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Home My WebLink AboutAlpha Mechanical Heating & Air Conditioning Inc; 2005-11-02; Part 2 of 2Georgina Cole Library Project No.39421 HVAC Replacement a SECTION 09900 PAINTING , PART 1 - GENERAL . .r 1.01 1. 2. a 1.02 A. B. 1.03 A. SECTION INCLUDES Supply and apply interior and exterior painting; Preparing and repairing surfaces as required. Exposed new work specified in other Sections that are specified or scheduled to be finished and are: 1. Not finished as part of work of other Sections and not listed under Article 1.01-C, shall be finished as specified under this Section. Following items shall not be painted unless otherwise noted: 1. 2. 3. 4. 5. 6. 7. 8. Brass valves, chromium or nickel-plated piping and fittings. Fabric connections to fans. Flexible conduit connections to equipment, miscellaneous nameplates, stamping and instruction labels and manufacturer's data. Mechanical and electrical utility lines and piping underfloor excavated areas or crawl spaces unless otherwise noted. Products and equipment having a complete factory finish, unless otherwise noted. Structural and miscellaneous, steel, open web steel joints and metal floor decking which will not be exposed in final construction, shall have no finish other than one coat of shop primer. Items specified with galvanized finish. Brass, bronze, aluminum, lead, stainless steel, and chrome or nickel-plated surfaces. . RELATED SECTIONS Section 07920: Caulking and Sealants. Section 09250: Gypsum Drywall. SUBMITTALS Submit in accordance with Section 01 330: Submittals. PAINTING 09900 - 1 Georgina Cole Library HVAC Replacement Project No.39421 2. 3. 1. Submit a complete list of all materials to be furnished stating supplier and distributor's names with product recommendations. Submit manufacturer's standard color samples for each type of paint specified. Once colors have been selected, submit 3 samples of each color selected for each type of paint, on standard 8-1/2" x 11" spray-out panel. Submit shop drawings, MSDS sheets, samples, and product data as required to the Engineer for approval. Provide product data on all finishing products. 2. 4. 5. Submit color samples as required to the Engineer for approval. Submit two samples 2 x 6 inch in size illustrating range of color available for each surface finishing product scheduled for selection. 6. 7. Applicator shall apply per manufacturer's application instructions. Contractor shall maintain a copy, on site, of all MSDS sheets for the products used on the project. Contractor ~. shall also provide the Owner with an additional copy of the file. 1.04 QUALITY ASSURANCE 1. Paint materials shall comply with applicable requirements of the Food and Drug Administration's (F.D.A) Lead Law and the SCAQMD. All painters shall be Lead Certified. 1. 2. Regulatory Requirements: Materials shall conform to all state, federal, and local codes for flame/fuel/smoke ratings requirements for finishes. 1.05 DELIVERY, STORAGE AND HANDLING 1. Contractors shall deliver products to site in sealed and labeled containers; inspect to verify acceptance. Container labeling to include manufacturer's name, type of paint, brand name, brand code, coverage, surface preparation, drying time, cleanup, color designation, and instructions for mixing and reducing. Store paint materials at minimum ambient temperature of 45 degrees F. and P maximum of 90 degrees F in well ventilated area, unless required otherwise by manufacturer's instructions. Take precautionary measures to prevent fire hazards and spontaneous combustion. All materials stored inside a building shall be covered with a fireproof tap. 2. 3. 4. 1.06 ENVIRONMENTAL REQUIREMENTS PAINTING 09900 - 2 Georgina Cole Library Project No.39421 HVAC Replacement 1. 2. 3. 4. 1.07 1. 1.08 2. 3. PART 2 2.01 ' 2.02 . PART 3 : 3.01 r- 1. 2. Contractors shall provide continuous ventilation and heating in the facilities to maintain surface and ambient temperatures above 45 degrees F for 24 hours before, during, and 48 hours after application of finishes unless otherwise specified. Contractors shall not apply exterior coatings during rain or snow or when relative humidity exceeds manufacturer's recommendation. Minimum Application Temperatures for Latex Paints: 45 degrees F for interiors; 50 degrees F for exterior, unless otherwise specified. Minimum Application Temperature for Varnish and Epoxy Finishes: 65 degrees F for interior or exterior, unless otherwise specified. ' WARRANTY Material and workmanship warranty shall be in accordance with requirements of the Contract Documents, except that warranty shall be furnished jointly by Contractor and material manufacturer. EXTRA STOCK. CONTRACTOR SHALL: Provide a one-gallon container of each color for touch-up work to the City Project Manager. Label each container with color, texture, and room locations in addition to the manufacturer's label. PRODUCTS ACCEPTABLE MANUFACTURERS Paint specifications are based on Sherwin Williams product numbers. Manufacturer's equal in Glidden, Benjamin Moore and Vista products are acceptable alternatives. ACCESSORY MATERIALS Linseed oil, shellac, turpentine, paint thinners and other materials not specifically indicated but required to achieve the finishes specified of commercial quality. EXECUTiON I N S P ECT IO N Verify that surfaces are ready to receive work as instructed by the product manufacturer. Beginning of installation means acceptance of existing surfaces and/or substrate. Examine surfaces scheduled to be finished prior to commencement of work. Report on any condition that may potentially affect proper application. PAINTING 09900 - 3 Georgina Cole Library HVAC Replacement 3. 3.02 1. 2. 3. D. 5. A. 6. 7. 8. 9. 10. 11. 12. 13. Project No.39421 Do not apply finishes unless moisture content of surfaces are within manufacturer's recommendations. PREPARATION Remove electrical plates, hardware, light fixture trim and fittings prior to preparing surfaces or finishing. Correct minor defects and clean surfaces which affect work of this section. Proper sealant shall be applied to marks which may bleed through surface finishes. Impervious Surfaces: remove mildew by scrubbing with solution of tri-sodium substitute and bleach. Rinse with clean water and allow surface to dry. Aluminum Surfaces Scheduled for Paint Finish: Remove surface contamination by steam or high pressure water. Remove oxidation with acid etch and solvent washing. Apply etching primer immediately following cleaning. Asphalt, Creosote, or Bituminous Surfaces Scheduled for Paint Finish: Remove foreign particles to permit adhesion of finishing materials. Apply compatible sealer or primer. Insulated Coverings: Remove dirt, grease, and oil from canvas and cotton. Concrete Floors: Remove contamination, acid etch, and rinse floors with clear water. Verify required acid-alkali balance is achieved. Allow to dry and test for moisture content with the Visqueen test method. Copper Surfaces Scheduled for a Paint Finish: Remove contamination by steam, high pressure water, or solvent washing. Apply vinyl etch primer immediately following cleaning. Copper Surfaces Scheduled for a Natural Oxidized Finish: Remove contamination by applying oxidizing solution of copper acetate and ammonium 'chloride in acetic acid. Rub on repeatedly for required effect. Once attained, rinse surfaces with clear water and altow to dry. Gypsum Board Surfaces: Latex fill minor defects. Spot prime defects after repair. Galvanized Surfaces: Remove surface contamination and oils and wash with solvent. Apply coat of etching primer. Concrete and Unit Masonry Surfaces Scheduled to Receive Paint Finish: Remove dirt, loose mortar, scale, salt or alkali powder, and other foreign matter. Remove oil and grease with a solution of tri-sodium substitute; rinse well and allow to dry. Remove stains caused by weathering of corroding metals with a solution of sodium metasilicate after thoroughly wetting with water. Allow to dry. Plaster Surfaces: Fill hairline cracks, small holes, and imperfections with latex patching plaster. Make smooth and flush with adjacent surfaces. Wash and neutralize high alkali surfaces. PAINTING 09900 - 4 Georgina Cole Library HVAC Replacement Project No.39421 .. . .. 14. Uncoated Steel and Iron Surfaces: Remove grease, scale, dirt and rust. Where heavy coatings of scale are evident, remove by wire brushing or sandblasting; clean by washing with solvent. Apply a treatment of phosphoric acid solution, ensuring weld joints, bolts and nuts are similarly cleaned. Spot prime paint after repairs. Shop Primed Steel Surfaces: Sand and scrape to remove loose primer and rust. Feather edges to make touch-up patches inconspicuous. Clean surfaces with solvent. Prime bare steel surfaces. 15. B. Interior Wood Items Scheduled to Receive Finish: Wipe off dust and grit prior to priming. Seal knots, pitch streaks, and sappy sections with sealer. Fill nail holes and cracks after primer has dried; sand between coats. Exterior Wood Scheduled to Receive Paint Finish: Remove dust, grit and foreign matter. Seal knots, pitch streaks, and sappy sections. Fill nail holes with tinted exterior caulking compound after prime coat has been applied. 16. 17. Wood and Metal Doors Scheduled for Painting: Seal top and bottom edges with primer. 3.03 PROTECTION 1. Protect all areas and equipments surrounding the work of this section from damage, dust, or disfiguration. Repair damage to other surfaces caused by work of this section. 2. 3. Furnish drop cloths, shields, and protective methods to prevent spray or droppings from disfiguring other surfaces. 4. Remove empty paint containers from site. i-.i 3.04 APPLICATION 1. 2. 3. 4. Apply products in accordance with manufacturer's instructions. Do not apply finishes to surfaces that are not dry. Apply each coat to uniform finish. Apply each coat of paint slightly darker than preceding coat unless otherwise Sand lightly between coats, if product requires, to achieve desired finish. Allow applied coat to dry before next coat is applied. I,: ., approved. 5. 6. 7. Where clear finishes are required, tint fillers to match wood. Work fillers into the grain before set. Wipe excess from surface. 09900 - 5 PA1 NTI NG Georgina Cole Library Project No.39421 HVAC Replacement 8. 9. Prime back surfaces of interior and exterior woodwork with primer paint. Prime back surfaces of interior woodwork scheduled to receive stain or varnish finish with gloss varnish reduced 25 percent with mineral spirits. FINISHING MECHANICAL AND ELECTRICAL EQUIPMENT Remove unfinished louvers, grilles, covers, and access panels on mechanical and electrical components. Do not paint mechanical and electrical equipment, including conduits, panels, and duct work. Replace identification markings when painted accidentally. Replace electrical plates, hardware, light fixture trim, and fittings removed prior to finishing. 3.05 1. 2. 3. 3.06 CLEANING 1. 2. As work proceeds, promptly remove paint where spilled, splashed, or spattered. During progress of work, maintain premises free of unnecessary accumulation of tools, equipment, surplus materials, and debris. Collect cotton waste, cloths, and material which may constitute a fire hazard, place in closed metal containers and remove daily from site. 3. 3.07 SCHEDULE - EXTERIOR SURFACES A. Concrete, Concrete Block, Restored Masonry and Cement Plaster I. One coat - Sherwin-Williams Heavy Duty Blockfiller - B42W46. No more than 10 pin holes per block allowed - (1534 mils wet, 8-18 mils dry). Two coats - Sherwin-Williams Metalatex Acrylic Semi-gloss - B42W101 - (4 mils wet, I .4 mils dry each coat). 2. Optional System for Concrete, Block, Restored Masonry and Cement Plaster 1. One coat - Shewin-Williams ProMar Masonry Conditioner - B46W1000 - (4 mils wet, 2.2. mils dry). Two coats - Shetwin-Williams Elastomeric Waterproofing Coating - A5 Series - Elastomeric Coating must be applied free of pinholes and air bubbles. (IO mils wet, 4.8 mils dry each coat). r 2. 3. Steel - Unprimed 1. One coat - Sherwin-Williams DTM Acrylic Primer Finish - B66W1- (5-10 mils PAINTING 09900 - 6 Georgina Cole Library Project No.39421 HVAC Replacement i. I, .: 3.08 wet, 2.5 -5 mils dry). Two coats - Sherwin-Williams Metalatex Acrylic Semi-gloss - B42W101 - (4 mils wet, 1.4. mils dry). 2. Steel - Shop Primed 1. One coat - Sherwin-Williams DTM Acrylic Primer Finish - B66W1- (5-10 mils wet, 2.5 - 5 mils dry). Two coats - Shewin-Williams Metalatex Acrylic Semi-gloss - B42W101 - (4 mils wet, 1.4 mils dry each coat). 2. Steel - Galvanized 1. One coat - Sherwin-Williams DTM Acryiic Primer Finish - B66W1- (510 mils wet, 2.5 - 5 mils dry). Two coats - Sherwin-Williams Metalatex Acrylic Semi-gloss - B42W101 - (4 mils wet, 1.4 mils dry each coat). 2. B. Aluminum Mill Finish 1. One coat - Sherwin-Williams DTM Wash Primer Finish - B71Y1. 2. Two coats - Sherwin-Williams Metalatex Acrylic Semi-gloss - B42W101 - (4 mils wet, 1.4 mils dry each coat). C. Wood - Painted 1. One coat of primer sealer - Sherwin-Williams A-1 00 Latex primer - B42W - (4 mils wet, 1.4 mils dry). Two coats - Sherwin-Williams Metalatex Acrylic Semi-gloss - B42W101 - (4 mils wet, 1.4 mils dry each coat). 2. Wood - Transparent 1. Solid Wood Members 1. Two coats - Sherwin-Williams Cuprinol Clear Tone Wood Finish - 158-0448. Two coats - Sherwin-Williams Cuprinol ClearTone Wood Finish - 158-0446. Note: All product must meet or exceed all local, state and federal Volatile Organic Compound (VOC) Codes. Water-based products shall be used in lieu of solution-based product. SCHEDULE - INTERIOR SURFACES PAINTING 09900 - 7 Georgina Cole Library Project No.39421 HVAC Replacement 3. Concrete, Concrete Block, Restored Masonry or Cement Plaster 1. One coat - Sherwin-Williams Heavy Duty Blockfiller - B42W46 -no more than IO pin holes per block allowed - (1 5-34 mils wet, 8-1 8 mils dry). Two coats - Sherwin-Williams Metalatex Acrylic Semi-gloss - B42W101 - (4 mils wet, 1.4 mils dry each coat). 2. 2. Steel-Unprimed 1. One coat - Sherwin-Williams DTM Acrylic Primer Finish - B66W1- (5-1 0 mils wet, 2.5-5 mils dry). 2. Two coats - Sherwin-Williams Metalatex Acrylic Semigloss - B42WlOl- (4 mils wet, 1.4 mils dry each coat). Steel - Shop Primed 1. One coat - Sherwin-Williams DTM Acrylic Primer Finish - B66Wl - (5-10 mils wet, 2.5 - 5 mils dry). 2. Two coats - Sherwin-Williams Metalatex Acrylic Semi-gloss - B42W101 - (4 mils wet, 1.4 mils dry each coat). Steel - Galvanized 1. One coat - Sherwin-Williams DTM Acrylic Primer Finish - B66W1- (5-10 mils wet, 2.5 - 5 mils dry). 2. Two coats - Sherwin-Williams Metalatex Acrylic Semi-gloss - B42W101- (4 mils wet, 1.4 mils dry each coat). 3. Plaster, Gypsum Board I. One coat - Sherwin-Williams - Promar 200 latex Wall Primer B28W200 (4 mils wet, 1.1 mils dry each coat). Two coats - Sherwin-Williams Ever Clean Interior Stain A97 Series - (4 mils wet, 1.6 mils dry each coat). 2. END OF SECTION PAINTING Georgina Cole Library HVAC Replacement Project No.39421 ' SECTION 15010 BASIC MECHANICAL REQUIREMENTS PART 1 - GENERAL 1.1 SECTION INCLUDES A. This Section specifies generat administrative and procedural requirements for plumbing and HVAC systems specified in Division 15 - Mechanical. The following administrative and procedural requirements are included in this Section to expand the requirements specified in Division 1 - General Requirements: 1. 2. Submittals. 3. Coordination drawings. 4. Record documents. Project conditions for mechanical Work. 5. Maintenance manuals. 6. Delivery, storage and handling. 7. Warranty requirements. 8. Rough-in requirements. 9. Mechanical installations. IO. Cutting and patching. ,- 8. Related Sections: 1. Division 1 - General Requirements: Requirements for administration of the Contract, applicable to Work specified in all Sections of the Specifications. 1.2 PROJECT CONDITIONS FOR MECHANICAL WORK A. Locations and Configurations: Contract drawings are schematic. Contract drawings show the specific requirements as to sizes and capacities of equipment, ducts and pipes. Space allotted and the approximate locations of equipment, ducts and pipes are shown. Install work in locations and configurations as shown on the drawings. 1. Layout and sequence Work to minimize conflicts between various systems, including Work specified in other Sections. MECHANICAL REQUIREMENTS BASIC 15010 - 1 Georgina Cole Library Project No.39421 HVAC Replacement Make minor adjustments in equipment and system layouts and routing as necessary to accommodate project conditions. See article below tied "COORDINATION DRAWINGS." 2. 1.3 B. C. D. Supports and Backing: I. Coordinate layout of hangers and supports with related Work and Work which must occupy the same general space, such as lighting fixtures, conduit and ceiling suspension system. Coordinate layout of mechanical Work with structural framing and backing and blocking work, so that adequate supports and backing are provided in a manner which does not conflict with Work specified in other Sections. Location and Configuration Conflicts: In the event of conflicts between project conditions and locations and configurations shown on drawings which require more than minor adjustments, provisions of the Conditions of the Contract shall govern resolution of conflicts, including changes in contract sum and contract time. 1. Contractor shall prepare drawings showing proposed rearrangement of Work to accommodate Project conditions and submit to Engineer for review and direction. Drawings shall include modifications to Work specified in other Divisions. Obtain directions from Engineer before proceeding with adjustments and modifications. Underground Utilities: Known underground services are shown at approximate locations on drawings. Contractor shall exercise extreme care to avoid damage in exposing underground services. 1. Where an underground facility is encountered which is not shown on drawings or mentioned in any other contract document, Contra-ctor shall immediately notify Owner and Engineer and responsible utility agency for direction. Do not proceed with Work until direction is received. 2. 2. 2. SUBMITALS A. Shop Drawings and Product Data: Refer to Section 01330 - Submittals, for requirements. Additionally, comply with the following for submittals specified in Division 15 sections. I. Submi shop drawings and product data grouped to include complete submittals of related systems, products and accessories in a single submittal. Indicate dimensions and values in units to match those specified. 2. MECHANICAL REQUIREMENTS BASIC 15010 - 2 Georgina Cole Library Project No.39421 HVAC Replacement 3. Include product data, materials lists, installation instructions, colors and finish samples, fabrication and installation drawings, calculations and other descriptive materials to completely describe proposed products and installation. Identify each item by manufacturer, brand or trade name, number, size, rating and whatever other data are necessary to properly identi and check the materials and equipment. The notation "as specified" will not be considered sufficient identification. Each submitted item shall refer to the specification section and paragraph number in which the item is specified. Coordination in Submittals: Submittals shall show evidence that field conditions have been confirmed and have been coordinated with Work specified in other sections or to be provided under separate contracts. 4. 5. 6. 1.4 COORDINATION DRAWNGS A. Coordination Drawings: Prepare coordination drawings in accordance with Section 01040- Coordination, to a scale of 1/4" = 1'-0 or larger; detailing major elements, components, and systems of mechanical equipment and materials in relationship with other systems, installations, and building components. Indicate locations where space is limited for installation and access and where sequencing and coordination of installations are of importance to the efficient flow of the Work, including (but not 'necessarily limited to) the following: 1. Indicate the proposed locations of piping, ductwork, equipment, and Clearances for installing and maintaining insulation. Clearances for servicing and maintaining equipment, including tube removal, filter removal, and space for equipment disassembly required for periodic maintenance. Equipment connections and support details. Exterior wall and foundation penetrations. Firerated wall and floor penetrations. Sizes and location of required concrete pads and bases. materials. Include the following: a. b. c. d. e. f. 9- Valve stem movement. Indicate scheduling, sequencing, movement, and positioning of large equipment into the building during construction. Prepare floor plans, elevations, and details to indicate penetrations in floors, walls, and ceilings and their relationship to other penetrations and installations. 