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Home My WebLink About2180 RUTHERFORD RD; ; AS990091; Permit11/10/2020 AS990091 Permit Data : City of Carlsbad Sprinkler Permit. Permit No: AS990091 2180 RUTHERFORD Job Address: Status: ISSUED RD Permit Type: SPRINK .• • • Applied 10/27/1999 Parcel No: 2120702300 Approved: Lot #: 0 • • Reference No.: Issued: PC #: • Inspector: Project Title: CALLAWAY GOLF RACKS • Applicant: • Owner: • CALLAWAY GOLF CO • C/O DONALD H DYE • 2285 RUTHERFORD RD • CARLSBAD CA Fees ($) Add'! Fees ($) • Total ($) Balance ($) 90 0 •• 90 0 1/1 -24-99 01:02P A319o4°L ( P.02 INDUSTRIAL EXHAUST SYSTEMS 7-78 Page 5 prevent an overheated bearing from serving as an ignition source. 2.3 Electric Wiring and Equipment 2.3. 1 Electrical installation should be in accordance with rho National Electrical Code. 2.3.2 Motors should be located outside rooms in which flammable vapors or combustible dusts are being gener- ated. Unless of the type FMRC.Approvod for the particular condition or hazard. (See Data Sheet 5-1, Electrical Equip- rnenr in Hazardous Locations.) Remote control of all fans should be provided in addition to any control located close to the equipment. 2.3.3 All metal parts of ducts or other apparatus used for the removal of flammable gases or vapors, or for convey- ing combustible dust, stock or refuse. shoufd be electri- cally bonded and grounded. When metallic contact is bro- ken at duct joints or at other points, metal straps, preferably of copper, should be installed to afford effective bonding connections. 2.4 Protection Systems 2.4. 1 In locations where the combustible duct exteriors are exposed to normal roof or ceiling sprinklers, no other exterior protection is needed. If combustible ducts are located in an unsprinklerecl area, sprinklers should be installed over or near the duct spaced not over 12 it (3.7 m) on-center (o.c.). Generally, one line of sprinklers over the duct will suffice. Ordinary pipe schedule and 212°F (1 00"C) rated heads are satisfactory. When ducts are ovei 4 it (1.2 m) wide, sprinklers will also be needed below if there are combustibles below the duct. See Data Sheet 2-8N for details. 2.4.2 Install sprinklers in all ducts which have cross- sectional areas greater than or equal to 100 sq in. (645 sq cm). or which have diameters greater than or equal to 12 in. (305 mm), and which: are combustible (unless specifically FMRC-Approved. For plastic ducts carrying noncombustible fames (see Plastic Duct Section below), or: have a combustible interior lining greater than 30 mils (0.0 mm) thick (6 mils, 0.1 mm thick in occupancies sus- ceptible to smoke damage), or; carry combustibles sufficient to cause a damaging fire. Sprinklers should also be provided in smaller ducts which offer serious exposures. 2.4.3 For ducts described in No. 2.4.2 abave, install sprin. klers as follows: Sprinklers should be spaced no more than 12 It (3.7 m) O.C. in horizontal and vertical ducts. Sprinkler temperature rating should be at least 50°F (27'C) above the tempera- ture of the environment handled by the duct. When the duct width or diameter is over 12 it (3.7 m), provide an additional line of automatic sprinklers 12 it (3.7 m) o.c. in systems with branch ducts, one sprinkler should be provided in each branch