) 272021 2041 [41 65mm - - (65) 6/g 3 273 '/213 520(232) 650(290) (3.52) 790(352) 1040)4.63) 1040)463) 1410(6.28) 1410(628) 1990(8.86) 1990(886) 12440)10.86) 2440)1086) 2720 (12.10) 2720(1210) 220 218 1 41-3 3 (80) 73/7 31/4 2/8 1/213 520 (2.32) 650 (2.90) _T9_0(3.52-) 1040( . 3) 1410(6.28) 1990 (8.86) 2440 (10.86) 1990(886)12440(1086) 2720)12.10) 323 [41 372 372 () T 7413 520 (2.32) 650 (2.90) 790(3.52).1040 (4.63) 1i0(628) 1720 (12.10) 343] 41-4 4 (100) 8/7 33/4 31/8 1/213 520(2.32) 650)2.90) 790)3.52) 1040)4.63) 1410 (6.28) 1990)8.86) 2440)10.86) 2720(12.10) 253 I L.74-13 52032) 2.90) 790)3.52) 1040(4.63) (628) 1990)886) 2440 10.86) 2720 (12.10) 3131 41-125mm - (125) 95/9 43/8 35/8 1/213 520 (2.32) 650)2.90) 790)3.52) 1040(4.63) 1410)6.28) 1990)8.86) 2440)10.86) 2720)12.10) 312 [416 574 4/i 7413 870 87) 1200 (5.34) p160(650) 1630 7.26) 1960(694)2210(984) 12710(12.06) 3020 )13.) 540 I 4L-150mm - (150) 11/7 51/3 44/7 1/213 870(3.87) 1200(5.34) 1460)6.50) 1630)7.26) 1560(6.94) 2210)9.84) 2710)12.06) 3020(13.44) 538 14L-8 8 - 33/5 62/5 52/3 17,13 1190(530) 1440(641) 1580(703) 1750)779) 1560)694) 1210 L9.84). 2710)1206) 2020 13.44) 645 41-200mm - (200) 13/5 6/5 52/3 1/213 1190(5.30) 1440)6.41) 1580)7.03) 1750)7.79) 1560(6.94) 2210)9.84) 2710(12.06) 3020(13.44) 643 [o 10 )254) 17/ 874 7V 72-13 1620(7.21) 1660(738) 1570(8881 1740 iJ4) 192021) (10.23) 2820 3140(1887) 134 4L-12 12 (300) 1 19/s 1 97 874 1 72-13 11620(7.21) 1660(7.38) 1570)6.98) 1740(7.74)11620 (7.21) 12300(10.23)2820)12.1Z4) 3140113.97) 1526 Eaton's B-Line series seismic bracing components are designed to be compatible only with other B-Line series bracing components, resulting in a listed seismic bracing assembly. Eaton B-Line Division warranty for seismic bracing components will be the warranty provided in Eaton B-Line Division standard terms and conditions of sale made available by Eaton, except that, in addition to the other exclusions from Eaton B-Line Division warranty, Eaton makes no warranty relating to B-Line series seismic bracing components that are combined with products not provided by Eaton. All dimensions in charts and on drawings are in inches. Dimensions shown in parentheses are in millimeters unless otherwise specified. uixjated 4-2-21 B-Line series Fire Protection Solutions 75 Eaton OPM <*> APPROVED Seismic Brad (TOLCO Fig. 1001)- sway brace attachment (FM approved) Size Range: Pipe size to be braced: 1' (25mm) thru 8' (200mm) IFS. Pipe size used for bracing: 1' (25mm) and 11,4' (32mm) Schedule 40 IFS. Material: Steel Function: For bracing pipe against sway and seismic disturbance. The pipe attachment component of a sway brace system: Fig. 1001 is used in conjunction with a Fig. 900 Series fitting and joined together with bracing pipe per NFPA 13, forming a complete sway brace assembly. Features: Can be used to brace schedule 7 through schedule 40 IFS. Field adjustable, making critical pre-engineering of bracing pipe length unnecessary. Unique design requires no threading of bracing pipe. Can be used as a component of a four-way riser brace. Comes assembled and ready for installation. Fig. 1001 has built-in visual verification of correct installation. See installation note below. Installation Note: Position Fig. 1001 over the pipe to be braced and tighten two hex head cone point set bolts until heads bottom out. A minimum of 1' (25mm) pipe extension is recommended. Brace pipe can be installed on top or bottom of pipe to be braced. Approvals: Approved by Factory Mutual Engineering (FM). Included in our Seismic Engineering Guidelines approved by the State of California Office of Statewide Health Planning and Development (OSHPD). For additional load, spacing and placement information relating to OSHPD projects, please refer to our Seismic Engineering Guidelines, OFM-0052-13. For UL Listed information refer to UL Listed page 66. Finish: Plain, Electro-Ga Ivan ized or Hot Dip Galvanized. Contact customer service for alternative finishes and materials. Order By: Order by figure number, pipe size to be braced, followed by pipe size used for bracing (1' (25mm) or 11/4' )32mm() , and finish. Important Note: Fig. 1001 is precision manufactured to perform its function as a critical component of a complete bracing assembly. To ensure performance, the FM Approval requires that Fig. 