2. 3. 4. Prepare reflected ceiling plans to coordinate and integrate installations, air outlets and inlets, light fixtures, communication systems components, sprinklers, and other ceiling-mounted items. MECHANICAL REQUIREMENTS BASIC 15010 - 3 Georgina Cole Library HVAC Replacement Project No.39421 1.5 RECORD DOCUMENTS A. Record Documents: Prepare Project Record Documents in accordance with the requirements in Section 01 700 - Project Closeout. Additionally, indicate the following installed conditions: 1. Ductwork mains and branches, size and location; locations of dampers and other control devices; and fire and/or smoke dampers. Equipment locations (exposed and concealed), dimensioned from prominent building lines. Approved substitutions, Contract Modifications, and actual equipment and materials installed. 2. 3. 1.6 OPERATION AND MAINTENANCE MANUALS . A. Provide Operation and Maintenance (O&M) manuals in accordance with Section 01700 - Project Closeout. Additionally, include the following information for equipment items: 1. Description of function, normal operating characteristics and limitations, performance curves, engineering data and tests, and complete nomenclature and commercial numbers of replacement parts. Manufacturer's printed operating procedures to include start-up, break-in, and routine and normal operating instructions; regulation, control, stopping, shutdown, and emergency instructions; and summer and winter operating instructions. 3. Maintenance procedures for routine preventive maintenance and troubleshooting; disassembly, repair, and reassembly; aligning and adjusting instructions. 2. 4. Servicing instructions and lubrication charts and schedules. I .7 DELIVERY, STORAGE, AND HANDLING A. Delivery, Storage and Handling: Provide temporary storage enclosures and covers as necessaiy to prevent damage and deterioration of materials and equipment. . 1.8 WARRANTY REQUIREMENTS Warranty: Warranty period shall also apply to services, including instruction, adjustment, testing, noise control and balancing. Warranty Submittals: 'Prepare and submit warranties in accordance with Section A. 6. 01700 - Project Closeout. MECHANICAL a REQUIREMENTS BASIC 15010 - 4 Georgina Cole Library Project No.39421 HVAC Replacement Additionally, include in warranty the rebafancing and adjustment of entire systems or parts thereof, as required for proper operation for a minimum of one year after Contract completion date established Certificate of Completion. Refer to individual product Sections of Division 15 for warranties extending beyond one year after Contract completion date. 1. 2. rr PART 2 - PRODUCTS 4 2.1 GENERAL A. All equipment and materials shall be new and the current model or type of a manufacturer regularly engaged in their production. Where two or more units of the same class of equipment are required, they shall be products of the same manufacturer. Equipment shall fit into the space allotted and shall allow adequate and acceptable clearances for entry, servicing and maintenance. The work shall be provided in an arrangement which will not necessitate cutting of structural members which not interfere with lighting or doors, and which will present the best appearance possible. Where equipment or materials are specified to be approved by and constructed and/or tested in accordance with the published standard of the UL, AMCA, ARI, or any similar nationally recognized agency, the Contractor shall submit proof that the items furnished under this specification conform to such requirements. 6. C. PART 3 - EXECUTION 3.1 ROUGH-IN REQUIREMENTS A. Rough-In: Verify final locations for rough-ins with field measurements and with the requirements of the actual equipment to be fitted and connected. Refer to product specifications in Divisions 2 through 16 for additional requirements and coordination for rough-in provisions. B. ,. 3.2 MECHANICAL INSTALLATIONS A. Products Installation: Products shall be installed in accordance with applicable requirements of authorities having jurisdiction and in accordance with manufacturer's instructions and recommendations. Sequence, coordinate, and integrate the various elements of mechanical systems, materials, and equipment. Comply with the following requirements: 1. Coordinate mechanical systems, equipment, and materials installation with other building components. Verify all dimensions by field measurements. 2. MECHANICAL REQUIREMENTS BASIC 15010 - 5 Georgina Cole Library HVAC Replacement Project No.39421 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. Arrange for chases, slots, and openings in other building components during progress of construction, to allow for mechanical installations. Coordinate the installation of required supporting devices and sleeves to be set in poured-in-place concrete and other structural components, as they are constructed. Sequence, coordinate, and integrate installations of mechanical materials and equipment for efficient flow of the Work. Give particular attention to large equipment requiring positioning prior to closing in the building. Where mounting heights are not detailed or dimensioned, install systems, materials, and equipment to provide the maximum headroom possible. Coordinate connection of mechanical systems with exterior underground and overhead utilities and services. Comply with requirements of governing regulations, franchised service companies, and controlling agencies. Provide required connection for each service. Install systems, materials, and equipment to conform with approved submittal data, including coordination drawings, to greatest extent possible. Conform to arrangements indicated by the Contract Documents, recognizing that portions of the Work are shown only in diagrammatic form. Where coordination requirements conflict with individual system requirements, refer conflict to the Architect. Install systems, materials, and equipment level and plumb, parallel and perpendicular to other building systems and components, where installed exposed in finished spaces. Install mechanical equipment to facilitate servicing, maintenance, and repair or replacement of equipment components. As much as practical, connect equipment for ease of disconnecting, with minimum of interference with other installations. Install access panel or doors where units are concealed behind finished surfaces. Install systems, materials, and equipment giving right-of-way priority to systems required to be installed at a specified slope. 3.3 CUTTING AND PATCHING A. Cutting and Patching, General: Perform cutting and patching in accordance with Section 01 045 - Cutting and Patching. Additionally, the following requirements apply: 1. Protection of Installed Work: During cutting and patching operations,'protect adjacent installations. MECHANICAL REQUIREMENTS BASIC 15010 - 6 .-. . Georgina Cole Library Project No.39421 HVAC Replacement Perform cutting, fitting, and patching of mechanical equipment and materials required to: 1. B. Uncover Work to provide for installation of ill-timed Work. 2. Remove and replace defective Work. 3. Remove and replace Work not conforming to requirements of the Contract Documents. 4. Remove samples of installed Work as specified for testing. 5. Upon written instructions from the Engineer, uncover and restore Work to provide for OwnerIEngineer observation of concealed Work. C. Protect the structure, furnishings, finishes, and adjacent materials during construction. END OF SECTION . n. L. MECHANICAL REQUIREMENTS BASIC 15010 - 7 Georgina Cole Library HVAC Replacement Project No.39421 SECTION 15052 SELECTIVE DEMOLITION PART 1 - GENERAL 1.01 SECTION INCLUDES A. This Section includes limited scope general construction materials and methods for application with mechanical installations as follows: 1. Nondestructive removal of materials and equipment for reuse or salvage as indicated. 2. Dismantling mechanical materials and equipment made obsolete by these installations. I .02 SUBMITALS A. General: Submit the following in accordance with Conditions of Contract and Division 1 and 15 Specification Sections. B. Schedules indicating proposed methods and sequence of operations for selective demolition prior to commencement of Work. Include coordination for shut-off .of utility services and details for dust and noise control. 1. Coordinate construction phasing and Owner occupancy as specified in Division 1. 1.03 PROJECT CONDITIONS A. Conditions Affecting Selective Demolition: The following project conditions apply: 1. Protect adjacent materials indicated to remain. Install and maintain dust and noise barriers to keep dirt, dust, and noise from being transmitted to adjacent areas. Remove protection and barriers after demolition operations are complete. 2. Locate, identify, and protect mechanical services passing through demolition area and serving other areas outside the demolition limits. Maintain services to areas outside demolition limits. When services must be interrupted, install temporary seruices for affected areas. Provide minimum of 48-hour notice to Architect prior to utility interruption. 1.04 SEQUENCE AND SCHEDULING A. Coordinate the shut-off and disconnection of utility services with the Owner and the utility company. Notify the City Project Manager and Engineer at least 5 days prior to B. SELECTIVE DEMOLITION 15052 -I Georgina Cole Library Project No.39421 HVAC Replacement commencing demolition operations. Perform demolition in phases as coordinated with the City Project Manager. 0 C. PART 2 - PRODUCTS (Not Applicable). - PART 3 - EXECUTION 3.01 3.02 .L' .. a- EXAM i NATION A. Examine areas where selective demolition is to occur. Determine extent of work and affect on existing conditions to remain. Advise Architect of any conditions that might create extensive alterations beyond indicated scope. SELECTIVE DEMOLITION A. B. C. D. E. General: Demolish, remove, demount, and disconnect abandoned mechanical materials and equipment, indicated to be removed and is not identified to be salvaged or saved. Materials and Equipment To Be Salvaged: Remove, demount, and disconnect existing mechanical materials and equipment indicated for removal and salvage, and deliver materials and equipment to the location designated for storage. Disposal and Cleanup: Remove from the site and legally dispose of demolished materials and equipment not indicated for salvage. Mechanical Materials and Equipment:. Demolish, remove, demqunt, and disconnect the following items: 1. . Inactive and. obsolete piping, fittings and specialties, equipment, Piping and ducts embedded in floors, walls, and ceilings may remain if such materials do not interfere with new installations. Remove materials above accessible ceilings. Drain and cap piping and ducts allowed to remain. 1. ductwork, contr'ols, fixtures, and insulation. Perform cutting and patching required for demolition. END OF SECTION SELECTIVE DEMOLITION 15052 -2 Georgina Cole Library HVAC Replacement Project No.39421 SECTION 15055 BASIC PIPING MATERIALS AND METHODS PART 1 - GENERAL 1.01 SECTION INCLUDES A. This Section specifies piping materials and installation methods common to more than one section of Division 15 and includes joining materials, fire stop sealants, and basic piping installation instructions. 1.02 RELATED SECTIONS A. The following sections contain requirements that relate to this section: 1. Division 15 Section "Basic Mechanical Requirements" applies to the work of this Section. Piping materials and installation methods peculiar to individual systems are specified within their respective system specification sections of Division 2 and 15. Valves are specified in a separate section and in individual piping system sections of Division 15. 2. 3. 4. 5. Division 15 "Mechanical Identification". Division 15 "Supports and Anchors". 1.03 SUBMITTALS A. Refer to Division 1 and "Basic Mechanical Requirements" for administrative and procedural requirements for submittals. Product Data: Submit product data on fire stop sealants. B. 1.04 QUALITY ASSURANCE A. Welding procedures and testing shall comply with ANSI Standard 831.1.0 - Standard Code for Pressure Piping, Power Piping, and The American Welding Society, Welding Handbook. Soldering and Brazing procedures shall conform to ANSI B9.1 Standard Safety Code for Mechanical Refrigeration. 1.05 DELIVERY, STORAGE, AND HANDLING B. A. Provide factory-applied plastic end-caps on each length of pipe and tube, except for concrete, corrugated metal, hub-and-spigot, and clay pipe. Maintain end- caps through shipping, storage and handling to prevent pipe-end damage and BASIC PIPING MATERIALS AND METHODS 15055 -1 Georgina Cole Library Project No.39421 HVAC Replacement prevent entrance of dirt, debris, and moisture. Protect stored pipes and tubes. Elevate above grade and enclose with durable, waterproof wrapping. When stored inside, do not exceed structural capacity of the floor. Protect flanges, fittings, and specialties from moisture and dirt by inside storage and enclosure, or by packaging with durable, waterproof wrapping. B. C. PART 2 - PRODUCTS 2.01 PIPE AND FITTINGS A. Refer to the individual piping system specification sections in Division 15 for specifications on piping and fittings relative to that particular system. Weld-0-Lets: Welding Weld-0-Lets may be used in lieu of tees where branch connection pipe size is two or more pipe sizes smaller than main header size. .A B. 2.02 JOINING MATERIALS A. 8. C. D. Welding Materials: Comply with Section II, Part Cy ASME Boiler and Pressure Vessel Code for welding materials appropriate for the wall thickness and chemical analysis of the pipe being welded. Brazing Materials: Comply with SFA-5.8, Section II, ASME Boiler and Pressure Vessel Code for brazing filler metal materials appropriate for the materials being joined. - Soldering Materials: Refer to individual piping system specifications for solder appropriate for each respective system. 1. Gaskets for Flanged Joints: Gasket material shall be full-faced for cast-iron flanges and raised-face for steel flanges. Select materials to suit the service of the piping system in which installed and which conform to their respective ANSI Standard (A21.11, B16.20, or B16.21). Provide materials that will not be detrimentally affected by the chemical and thermal conditions of the fluid being carried. Soldering materials shall not contain lead. 2.03 SLEEVES AND SEALS A. Sleeves: I. Sheet-Metal Sleeves: 2" thru 3" - 20 gage, 4" thru 6" - 16 gage, 7"and Larger, 16 gage, galvanized sheet metal, round tube closed with welded longitudinal joint. 2. Steel Sleeves: Schedule 40 galvanized, welded ' BASIC PIPING MATERIALS AND METHODS steel pipe, ASTM A53, 15055 -2 Georgina Cole Library HVAC Replacement Grade A. Project No.39421 3. Galvanized steel telescoping type: Galvanized sheet metal per manufacturers standards. Polyethylene Sleeves: Manufacturer's standard product. 4. 6. Mechanical Sleeve Seals: Modular mechanical type, consisting of interlocking synthetic rubber links shaped to continuously fill annular space between pipe and sleeve, connected with bolts and pressure plates which cause rubber sealing elements to expand when tightened, providing watertight seal and electrical insulation. . 2.04 FIRESTOP SEALANT A. Fire-stopping material shall be asbestos-free and capable of maintaining an effective barrier against flame and gases in compliance with the following requirements: 1. 2. 3. Material when installed shall have the same fire rating as the assembly in which it is being installed. Flame Spread: 25 or less, ASTM E 84. Smoke Development: 50 or less, ASTM E 84. Combustibility: Noncombustible, ASTM E 136. B. 2.05 PIPING ISOLATION A. Manufacturer's standard product for providing sound and electrolysis isolation. PART 3 - EXECUTION 3.01 PREPARATION A. Ream ends of pipes and tubes, and remove burrs. Bevel plain ends of steel pipe. Remove scale, slag, dirt, and debris for both inside and outside of piping and fittings before assembly. B. 3.02 INSTALLATtONS A. General Locations and Arrangements: Drawings (plans, schematics, and diagrams) indicate the general location and arrangement of the piping systems. Location and arrangement of piping layout take into consideration pipe sizing and friction loss, expansion, pump sizing, and other design considerations. So far as practical, install piping as indicated. Refer to individual system specifications for BASIC PIPING MATERIALS AND METHODS 15055 -3 Georgina Cole Library HVAC Replacement Project No.39421 requirements for coordination drawing submittals. B. Conceal all pipe installations in walls, pipe chases, utility spaces, above ceilings, below grade or floors, unless indicated otherwise. Install piping free of sags or bends and with ample space between piping to permit proper insulation applications. Install exposed piping at right angles or parallel to building walls. Diagonal runs are not permitted, unless expressly indicated on the Drawings. Install piping tight to slabs, beams, joists, columns, walls and other permanent elements of the building. Provide space to permit insulation applications, with 1" clearance outside the insulation. Allow sufficient space above removable ceiling ' panels to allow for panel removal. Locate groups of pipes parallel to each other, spaced to permit applying full insulation and servicing of valves. Install drains at low points in mains, risers, and branch lines consisting of a tee fitting, 314" ball valve, and short 3/4" threaded nipple and cap. C. D. E. F. G. H. Exterior Wall Penetrations: Seal pipe penetrations through exterior walls using sleeves and mechanical sleeve seals. Coordinate to provide curb, minimum 4" above finish floor, for all pipe shafts or floor openings for multiple pipes. I. J. Fire Barrier Penetrations: Where pipes pass through fire rated walls, partitions, ceilings, or floors, the fire rated integrity shall be maintained. Refer to Division 7 for special sealers and materials. 3.03 MANNER IN WHICH PIPE SHALL BE SUPPORTED A. Horizontal Pipes: Hangers and supports shall be hung from solid rods, and lengths of which shall be adjustable. Strap hangers will not be permitted. In lieu of individual hangers, trapeze hangers may be used for parallel pipes, details of which shall be submitted to the Engineer for approval. Hanger rods for both single and trapeze hangers shall be hung from suitable clips, beam clamps or inserts, as necessary. For concrete construction, inserts shall be set in forms before concrete is poured. Explosive type fasteners or studs will not be permitted. "Phillips" type shield may be used when authorized by the Engineer. No piping shall be supported by any wire, rope, wood or other makeshift device. .. B. Provide hangers size and spacing per SMACNA "Guidelines for Seismic Restraint of Mechanical Systems". C. Where building construction does not permit the above specified spacing of hangers, the Contractor shall provide adequate additional steel supports. Location and details shall be submitted to the Engineer for approval. In all cases, a pipe supports shall be spaced to provide adequate support for the pipes, the BASIC PIPING MATERIALS AND METHODS 15055 -4 Georgina Cole Library Project No.39421 HVAC Replacement medium in the pipes, insulation, valves and fittings. All vertical pipe lines shall be supported, not hung, at each floor. Malleable iron or steel pipe clamps of ample size, bolted around the pipes, shall be used for these pipe supports. All vertical water piping shall have vibration isolators between support clamp and structure. Pipe hangers shall be of the positive restraint type or be provided with approved restraint clips to prevent lateral movement of attachment. Pipe hangers shall be of the positive restraint type or be provided with approved restraint clips to prevent lateral movement of attachment. Contractor may refer to details applicable in the SMACNA "Guidelines for Seismic Restraint of Mechanical Systems". D. E. F. G. 3.04 FllTlNGS AND SPECIALTIES A. 6. Use fittings for all changes in direction and all branch connections. Remake leaking joints using new materials. C. Install Y-type strainers with blowdown valves on the supply side of each control valve, pressure reducing or regulating valve, solenoid valve, and elsewhere as indicated. D. Install unions adjacent to each valve, and at the final connection to each piece of equipment and plumbing fixture having 2' and smaller connections, and elsewhere as indicated. Install Flanges in piping 2-112" and larger, where indicated, adjacent to each valve, and at the final connection to each piece of equipment. Install dielectric unions to connect piping materials of dissimilar metals in dry piping systems (gas, compressed air, vacuum). Install dielectric fittings to connect piping materials of dissimilar metals in wet piping systems (water, steam). E. F. G. 3.05 JOINTS A. Steel Pipe Joints: 1. Pipe 2" and Smaller. Thread pipe with tapered pipe threads in accordance with ANSI B2.1. Cut threads full and clean using sharp dies. Ream threaded ends to remove burrs and restore full inside diameter. Apply pipe joint lubricant or sealant suitable for the service for which the pipe is intended on the male threads at each joint and tighten to leave not more then 3 threads exposed. 