duct, regardless of size, within 3 it (0.9 m) of its point of entry into a main duct system. Several smaller ducts may be manifolded and a single sprinkler provided before the manifolded entry into the main duct system. Where not practical due to size limita- tions, a sprinkler may be provided in the main duct at the point where the smaller branch duct enters. The supply line to the duct sprinklers should be equipped with an accessible FMRC-Approved control valve. If there is more than one exhaust duct system, and they can be operated independently, sprinklers to each system should be controlled by a separate valve. A sepa- rate water flow alarm may be advisable for duct system protection in large installations. Base the water supply on a density of ogpm/sq ft (8 mm/mm) over an area equal to the projected area of the duct, but not exceeding 100 lineal feet (30 m) of the duct. However, a minimum flow of 20 gpm (75 cu dm/min) per head (within the 100 ft 130 m) limit) is needed. (For most app1ic2ti0n5, ordinary pipe schedule will be satisfactory—' See Data Sheet N). A 250 gpm (945 Cu dmrmin) hose- stream demand should be included. Example: In an 8 ft dia. (2.4 m) by 20 it (6 m) long duct, the projected area will be: 8 It x 20 it = 160 sq ft (2.4 m x 6 m = 14.4 sq m). For horizontal ducts, sprinklers should be installed at the top of the duct with only the sprinkler frame projecting into the duct. For best water distribution, sprinkler frames should be perpendicular to the longitudinal axis of the duct. 2.'4flteam or gaseous extinguishing systems should not be used as the primary protection system (I.e. in lieu of automatic sprinklers). Gaseous systems would be ineffec- tive as it would be difficult to maintain the required con- centration. in the case of steam systems, while they have been used to augment automatic sprinklers (Data Sheet 7-20, Airborne Pulp Diyers), their effectiveness in a duct system is not completely known. Currently, there is not sufficient data available to develop system design parameters. 2.4.5 When large ducts. plenums or other associated equipment contain fixed arrays of filtering or pollution con- trol features, which are combustible or which would accu- mulate combustible materials, automatic sprinklers should be provided in accordance with Data Sheet 3-26. Fire Pro- tection Water Demand For Sprinklered Properties, for the appropriate hazard level. Sprinkler placement should be such that structural components are cooled during sprin- kler operation. 2.4.6 FMRC-Approved corrosion resistant sprinklers are effective in certain environments, they should be used where applicable. The manufacturer should be consulted. For other applications in corrosive environments, the sprinklers should be protected as outlined In the Appen- dix, Section 4.5. UC15 ID( 'ASIlooll - . Fire Protection by Computer Design SCHMIDT FIRE PROTECTION 4760 MURPHY CANYON RD. SAN DIEGO CA. 92123 279-6122 Job Name : CALLAWAYDUCTS Building Location : 2180 RUTHERFORD RD. System Contract : M9-3998 Data File : CALWAYDT.WXF Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 SCHMIDT FIRE PROTECTION Page CALLAWAYDUCTS Date Hydraulic Design Information Sheet Name - CALLAWAYDUCTS Location - 2180 RUTHERFORD RD. Building - Contractor - NIELSEN-DILLINGHAM