1001 must be used only with other TOLCO' bracing products. The Fig. 1001 is not intended for use with the Fig. 907 4-way Longitudinal Brace Attachment. Designed to meet or exceed requirements of FM DS 2-8. Pipe Size in. (mm) Part Number & Approx. Wt1100 1° (25mm) Brace Pipe 11/" (32mm) Brace Pipe Lbs. (kg) I Lbs. (kg) Design Load - For Sch. 1, Sch. 10, & Sch. 40 Pipe Allowable Horizontal Capacity (lbf) Per InstaIIation"3 30°-44° 45-59 600-74° Lbs. (kN) Lbs. (kN) Lbs. (kN) Lbs. (kN) L..1' (25) 1001-1 X 104.6 (47A 1001-1 X11/4 122.2 (55.4) 1800 (8.01) 2550 (11.34) 3120 (188) 3490 (15.52); l'/4 (32) 1001-1'/4 X 105.2 (47.7) 100111/4 X 11/4 122.6 (55.6) 1230 (5.47) 1740 (7.74) 2140 (9.52) 2380 (10.59) 1001-1'hXl 107.0(48.5) 1001-l/124.7(566) 1230(5.47)1740 (7.74)2140 (9.52) 2380 (10.59 (50) 1001-2 X 112.6 (51.1) 1001-2 X 11/4 129.2 (58.6) 1230 (5.47) 1740 (7.74) 2140 (9.52) 2380 (10.59) (80) 1O1 Z'k 1001-3 X J3ir?L 145.0 (65.8) JOOjZki/4_i54.4J7.QL 1001-3 X 11I4 163.1 (74.0) 850 (3.78) 1200 (5.34) 1470 (6.54) 1640 (7.30) L_.Ji!Pt_ 1001-4X1 158.6 (71.9) 1001-4X11/4 176.7 (80.1) 850 (3.78) 1200(5.34)__1470_(q.54) 1640 (7.30k 5'(100) 1001-5X1173.2(78.6) 1001-5X11/4 191.4(86.8) 510 (2.27) 730 (3.25) 890 (3.96) 990 (4.40) L.(15o i0016X1*190.0(85.2) 10016X11/4*206.0 (93.4) 510 (2.27) 730 (3.25) 890 (3,96) 990 (4.40j *8 (200) 1 1001_8X1* 217.4 (111.5) 10018X1l/4* 265.3 (120.3) 510 (2.27) 730 (3.25) 890 (3.96) 990 (4.40) FM Approved when used with 1 or 11/4 inch NPS Schedule 40 GB/T 3091,EN 10255H, or AS G3451 steel pipe as the brace member. 2 Load rating for LW above refers to FM Approved Lightwall Pipe commonly referred to as 'Schedule T. These ratings may also be applied when EN 10220 and GB/I 8163 steel pipe. Load rating for Schedule 10 above may be applied to GB/I 3092,EN 10255M and H, or JIS G3454, FM Approved Thinwall, or Schedule 40 steel pipes. Note: See UL load ratings in UL Listed Design Load chart shown under drawing. Note: Metric sizes available for 65mm, 150mm, 200mm pipe size with 25mm and 32mm brace pipe size. %9 Contact the factory. S Fig. ~1001 All dimensions in charts and on drawings are in inches. Dimensions shown in parentheses are in millimeters unless otherwise specified. B-Line series Fire Protection Solutions 67 Eaton I __ iWli - Fire Sprinkler Hanging Bracing Products -- -- - Innovative Hanging & Bracing Fire Protection Solutions Cl, M'r Oq www.erico.com J . Pipe Rod Stiffener Strut Rod Stiffener Page 100 —1- 101 a ' 10 www.erico.com Branch Line Restraint System i)j J Traditional methods for installing branch line I ..restraints in fire sprinkler systems are cumbersome and time-consuming. Contractors often cut (and re-cut) threaded rod to precise measurements to -: restrain the sprinkler pipe with a loop hanger and I ' srge restraint. Traditional methods also commonly require five or more parts per restraint. To avoid these labor-intensive methods, ERICO has streamlined the process and developed the Branch Line Restraint System, part of the CADDY tine of hanging and bracing solutions for the fire F protection market. Ideal for restraining 1" (25 mm) - through 2" (50 mm) branch lines, this innovative system is significantly faster and easier to install than current methods. It attaches directly to steel bar joists, I-beams or purlins, as well as concrete and wood structures. The hardware is installed with only one toot, a 5/16" (8 mm) socket drill driver, which provides significant labor savings and convenience. It features a simple, two-step installation process, allowing a time savings of up to 80% compared to other methods. Unlike most solutions that only accept 3/8" (Mb) threaded rod, the versatile Branch Line Restraint System features a swivel: attachment that can be rotated to accept 3/8" or 112" (Mb 0 or MU) threaded rod. This allows greater restraint distances from the pipe to structure with 1/2" (Ml?) threaded rod. The system meets the requirements of NFPAe 13, making it ideal for new construction applications. The total'system is cULus Listed and FM Approved, and has been pre-approved by the WV'. state of California (OSHPD OPA-2629-10). - . . - I - -; 44 416 Features Accepts 3/8" or 1/2" (M 10 or M12) threaded rod Quick grip damp simplifies measuring and cutting of threaded rod Works with rough-cut threaded rod and eliminates pipe-side deburring Can be installed with threaded rod above or below the service pipe Shear-off head helps ensure correct torque and simplifies inspection l w t- LJ Y OD I _ Specifications. Material: Steel Finish: Electro-galvanized C@ us Part Number Pipe Size Outer Diameter Rod Size Height Length Width CSBBRPOIOOEG 1" 1.32 3/8". 