2. Pipe Larger than 2": BASIC PIPING MATERIALS AND METHODS 15055 -5 Georgina Cole,Library HVAC Replacement Project No.39421 a. Weld pipe joints (except for exterior water service pipe) in accordance with ASME Code for Pressure Piping, B31. b. Weld pipe joints of exterior water service pipe in accordance with AWWA (2206. c. Install flanges on all valves, apparatus, and equipment. Weld pipe flanges to pipe ends in accordance with ASME 631 .I .O Code for Pressure Piping. Clean flange faces and install gaskets. Tighten bolts to toque specified by manufacturer of flange and flange bolts, to provide uniform compression of gaskets. B. Non-ferrous Pipe Joints: 1. Brazed and Soldered Joints: For copper tube and fitting joints, braze joints in accordance with ANSI 631.1.0 -Standard Code for Pressure Piping, Power Piping and ANSI B9.1 - Standard Safety Code for Mechanical Refrigeration. 2. Thoroughly clean tube surface and inside surface of the cup of the fittings, using every fine emery cloth, prior to making soldered or brazed joints. Wipe tube and fittings clean and apply flux. Flux shall not be used as the sole means for cleaning tube and fitting surfaces. 3. Mechanical Joints: Flared compression fittings may be used for refrigerant lines 3/4" and smaller. C. Joints for other piping materials are specified within the respective piping systems sections. 3.06 INSTALLATION OF SLEEVES .. . . ..*%. A. Provide pipe sleeves for pipes to pass through walls, floor and roofs. Diameter of sleeve to be I-inch larger than the outside diameter of pipe or pipe and covering of insulated pipe. Galvanized steel telescoping type sleeves or polyethylene may be used. Where seepage may occur, use steel pipe sleeves. All pipe sleeves through floors other than floors on grade shall extend 2-inches above finished floor and shall be caulked with mineral wool. Provide collar where polyethylene sleeve is used. Where required in existing construction, or where sleeves have been omitted, openings for pipe may be core drilled in floors and/or walls or partitions, providing prior acceptance of such core drilling is obtained from the Structural Engineer. Holes core drilled through floors above grade shall be provided with sleeves extending 2-inches above finish floor as hereinbefore specified. Seal with resilient "Sealant." Dow coming "Fire Stop" or equal. B. C. . D. 3.07 INSTALLATION OF FIRE STOP SEALANT a BASIC- PIPING MATERIALS AND METHOPS'. 15055 -6 I- Georgina Cole Library HVAC Replacement Project No.39421 A. 8. C. D. Firestopping shall be provided at, but not limited to, duct, and piping penetrations through floor slabs and through time rated partitions or fire walls. Install firestopping materials in accordance with the manufacturer's instructions and the following requirements. 1. Filling: Firestopping materials shall completely fill the void spaces. Coordination: Coordinate the work with other trades. Firestopping materials at penetrations of insulated pipes and ducts shall be applied prior to insulation, unless the insulation meets the requirements specified for firestopping. Surface Preparation: Surfaces to be in contact with firestopping materials shall be free of dirt, grease, oil, loose material, rust, or other substances that may affect proper fitting or the required fire resistance. I 3.08 INSTALLATION OF PIPE ISOLATION A. Provide sound and electrolysis isolation on all uninsulated, pipes, Semco "Trisolators" or Potter-Roemer "Prisolators". I 3.09 INSTALLATION OF PIPE FLASHING A. Pipe flashing assemblies, "Semco" Fig. 11004, as required, seal the joint between flashing and pipe with waterproofing compound. Install counterfiashing sleeve to cover a minimum of 3/4-inch to top of lead flashing, making the top joint permanently watertight. 3.10 TESTING OF PIPING A. B. C. D. Provide notification of test at least three working-days prior to tests on all or part of any piping system. Do not allow or cause any piping system to be insulated, covered, concealed or enclosed until such systems have been tested and reviewed. Provide all necessary materials (including temporary isolation valves or caps), pumps, testing media and labor for testing. Temporarily remove any device in piping system which will not withstand test pressure specified, and reinstall Game after successful testing. Test time begins to accrue after full test pressure is achieved. Testing and inspection of all piping systems and associated equipment for leaks shall be accomplished after installation and cleaning and prior to placing into service. Flanges, threaded joints and all welds shall be left unpainted and A rigid visual inspection of each specific piping system shall be made prior to conducting tightness tests, to ascertain that all appurtenances and equipment are provided, properly connected and supported, and in all respects ready for testing. uninsulated until the piping systems have been approved. I BASIC PIPING MATERIALS AND METHODS 15055 -7 Georgina Cole Library HVAC Replacement Project No.39421 E. Equipment such as pumps, chillers, tanks, heat exchangers, flexible hose, safety valves and similar equipment shall not be subjected to the piping system test pressure. Equipment shall either be disconnected from the piping or be isolated by valves or blanks during testing and reinstalled affer acceptance by the Owner. Indicating pressure gauges mounted locally may be tested with the lines provided the test pressure does not exceed the scale range. Orifice plates, rotometers, displacement meters and other line inserts shall either not be installed until completion of all testing, or shall be removed prior to any tests and reinstalled after test has been accepted by the Owner. F. I' G. H. The application of pressure to a system shall be under control at all times, so that in no case shall the test pressure be exceeded by more than 6 percent. Gauges used for testing shalt be tested for accuracy as directed or approved by the Owner, and then installed as close as possible to the low point of the piping system. I. J. Do not apply test pressure until the piping system and its contents approach the same temperature. While piping is under test, exercise care that excessive pressure does not occur due to increase in ambient temperature. K. L. Control Valves: 1. Control valves which are installed with block and by-pass valve shall have the block valve closed, the by-pass valve opened, and a temporary pipe piece inserted in place of. the control valve (or a test blank may be installed on each side of the control valve) until all flushing and testing of all lines of that system is completed and accepted by the Owner, after which they shall be reinstalled. Control valves installed without block or by-pass valves shall be replaced by a pipe piece during flushing and testing of the system. After acceptance of the flushing they shall be reinstalled. Minimum piping test pressures shall be as noted in tabulation; or they shall be 150 percent of design pressure for the specific system being tested, whichever is higher. 2. <- M. TEST TEST PRESSURE DURATION ACCEPTABLE . .Ad Soil Water Vent, and Storm water Top of 4 No joint highest sweat vent BASIC PIPING MATERIALS AND METHODS 15055 -8 -. .. Georgina Cole Library HVAC Replacement Project No.39421 3.1 1 N. 0. Water Water 150 4 None except temp. change Fuel Gas Air 60 4 None except temp. change . Fire Water 200 4 None except Sprinkler temp. change Conduct hydrostatic tests with water at a temperature below 100 degrees F. 1. Fill the system slowly with water and vent at highest points to expel the air before pressurizing. 2. 3. Keep accurate test records of each line or system tested and provide copies of same to Owner after acceptance. Each test shall include: Carefully examine all joints for leaks or defects. Provide connections as required to accomplish the above. 1. Identification of piping system and test number. 2. Testing medium. 3. Test pressure. 4. Date of test acceptance. ADJUSTMENTS A. At the completion of the Work, completely adjust all valves and equipment for their proper use and rating. END OF SECTION BASIC PIPING MATERIALS AND METHODS . 15055 -9 Georgina Cole Library HVAC Replacement PART 1.1 1.2 1.3 1.4 .1.5 Project No.39421 SECTION 15140 SUPPORTS AND ANCHORS I - GENERAL SECTION INCLUDES A. B. Equipment bases and supports. Pipe and equipment hangers and supports. C. Sleeves and seals. D. RELATED SECTIONS Flashing and sealing equipment and pipe stacks. A. Section 15055 - Firestopping: Joint seals for piping and duct penetration of fire rated assemblies. REFERENCES A. ASTM F708 - Design and Installation of Rigid Pipe Hangers. B. MSS SP58 - Pipe Hangers and Supports - Materials, Design and Manufacturer. C. D. MSS SP69 - Pipe Hangers and Supports - Selection and Application. MSS SP89 - Pipe Hangers and Supports - Fabrication and Installation Practices. SUBMITTALS A. REGULATORY REQUIREMENTS A. Product Data: Manufacturers catalog data, including load capacity. Regulatory Requirements: Conform to applicable code for support of plumbing and hydronic piping. PART 2 - PRODUCTS 2.1 1 PIPE HANGERS AND SUPPORTS A. Specified Manufacturer: Grinnell. B. Acceptable Manufacturers: Equivalent products of the manufacturers listed below will be acceptable. Equivalent pm.&Jcts of other manufacturers will be considered, provided the contractor submits a request for substitution to the Ctty Project Manager for approval. SUPPORfS AND ANCHORS 15140 - Georgina Cole Library HVAC Replacement 1. &Line. 2. Uni-strut. 3. Tolco. C. Plumbing Piping - Condensate: 1. Conform to MSS SP58, MSS SP69, MSS SP89. Project No.39421 2.2 2.3 2.4 2 2. Copper Pipe Support: Carbon steel ring, adjustable, copper plated, or Hydra-Zorb clamp type. ACCESSORIES A. Hanger Rods: Mild steel threaded both ends, threaded one end, or continuous threaded. FLASH I NG A. Sheet Metal Flashing, General: Comply with requirements specified in Section 07620 - Sheet Metal Flashing and Trim. B. Metal Flashing: 26 gage galvanized steel. C. Metal Counterflashing: 22 gage galvanized steel. D. SLEEVES Flexible Flashing: 47 mil thick sheet, compatible with roofing. A. B. C. D. E. F. .. . Sleeves for Pipes Through Non-fire Rated Floors: 18 gage galvanized steel. Sleeves for Pipes Through Concrete: Steel pipe. See drawings for additional details. Sleeves for Pipes Through Fire Rated and Fire Resistive Floors and Walls, and Fire Proofing: Prefabricated fire rated sleeves including seals, UL listed, refer to Section 15055 - Firestopping. Sleeves for Rectangular Ductwork: Galvanized steel or wood. Firestopping Insulation: Glass fiber type, non- combustible; refer to Section 15055 - Firestopping. Sealant: Silicone; refer to Section 07920 - Joint Sealers. SUPPORTS AND ANCHORS 15140 - Georgina Cole Library HVAC Replacement Project No.39421 PART 3 - EXECUTION 3.1 3.2 .. 3.3 . .. '$3.4 ?= ' . -., . .. . .. . 3.3 3 INSTALLATION A. PIPE HANGERS AND SUPPORTS Install in accordance with manufacturer's instructions. A. B. C. D. E. F. G. H. 1. Support horizontal piping as scheduled. Install hangers to provide minimum 112 inch space between finished covering and adjacent work. Place hangers within 12 inches of each horizontal elbow. Use hangers with 1-112 inch minimum vertical adjustment. Where several pipes can be installed in parallel and at same elevation, provide multiple or trapeze hangers. Support riser piping independently of connected horizontal piping. Provide copper plated hangers and supports or cushioned pipe clamps for copper piping. Design hangers for pipe movement without disengagement of supported pipe. Prime coat exposed steel hangers and supports. Refer to Section 09900. Hangers and supports located in crawl spaces, pipe shafts, and suspended ceiling spaces are not considered exposed. EQUIPMENT CURBS Provide curbs for mechanical roof installations 14 inches minimum high above roofing surface. Flash and counterflash with sheet metal; seal watertight. Attach counterflashing mechanical equipment and lap base flashing on roof curbs. Flatten and solder joints. FLASHING A. B. C. Provide flexible flashing and metal counterflashing where piping and ductwork penetrate weather or waterproofed walls, floors, and roofs. Seal floor sink watertight to adjacent materials. Provide acoustical lead flashing around ducts and pipes penetrating equipment rooms, installed in accordance with manufacturer's instructions for sound control. - SLEEVES A. Set sleeves in position in formwork. Provide reinforcing around sleeves. SUPPORTS AND ANCHORS 15140 - .. . .. Georgina Cole Library HVAC Replacement Project No.39421 8. C. D.- - Size sleeves large enough to allow for movement due to expansion and contraction. Provide for continuous insulation wrapping. Where piping or duchnrork penetrates floor, ceiling, or wall, close off space between pipe or duct and adjacent work with fire stopping insulation and seal air tight. Provide close fitting metal collar or escutcheon covers at both sides of penetration. Install chrome plated steel escutcheons at finished surfaces. 3.4 SCHEDULES MAXIMUM HANGER ROD PIPE SIZE HANGER SPACING DIAMETER Inches Feet Inches 112 to 1-114 6.5 318 1-1/2 to 2 10 318 2-112 to 3 10 112 4 F. .. -. END OF SECTION .. 4 to 6 10 518 Georgina Cole Library Project No.39421 HVAC Replacement SECTION 15190 M ECHAN I CAL I DENTI Fl CAT1 ON PART 1 - GENERAL -. 1.1 SECTION INCLUDES A. Nameplates. B. Tags. C. Pipe Markers. D. Ceiling Tacks. 1.2 REFERENCES A. ASME A13.1 - Scheme for the Identification of Piping Systems. PART 2 - PRODUCTS 2.1 NAMEPLATES A. Nameplates: Laminated three-layer plastic with engraved black letters on light contrasting background color. @ 2.2 TAGS A. Metal Tags: Brass with stamped letters; tag size minimum 1-112 inch diameter with smooth edges. Tags shall indicate service and year valve installed. Chart: Typewritten letter size list in anodized aluminum frame. B. 2.3 PIPE MARKERS A. B. Color: Conform to ASME AI 3.1. Plastic Pipe Markers: Factory fabricated, flexible, semi- rigid plastic, preformed to fit around pipe or pipe covering; minimum information indicating flow direction arrow and identification of fluid being conveyed. 2.4 CEILING TACKS A. B. Color code as follow: Description: Steel with 3/4 inch diameter color coded head. HVAC equipment Fire dampers and/or smoke dampers - Yeliow - - Red - Red - - Smoke detectors (duct mounted j MKHANICAL IDENTIFICATION 151 90-1 Georgina Cole Library HVAC Replacement PART 3 - EXECUTIOP Project No.39421 3.1 PREPARATION A. Degrease and clean surfaces to receive adhesive for identification materials. 3.2 INSTALLATION A. 6. C. D. E. F. G. H. Install plastic nameplates with corrosive-resistant mechanical fasteners, or adhesive. Apply with sufficient adhesive to ensure permanent adhesion and seal with clear lacquer. Install tags with corrosion resistant chain. Install plastic pipe markers in accordance with manufacturer's instructions. Identify air conditioning units and with plastic nameplates. Identify control panels and major control components outside panels with plastic nameplates. Tag automatic controls, instruments, and relays. Key to control schematic. Identify piping, concealed or exposed, with plastic pipe markers. Identify service and flow direction. Install in clear view and align with axis of piping. Locate identification not to exceed 20 feet on straight runs including risers and drops, adjacent to each valve and Tee, at each side of penetration of structure or enclosure, and at each obstruction. Provide ceiling tacks to locate valves or dampers above T-bar type panel ceilings. Locate in comer of panel closest to equipment. 3.3 SCHEDULES Background Lettering Natural Gas Jdentification GdQr Natural Gas Yellow l3eIYE * 1/2" Letters for outside pipe diameter 3/4' to 1-1/4" * 3/4" Letters for outside pipe diameter 1/2" to 2" 1-1/4" Letters for outside pipe diameter 2-112" to 6 END Of SECTION Size-Cola[ * - Black MECHANICAL IDENTIFICATION .. 151 90-2 Georgina Cole Library HVAC Replacement Project No.39421 SECTION 15241 VIBRATION CONTROL PART 1 - GENERAL 1.01 SECTION INCLUDES A. Extent of vibration control work required by this section is indicated on drawings and schedules, and/or specified in other Division-I 5 sections. Types of vibration control products specified in this section include the following: Neoprene Pads; Vibration Isolation Springs; Plate-Type isolators; Double-Plate-Type Isolators; Threaded Double-Plate-Type Isolators; All-Directional Anchors; Neoprene Mountings; Spring Isolators, Free-Standing; Spring Isolators, Housed; Spring Isolators, Vertically-Restrained; Spring Isolators, Earthquake-Restrained; Seismic Snubbers; Fabricated Equipment Bases; Isolation Hangers; Riser Isolators,; Flexible Pipe Connectors. 6. _i Pad-Type Isolators; 1.02 RELATED SECTIONS A. This section is part of each Division-I5 section making reference to vibration control products specified herein. B. Vibration control products furnished as integral part of factory-fabricated equipment, are specified as part of equipment assembly in other Division-I 5 sections. C. Refer to other Division-I 5 sections for equipment foundations, hangers, sealants, gaskets, and other work related to vibration control work. D. Refer to other Division-15 sections for requirements of electrical connections to equipment isolated on vibration control products. Refer to other Division-15 sections for requirements of duct connections to air handling equipment isolated on vibration control products. E. 1.03 SUBMITTALS VIBRATION CONTROL 15241 - 1 Georgina Cole Library HVAC Replacement Project No.39421 1.04 A. 6. C. Product Data: Submit manufacturer's technical product data and installation instructions for each type of vibration control product. Submit schedule showing size, type, deflection, and location for each product furnished. 1. Catalogue cuts and data sheets on specific vibration isolators to be utilized, showing compliance with the specification. An itemized list showing the items of equipment, piping, etc., to be isolated, the isolator type and model number selected, isolator loading and deflection, and reference to specific drawing showing frame construction where applicable. Shop Drawings: Submit manufacturer's assembly-type shop drawings indicating dimensions, weights, required ctearances, and method of assembly of components. Detail bases, and show location of equipment anchoring points, coordinated with equipment manufacturer's shop drawings. 2. 1. Drawings showing equipment frame construction for each item of equipment, including dimensions, structural member sizes, support point locations, etc. 2. Written approval of the frame design to be used, obtained from the manufacturer. 3. Drawings showing methods for suspension, support, guides, &e., for piping and ductwork, etc. 4. Drawings showing methods for isolation of pipes, etc., piercing walls, slabs, beams, etc. Maintenance Data: Submit maintenance data for each type of vibration control product. Include this data, product data, and shop drawings in maintenance manual; in accordance with requirements of Division 1 - QUALITY ASSURANCE A. Manufacturer's Qualifications: Firms regularly engaged in manufacture of vibration control products, of type, size, and capacity required, whose products have been in satisfactory use in similar service for not less than 5 years. 1. Except as otherwise indicated, obtain vibration control products from Engage manufacturer to provide technical supervision of installation of vibration control products. - single manufacturer. 2. B. Vibration isolation manufacturer shall have the following responsibilities: 1. Determine vibration isolation sizes and locations. VIBRATION CONTROL 15241 -2 Georgina Cole Library Project No.39421 HVAC Replacement 2. Provide piping and equipment isolation system as scheduled or specified. 3. 4. Guarantee specified isolation system deflection. Provide installation instruction and drawings. " PART 2 - PRODUCTS 2.01 ACCEPTABLE MANUFACTURERS A. Manufacturer: Subject to compliance with requirements, provide vibration control products of one of the following: M. W. Sause & Co., Inc. (VIBREX) Mason Industries, Inc. Consolidated Kinetics, Inc. Korfund Dynamics Cop Except as otherwise indicated mechanical equipment shown on drawings shall be isolated from the structure by means of resilient vibration and noise isolators supplied by a single manufacturer to the Contractor. . 