Calculated By - K. WILSON Construction: ( ) Combustible Occupancy - (X) Non-Combustible Date - 10-26-99 System No. - Contract No. - M9-3998 Drawing No. - Ceiling Height - S (X) NFPA 13 ( ) Lt. Haz. Ord.Haz.Gp. C ) 1 C) 2 C ) 3 ( ) Ex.Haz. Y ( ) NFPA 231 ( ) NFPA 231C C ) Figure Curve S Other T Specific Ruling Made By Date E M Area of Sprinkler Operation - System Type Sprinkler/Nozzle Density - 0.2 (X) Wet Make GLOBE D Area Per Sprinkler - 36 ( ) Dry Model JN E Elevation at Highest Outlet - 29.25 ( ) Deluge Size 1/2 S Hose Allowance - Inside - ( ) Preaction K-Factor 5.6 I Rack Sprinkler Allowance - ( ) Other Temp.Rat.286 G Hose Allowance - Outside - 250 N Note Calculation Flow Required - 398.74 Press Required - 87.929 At Test Summary C-Factor Used: 120 Overhead 150 Underground W Water Flow Test: Pump Data: Tank or Reservoir: A Date of Test - 1-13-98 Cap. - T Time of Test - Rated Cap.- Elev.- E Static Press - 112 @ Press - R Residual Press - 100 Elev. - Well Flow - 2830 Proof Flow S Elevation - -3 U P Location - P L Source of Information - CITY OF CARLSBAD Y C Commodity Class Location O Storage Ht. Area. Aisle W. M Storage Method: Solid Piled Palletized % Rack M Single Row C ) Conven. Pallet ( ) Auto. Storage ( ) Encap. 5 R ( ) Double Row ( ) Slave Pallet ( ) Solid Shelf C ) Non T A C ) Mult. Row C ) Open Shelf 0 R K Flue Spacing Clearance:Storage to Ceiling A Longitudinal Transverse E Horizontal Barriers Provided: Computer Prografrts by Hydratec Inc. Route 111 Windham N.H. USA 03087 :HMIDT FIRE PROTECTION £LLAWAYDUCTS City Water Supply: Cl-Static Pressure: 100.8 PSI -o 7- / C2-Residual Pressure: 88.8 PSI I C2-Residual Flow: 2830 GPM Page 3 Date Pump Data: - -- --- --- ----- Di-Elevation: 11.694 PS! D2-System Flow:148.74 GPM D2-System Pressure: 87.929 PSI Hose ( Adj City ) :0 GPM Hose ( Demand ) :250 GPM D3-System Demand:398.74 GPM Safety Margin: 12.551 PSI * - D F2 C2 1 .I. - ' 300 600 900 1200 1500 1800 2100 2400 2700 FLOW ( N A 1.85 omputer Programs by Hydratec Inc. Route 111 Windham N.H. USA UiU' SCHMIDT FIRE PROTECTION Page 4 CALLAWAYDUCXS Date Node Elevation K-Fact Pt Pa Flow Density Area Press No. Actual Actual - Added Req. Req. 1 24 5.6 14 na 20.95 .2 36 14 3 24 5.6 15.57 na 22.1 .2 36 14 5 24 5.6 17.14 na 23.18 .2 36 14 7 24 5.6 20.61 na 25.42 .2 36 14 9 24 5.6 23.61 na 27.21 .2 36 14 11 24 5.6 28.46 na 29.87 .2 36 14 2 22 16.14 na 4 22 17.84 na 6 22 19.54 na 8 22 23.3 na 10 22 26.54 na 12 22 31.79 na 13 21 41.48 na 14 21 51.06 na 15 21 57.02 na 16 5 66 na 17 29.25 58.23 na 18 29.25 58.27 na 19 13.33 65.55 na 20 1.83 70.6 na 21 1.83 70.61 na 22 0.5 71.19 na 23 -3 72.71 na 24 -3 72.74 na 250 25 -3 87.82 na SRC -3 87.93 na The maximum velocity is 23.44 and it occurs in the pipe between nodes 12 and 13 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 SCHMIDT FIRE PROTECTION Page - CALLAWAYDUTS Date Hyth Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes Point Qt Pf/UL Eqv. Ln. Total Pf Pn 1 20.95 1.049 1E 2.000 2.000 14.000 K Factor = 5.6 to 120 IT 5.000 7.000 0.866 2 20.95 0.1418 9.000 1.276 Vel = 7.777 20.95 16.142 K Factor = 5.21 3 22.10 1.049 1E 2.000 2.000 15.570 K Factor = 5.6 to 120 IT 5.000 7.000 0.866 4 22.10 0.1566 9.000 1.409 Vel = 8.204 22.10 17.845 K Factor = 5.23 5 23.18 1.049 1E 2.000 2.000 17.136 K Factor = 5.6 