1/2" 6.67 163" 088" CS8BRP0125EG 1 1i4 ,1.66 3/8". 1/2" 7.56" 1.97" 0.88" csBeRP01soEG 11/2" 1.90 3/8", 1/2" 8.20" 221" 0.88" CSBBRP0200EG 2.38" 3/8". 112" 9.45", 2.69" 0.8W' 94 www.e,ico.com I Specifications Material: Steel Finish: Electro-glvanized Features Swivel connector accepts 3/8" or 1/2" (M1O or M12) threaded rod Attaches to steel members with self-drilling/tapping screw Branch line structural attachments are for restraint only and not for the hanging of fire sprinkler piping. www.erico.com 95 ERICD i Material: Steel Finish: Electro-galvanized dia Features Swivel connector accepts 3/8" or 1/2" (Mb or M12) threaded rod Attaches to wood or concrete structures i1iI Specifications Branch line StnJC(UYaI attachments are for restraint only and not for the hanging of fire spli*ier plpuig. M CADDY 96 wwwerico.com Specifications Material: Steel Finish: Electro-galvanized Features Swivel connector accepts 3/8" or 1/2" (M10 or M12) threaded rod Attaches to concrete anchors or structural attachments with female threads Branch line structural attachments are for restraint only and not for the hanging of lire sprinkler piping. www.erico.com 97 ERICD I 3 Head Box 12 Head Box Heavy duty 20 gauge steel construction (6510152) (6510150) (6510151A) (6510151) W ,j A.:jCj*j* FIRE SPRINKLER SPARE HEADBOXES Red powder coated finish 6 Head Box 6 Large Head Box Knockouts and shelf to accommodate any 1/2" or 3/4" sprinkler head All-welded construction and full length hinge Slotted for easy mounting with screws, rivets or strapping The information contained herein is produced in good faith and is believed to be reliable but is for guidance only. ARGCO and its agents cannot assume liability or responsibility for results obtained in the use of its product by persons whose methods are outside or beyond our control. It is the user's responsibility to determine the suitability of any of the products, methods of use, or preparation prior to use, mentioned in our literature. It is the user's responsibility to observe and adapt such precautions as may be advisable for the protection of personnel and property in the handling and use of any of our products. FOR MORE INFORMATION CALL ARGCO AT 1-800-854-1015 OR LOG ONTO WWW.ARGCO.COM ARGCO VINYL SPRINKLER IDENTIFICATION DECALS -White Vinyl Crack and Peel Decals with Bright Red Ink. -Available as generic signs or personalized. -ID signs, inspection decals, hydracalc placards and services stickers. AIR CONTROL]] ANTI-FREEZE SYSTEM FARETINGUISHER 50-20-010 50-20-045 50-20-200 AIR LINE ] AUXILIARY DRAIN [FIRE DEPARTMENT VALVE 50-20-020 50-20-070 50-20-201 [ALARM LINE ] CONTROL VALVE FIRE HOSE 50-20-030 50-20-100 50-20-205 ALARM TEST 11 DRAIN VALVE FIRE SPRINKLER PIPE 50-20-040 50-20-140 50-20-221 FIRE PROTECTION 8 x 2 50-20-219 INSPECTORS TEST MAIN CONTROL MAIN DRAIN [OPEN SPRINKLER CONTROL 50-20-300 SPRINKLER 50-20-31 TEST & DRAIN 50-20-355 WATER MOTOR LINE 50-20-390 SPRINKLER SPRINKLER 0- SERVICE STICKERS A Great Way to Advertise Right on the Jobsite ALL ARICAN I i.imi I ARGCO's art department can take your personalized artwork and recreate it on your signs - II SPRUjCORP. IH Put your Company Name & Logo on your Service Decals IV '.zç'77 11124 HR. EMERGENCY SERVICE III Custom to your specs. I 770-339-3737 III The information contained herein is produced in good faith and is believed to be reliable but is for guidance only. ARGCO and its agents cannot assume liability or responsibility for results obtained in the use of its product by persons whose methods are outside or beyond our control. It is the users responsibility to determine the suitability of any of the products, methods of use, or preparation prior to use, mentioned in our literature. It is the users responsibility to observe and adapt such precautions as may be advisable for the protection of personnel and property in the handling and use of any of our products. FOR MORE INFORMATION CALL ARGCO AT 1-800-854-1015 OR LOG ONTO WWW.ARGCO.COM