6. 2.02 VIBRATION ISOLATION AND SEISMIC RESTRAINTS A. Type and Description: 1. Type PN is a molded pad. The area of pad shall be chosen to match the load in order to achieve the required static deflection. 2. Type MN is a molded neoprene in shear element equipped with leveling bolts and baseplate with bolt holes to permit attachment to the building structure where required. Type HN is a suspension hanger with a steel box frame and a molded neoprene in shear element. A neoprene grommet shall be provided at the location where the hanger rod passes through the hanger box so that no metal-to-metal contact occurs. 3. c 4. Type MS is a bare, stable, steel spring equipped with leveling bolts and with a minimum 1/4" thick ribbed neoprene pad under the baseplate. Bolt holes shall be provided in the baseplate to permit attachment to the building structure where required. Type MSL is a bare, stable, steel spring with a ribbed neoprene pad under the baseplate. Bolt holes shall be provided in the baseplate to permit attachment to the building structure. Limit stops shall be provided to prohibit spring extension if the load is removed. These stops may also serve as rigid blocking during erection so that the installed and operating ,, i- 5. . VlBRATlON CONTROL 15241 - 3 Georgina Cole Library HVAC Replacement Project No.39421 2.03 heights shall be the same. Ciearance shall be maintained around restraining bolts and between the limit stops and the housing so as not to interfere with the spring action. Type HS is a suspension hanger with a steel box frame and a steel spring resting on a neoprene cup. The cup shall contain a steel washer designed to evenly distribute the load to the neoprene and prevent its overload or extrusion. The spring diameter and hanger box lower hole size shall be large enough to permit the hanger rod to swing through a 30-degree arc before contacting the hole and short circuiting the spring. Hangers shall be provided with an eye bolt on the spring end. Manufacturer's Consolidated Mason ComDarison Kinetics Industries Sause 6. Type Description C E S PN Neoprene Pad NPD w R MN Neoprene Mount RD ND FU HN Neoprene Hanger RH HD HSS MS Spring Mount FDS SLF RMS MSL Spring Mount with Limit Stop FLS . SLR RMLS ? HS Spring Hanger SH W30 RMXA EQUIPMENT FRAMES A. General: Mounting frames and/or brackets shall be provided to cany the load of the equipment without causing mechanical distortion or stress to the equipment. 8. Frame Types: 1. Type A frame is wide flange structure steel frame with brackets as shown on the drawings. The maximum allowable deflection of any point on the load frame relative to the unloaded frame shall be 0.005 inch. A wide flange section depth greater than l/lOth the length of the longest frame member will be accepted as satisfying the deflection requirement. (Sause RMSB). Type B frame is a channel steel structural frame with brackets as shown on the drawings. This section depth shall be greater than l/lOth the length of the longest frame member. (Sause RMSB). Type C no frame required, isolators directly attached to equipment. 2. 3. VIBRATION CONTROL 15241 -4 Georgina Cole Library HVAC Replacement Project No.39421 a 2.04 SElSMlC RESTRAINTS ..v* I A. Type I, Equipment No Vibration Isolated: Attach to the structure with B. attachments to resist a lateral force loading of not less than 0.5G. Type II, Vibration Isolated Equipment: 1. 2. 3. 4. 5. 6. Mount all vibration isolated equipment on rigid steel frames as described in the vibration control specifications unless the equipment manufacturer certified direct attachment capability. Each vibration isolated frame shall have a minimum of four all-directional seismic snubbers that are double acting and located as close to the vibration isolators as possible to facilitate attachment to the base and the structure. The snubber shall consist of interlocking steel members restrained by shock absorbent rubber material compounded to bridge bearing specifications. Elastomeric materials, replaceable and a minimum of 314 inch thick. Snubbers, manufactured with an air gap between hard and resilient material of not less than 118 inch or more than 114 inch. Install snubbers with factory set clearances. The capacity of the seismic snubber at 3/8 inch deflection shall be 3 to 4 times the load assigned to the mount grouping in its immediate area. Submittals shall include the load deflection curves up to 112-inch deflection in the x, y and z planes. Conduct test in an independent laboratory or under the signed supervision of an independent registered engineer. Bolt snubber assemblies to the test machine as the snubber is normally installed. Test report shall certify that neither the neoprene elements or the snubber body sustained any obvious deformation after release of load. C. Type 111, Seismic Restraint of Vibration Isolated Suspended Piping: I. Use a slack cable system of a minimum 5/16" aircraft at a minimum of 40 feet on center. The cable size and attachment to the pipe and structure shall be designed and signed by a licensed engineer in the State of California. "Guidelines for Seismic Restraint of Mechanical Systems." 2. 3. Support insulated piping and ductwork systems per SMACNA, 4. Piping 2 inches and smaller is exempt from special seismic bracing requirement . VIBRATION CONTROL 15241 - 5 Georgina Cole Library HVAC Replacement Project No.39421 D. Type IV, Suspended Vibration Isolated Equipment: 1. 2. Utilize a slack cable restraint system. The cable size and attachment shall be designed and signed by an engineer licensed in the State of California. 2.05 DUCTWORK A. Flexible connections shall be incorporated in the ductwork adjacent to all fan and coil units. PART 3 - EXECUTION 3.01 GENERAL A. The vibration isolation manufacturer, or his representative, shall be responsible for providing such supervision as may be necessary to assure correct installation and adjustment of the isolators. Upon completion of the installation and after the system is put into operation, the manufacturer, or his representative, shall make a final inspection and submit his report to the Architect in writing, certifying the correctness of installation and compliance with approved submittal data. No equipment of pipe shall be installed which makes rigid contact with the "building" unless it is approved in this specification or by the architect. "Building" includes slabs, beams, studs, walls, latch, etc. B. 3.02 MOUNTING A. Isolation Configuration for Floor Mounted or Suspended Equipment: Provide a maximum of four vibration isolators located at the corners of the equipment unless approval is obtained for additional isolators. Where feasible, provide three isolators. 3.03 EQUIPMENT ISOLATOR A. The equipment to be isolated shall be supported by a structural steel frame or by brackets attached directly to the machine where no frame is required. B. Brackets shall be provided to accommodate the isolator and provide a mechanical stop where indicated. The vertical position and size of the bracket shall be specified by the isolator manufacturer. The operating clearance between the bracket and the pad or floor shall be 3/8",+ 1/16. The minimum operating clearance between the frame and the pad or floor shall be 1". The frame shall be placed in position and the brackets supported temporarily by C. D. VIBRATION CONTROL 15241 - 6 Georgina Cole Library Project No.39421 HVAC Replacement 3/8" shims prior to the installation of the machine or isolators. E. After the entire system installation is completed and under full operation load, the isolator shall be adjusted so that the load is transferred from the shims to the isolator. When all isolators are properly adjusted, the shims shall be used as a gauge to check that the 3/8 clearance is maintained so that the system will remain free of stress. 3.04 PIPING ISOLATOR, VERTICAL RISER OR HORIZONTALLY SUPPORTED A. The objective and installation procedure is similar to the Equipment Isolator Installation procedures. 3.05 PIPING ISOLATOR, HORIZONTALLY SUSPENDED PIPING A. The isolators shall be installed with the isolator hanger box as close as possible to the structure. B. The isolators shall be suspended from beams, never from slab diaphragms between beams unless specifically approved. Hanger rods shall be aligned to clear the hanger box. C. 3.06 DUCTWORK A. Flexible connections shall be incorporated in the ductwork adjacent to all air moving units supported with isolators. Connections shall be as herein specified. 3.07 INSTALMTION OF SEISMIC RESTRAINT A. All seismic restraints must be installed and adjusted so that the equipment and piping vibration isolation is not degraded by utilization of the restraints. u1 - B. Equipment: 1. Position all seismic restraints with equipment in operation for proper operating clearances. Weld or bolt seismic restraints to seismic anchor plate. 2. C. Piping: 1. 2. Seismic restraint spacing shall be in accordance with hanger spacing. Provide seismic restraint for all piping in equipment rooms, in shafts, and in ceilings of occupied spaces. END OF SECTION -. VIBRATION CONTROL 15241 - 7 .. . . ... . .>-: . Georgina Cole Library HVAC Replacement Project No.39421 SECTION 15250 MECHANICAL INSULATION PART 1 - GENERAL 1.01 SECTION INCLUDES A. Extent of mechanical insulation required by this section is indicated on drawings and schedules, and by requirements of this section, and includes the following: 1. Piping Systems Insulation: a. Fiberglass. b. Calcium Silicate. C. Flexible Unicellular. 2. Ductwork System Insulation: a. Fiberglass b. Flexible Unicellular. 3. Equipment Insulation: a. Fiberglass b. Calcium Silicate C. Flexible Unicellular. 4. Acoustical Insulation a. Fiberglass 1.02 RELATED SECTIONS ' A. Refer to Division-15 section "Supports and Anchors" for protection saddles, protection shields, and thermal hanger shields; not work of this section. Refer to Division-15 section "Low Pressure Ductwork" for duct linings; not work of this section. C. Refer to Division-I 5 section "Mechanical Identification" for installation of identification devices for piping, ductwork, and equipment; not work of this section. B. 1.03 SUBMITTALS A. Product Data: Submit manufacturer's technical product data and installation instructions for each type of mechanical insulation. Submit schedule showing manufacturer's product number, K-value, thickness, and furnished accessories for each mechanical system requiring insulation. MECHANICAL INSULATION 15250 - 1 .. - a 0 i Georgina Cole Library Project No.39421 HVAC Replacement 6. Maintenance Data: Submit maintenance data and replacement material lists for each type of mechanical insulation. include this data and product data in maintenance manual. 1.04 QUALITY ASSURANCE A. FlamdSmoke Ratings: Provide composite mechanical insulation (insulation, jackets, coverings, sealers, mastics and adhesives) with flame-spread index of 25 or less, and smoke-developed index of 50 or less, as tested by ASTM E 84 (NFPA 255) method. % *% B. As a minimum, insulation shall meet installed conductance as set forth in Title 24 California Code of Regulations (CCR, Part 4) Table 10-D or as indicated in contract documents, whichever is greater. 1.05 DELWERY, STORAGE, AND HANDLING A. Deliver insulation, coverings, cements, adhesives, and coatings to site in containers with manufacturer's stamp or label, affied showing fire hazard indexes of products. Protect insulation against dirt, water, and chemical and mechanical damage. Do not install damaged or wet insulation; remove from project site. 6. PART 2 - PRODUCTS 2.01 ACCEPTABLE MANUFACTURERS A. Manufacturer: Subject to compliance with requirements, provide products of one of the following: 1. Armstrong World Industries, Inc. 2. 3. Certainteed Corp. ' 4. Knauf Fiber Glass GmbH. 5. Manville Products Corp. 6. Owens-Corning Fiberglas Cow. 7. Pittsburgh Corning Corp. 8. Rubatex Corp. Babcock and Wlcox; Insulating Products Div. 1.. i 2.02 PIPING INSULATION MATERIALS A. Fiberglass (Mineral Fiber) Piping Insulation: ASTM C547, Class 1 unless otherwise indicated. Manville Products Cop. Micro-Lok, Owens-Coming Fiberglas Corp., ASJISL-II or equivalent. B. Calcium Silicate Piping Insulation: ASTM C533, Type 1. Owens-Corning Fiberglass Corp. "Kaylo Asbestos Free" or equivalent. - MECHANICAL INSULATION 15250 - 2 Georgina Cole Library HVAC Replacement Project No.39421 C. D. E. F. Flexible Unicellular Piping Insulation: ASTM (2534, Type 1. Armstrong World Industries, Inc. or Rubatex Cop. meeting ASTM E-84 25/50 index. Jackets for Piping Insulation: ASTM C921 , Type I (Vapor Barrier) for piping with temperatures below ambient. (Type ll (Water Vapor Permeable) for piping with temperatures above ambient. Type I may be used for all piping at Installer‘s option. 1. Encase pipe fittings insulation with one-piece premolded PVC fitting covers, fastened as per manufacturer‘s recommendations. Zeston PVC Insulated fitting covers or equivalent. Encase exterior piping insulation with aluminum jacket with weather-proof construction. Staples, Bands, Wires, and Cement: As recommended by insulation manufacturer for applications indicated. Adhesives, Sealers, and Protective Finishes: As recommended by insulation manufacturer for applications indicated. I 2. 2.03 DUCTWORK INSULATION MATERIALS A. B. D. E. Flexible Fiberglass Ductwork Insulation: ASTM C553, Type I, Class B-2, Owens- Coming Fiberglas Inc. unfaced duct wrap insulation, Type 100 or equivalent. 1. Nominal thickness or equivalent to provide installed R-value as follows:. 1.5” thick - Installed R = 4.2 2.0 thick - Installed R = 5.6 Flexible Fiberglass Ductwork Insulation: ASTM C612, with ASTM C921 Type I vapor barrier jacket. OwensKoming Fiberglas All Service Wrap Insulation, Type 100 or equivalent 1. Nominal thickness or equivalent to provide an installed R-value as follows: 1.5” 2.0 thick - Installed R = 5.6 thick - Installed R = 4.2 Ductwork Insulation Accessories: Provide staples, bands, wires, tape, anchors, comer angles and similar accessories as recommended by insulation manufacturer for applications indicated. Ductwork Insulation Compounds: Provide cements, adhesives, coatings, sealers, protective finishes and similar compounds as recommended by insulation manufacturer for applications indicated. MECHANICAL INSULATION 15250 - 3 .. . Georgina Cole Library HVAC Replacement 2.04 EQUIPMENT INSULATION MATERIALS Project No.39421 A. B. C. D. E. Flexible Fiberglass Equipment Insulation: ASTM C553, Type 11, Class F-I, Owenscorning Fiberglass, Inc., Type 701 I .5 Ibs/Ft3. Calcium Silicate Equipment Insulation: ASTM C533, Type I, Block; Owendcorning Fiberglass, Inc. , Kaylo Asbestos Free, U-Grooved block insulation. Jacketing Material for Equipment Insulation! Provide canvas jacketing material, not less than 7.8 ounces per square yard, or metal jacket at Installer's option, except as otherwise indicated. Equipment Insulation Compounds: Provide adhesives, cements, sealers, mastics and protective finishes as recommended by insulation manufacturer for applications indicated. Equipment Insulation Accessories: Provide staples, bands, wire, wire netting, tape corner angles, anchors and studs as recommended by insulation manufacturer for applications indicated. 2.05 ACOUSTICAL INSULATION A. Rigid Fiberglass Insulation: ASTM C612, Class 1, Owens/Coming Fiberglass, Inc., 10 Ibs/ft3. PART 3 - EXECUTION 3.01 _-' 3.02 J; .*_ . . -. -. .. INSPECTION A. Examine installed. corrected areas and conditions under which mechanical insulation is to be Do not proceed with work until unsatisfactory conditions have been in manner acceptable to Installer. PLUMBING PIPING SYSTEM INSULATION: A. Insulation Omitted: Omit insulation on chrome-plated exposed piping (except for handicapped fixtures), air chambers, unions, strainers, check valves, balance cocks, flow regulators, drain lines from water coolers, drainage piping located in crawl spaces or tunnels, buried piping, fire protection piping, and pre- insulated equipment. B. Cold Piping: 1. Application requirements: Insulate the following cold plumbing piping systems: a. Potable chilled water piping. b. Plumbing drains carrying cold condensate. MECHANICAL INSULATION 15250 - 4 .. . Georgina Cole Library HVAC Replacement Project No.39421 3.03 C. 2. Insulate each piping system specified above with one of the following types and thicknesses of insulation: a. Fiberglass: 1" thickness. b. Flexible Unicellular: 1/2" thickness. Hot Piping: 1. Application Requirements: Insulate the following hot plumbing piping systems. a. . b. c. Insulate each piping system specified above with one of the following types and thicknesses of insulation. a. Fiberglass: 1" thick for pipe sizes up to and including 6, 1-1/2" thick for pipe sizes over 6. Potable hot water piping. Potable hot water recirculating piping. Hot drain piping (where indicated). 2. HVAC PIPING SYSTEM INSULATION A. 8. Insulation Omitted: Omit insulation on the following: 1. Condenser water piping. 2. Hot piping within radiation enclosures 3. On heating piping beyond control piping. 4. 5. Hot unions, flanges, strainers, flexible connections anG expansion ,Jints. Cold piping over drain pans. Hot Low Pressure Piping (to 250 degrees F): 1. Application Requirements: Insulate the following hot low pressure HVAC piping systems (steam piping up to 15 psi, water piping up to 250 degrees F (121 degrees C). a. b. Hot gas refrigerant piping. HVAC heating water supply and return piping. 2. Insulate each piping system specified above with one of the following types and thicknesses of insulation: MECHANICAL INSULATION 1525O - 5 Georgina Cole Library HVAC Replacement Project No.39421 a. Fiberglass: 1” thick for pipe sizes up to and including 1”, 1-1/2” thick for pipe sizes 1-1/2”; 2” thick for piping over 2”. 3.04 DUCTWORK SYSTEM INSULATION: A. Insulation Omitted: 1. Do not insulate outside air and exhaust air ductwork unless othewise indicated. All ductwork specified to be insulated that is located in mechanical rooms, located on roofs, or where exposed in conditioned spaces or to weather shall be internally lined under Section 15891 “Metal duct work'^ unless noted otherwise in these specifications or on the drawings. Return air ductwork located in return air ceiling plenums. 2. 3. Insulate the following with flexible fiberglass insulation, unfaced, 1.5” thickness unless otherwise noted. Firmly wrap insulation around duct work with all joints lapped a minimum of 2 inches. Secure insulation to ducts by means of 16 gauge soft-annealed galvanized wire spaced 12 inches on centers at loose ends. 1. 6. Warm air heating ductwork in concealed spaces, unless in ceiling plenum provide all service wrap insulation. 2. Return air ductwork in non-conditioned concealed spaces unless in ceiling supply plenum use all service wrap insulation. C. Insulate the following with Flexible Fiberglass insulation with all service vapor barrier facing, 1.5” thickness unless noted otherwise. 1. HVAC hot/cold mixed air ductwork between fan discharge or HVAC unit discharge, and room terminal unit. Outdoor air intake ductwork between air entrance and indoor fan inlet or indoor HVAC unit inlet. 2. e 3. Installation: a. Neatly wrap insulation around ducts with all joints tightly butted together. Seal transverse joints with vapor barrier facing tab overlapping all joints 2-inches and secure with vapor bamer adhesive or outward- clinch stapes on 4-inches centers. Seal longitudinal joints with 4-inch wide vapor barrier adhesive tape. Secure insulation to underside of ducts, 100 percent coverage, b. c. d. MECHANICAL INSULATION 15250 - 6 Georgina Cole Library HVAC Replacement Project No.39421 D: E. with ductwork insulation adhesive. In addition to adhesive, on underside of ducts 24-inches or greater in width, use mechanical fasteners on maximum 12-inch centers. Seal all penetrations of vapor barrier facing with vapor barrier mastic. Insulate the following with Rigid Fiberglass Insulation, 2.0" thickness unless noted otherwise. 1. HVAC and unit housings not preinsulated at the factory or where lining has been specifically omitted. 2. Installation: Fasten to ductwork with adhesive and pins per manufacturer's recommendations. Butt all joints and provide 16 gage corner angles at comers. Seal all joints with approved duct tape. Contractor's Option: Contractor may provide duct liner as set forth in Section 15891 , using equivalent installed "R" values; in lieu of external duct wrap or rigid insulation as specified above unless ductwork is specifically indicated as being unlined. e. f. 3.05 EQUIPMENT INSULATION A. Cold Equipment (Below Ambient Temperature): . 