to 120 IT 5.000 7.000 0.866 6 23.18 0.1710 9.000 1.539 Vel = 8.605 23.18 19.541 K Factor = 5.24 7 25.42 1.049 1E 2.000 2.000 20.613 K Factor = 5.6 to 120 IT 5.000 7.000 0.866 8 25.42 0.2028 9.000 1.825 Vel = 9.437 25.42 23.304 K Factor = 5.27 9 27.21 1.049 1E 2.000 2.000 23.609 K Factor = 5.6 to 120 IT 5.000 7.000 0.866 10 27.21 0.2300 9.000 2.070 Vel = 10.101 27.21 26.545 K Factor = 5.28 11 29.87 1.049 1E 2.000 2.000 28.460 K Factor = 5.6 to 120 IT 5.000 7.000 0.866 12 29.87 0.2733 9.000 2.460 Vel = 11.089 29.87 31.786 K Factor = 5.30 2 20.95 1.049 12.000 16.143 to 120 4 20.95 0.1418 12.000 1.702 Vel = 7.777 4 22.10 1.38 12.000 17.845 to 120 6 43.05 0.1413 12.000 1.696 Vel = 9.234 6 23.18 1.38 12.000 19.541 to 120 8 66.23 0.3136 12.000 3.763 Vel = 14.206 8 25.43 1.61 12.000 23.305 to 120 10 91.66 0.2701 12.000 3.241 Vel = 14.445 10 27.21 1.61 12.000 26.545 to 120 12 118.87 0.4368 12.000 5.242 Vel = 18.733 I Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 SCHMIDT FIRE PROTECTION CALLAWAYDuqTS Date Hyd Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes Point Qt Pf/UL Eqv. Ln. Total Pf Pn 12 29.87 1.61 1E 4.000 2.000 31.786 to 120 IT 8.000 12.000 0.433 13 148.74 0.6613 14.000 9.258 Vel = 23.440 13 2.227 IT 14.378 56.000 41.478 to 120 14.378 14 148.74 0.1362 70.378 9.587 Vel = 12.251 14 2.731 4L 6.537 92.000 51.065 to 120 26.147 15 148.74 0.0504 118.147 5.959 Vel = 8.147 15 2.731 2L 6.537 16.000 57.024 to 120 lB 11.439 24.513 6.930 16 148.74 0.0504 40.513 2.043 Vel = 8.147 16 2.731 1L 6.537 28.000 65.997 to 120 IT 19.611 26.148 -10.503 17 148.74 0.0504 54.148 2.731 Vel = 8.147 17 6.357 1 37.720 12.000 58.225 to 120 37.720 18 148.74 0.0008 49.720 0.041 Vel = 1.504 18 6.357 12L 11.316 335.000 58.266 to 120 135.793 6.895 19 148.74 0.0008 470.793 0.388 Vel = 1.504 19 6.357 1A 33.948 11.500 65.549 to 120 1G 3.772 75.440 4.981 20 148.74 0.0008 IT 37.720 86.940 0.072 Vel = 1.504 20 8.249 IT 38.923 3.500 70.601 to 120 38.923 21 148.74 0.0002 42.423 0.010 Vel = 0.893 21 8.249 1.330 70.611 to 120 0.576 22 148.74 1.330 Vel = 0.893 22 8.27 1L 19.468 6.000 71.187 to 140 19.468 1.516 23 148.74 0.0002 25.468 0.004 Vel = 0.888 23 7.98 3L 18.589 145.000 12.708 to 150 55.763 24 148.74 0.0002 200.763 0.036 Vel = 0.954 24 250.00 8.27 3L 19.468 15.000 72.744 Qa = 250 to 140 58.403 15.000 Fixed loss = 15 25 398.74 0.0011 73.403 0.078 Vel = 2.382 25 7.98 1G 5.720 40.000 87.822 to 150 IT 50.046 55.763 SRC 398.74 0.0011 95.763 0.107 Vel = 2.558 398.74 87.929 K Factor = 42.52 I Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 p(.)C3.. ROD(-- A511ool I . Fire Protection by Computer Design SCHMIDT FIRE PROTECTION 4760 MURPHY CANYON RD. SAN DIEGO CA. 92123 279-6122 Job Name : CALLAWAYPAINTBOOTHS Building Location : 2180 RUTHERFORD RD. System Contract : M9-3998 Data File : CALWAYPB.WXF I Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Water Flow Test: Date of Test - 1-13-98 Time of Test - Static Press - 112 Residual Press - 100 Flow - 2830 Elevation - -3 Location - W A T E R IS U P P Pump Data: Rated Cap.- @ Press - Elev. - Tank or Reservoir: Cap. - Elev.