1. Application requirements: Insulate the following cold equipment: a. b. C. Refrigeration equipment, including chillers, tanks and pumps. Drip pans under chilled equipment. Cold and chilled water pumps. d. Pneumatic water tanks. 2. Insulate each item of equipment specified above with one of the following types and thicknesses of insulation: a. Fiberglass: 2" thick for cold surfaces above 35 degrees F and 3" thick for surfaces 35 degrees F and lower. B. Hot Equipment (Above Ambient Temperature): I. Application Requirements: Insulate the following hot equipment: MECHANICAL INSULATION 15250 - 7 Georgina Cole Library HVAC Replacement Project No.39421 a. b. Condensate receivers. Boilers (not pre-insulated at factory). .. L.7 2. c. Hot water expansion tanks. d. Hot water pumps. e. Condensate pumps, Insulate each item of equipment specified above with one of the following types and thicknesses of insulation. a. Fiberglass: 2" thick, except 3" thick for low-pressure boilers and steam-jacketed heat exchangers. b. Calcium Silicate: 3" thick except 4-1/2" thick for low-pressure boilers and steam-jacketed heat exchangers. 3.06 INSTALLATION OF PIPING INSULATION A. General: Install insulation products in accordance with manufacturer's written instructions, and in accordance with recognized industry practices to ensure that insulation serves its intended purpose. 6. Install insulation on pipe systems subsequent to installation of heat tracing, painting, testing, and acceptance of tests. C. Install insulation materials with smooth and even surfaces. Insulated each continuous run of piping with full-length units of insulation, with a single cut piece to complete run. Do not use cut pieces or scraps abutting each other. Clean and dry pipe surfaces prior to insulating. Butt insulation joints firmly together to ensure a complete and tight fit over surfaces to be covered. Maintain integrity of vapor barrier jackets on pipe insulation, and protect to prevent puncture or other damage. Cover valves, fittings and similar items in each piping system with equivalent thickness and composition of insulation as applied to adjoining pipe run. Install factory molded, precut or job fabricated units (at Installer's option) except where specific form or type is indicated. Extend piping insulation without interruption through walls, floors and similar piping penetrations, except where otherwise indicated. Butt pipe insulation against pipe hanger insulation inserts. For hot pipes, apply 3" wide vapor barrier tape or band over the butt joints. For cold piping apply wet coat of vapor barrier lap cement on butt joints and seal joints with 3" wide vapor D. E. F. G. H. MECHANICAL INSULATION 15250-8 Georgina Cole Library HVAC Replacement Project No.39421 barrier tape or band. 3.07 INSTALLATION OF DUCTWORK INSULATtON A. General: Install insulation products in accordance with manufacturer's written instructions, and in accordance with recognized industry practices to ensure that insulation serves its intended purpose. B. Install insulation materials with smooth and even surfaces. C. Clean and dry ductwork prior to insulating. Butt insulation joints firmly together to ensure complete and tight fit over surfaces to be covered. Maintain integrity of vapor barrier on ductwork insulation, and protect it to prevent puncture and other damage. Extend ductwork insulation without interruption through walls, floors and similar ductwork penetrations, except where otherwise indicated. Lined Ductwork: Except as otherwise indicated, omit insulation on ductwork where internal insulation or sound absorbing linings have been installed. D. E. F. 3.08 G. Ductwork Exposed to Weather: Where external insulation has been specifically indicated, protect outdoor insulation from weather by installing outdoor protective finish or jacketing as recommended by manufacturer. H. Comer Angles: Except for oven and hood exhaust duct insulation, install comer angles on external comers of insulation on ductwork in exposed finished spaces before covering with jacketing. INSTALLATION OF EQUIPMENT INSULATION A. General: Install equipment thermal insulation products in accordance with manufacturer's written instructions, and in compliance with recognized industry practices to ensure that insulation serves intended purpose. Install insulation materials with smooth and even surfaces and on clean and dry surfaces. Redo poorly fitted joints. Do not use mastic or joint sealer as filler for gaping joints and excessive voids resulting from poor workmanship. Maintain integrity of vapor-barrier on equipment insulation and protect it to prevent puncture and other damage. Do not apply insulation to equipment, breechings, or stacks while hot. Apply insulation using the staggered joint method for both single and double layer construction, where feasible. Apply each layer of insulation separately. Coat insulated surfaces with layer of insulating cement, trowled in workmanlike manner, leaving a smooth continuous surface. Fill in scored block, seams, B. C. D. E.. F. MECHANICAL INSULATION 15250 - 9 Georgina Cole Library HVAC Replacement Project No.39421 chipped edges and depressions, and cover over wire netting and joints with cement of sufficient thickness to remove surface irregularities. Cover insulated surfaces with all-service jacketing neatly fitted and firmly secured. Lap seams at least 2". Apply over vapor barrier where applicable. G. H. Do not insulate boiler manholes, handholes, cleanouts, ASME stamp, and manufacturer's nameplate. Provide neatly beveled edge at interruptions of insulation. Provide removable insulation sections to cover parts of equipment which must be opened periodically for maintenance; include metal vessel covers, fasteners, flanges, frames and accessories. 1. J. Equipment exposed to Weather: Protect outdoor insulation from weather by installation of weather-barrier mastic protective finish, or jacketing, as recommended by the manufacturer. 3.09 ACOUSTICAL INSTALIATION A. Install within confines of roof curbs for roof mounted air handlers and air conditioning units, and elsewhere as indicated on drawings. Cut to fit snugly within curb and around duct at duct penetrations, 4" minimum B. 1 thickness. 0 3.09 EXISTING INSULATION REPAIR A. Repair damaged sections of existing mechanical insulation, both previously damaged or damaged during this construction period. Use insulation of same thickness as existing insulation, install new jacket lap and sealed over existing. 3.10 PROTECTION AND REPLACEMENT .c A. Replace damaged insulation which cannot be repaired satisfactorily, including units with vapor barrier damage and moisture saturated units. I. 8. Protection: Insulation Installer shall advise Contractor.of required protection for insulation work during remainder of construction period, to avoid damage an deterioration. END OF SECTION MECHANICAL INSULATION 15250 - 10 Georgina Cole Library Project No.39421 HVAC Replacement SECTION 15855 AIR HANDLING UNITS PART 1 -.GENERAL 1 .l SECTION INCLUDES A. Packaged air handling units. ' . B. Combination filter/mixing boxes. C. Filter sections. D. Cooling coils. 1.2 RELATED SECTIONS A. 6. Section 15241 - Vibration Isolation. Section 15250 - Mechanical Insulation. C. Section 15890 - Ductwork. D. Section 16180 - Equipment Wiring Systems: Electrical characteristics and wiring connections. 1.3 REFERENCES . . A. B. C. D. E. F. G. H. 1. J. AFBMA 9 - Load Ratings and Fatigue Life for Ball Bearings. AFBMA 11 - Load Ratings and Fatigue Life for Roller Bearings. AMCA 99 - Standards Handbook. AMCA 210 - Laboratory Methods of Testing Fans for Rating Purposes. AMCA 300 - Test Code for Sound Rating Air Moving Devices. AMCA 301 - Method of Publishing Sound Ratings for Air Moving Devices. AMCA 500 - Test Methods for Louver, Dampers, and Shutters. ARI 410 - Forced-Circulation Air-Cooling and Air-Heating Coils. ARI 430 - CentralStation Air-Handling Units. ARI 435 - Application of CentralStation Air-Handling Units, AIR HANDLING UNITS 15855 - 1 Georgina Cole Library HVAC Replacement Project No.39421 K. NEMA MGI - Motors and Generators. 1.4 1.5 . 1.6 I .7 c. NFPA 70 - National Electrical Code. M. SMACNA - HVAC Duct Construction Standards - Metal and Flexible. N. SUBMITTALS UL 900 - Test Performance of Air Filter Units. A. B. C. D. E. Submit under provisions of Section 01330. Shop Drawings: Indicate assembly, unit dimensions] weight loading, required clearances, construction details, field connection details, and electrical characteristics and connection requirements. Product Data: 1. Provide literature which indicates dimensions, weights, capacities, ratings, fan performance, gages and finishes of materials, and electrical characteristics and connection requirements. Provide data of filter media, filter performance data, filter assembly, and filter frames. Provide fan curves with specified operating point cleariy plotted. Submit sound power level data for both fan outlet and casing radiation at rated capacity. Submit electrical requirements for power supply wiring including wiring diagrams for interlock and control wiring, clearly indicating factory-installed and field-installed wiring. 2. 3. 4. 5. Samples: Submit two of each type of replacement filter media with frame. Manufacturer's Installation Instructions. OPERATION AND MAINTENANCE DATA A. B. Submit under provisions of Section 01700. Maintenance Data: Include instructions for lubrication, filter replacement, motor and drive replacement, spare parts lists, and wiring diagrams. QUALIFICATIONS A. Manufacturer: Company specializing in manufacturing the Products specified in this section with minimum five years documented experience, who issues complete catalog data on total product. DELIVERY, STORAGE, AND HANDLING AIR HANDLING UNITS 15855-2 Georgina Cole Library Project No.39421 HVAC Replacement A. B. Accept products on site in factory-fabricated --prEteCtive containers, with Deliver, store, protect and handle products to site. factory-installed shipping skids and lifting lugs. Inspect for damage. Store in clean dry place and protect from weather and construction traffic. Handle carefully to avoid damage to components, enclosures, and finish. C. 1.8 ENVIRONMENTAL REQUIREMENTS A. Do not operate units for any purpose, temporary or permanent, until ductwork is clean, filters are in place, bearings lubricated, and fan has been test run under observation. 1.9 EXTRA MATERIALS A. Fumish under provisions of Section 01700. B. Provide one set for each unit fan belts. PART 2 - PRODUCTS 2.1 MANUFACTURERS A. Carrier B. McQuay. C. Substitutions: Manager or Engineer. Not allowed without prior written consent with the City Project 2.2 GENERAL DESCRIPTION A. Configuration: Fabricate with fan and coil section plus accessories, including: 1. Combination filter/mixing box section. 2. Filter section. 3. Cooling coil section. 4. Heating coil section. 6. Perforinance Base: Sea level conditions. C. Fabrication: Conform to AMCA 99 and AR1430. D. Performance 1. Submit manufacturer's performance ratings, as required by Sedion 01330 Submittal Procedures. AIR HANDLING UNITS 15855 - 3 Georgina Cole Library Project No.39421 HVAC Replacement 2.3 CASING A. . h-. 6. . -. C. D. E. F. G. H. 1. Fabricate double walled unit with welded steel frame and bolted construction. Unit base shall be made of welded "C" channel structural steel base or heavy duty structural to be fitted with "C" channel cross support The air handler shall be shipped to the job site in several sections packed in crates, and assembled on site, Each section shall be able to be transported inside the building using the freight elevator and be able to be wheeled through a 58" inch corridor. Unit casing shall be constructed with seems turned inside and bolted or screwed to steel tube frame using self tapping stainless steel fasteners. The void spaces between the adjoining panels must be caulked with factory approved caulking material. Maximum width of each panel shall not exceed 24 inches. The casing shall be built to withstand minimum 4.5 inches of static pressure. 1. Outside Casing: 2. Inside Casing: a) Galvanized Steel: 16 gage G-90. a) 3. Floor Plate: a) b) Galvanized Steel: 20 gage G-90. Inside Galvanized Steel: 16 gage G-90. Outside Galvanized Steel: 20 gage maximum, G-90. Insulation: 2 inch thick, 3 Ibs per cu ft density, neoprene coated, glass fiber insulation, "K" value at 75 degrees F maximum 0.26 Btu/inch/sq Wdegrees Fhr, applied with adhesive and weld pins between the panels with double wall construction including floor panel. Coat exposed edges of insulation with adhesive. Finish: Unit shall be factory painted inside and out including the frames with polyeurethane paint to a minimum thickness of 5-6 mils using standard factory color, prior to shipment. Walk-in Access Doors: Minimum 24 x 48 inch of galvanized steel insulated sandwich construction, for flush mounting, with hinges, gasket, self-adjusting latches, and handle assemblies and 12 X 12 inch inspection window of 1/4 inch thick plexiglass. The construction of the access door shall be same as double wall casings. Lights: Provide lights factory wired with wire guards inside the mixing box and in the fan section for service. Locate switch outside the cabinet near the access door. Drain Pans: Construct from double thickness, 304 stainless steel with insulation AIR HANDLING UNITS 15855 - 4 . -. Georgina Cole Library HVAC Replacement 2.4 FANS A. B. c. D. E. Projed No.39421 between layers with welded comers. Cross break and pitch to drain connection. Provide drain pan under cooling coil section and downstream. Type: Constant volume, plug type fan. Performance Ratings: Conform to AMCA 210 and bear the AMCA Certified Rating Seal. Sound Ratings: AMCA 301; tested to AMCA 300 and bear AMCA Certified Sound Rating Seal. Bearings: Self-aligning, grease lubricated, ball or roller bearings with lubrication fittings extended to exterior of casing with plastic tube and grease fitting rigidly attached to casing. Mounting: Locate fan and motor internally on welded steel base coated with corrosion resistant paint. Factory mount motor on slide rails. Provide access to motor, drive, and bearings through removable casing panels or hinged access doors. Mount base on vibration isolators. 2.5 BEARINGS AND DRIVES Bearings: L-10 life at 120,000 hours pillow btock type, self-aligning, A. B. C. D. I grease-lubricated roller bearings. Shafts: Solid, hot rolled steel, ground and polished, with key-way, and protectively- coated with lubricating oil. V-Belt Drive: Cast iron or steel sheaves, dynamically balanced, bored to fit shafts and keyed. Fixed sheave for 20 hp (15 kw) and over, matched belts, and drive rated as recommended by manufacturer or minimum 1.5 times nameplate rating of the motor. Belt Guard: fabricate to SMACNA Standard; 12 gage (2.8 mm) thick, 34 inch (20 mm) diamond mesh wire screen welded to steel angle frame or equivalent, prime coated. Secure to fan or fan supports without short circuiting vibration isolation, with provision for adjustment of belt tension, lubrication, and use of tachometer with guard in place. 2.6 ELECTRICAL CHARACTERISTICS AND COMPONENTS A. B. C. Electrical Characteristics: 230 volts, three phase, 60 Hz. Motor: Open drip proof NEMA MGI. Wiring Terminations: Provide terminal lugs to match branch circuit conductor AIR HANDLING UNITS 15855 - 5 Georgina Cole Library HVAC Replacement Project No.39421 2.7 .. ..+. quantities, sizes, and materials indicated. Enclose terminal lugs in terminal box sized to NFPA 70. CHILLED WATER COILS A. B. C. D. E. Casing: Provide access to both sides of coils. Enclose coils with headers and retum bends fully contained within casing. Slide coils into casing through removable end panel with blank off sheets and sealing collars at connection penetrations. Drain Pans: 24 inch (600 mm) downstream of coil and down spouts for cooling coil banks more than one coil high. Eliminators: When provided shall be three break of Type 304 stainless steel, mounted over drain pan. Air Coils: Certify capacities, pressure drops, and selection procedures in accordance with AR1410. Fabrication: 1. Tubes: 5/8 inch (16 mm) OD seamless copper expanded into fins, brazed joints. 2. Fins: Copper. 3. Casing: 304 stainless steel. FILTERS A. Filter Box: Section with filter guides, access doors from one side, for face loading. 6. Filter Media: UL 900 listed, Class II. Filter efficiency shall be based on ASHRAE Standard 52-76 test procedure. 1. Preliminary Filters: 2" thick, disposable, 30% efficiency. FARR 30130. ii. Final Filters: Minimum 6" thick, disposable, 65% efficiency. FARR RIGA- FLO. .... 2.09 PART 3 - EXECUTION - ,.- 3.1 INSTALLATION DAMPERS A. Mixing Boxes: Shall be provided with 1/2 inch mesh, galvanized wire bird screen on retum air opening only. Outside air shall be ducted to the unit and the mechanical room shall be used as return air plenum. A. Install in accordance with manufacturer's instructions. .. c AIR HANDLING UNITS 15855 - 6 Georgina Cole Library HVAC Replacement B. Install in conformance with ARI 435. C. Assemble units by bolting sections together. 3.2 AIR HANDLING UNIT SCHEDULE A. See Mechanical Drawings for Air Handler Unit Schedule. Project No.39421 END OF SECTION AIR HANDLING UNITS 15855 - 7 . .. - Georgina Cole Library HVAC Replacement Project No. 39421 . SECTION 15860 VARIABLE FREQUENCY DRIVE PART 1.00 GENERAL 1.01 SECTION INCLUDES These specifications include the furnishing and installation of adjustable frequency motor drives, each consisting of a Pulse Width Modulated (PWM) inverter for use on a standard NEMA Design B induction motor. PART 2.00 PRODUCTS 2.01 VARIABLE FREQUENCY DRIVE A. B. C. D. The variable frequency drives (VFD’s) shall be solid state, with Pulse Width Modulated (PWM) output waveform (VVI, six-step, and current source drives are not acceptable). The VFDIBypass system as specified herein shall be enclosed in a NEMA 1 enclosure, completely assembled and tested by the manufacturer. Outdoor drives shall be enclosed in a NEMA 3R enclosure. The VFD shall employ a full wave rectifier (to prevent input line notching), DC bus choke, DC bus filter capacitors, and Insulated Gate Bipolar Transistors (IGBT’S) as the output switching device (SCR’S GTO’S and Darlington transistors are not acceptable). The drive efficiency shall be 97% or better at full speed and full load. Fundamental power factor shall be 0.98 at all speeds and loads. The inverter manufacturer shall provide estimated line distortion percentages in accordance with IEEE STD-519, based upon the total connected horsepower and source KVA of power of distribution system. All printed circuit boards shall be completely tested and burned-in before being assembled into the completed VFD. The VFD shall then be subjected to a preliminary functional test, eight-hour burn-in, and computerized final test. The burn-in shall be at 104 degrees F (40 degrees C), at full rated load, or cycled load. Drive input power shall be continuously cycled for maximum stress and thermal variation. VFD’s shall be UL listed. The VFD’s shall be designed to meet the requirements of the following standards: IEC 801-2, IEC 801-4, IEC 255- 4. 2.02 ACCEPTABLE MANUFACTURERS Toshiba Danfoss Or Equal VARIABLE FREQUENCY DRIVE 15860 - 1 .. Georgina Cole Library HVAC Replacement 2.03 CONSTRUCTION DETAILS . 6. C. Project No. 39421 Input 208/230/240/ VAC 3 phase, 48-63 Hz. Environmental operating conditions: 0 to 40 degrees C, 0 to 3300 feet above sea level, less than 95% humidity, non-condensing. All VFD's shall have the following standard features: 1. 2. 3. 4. 5. 6. 7. For parts interchangeability purposes, all VFD's shall have the same customer interface, including digital display, keypad and customer connections; regardless of horsepower rating. The keypad is to be used for local control (start/stop, forwardheverse, and speed adjust), for setting all parameters, and for stepping through the displays and menus. The VFD shall give the user the option of either (1) displaying a fault, or (2) running a1 a programmable preset speed if the input reference (4-20mA or 2-1OV) is lost; as selected by the user. The VFD's shall utilize bilingual digital display field selectable for English or Spanish (code numbers are not acceptable). The digital display shall be a 40-character (2 line x 20 characterdline) LCD display. The screen shall be backlit to provide easy viewing in any light condition. The contrast should be adjustable to optimize viewing at any angle, The VFD shall have the ability to automatically restart after an over current, over voltage, under voltage, or loss of input signal protective trip. The number of restart attempts and trial time shall be programmable. The VFD shall be capable of starting into a rotating load (forward or reverse) and accelerate or decelerate to set point without safety tripping or component damage (flying start). Coast to stop before restart shall not be required. Hand-off Auto switch and speed potentiometer shall be included. When in "Hand", the VFD will be started, and the speed will be controlled from the speed potentiometer. When in "Off', the VFD will be stopped. When in "Auto", the VFD will start via an external contact closure, and its speed will be controlled via an external speed reference. The drive shall employ three current limit circuits to provide trip free operation: a. The Slow Current Regulation limit circuit shall be adjustable from 50% to 110% of the VFD's variable torque current rating. This adjustment shall be made via the keypad, and VARIABLE FREQUENCY DRIVE 15860 - 2 Georgina Cole Library HVAC Replacement Project No. 39421 3.. ... . .. .. . .._ "-- ". i. ...% .. -.l . '# ... , . .. Y&> e . shall be displayed in actual amps, and not as percent of full load. b. The Rapid Current Regulation limit shall be fixed at 145% of the VFD's variable torque current rating. C. The Current Switch-Off limit shall be fixed at 150% of the VFD's variable torque current rating. 8. The overload rating of the drive shall be 110% of its variable torque current rating for I minute every 10 minutes, and 115% of its variable torque current rating for 2 seconds every 10 seconds. 9. The VFD shall have input line fuses standard in the drive enclosure. D. All VFD's to have the following adjustments: I. 2. 3. 4. 5. Five (5) programmable critical frequency lockout ranges to prevent the VFD from continuously operating at an unstable speed. PI Set point controller shall be standard in the drive, allowing a pressure or flow signal to be connected to the VFD, using the microprocessor in the VFD for the closed loop control; thus eliminating the need for external controllers. Drives not utilizing a PI controller shall provide a field installed controller provided by the drive manufacturer for field mounting or shall incorporate a floating p,oint controller utilizing a Dwyer Photohelic factory mounted in the drive panel. Two (2) programmable analog inputs shall accept a current or voltage signal for speed reference, or for reference and actual signals for PI controller. Analog inputs shall include a filter; programmable from 0.01 to 10 seconds to remove any oscillation in the input signal. The minimum and maximum values (gain and offset) shall be adjustable within the range of 0-20 mA and 0-10 volts. Continuously tunable carrier frequency (of 1 kHz through 12 kHz, on I through 50 BP drives, and 1 kHz through 3 kHz on 60 through 350 BP drives) to reduce objectionable motor noise. Two independently adjustable accel and decel ramps. These ramp times shall be adjustable from 1 to 1800 seconds. E. The following operating information displays shall be standard on the VFD digital display. The display shall be in complete English words (alpha-numeric codes are not acceptable): Output Frequency VARIABLE FREQUENCY DRIVE 15860 - 3 F. Georgina Cole Library HVAC Replacement G. Project No. 39421 Motor Speed (PPM) Motor Cu rren t Calculated Motor Power DC Bus Voltage Output Voltage Heatsink Temperature Analog Input Values Keypad Reference Values Elapsed Time Meter KWh Meter The VFD shall have the following protection circuits. In the case of a protective trip, the drive shall stop, and announce the fault condition in complete words (alphanumeric codes are not acceptable). Over current trip 200% of the VFD's variable torque current rating. Over voltage trip 130% of the VFD's rated voltage Under voltage trip 60% of the VFD's rated voltage Ground Fault Adaptable Electronic. Motor Overload (I-t). The Electronic Motor Overload protection shall protect the motor based on speed, load curve, and external fan parameter. Circuits, which protect the motor only at full speed, are unacceptable. Accessories: 1. 2. 3. 4. Manual Bypass: Provide 3-Contactor Manual Bypass with door interlocked fused Disconnect, "test-off-normal" switch, Class 10 motor overload relay, system power light, control power transformer with primary and secondary fusing, "drive-off-bypass" switch and lights, and safety circuit terminal strip and indicator. Manual transfer to line power via contactors shall be provided for all supply fans VFD's. Include motor thermal overload and fuse or circuit breaker protection while in bypass operation. When in the "Normal" mode, the bypass cotactor is open and the drive output contractor is closed. In the "Test" position both contactors are open, and in the "Bypass" position, the drive output contactor is open, and the bypass contactor is closed. The drive output contactor shall also open when a stop command is given, isolating the motor from the drive. Start/stop signals and safety interlocks will work in drive and bypass modes. Bypass shall electrically isolate the drive from the line. Line Reactor: VARIABLE FREQUENCY DRIVE 15860 - 4 Georgina Cole Library HVAC Replacement Project No. 39421 Provide 3% Input Line Reactor or equivalent DC BUS Choke for lower harmonic distortion on the power line and improved a displacement power factor. 2.04 HARMONIC LINE DISTORTION A. Compliance to IEEE 519-1981 1. The VFD manufacturer shall provide computerized calculation, specific to this installation, showing total harmonic valtage distortion (THD) per IEEE std. 51961981. Guide for Harmonic Control and Reactive Compensation for Static Power Converters. The acceptance of this calculation must be completed prior to VFD installation. 2. If the voltage TBD exceeds 5%, the VFD manufacturer is to recommend the additional equipment required reducing the THD to an acceptable level. 2.05 UNACCEPTABLE FEATURES A. The following design and/or construction features will not be acceptable for use on this particular project: 1. 2. Drive efficiencies of less than 95% are not acceptable. Phase Control Rectifiers (Thyristors) or other such device causing line notching are not acceptable. 3. 6 step output ignot acceptable. 4. 460 volt drives not s-uitable for operation between a low of 400 volts and a high of 550 volts is not acceptable. -9 5. Drives requiring external fusing are not acceptable. 6. Drives having carrier frequencies not infinitely adjustable or adjustable in fixed steps are not acceptable. 7. Function and/or fault indications, which are in code or require reference to an operating manual or any method not using direct reading English words are not acceptable. i PART 3.00 EXECUTION 3.01 START UP AND WARRANTIES A. Start-up of drives. ‘Ah VARIABLE FREQUENCY DRIVE 15860 - 5 Georgina Cole Library HVA C Rep lace m e n t Project No. 39421 1. Certified factory start-up shall be provided for each drive by a factory authorized service center. B. Warranty on drives. C. 1. Warranty commence 24 months from the date of start-up, not to exceed 30 months from the date of shipment, and include all parts, labor, and travel time. Training I. 2. Provide a one-day training session. The training sessions will be held at the job site. 3. Provide training materials for seven (7) persons. 4. The instructors shall be the factory trained and certified instructors for the specific unit. END OF SECTION VARIABLE FREQUENCY DRIVE '15860-6 Georgina Cole Library HVAC Replacement Project No. 39421 SECTION 15890 DUCTWORK PART 1.00 GENERAL ' 1.01 1.02 1.03 1.04 1.05 '1.06 SECTION INCLUDES Metal ductwork. RELATED SECTIONS A. Section 15250 - Mechanical Insulation. I REFERENCES A. 4STM A 36 - Structural Steel. 6. ASTM A 90 - Weight of Coating on Zinc-Coated (Galvanized) Iron or Steel Articles. C. ASTM A 525 - General Requirements for Steel Sheet, Zinc- Coated (Galvanized) by the Hot-Dip Process. D. ASTM A 527 - Steel Sheet, Zinc-Coated (Galvanized) by Hot-Dip Process, Lock Forming Quality. SMACNA - HVAC Duct Construction Standards - Metal and Flexible. E. PERFORMANCE REQUIREMENTS No variation of duct configuration or sizes permitted except by written permission. Duct installation shall conform to the requirements of the Uniform Mechanical Code, minimum and otherwise specified hereinafter. SUBMITTALS A. B. Submit under provisions of Section 01330. Shop Drawings: Indicate duct fittings, particulars such as gages, sizes, welds, and configuration prior to start of work. C. Product Data: Provide data for duct materials. PROJECT RECORD DOCUMENTS A. B. Submit under provisions of Division I Record actual locations of ducts and duct fittings. Record changes in fitting location and type. Show additional fittings used. DUCTWORK SECTION 15890 - I Georgina Cole Library HVAC Replacement .. . ', Project No. 39421 1.07 1.08 1.09 1-10 QUALITY ASSURANCE A. Perform Work in accordance with SMACNA - HVAC Duct Construction Standards - Metal and Flexible. 6. Maintain one copy of document on site. QUALIFICATIONS Manufacturer. Company specializing in providing the work specified in this section with minimum five years experience. REGULATORY REQUIREMENTS Construct ductwork to NFPA 9OA standards. ENVIRONMENTAL REQUIREMENTS A. Do not install duct sealant when temperatures are less than those recommended by sealant manufacturers. Maintain temperatures during and for at least 24 hours after installation of duct B. sealant. PART 2.00 PRODUCTS 2.01 2.02 MATERIALS Galvanized Steel Ducts: ASTM A525 and ASTM A527 galvanized steel sheet, lock-forming quality, having G90 zinc coating in conformance with ASTM A90. DUCTWORK FABRICATION .. A. 6. C. D. Fabricate and support in accordance with SMACNA HVAC Duct Construction Standards - Metal and Flexible, and as indicated. Provide duct material, gages, reinforcing, and sealing for operating pressures indicated. Construct Ts, bends, and elbows with radius of not less than 1-1/2 times width of duct on centerline. Where not possible and where rectangular elbows are used, provide airfoil-turning vanes. Increase duct shes gradually, not exceeding 15 degrees divergence wherever. possible; maximum 30 degrees divergence upstream of equipment and 45 degrees convergence downstream. Ducts installed within areas containing telephone equipment and/or cabling shall be of smooth exterior finish. Transverse joints shall be drive slip. Longitudinal seams shall be Pittsburgh lock or button punch snap locks. DUCTWORK SECTION 15890 - 2 .- Georgina Cole Library Project No. HVAC Replacement Provide standard 45 degree lateral wye takeoffs unless otherwise -indicated QOdegree conical tee connections may be used. E. F. All exposed exterior ducts (exposed to weather) shall have double wall with 2" thick, #3 denstty minimum fiberglass insulation. 2.03 DUCT SUPPORTS 39421 where Ducts shall be supported and installed so as to be completely free from vibration and displacement under all conditions of operation. Support shall be provided on both opposite sides of any duct and shall be riveted, bolted or screwed to the duct with an approved fastener. Vertical ducts shall be held in place by angle brackets securing the duct to the structure rigidly. A. Support sizing and spacing shall be as recommended in the SMACNA HVAC Construction Standards. Supports and hangers shall be of all galvanized steel conforming to ASTM A-36 or acceptable corrosion resistant material. All sharp edges of supports and hangers shall be rounded or covered with Armalok pipe insulation for safety protection. All threaded rods shall not be used. Where duct sizes require trapeze hangers, the support shall be galvanized steel pipe with ends capped and hung with rods and pipe hangers. B. 2.04 DAMPERS A. B. I PART 3.00 Manual and Motor Operated: 1. Single blade dampers of 18 gauge steel shall be used in ducts sized up to and including 18" x 8. Opposed blade dampers shall be used in ducts sized greater than 18" x 8. Blades shall be reinforced with triple beading. For duct sized 24" x 24" and larger, manufactured frame opposed blade dampers shall be 4" wide, welded throughout to form a rigid assembly. Blades shall pivot using 3/8 cold drawn steel rod. Bearings shall be precision-machined bronze, sleeve type. Motor operated isolation dampers shall be Ruskin CD-50 with Belimo AF120S motor or equal. Acces Doors: Duct access doors to all fire dampers, backdraft dampers, motorized dampers and manual balancing dampers larger than 4 quare feet shall be as manufactured by VentFabrics, lnc., Duro-Dyne or equal. Doors shall be 24 gauge metal, 18 gauge frame, with loose pin hinges, and VentFabric, Duro-Dyne sp latches or equal. Door frame shall contain felt gasket and a sponge rubber gasket shall be attached to the back of each door frame to ensure a tight seal between duct and frame. Finish shall be factory applied. Service shall be stenciled on door, e.g., "Fire Damper" in 112" letters. Size shall be 18 x 12" where space and duct size permit On small ducts and in restricted space, 12" x 12" may be used. EXECUTION 3.01 INSTALLATION a SECTION 15890 - 3 DUCTWORK Georgina Cole Library HVAC Replacement Project No. 39421 A. B. Install and seal ducts in accordance with SMACNA HVAC Duct Construction Install in accordance with manufacturer's instructions. Standards - Metal and Flexible. C. D. Duct Sizes are inside clear dimensions. For lined ducts, maintain sizes inside lining. Provide openings in ductwork where required to accommodate thermometers and controllers. Provide pitot tube openings where required for testing of systems, complete with metal can with spring device or screw to ensure against air leakage. Where openings are provided in insulated ductwork, install insulation material inside a metal ring. Locate ducts with sufficient space around equipment to allow normal operating and maintenance activities. Use double nuts and lock washers on threaded rod supports. During construction provide temporary closures of metal or taped polyethylene on open ductwork to prevent construction dust from entering ductwork system. E. F. G. 3.02 CLEANING A. Clean work under provisions of 01 700 and 01 740. B. Clean duct system and force air at high veloclty through duct to remove accumulated dust. To obtain sufficient air, clean half the system at a time. Protect equipment, which may be harmed by excessive dirt with temporary filters during cleaning. END OF SECTION OUCTWORK SECTION 15890 - 4 Georgina Cole Library HVAC Replacement SECTION 15930 TERMINAL AIR UNITS ; PART 1 - GENERAL 1.01 PRINCIPLE WORK IN THIS SECTION A. Constant volume terminal units. Project No.39424 B. Variable volume terminal units. C. Dual duct terminal units. D. Fan powered terminal units. E. Variable volume regulators. F. Integral sound attenuator. G. Integral heating coils. H. Integral damper motor operators. 1. Integral controls. 1.02 SUBMITTALS A. 8. Submit under provisions of Division 1. Product data: Catalog cuts giving configuration, general assembly, and materials used in fabrication. Include cataiog performance ratings which indicate air flow, static pressure, and NC designation. Include schedules listing discharge and radiated sound power level for each of second through sixth octave bands at inlet static pressures of one to 3 in. wg (250 to 1000 Pa). NC data only, will not be acceptable. C. 1.03 OPERATION AND MAINTENANCE DATA A. Include directions for resetting constant volume regulators. PART 2 - PRODUCTS 2.01 MANUFACTURERS A. Terminal air units: Terminal Air Units 15930-1 Georgina Cole Library HVAC Replacement ., Project No.39421 1. 2. 3. 4. 5. Titus. Carrier. Pottorff Tuttle & Bailey. Krueger. 2.02 TERMINAL AIR UNITS A. General: 1. 2. 3. Casings: a. b. Acoustic lining: Minimum No. 22 Ga., galvanized steel. 1) 2) 3) 4) 1/2 in. thick coated fiber glass 1.5 PCF density. Meet erosion test method described in UL Publication No. 181. Meet smoke developed and flame spread rating requirements of NFPA-9OA. All exposed insulation edges shall be coated with an NFPA 9OA approved sealant to prevent the enterainment of fibers into the airstream. c. d. ARI Certified Catalog Data. With gasketed access door, or removable regulator if actuators are mounted externally. Control motors: a. b. c. d. Factory-installed on units by unit manufacturer. Motors supplied by approved automatic control system manufacturer. For pneumatic control terminal air unit, manufacturer shall provide rated pneumatic air required for each unit. For DDC control, each terminal air unit shall be equipped with DDC controller which shall include a 120124 transformer mounted at each unit. Variable or Constant-volume controller: a. b. c. Factory-preset. DDC controls, field calibrated Air quantities clearly indicated. Unit provider with flow measuring taps and flow versus pressured differential chart on each unit. Capable of maintaining constant volume, plus or minus 5 percent, up to 3000 fpm inlet air velocity regardless of inlet straight duct conditions. Terminal Air Units 15930-2 Georgina Cole Library HVAC Replacement Project No.39421 *. . .?c2 d. Controller removable from casing. 4. Noise level at noted capacities: a. b. Not to exceed criteria specified: Units tested in accordance with ARI standard 880, with ratings tabulated for inlet pressure of 3 in., 1-1/2”, and minimum static pressure. Test results subject to check in approved independent laboratory in accordance with approved test procedure. 1) c. Cost of test paid by owner. 5. 6. 7. Sound attenuators: a. Provide for each unit. Depth of units not to exceed allowable space allocation. Moving parts suitable for minimum of 300,000 cycles. B. Variable Air Volume Units: 1. 2. 3. 4. 5. Single duct with pressure independent control. Velocity sensors shall be of Cross-F low type simiiar to Carnes. Unit shall be able to be reset to any air flow between 0 and the maximum cataloged cfm. Unit shall be complete with control and attenuator section. Attenuator section shall be internally lined with foil coated acoustic insulation, which meets UL181 and NFPA 90A standards. Leakage through fully closed modulating inlet damper to be less than 2% of design volume at 3 in. inlet pressure. Leakage through the unit casing to be less than 3% of design volume. C. Variable Air Volume Unit with Heating Coils: 1. 2. Hot water heating coil: Unit shall be same as variable air volume with attenuator, as specified. a. Removable, minimum 2 row. b. Tubes: 112 in. copper. C. d. e. Fins: Sine wave heavy gage aluminum. Factory tested at 350 psi under water. Performance according to ARI standard 880. 3. Electrical heating coil (option): a. UL or ETL Listed, slip-in type, open coil design, factory wired and installed, and equipped with primary and secondary over- temperature protection, integral control box with built-in magnetic Terminal Air Units 15930-3 Georgina Cole Library HVAC Replacement Project No.39421 D. E. F. contactors, minimum airflow switches, pneumatidelectric switches and relays. Dual-Duct Mixing Units: 1. 2. 3. Complete with pressure independent controller for each inlet. Velocity for each inlet shall be of Cross-Flow type similar to Carnes. Leakage through fully closed modulating inlet damper to be less than 1 % of design volume at 3 in. inlet pressure. Unit shall include attenuator section. Constant Voiume Units: 1. 2. 3. Hot water heating coil: Single duct with pressure independent control. Velocity sensors shall be of Cross-Flow type similar to Carnes. Unit shall include attenuator section. a. Removable, minimum 2 row, b. Tube: 1/2 in. copper. C. Fins: aluminum. d. Factory tested at 350 psi under water. 4. Electrical heating coil (option): a. UL or ETL Listed, slipin type, open coil design, factory wired and installed, and equipped with primary and secondary over- temperature protection, integral control box with built-in magnetic contactors, minimum airflow switches, pneumatidelectric switches and relay. Fan Powered Terminal Air Units: 1. 2. 3. 4. 5. 6. 7. Unit shall include fan, single inlet duct pressure independent control, heating coil as specified, and filter unit shall be designed for series or parallel operation. Velocity sensors shall be of Cross-Flow type similar to Carnes. Unit shall have an access door to service all internal components and a removable panel to service the fan and motor. Unit shall be UL or ETL Listed. Single point electrical connection for 277 Volt, 1 phase, 60 he& electrical power. (Check with electrical department) Circuit breaker or fuse disconnect switch sized to protect all device electrical components. Fusing and Disconnects optional. Individual transformer as required for control. A fan speed control to adjust cfm. Terminal Air Units 15930-4 Georgina Cole Library HVAC Replacement m ~ PART3 - EXECUTION Project No.39421 3.01 INSTALLATION A. Terminal units: 1. Provide sound linings downstream of units: a. b. -> Lengths shall be a minimum of 5 feet or as recommended by unit manufacturer. Sound linings: types as specified in Section 15250 - MECHANICAL INSULATION. 