- Well Proof Flow SCHMIDT FIRE PROTECTION Page 2 CALLAWAYPAINTBOOTHS Date Hydraulic Design Information Sheet Name - CALLAWAY DUCTS ROOF Date - 10-26-99 Location - 2180 RUTHERFORD RD. Building - System No. - Contractor - NEILSEN-DILLINGHAM Contract No. - M9-3998 Calculated By - K. WILSON Drawing No. - Construction: ( ) Combustible (X) Non-Combustible Ceiling Height - Occupancy - (X) NFPA 13 ( ) Lt. Haz. Ord.Haz.Gp. ( ) 1 )c) 2 C ) 3 C ) Ex.Haz. NFPA 231 ( ) NFPA 231C C ) Figure Curve Other Specific Ruling Made By Date Area of Sprinkler Operation - System Type Sprinkler/Nozzle Density - 0.2 (X) Wet Make GLOBE Area Per Sprinkler - 36 C ) Dry Model JN Elevation at Highest Outlet - 37 C ) Deluge Size 1/2 Hose Allowance - Inside - C ) Preaction K-Factor 5.6 Rack Sprinkler Allowance - C ) Other Temp.Rat.286 Hose Allowance - Outside - 250 Note Calculation Flow Required - 415.8 Press Required - 91.9 At Test Summary C-Factor Used: 120 Overhead 150 Underground Source of Information - CITY OF CARLSBAD C O M Commodity Storage Ht. Storage Method: Class Area Solid Piled Location Aisle W. Palletized % Rack M Single Row C ) Conven. Pallet C ) Auto. Storage C ) Encap. S R C ) Double Row C ) Slave Pallet C ) Solid Shelf C ) Non T A ( ) Mult. Row C ) Open Shelf 0 R 1< Flue Spacing Cleararice:Storage to Ceiling A Longitudinal Transverse G E Horizontal Barriers Provided: I Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 CHMIDT FIRE PROTECTION :ALLAwAypAI NTBOOTHS City Water Supply: Cl-Static Pressure: 100.8 PSI C2-Residual Pressure: 88.8 PSI 10,0 L. C2-Residual Flow: 2830 GPM Page 3 Date Pump Data: I - - - _____ _______ _________ __________ ____________ ______________ Di-Elevation: 17.324 PSI D2-System Flow:165.8 GPM D2-System Pressure: 91.900 PSI Hose ( Adj City ) :0 GPM Hose ( Demand ) :250 GPM D3-System Demand:415.8 GPM Safety Margin: 8.554 PSI • - - - ------------- D3 a '1 300 600 900 1200 1500 1800 2100 2400 2700 FLOW C N ' 1.85 omputer Programs by Hydratec Inc. Route 111 Windham N.H. USA 7 SCHMIDT FIRE PROTECTION Page 4 CALLAWAYPAINTBOOTHS Date Node Elevation K-Fact Pt Pn Flow Density Area Press No. Actual Actual Added Req. Req. 1 37 5.6 14 na 20.95 .2 36 14 2 37 5.6 15.44 na 22 .2 36 14 3 37 5.6 15.7 na 22.19 .2 36 14 4 37 5.6 17.02 na 23.11 .2 36 14 5 37 5.6 19.82 na 24.93 .2 36 14 6 37 5.6 21.13 na 25.74 .2 36 14 7 37 5.6 23.04 na 26.88 .2 36 14 8 37 27.94 na 9 37 21.58 na 10 35 16.14 na 11 35 17.7 na 12 35 17.98 na 13 35 19.42 na 14 35 22.44 na 15 35 23.86 na 16 35 25.93 na 17 35 28.8 na 18 35 33.35 na 19 35 37.66 na 20 21 52.51 na 21 21 59.8 na 22 5 69.22 na 23 29.25 62.06 na 24 29.25 62.11 na 25 13.33 69.48 na 26 1.83 74.55 na 27 1.83 74.56 na 28 0.5 75.13 na 29 -3 76.66 na 30 -3 76.7 na 250 31 -3 91.78 na SRC -3 91.9 na The maximum velocity is 15.85 and it occurs in the pipe between nodes 16 and 17 I Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 SCHMIDT FIRE PROTECTION Page 5 CALLAWAYPAINTBOOTHS Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Fir Notes ****** Point Qt Pf/UL Eqv. In. Total Pf p 1 20.95 1.049 1E 2.000 2.000 14.000 K Factor = 5.6 to 120 IT 5.000 7.000 0.866 10 20.95 0.1418 9.000 1.276 Vel = 7.777 20.95 16.142 K Factor = 5.21 2 22.00 1.049 1E 2.000 2.000 15.439 K Factor = 5.6 to 120 IT 5.000 7.000 0.866 11 22.00 0.1552 9.000 1.397 Vel = 8.167 22.00 17.702 K Factor = 5.23 3 22.19 1.049 1E 2.000 2.000 15.699 K Factor = 5.6 to 120 IT 5.000 7.000 0.866 12 22.19 0.1577 9.000 1.419 Vel = 8.238 22.19 17.984 K Factor = 5.23 4 