2. Piping connections as specified in Section 15055: BASIC PIPING MATERIALS 3. 4. Coordinate access through ceilings with respective trades. All terminal air units shall be supported to the building structure to meet code requirement. END OF SECTION 15930 Georgina Cole Library HVAC Replacement SECTION 15990 Project No.39421 TESTING, ADJUSTING, AND BALANCING PART 1 - GENERAL 1.01 SECTiON INCLUDES A. B. C. This section specifies the requirements and procedures for total mechanical systems testing, adjusting, and balancing. Requirements include measurement and establishment of the fluid quantities of the mechanical systems as required to meet design specifications, and recording and reporting the results. Test, adjust, and balance the following mechanical systems: 1. 2. Return air systems; 3. Exhaust air systems; 4. Hydronic systems. This Section does not include: Supply air systems, all pressure ranges; including variable volume; I. 2. 3. - Testing boilers and pressure vessels for compliance with safety codes; Specifications for materials for patching mechanical systems; Specifications for materials and installation of adjusting and balancing devices. If devices must be added to achieve proper adjusting and balancing, refer to the respective system sections for materials and installation requirements. Requirements and procedures for piping and ductwork systems leakage tests. 4. 1.02 RELATED SECTION A. General requirements for testing agencies are specified in the Division-I Section Quality Control Services. Other Division-1 5 Sections specify balancing devices and their installation, and materials and installations of mechanical systems. Individual Division-I 5 system sections specify leak testing requirements and procedures. B. C. 1.03 DEFINITIONS A. Systems testing, adjusting, and balancing is the process of checking and adjusting all the building environmental systems to produce the design objectives. It includes: 3 TESTING, ADJUSTING, AND BALANCING 15990 - 1 Georgina Cole Library Project No.39421 HVAC Replacement 1. 2. 3. Electrical measurement; 4. The balance of air and water distribution; Adjustment of total system to provide design quantities; Verification of performance of all equipment and automatic controls; B. A C. + . D. E. F. G. H. I. J. K. Test: To determine quantitative performance of equipment. Adjust: To regulate the specified fluid flow rate and air patterns at the terminal equipment (e.g., reduce fan speed, throttling). Balance: To proportion flows within the distribution system (submains, branches, and terminals) according to specified design quantities. Procedure: Standardization approach and execution of sequence of work operations to yield reproducible results. Report forms: Test data sheets arranged for collecting test data in logical order for submission and review. These data should also form the permanent record to be used as the basis for required future testing, adjusting, and balancing. Terminal: The point where the controlled fluid enters or leaves the distribution system. These are supply inlets on water terminals, supply outlets on air terminals, return outlets on water terminals, and exhaust or return inlets on air terminals such as registers, grilles, diffusers, louvers, and hoods. Main: Duct or pipe containing the system's major or entire fluid flow. Submain: Duct or pipe containing part of the systems' capacity and serving two or more branch mains. Branch main: Duct or pipe serving two or more terminals. Branch: Duct or pipe serving a single terminal: 1.04 SUBMITTALS A. :,. B. C. Agency Data: 1. Submit proof that the proposed testing, meets the qualifications specified below. Enginker and Technicians Data: adjusting, and balancing agency 1. Submit proof that the Test and Balance Engineer assigned to supervise the procedures, and the technicians proposed to perform the procedures meet the qualifications specifed below. Submit a synopsis of the testing, adjusting, and Procedures and Agenda: TESTING, ADJUSTING, AND BALANCING 15990 - 2 Georgina Cole Library HVAC Replacement Project No.39421 D. E. F. 1. 2. 3. 4. balancing procedures and agenda proposed to be used for this project. Maintenance Data: Submit maintenance and operating data that include how to test, adjust, and balance the building systems. Include this information in maintenance data specified in Division 1 and Section 1501 0. Sample Forms: Submit sample forms, if other than those standard forms prepared by the AABC are proposed. Certified Reports: Submit testing, adjusting, and balancing reports bearing the seal and signature of the Test and Balance Engineer. The reports shall be certified proof that the systems have been tested, adjusted, and balanced in accordance with the referenced standards; are an accurate representation of how the system have been installed; are a true representation of how the systems are operating at the completion of the testing, adjusting, and balancing procedures; and are an accurate record of all final quantities measured, to establish normal operating values of the systems. Follow the procedures and format specified below: Draft reports: Upon completion of testing, adjusting, and balancing procedures, prepare draft reports on the approved forms. Draft reports may be hand written, but must be complete, factual, accurate, and legible. Organize and format draft reports. Submit 2 complete sets of draft reports. Only 1 complete set of draft reports will be returned. Final Report: Upon verification and approval of draft reports, prepare final reports, type written, and organized and formatted as specified below. Submit 2 complete sets of final reports. Report Format: Report forms shall be those standard forms prepared by the referenced standard for each respective item and system to be tested, adjusted, and balanced. Bind report forms complete with schematic systems diagrams and other data in reinforced, vinyl, three-ring binders. Provide binding edge labels with the project identification and a title description of the contents. Divide the contents of the binder into the below listed divisions, separated by divider tabs: a. General Information and Summary b. Air Systems c. Hydronic Systems d. Temperature Control Systems Report Contents: Provide the following minimum information, forms and data: a. General Information and Summary: Inside cover sheet to identify TESTING, ADJUSTING, AND BALANCING 15990 - 3 Georgina Cole Library HVAC Replacement Project No.39421 testing, adjusting, and balancing agency, Contractor, Owner, Architect, Engineer, and Project. Include addresses, and contact names and telephone numbers. Also include a certification sheet containing the seal and name address, telephone number, and signature of the Certified Test and Balance Engineer. Include in this division a listing of the instrumentations used for the procedures along with the proof of calibration. b. The remainder of the report shall contain the appropriate forms containing as a minimum, the information indicated on the standard report forms prepared by the AABC and NEBB, for each respective item and system. Prepare a schematic diagram for each item of equipment and system to accompany each respective report form. Calibration Reports: Submit proof that all required instrumentation has been calibrated to tolerances specified in the referenced standards, within a period of six months prior to starting the project. H. 1.05 QUALITY ASSURANCE A. B. C. Agency Qualifications: 1. Employ the services of an independent testing, adjusting, and balancing agency meeting the qualifications specified below, to be the single source of responsibility to test, adjust, and balance the building mechanical systems identified above, to produce the design objectives. Services shall include checking installations for conformity to design, measurement and establishment of the fluid quantities of the mechanical systems as required to meet design specifications, and recording and reporting the results. 2. An independent testing, adjusting, and balancing agency certified by Associated Air Balance Council (AABC) in those testing and balancing disciplines required for this project, and having at least one Professional Engineer registered in the State in which the services are to be performed, certified by AABC as a Test and Balance Engineer. Codes and Standards: 1. AABC: "National Standards for Total System Balance". 2. ASHRAE: ASHRAE Handbook, 1984 Systems Volume, Chapter 37, Pre-Balancing Conference: Prior to beginning of the testing, adjusting, and balancing procedures, schedule and conduct a conference with the ArchitectlEngineer and representatives of installers of the mechanical systems. The objective of the conference is final coordination and verification of system operation and readiness for testing, adjusting, and balancing. Agency must have a minimum of five (5) years of experience in the type of air and hydronic Testing, Adjusting, and Balancing. TESTING, ADJUSTING, AND BALANCING I5990 - 4 Georgina Cole Library Project No.39421 HVAC Replacement balancing required by this project and must have an office located in the Southern California area. 1.06 PROJECT CONDITIONS A. Systems Operation: procedures. 1.07 SEQUENCING AND SCHEDULING Systems shall be fully operational prior to beginning A. Test, adjust, and balance the air systems before hydronic, steam and refrigerant systems. Test, adjust and balance air conditioning systems during summer season and heating systems during winter season, including at least a period of operation at outside conditions within 5 deg. F wet bulb temperature of maximum summer design condition, and within 10 deg. F. dry bulb temperature of minimum winter design condition. Take final temperature readings during seasonal operation. B. PART 2 - PRODUCTS (Not used.) PART 3 - EXECUTION 3.01 PRELIMINARY PROCEDURES FOR AIR SYSTEM BALANCING A. Before operating the system, perform these steps: 1. Obtain design drawings and specifications and become thoroughly acquainted with the design intent. 2. Obtain copies of approved shop drawings of all air handling equipment, outlets (supply, return, and exhaust and temperature control diagrams. Compare design to installed equipment and field installations. Walk the system from the system air handling equipment to terminal units to determine variation of installation from design. 3. 4. 5. Check filters for cleanliness. 6. Check dampers (both volume and fire) for correct and locked position, and temperature control for completeness of installation before starting fans. 7. Prepare report test sheets for both fans and outlets. Obtain manufacturer's outlet factors and recommended procedures for testing. Prepare a summation of required outlet volumes to permit a crosscheck with required fan volumes. . TESTING, ADJUSTING, AND BALANCING 15990 - 5 Georgina Cole Library HVAC Replacement Project No.39421 8. Determine best locations in main and branch ductwork for most accurate duct traverses. Place outlet dampers in the full open position. Prepare schematic diagrams of system "as-built" ductwork and piping layouts to facilitate reporting. Lubricate all motors and bearings. 9. IO. 11. 12. Check fan belt tension. 13. Check fan rotation. .- 3.02 P RELlMlNARY PROCEDURES FOR HYDRONIC SYSTEM BALANCING A. Before operating the system perform these steps: 1. Open valves to full open position. Close coil bypass valves. 2. 3. Remove and clean all strainers. Examine hydronic systems and determine if water has been treated and cleaned. 4. Check pump rotation. 5. 6. Clean and set automatic fill valves for required system pressure. Check expansion tanks to determine that they are not air bound and that- the system is completely full of water. Check air vents at high points of systems and determine if all are installed and operating freely (Automatic type) or to bleed air completely (manual Set temperature controls so.all coils are calling for full flow. 7. type). I 8. ";. 9. Check operation of automatic bypass valves. 10. Check and set operating temperatures of chillers to design requirements. I 1 1. Lubricate all motors and bearings. *.. 3.03 MEASUREMENTS A. Provide all required instrumentation to obtain proper measurements, calibrated to the tolerances specified in the referenced standards. Instruments shall be properly maintained and protected against damage. Provide instruments meeting the specifications of the referenced standards. B. TESTING, ADJUSTING, AND BALANCING 15990 - 6 Georgina Cole Library HVAC Replacement Project No.39421 C. Use only those instruments which have the maximum field measuring accuracy and are best suited to the function being measured. D. E. Apply instrument as recommended by the manufacturer. Use instruments with minimum scale and maximum subdivisions and with scale ranges proper for the value being measured. When averaging values, take a sufficient quantity of readings which will result in a repeatabillty error of less than 5 percent. When measuring a single point, repeat readings until 2 consecutive identical values are obtained. F. G. Take all reading with the eye at the level of the indicated value to prevent parallax. H. Use pulsation dampeners where necessary to eliminate error involved in estimating average of rapidly fluctuation readings. Take measurements in the system where best suited to the task. I. 3.04 PERFORMING TESTING, ADJUSTING, AND BALANCING A. 8. C. 'D. E. F. Perform testing and balancing procedures on each system identified, in accordance with the detailed procedures outlined in the referenced standards. Cut insulation, ductwork, and piping for installation of test probes to the minimum extent necessary to allow adequate performance of procedures. Patch insulation, ductwork, and housings, using materials identical to those removed. Seal ducts and piping, and test for and repair leaks. Seal insulation to re-establish integrity of the vapor barrier. Mark equipment settings, including damper control positions, valve indicators, fan speed control levers, and similar controls and devices, to show final settings. Mark with paint or other suitable, permanent identification materials. Retest, adjust, and balance systems subsequent to significant system modifications, and resubmit test results. 3.05 RECORD AND REPORT DATA A. Record all data obtained during testing, adjusting, and balancing in accordance with, and on the forms recommended by the referenced standards, and as approved on the sample report forms. B. Prepare a report of recommendations for correcting unsatisfactory mechanical TESTING, ADJUSTING, AND BALANCING 15990 - 7 a Georgina Cole Library HVAC Replacement , Project No.39421 performances when system cannot be successfully balanced. 3.07 ... t' DEMONSTRATION A. Training: 1. Train the Owner's maintenance personnel on troubleshooting procedures and testing, adjusting, and balancing procedures. Review with the Owner's personnel, the information contained in the Operating and Maintenance Data specified in Division 1 and Section 1501 0. Schedule training with Owner through the ArchitectlEngineer with at least 7 days prior notice. 2. END OF SECTION TESTING, ADJUSTING, AND BALANCING 15990 - 8 Georgina Cole Library HVAC Replacement Project No. 39421 SECTION 15995 CONTROLS PART 1 - GENERAL 1.1 SCOPE A. Furnish all labor, materials, products, tools, equipment, and services for a comDlete desian, installation and commissioning for Direct Digital Control (DDC) system. The DDC system shall provide, at the minimum, the following: 1. B. Control and monitoring of the Air Handlers, Chiller, Boiler, variable frequency drives, water pumps, valves, variable volume boxes, Room Sensors, Economizer cycle, hot water heating, and interlocks. C. The DDC system shall be installed as a turn-key project and shall consist of all sensors, actuators, direct digital controllers, electrical control wiring for a complete and operating installation as specified herein. The system shall be a standard product with the manufacturer who will guarantee ongoing parts availability and factory trained field support for five (5) years after system acceptance. 1.2 RELATED WORK A. See related sections General requirements: Division 1 Related electrical work: Division 16 Related mechanical work: Division 15 1.3 GENERAL REQUIREMENTS A. Single source responsibility of the contractor shall include installation, calibration, and commissioning of the system. The approved contractor shall have an in-place, local support facility with technical staff, spare parts inventory, and all necessary test diagnostic equipment. REFERENCED STANDARDS, CODES AND ORDINANCES It is the responsibility of the contractor to be familiar with all codes, rules, ordinances, and regulations of the Authority Having Jurisdiction and their interpretations which are in effect at the site of the work. The latest issue of applicable standards and recommended practices of the following agencies in effect shall form a part of the specification to the extent each agency’s relative standards or recommended practices apply to the DDC System and its components as specified herein. B. 1.4 A. B. 1. American National Standards Institute (ANSI) CONTROLS 15995 -1 Project No. 39421 Georgina Cole Library HVAC Replacement 2. 3. Electronic Industries Association (EIA) 4. 5. 6. 7. Underwriters Laboratories (UL) 8. 9. American Society of Mechanical Engineers (ASME) Institute of Electrical and Electronics Engineers (IEEE) National Electrical Manufacturers Association (NEMA) National Fire Protection Association (NFPA) Occupational Safety and Health Administration (OSHA) American Society of Heating, Refrigeration and Air Conditioning Engineers (ASHRAE) The contractor shall be solely responsible for compliance with all health and safety regulations, performing the work in a safe and competent manner, and use industry accepted installation procedures required for the work as outlined in these*documents. All systems equipment, components, accessories, and installation hardware shall be new and free from defects and shall be UL listed where applicable. All components shall be in current production and shall be a standard product of the system or device manufacturer. Refurbished or reconditioned components are unacceptable. Each component shall bear the make, model number, device tag number (if any), and the UL label as applicable. All DDC systems components of a given type shall be the product of the same manufacturer. .I* b.. C. D. 1.5 SUBMllTALS A. B. Submittals shall consist of: Provide six (6) copies of submittal data. 1. 2. 3. 4. Point Schedules 5. Submittals shall be bound in book form with hard cover. Data sheets of all products. Wiring and piping interconnection diagrams including panel and device power, and sources. List of materials of all proposed devices and equipment. Controls schematics and system diagrams. C. PART 2 - PRODUCTS b. - 2.1 GENERAL DESCRIPTION A. The system shall be capable of equipment supervision and control, alarm management, and information management. .. 2.2 DEVICES -&'-A. Provide the necessary sensors, controllers, actuators and devices required to provide a complete and functioning control system capable of the sequences herein after specified. 2.3 MANUFACTURERS CONTROLS 15995 -2 Georgina Cole Library HVAC Replacement A. Acceptable manufacturers are: Camer Or Equal PART 3 - EXECUTION 3.1 A. ' B. C. D. 3.2 A. B. 3.3 A. Project No. 39421 CONTROL SEQUENCES Sequence of operation shall be as shown on the drawings. Shop drawings on operations manual shall include a complete sequence of operation for 'user friendly' operation. Control Wiring 1. Include low voltage wiring (100 volts and less) required for temperature control systems under this section. Conductors for control signals: No. 18 or AWG copper conductors as required. Provided by Division 15. Conduit: Provided by Division 16. 2. 3. Equipment 1. Mount local control panels at convenient locations adjacent to equipment served. INSTALLATION All wiring shall be properly supported and run in a neat and workmanlike manner. I. -. All wiring .within enclosures shall be neatly bundled and anchored to prevent restriction to devices and terminals. The DDC contractor shall be responsible for all low voltage control wiring installation which is necessary to a fully functional system. All wiring shall also be in accordance with applicable local and national codes. 