23.11 1.049 1E 2.000 2.000 17.024 K Factor = 5.6 to 120 IT 5.000 7.000 0.866 13 23.11 0.1700 9.000 1.530 Vel = 8.579 23.11 19.420 K Factor = 5.24 5 24.93 1.049 1E 2.000 2.000 19.815 K Factor = 5.6 to 120 IT 5.000 7.000 0.866 14 24.93 0.1957 9.000 1.761 Vel = 9.255 24.93 22.442 K Factor = 5.26 6 25.74 1.049 1E 2.000 2.000 21.125 K Factor = 5.6 to 120 IT 5.000 7.000 0.866 15 25.74 0.2076 9.000 1.868 Vel = 9.555 25.74 23.859 K Factor = 5.27 7 26.88 1.049 1E 2.000 2.000 23.041 K Factor = 5.6 to 120 IT 5.000 7.000 0.866 16 26.88 0.2249 9.000 2.024 Vel = 9.979 26.88 25.931 K Factor = 5.28 8 0 1.049 1E 2.000 2.000 27.937 0 to 120 IT 5.000 7.000 0.866 0 17 0 0 9.000 0 0 Vel = 0 28.803 K Factor = 9 0 1.049 1E 2.000 2.000 21.575 0 to 120 IT 5.000 7.000 0.866 0 14 0 0 9.000 0 0 Vel = 0 22.441 K Factor = I Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 SCHMIDT FIRE PROTECTION Page 6 CALLAWAYPAINTBOOTHS Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv Notes ****** Point Qt Pf/UL Eqv. Ln. Total Pf. - Pn 10 20.95 1.049 11.000 16.143 to 120 11 20.95 0.1418 11.000 1.560 Vel = 7.777 11 22.01 1.38 2.000 17.703 to 120 12 42.96 0.1410 2.000 0.282 Vel = 9.215 12 22.19 1.61 10.000 17.985 to 120 13 65.15 0.1436 10.000 1.436 Vel = 10.267 13 23.10 1.61 12.000 19.420 to 120 14 88.25 0.2517 12.000 3.021 Vel = 13.908 14 24.93 2.067 12.000 22.442 to 120 15 113.18 0.1182 12.000 1.418 Vel = 10.821 15 25.74 2.067 12.000 23.859 to 120 16 138.92 0.1726 12.000 2.071 Vel = 13.282 16 26.88 2.067 12.000 25.931 to 120 17 165.80 0.2394 12.000 2.873 Vel = 15.852 17 2.067 1E 5.000 14.000 28.804 to 120 5.000 18 165.80 0.2394 19.000 4.549 Vel = 15.852 18 2.067 2E 5.000 8.000 33.353 to 120 10.000 19 165.80 0.2394 18.000 4.310 Vel = 15.852 19 2.227 2E 7.189 24.000 37.662 to 120 iT 14.378 28.756 6.063 20 165.80 0.1665 52.756 8.785 Vel = 13.656 20 2.731 4L 6.537 92.000 52.511 to 120 26.147 21 165.80 0.0617 118.147 7.285 Vel = 9.081 21 2.731 2L 6.537 16.000 59.796 to 120 lB 11.439 24.513 6.930 22 165.80 0.0617 40.513 2.498 Vel = 9.081 22 2.731 1L 6.537 28.000 69.223 to 120 iT 19.611 26.148 -10.503 23 165.80 0.0617 54.148 3.339 Vel = 9.081 23 6.357 iT 37.720 12.000 62.059 to 120 37.720 24 165.80 0.0010 49.720 0.050 Vel = 1.676 24 6.357 12L 11.316 335.000 62.109 to 120 135.793 6.895 25 165.80 0.0010 470.793 0.474 Vel = 1.676 25 6.357 1A 33.948 11.500 69.478 to 120 1G 3.772 75.440 4.981 26 165.80 0.0010 lT 37.720 86.940 0.088 Vel = 1.676 I Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 SCHMIDT FIRE PROTECTION Page T. CALLAWAYPAINTBOOTHS Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv Notes ****** Point Qt Pf/UL Eqv. Ln. Total Pf Pn 26 8.249 iT 38.923 3.500 74.546 to 120 38.923 27 165.80 0.0003 42.423 0.012 Vel = 0.995 27 . 8.249 1.330 74.558 to 120 0.576 28 - 165.80 1.330 Vel = 0.995 28 8.27 1L 19.468 6.000 75.135 to 140 19.468 1.516 29 165.80 0.0002 25.468 0.005 Vel = 0.990 29 7.98 3L 18.589 145.000 76.656 to 150 55.763 30 165.80 0.0002 200.763 0.044 Vel = 1.064 30 250.00 8.27 3L 19.468 15.000 76.700 Qa = 250 to 140 58.403 15.000 Fixed loss = 15 31 415.80 0.0012 73.403 0.085 Vel = 2.483 31 7.98 1G 5.720 40.000 91.785 to 150 iT 50.046 55.763 SRC 415.80 0.0012 95.763 0.116 Vel = 2.667 415.80 91.901 K Factor = 43.37 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087