1. All wiring shall be installed in accordance with the electrical specifications, Division 16. Electrical power for DDC panels (provided and installed by Division 16) shall be 2. , provided via dedicated circuits at the motor control center power panel. COMMISSIONING Control system to be set up and checked out by factory trained competent technicians skilled in the setting and adjustment of DDC equipment used in this project. This technician to be experienced in the type of systems associated with this DDC. CONTROLS 15995 -3 Georgina Cole library HVAC Replacement Project No. 39421 6. The DDC contractor shall submit a proposed Acceptance Test Agreement for testing the system's performance of standalone control panel network and the sensors and actuators. At time of final observation, demonstrate the sequence of operation for each system to Owner Representative. 3.4 TRAINING A. Provide a minimum of four (4) hours of instructions to Owner's personnel in the operation and maintenance of the control system. Provide training after the system has been installed and checked out. An operators' manual shall provide detailed instructions for operating the installed system. Seven (7) copies shall be supplied and utilized in the operator's training session. 3.5 WARRANTY A. Equipment shall be warranted for one year (including defects in workmanship and material) under normal use and service. During warranty period supplier shall also replace or repair, free of charge, any equipment proven to be defective in workmanship or material. All corrective software modifications made during warranty periods shall be updated on all user documentation and on user and manufacturer archived software disks. END OF SECTION .- ,. I .. . - CONTROLS 15995 -4 Georgina Cole Library HVAC Replacement Project No. 39421 SECTION 16010 GENERAL ELECTRICAL PROVISIONS PART 1 - GENERAL 1.01 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General and Special Conditions and Division 1 - Specification sections, apply to the work of this section. 1.02 SCOPE A. The Construction Documents shall include the drawings and specifications covering all related work in addition to the electrical. The Contractor shall carefully examine all of the Construction Documents to acquaint himself with the responsibilities of the various Contractors regarding the supply, installation and connection of the Components of the various electrical and other systems. - 6. It is intended that all systems shall be complete and shall include all components necessary for the operation of the system. If components are indicated on the drawings or inferred from the system requirements but not specified by catalogue number, such components shall be furnished by the manufacturer furnishing the remainder of the system. In the event of a conflict of the requirements detailed in the drawings and any sections of the specification the Contractor shall inform the Owner's Rep of such conflict in writing before ordering equipment. If such notification is not provided, the Contractor shall accept the Owner's Rep decision on the resolution of such conflict without any further compensation. C. 1.03 DEMOLITION, ALTERATION AND EXTENSION WORK IN AN EXISTING STRUCTURE. A. Contractor shall survey the entire project site and become thoroughly familiar with actual existing conditions. Check the locations of all existing structures, equipment, wiring, etc. The intent of the work is shown on the drawings and described hereinafter. While the existing facility is being altered, keep the present power service and necessary life safety systems intact. C. Provide and perform demolition, alteration, extension, preparatory and miscellaneous work as indicated, specified or as required, complete. The work shall include: 6. 1. Demolition and removal of existing electrical conduit, wiring and equipment required to complete the project. 2. Preparation of the existing building to receive or connect the new work GENERAL ELECTRICAL PROVISIONS 16010 - 1 Georgina Cole Library HVAC Replacement Project No. 39421 1.04 i .i D. including relocation of existing electrical conduit, wiring, equipment, etc. where new work interferes with existing conditions. Miscellaneous demolition, cutting, patching, alteration, and repair work in the existing building necessary for the completion of the entire project while maintaining electrical circuit continuity to all equipment, outlets, fixtures, etc. scheduled to remain. Disconnecting, relocating, and reconnecting of electrical equipment as required by the construction modifications. 5. Coordination of power interruption with the Owner's representative or utility company where necessary. Salvage and Disposal: All removed material other than items to be reused shall be returned to the Owner or disposed of in accordance with instructions from the Owner's representative. Dispose all hazardous materials per guideline of State of California Department of Health Services and other agencies having jurisdiction. 3. 4. ELECTRICAL SPECIFICATIONS AND DRAWINGS A. B. C. D. E. F. G. The documents are written in a brief form for the purpose of work economy. For example: "Motor starters" is used in place of "The Contractor shall provide all motor starters". Omitted words shall be determined by inference. It should be particularly noted that the terms '"furnish", "provide", and "install" are interchangeable and that each of these terms means to furnish, install, and connect, unless otherwise stated. When a catalog or series numbers are shown they are intended to indicate the type and quality of product. The product furnished shall meet all specification requirements even if the product conforming to the given catalog number does not. In the event of conflict between requirements, whether shown on drawings or in specifications the most stringent requirements shall govern. Wherever tables or schedule show quantities of materials they shall not be used as the final count. These figures serve only as an aid to Contractor. Each Contractor shall be responsible for furnishing all material noted on drawings or specified. A minimum size or performance requirement specified shall be superseded by requirements specified in other technical specification sections or shown on drawings. For example: A minimum control wire size specified for an alarm system shall take precedence over the minimum wire sizes listed in Section 16120 - Conductors. When short circuit currents or interrupting capacities are indicated on drawings or specified they shall be considered as minimum R.M.S. symmetrical unless GENERAL ELECTRICAL PROVISIONS 16010 - z Georgina Cole Library HVAC Replacement otherwise stated. Project No. 39421 H. The electrical drab,,igs are diagrammatic anG show the general arrangement of all raceways, equipment and appurtenances. They shall be followed as closely as actual building construction, field conditions and the work of other trades will permit. The electrical work shall conform to the requirements shown on the drawings. Architectural drawings shall take precedence over electrical drawings, because of the small scale of the electrical drawings it is not possible to indicate all offsets, fittings, and accessories which may be required. The Contractor shall investigate the existing conditions affecting the work and shall arrange his work accordingly, providing such fittings and accessories as may be required to meet such conditions. 1. 1.05 CODE AND STANDARDS A. Code Compliance 1. Installation must conform with all applicable National, State and local codes, rules, ordinances, regulations and manufacturer's recommendations which will govern the quality and the character of work, style and size of materials. 2. In case of difference between building codes, state laws, local ordinances, industry standards and utility company regulations the Contractor shall bear all costs arising in correcting the deficiencies. 3. Should the Contractor perform any work that does not comply with the requirements, ordinances, industry standards and utility company regulations he shall bear all costs arising in correcting the deficiencies. B. Building Codes 1. Comply with the latest editions of the following Codes promulgated by governing authority for the specific job site: a. California State Safety Orders b. C. d. California State Fire Prevention Commission Official Regulations National Electrical Code - NFPA 70 Life Safety Code NFPA 101 C. Industry Codes 1. All electrical equipment shall be listed by Underwriters' Laboratories, Inc. - and shall meet all requirements established by NEC, NEMA and ANSI, and as specified hereinafter. Materials and installation procedures shall comply with all applicable requirements of the following nationally accepted codes and standards. ANSI American National Standards Institute, Inc. ASTM American Society of Testing Materials 2. GENERAL ELECTRICAL PROVISIONS 16010 - 3 Georgina Cole Library HVAC Replacement Project No. 39421 ETL IEEE IPCEA ITL NBS NECA NEMA NFPA UL USASI 1.06 Work and Workmanship A. General 1. 2. 3. 4. 5. 6. 4 . 7. 8. *. u'. .r 9. 10. Electrical Testing Laboratories Institute of Electrical and Electronic Engineers Insuiated Power Cable Engineers Association Independent Testing Laboratories National Bureau of Standards National Electrical Contractor Association National Electrical Manufacturer's Association National Fire Protection Association Underwriters' Laboratories United States of America Standards Institute These specifications may not include every detail or operation considered to be standard high grade installation procedure as it is assumed that the Contractor is familiar with these procedures. In the absence of specified details in the Contract Documents regarding installation procedure, the National Electrical Contractors Association "Standard of Installation" manual and the latest edition of Crofts "American Electricians, Handbook" shall be considered as minimum requirements. The Contractor shall comply with all applicable provisions of NFPA-70, National Electrical Code. Locations of all equipment connections are shown for bidding purposes only. Contractor shall verify erection and connection requirements and details. The Contractor shall read the specifications and drawings of all other trades and verify erection and connection requirements and details. The Contractor shall take all field measurements as necessary for his work, and shall be responsible for the accurate location and size of all openings, recesses, slots, ferrules, and the like. Should any structural difficulties prevent the setting of cabinets, running of conduit, etc., at points shown on drawings, necessary minor deviations as determined by the Owner's Rep may be permitted only if authorized in writing. Specific emphasis must be made that if the equipment other than that which the drawings were designed around does not properly adapt to the space allotted or is not easily accessible for repair and maintenance the Contractor is responsible for providing all additional access panels, pipe, fittings, all materials, labor, etc. to achieve the desired end result. Any extra costs which might result from deviations from the drawings to avoid interference shall be considered a "job condition" and no additional compensation will be considered applicable. In the event that any such interference occur in the course of the work due to an error, omission or oversight by the Contractor, no additional compensation shall be allowed. Interference which may occur during the course of construction shall be brought to the immediate attention of the Owner's Rep and his decision confirmed in writing shall be final as to which trade shall take preference. The finished job shall be functional and complete in every detail including GENERAL ELECTRICAL PROVISIONS 16010 - 4 Georgina Cole Library HVAC Replacement Project No. 39421 any and all such items required for a complete system whether or not these items be specified or shown on drawings. 11. Special attention shall be given to the accessibility of working and controlling parts. Adjustable parts shall be within easy reach. Removable parts shall have space for removal. 12. Underground utilities: Known underground services are shown at approximate locations on drawings. Contractor shall exercise extreme care to avoid damage in exposing underground services: a. Where an underground facility is encountered which is not shown on drawings or mentioned in any other contract document, Contractor shall immediately notify the Owner and Architect and responsible utility agency for direction. Do not proceed with Work until direction is received. b. B. Quality Assurance: 1. 2. Perform work in accordance with NECA Standard of Installation. Manufacturer to be a company specialized in fabrication of respective production with a minimum of 10 years documented experience, or as indicated in the respective spec section. Manufacturer to provide quality control production testing for each unit of major equipment in accordance with applicable standards. Maintain one copy of each testing document on site. 3. 4. I .07 COORDINATION BETWEEN CONTRACTORS A. The Contractor shall acquaint himself with details of all work to be performed by other trades and take necessary steps to integrate and coordinate his work with these trades. B. Special attention shall be given to points where ducts cross other ducts or piping, where lighting fixtures fit into ceilings and where pipes, ducts and conduit pass through walls and columns. . ~ C. Each Contractor shall be responsible for informing himself of the nature and arrangement of the materials and construction to which his work attaches or passes through. 1.08 PROTECTION AND REPAIR - ~ ~~ -- A. In addition to the provisions and stipulations of the General and Supplementary General Conditions of the Contract each Contractor and Subcontractor shall provide various types of protection as follows: I. Protect finished floors from chips and cutting oil by the use of metal receiving pans and an oil proof floor covering. 2. Protect equipment and finished surfaces from welding and cutting spatters with baffles and spatter blankets. 3. Protect equipment and finished surfaces from paint droppings, insulation adhesive and size droppings, etc. by use of drop cloths. 4. Maintain fire rating of walls and structures; provide fire proof enclosure GENERAL ELECTRICAL PROVISIONS 16010 - 5 Georgina Cole Library HVAC Replacement Project No. 39421 where required. 0 1.09 RUBBISH A. All rubbish resulting from the work herein specified shall be removed from the premises by the trade which produced it, as fast as it accumulates. On completion of his work each Contractor shall remove and see that each of his Subcontractors removes from the site all tools, equipment, surplus material and rubbish pertaining to his own operations. Each Contractor or Subcontractor shall pay all costs for such removal and disposition and shall cooperate with the General Contractor in final cleaning. Disposal of hazardous material shall be per guideline of the state of California, Department of Health Services and other authorities having jurisdiction. B. 'T. C. 1.10 ELECTRICAL CONNECTIONS TO EQUIPMENT A. Connections and wiring diagrams shown on drawings or described in the specifications are typical and are for reference purposes only. Detailed diagram instructions and construction shop drawings will be required from the Contractor supplying the equipment. 1.11 PRODUCTS AND MATERIAL A. General I. Electrical equipment shall be new, listed by Underwriters' Laboratories and shall conform to the standard of the National Electrical Manufacturer's Associa tion. Materials used for like service shall be by the same manufacturer, e.g., all motor starters to be from the same manufacturer. Prefabricated Equipment: Unless noted as field fabricated all equipment shall be delivered completely factory assembled and wired. 2. B. *+ C. D. Approval: A specification followed by one or more manufacturer "or approved equal" is open to all equal products or materials unless otherwise noted. However, the Contractor shall supply one of the listed manufacturers' at no additional cost if the Engineer finds the substituted product unsatisfactory. Material: The Contractor shall submit to the Owner's Rep, for his approval within 48 hours after request, a list of all materials he proposes to use. E. Storage 1. Provide suitable protection from weather and vandalism for all materials and equipment to be installed. Storage shall be dry, clean and safe. Any materials or equipment damaged, deteriorated, rusted or defaced due to improper storage shall be fully repaired, refinished or replaced as directed GENERAL ELECTRICAL PROVISIONS 16010 - 6 Georgina Cole Library HVAC Replacement Project No. 39421 by the Engineer. Cover and protect all .equipment, materials, raceways, etc., before and after installation to prevent injury and to prevent entrance of grit, dirt and foreign matter. 2. 1.12 SHOP DRAWINGS A. General .. 1. 3. 4. 5. 6. 7. These requirements are supplemental to the General Conditions of the Contract, Spec Section 01330-Submittals Procedures. Drawings shall be accurately drawn large scale drawings, adequately dimensioned, showing external and internal features, mechanical provisions, materials, gauges, electrical characteristics, wiring diagrams and such other information necessary to show compliance with the intent of the specifications and drawings. Generalized diagrams having several alternate methods of connection will not be acceptable. Catalog data in lieu of certified prints shall be submitted for standard specialties, wire and cable, switches, starters, insulation and similar items. Contractor's responsibility includes coordination of his work with all other trades, fabrication process and technique of construction. Contractor shall check all shop drawings for correct performance, size, capacity, clearance, and finish prior to submittal to Engineer. Drawings must be stamped or marked to indicate Contractor has reviewed these drawings. Contractor review shall insure that equipment will fit into available space. The Engineer will review submitted shop drawings as a further check and as a service to the Contractor. Such review does not relieve the Contractor of responsibility for correct ordering of material and equipment, B. Shop Drawings 1. Contractor shall submit shop drawings of the following systems or equipment and other equipment requested by Owner's Rep within ten days after the award of Contracts: a. Switchboards and Panelboards b. Cabinets and Pull Boxes C. Devices and Conductors d. Transformers Each submitted item shall refer to the specification section and paragraph number in which the item is specified. Approval of a specific item does not include approval of the assembly of which the item is a component. 2. 3. 1.13 DELIVERY SCHEDULE A. The Contractor shall submit, upon request, a schedule listing the equipment and GENERAL ELECTRICAL PROVISIONS 16010 - 7 Georgina Cole Library HVAC Replacement Project No. 39421. materials required to complete the installation, quantity ordered, the date of placing the order and the promised delivery date. PART 2 - PRODUCT 2.01 GENERAL A. All equipment and materials shall be new and the current model or type of a manufacturer regularly engaged in their production. Where two or more units of the same class of equipment are required, they shall be products of the same manufacturer. B. Equipment shall fit into the space allotted and shall have adequate and acceptable clearances for entry, servicing and maintenance. The work shall be provided in an arrangement which will not necessitate cutting of structural members which will not interfere with lighting, HVAC equipment or doors, and which will present the best appearance possible. Where equipment or materials are specified to be approved by and constructed and/or tested in accordance with the published standard of the UL, ANSI, ASTM, ETL or any similar nationally recognized agency, the Contractor shall submit proof that the items furnished under this specification conform to such requirements. I’ C. 2.02 COLOR SCHEDULE AND SAMPLES A. The Contractor shall submit, upon request, a list of available finishes, together with color samples, for all equipment where color finishes are requested by the Architect. The list of equipment will be made available to the Contractor before equipment delivery authorization is required. PART 3 - EXECUTION 3.01 PROJECT CLOSE-OUT A. AC Switchgear Test and Inspection 1. New breakers in the main switchboard shall be tested and inspected as follows: a. Circuit breakers shall be tested and inspected for proper trip operations on long delay, short delay and instantaneous trip. Test current for long delay tripping shall be 300% of rate trip. All circuits shall have Ductor readings made where possible. b. All bolted connections shall be checked and tightened for proper c. A written report showing test results shall be submitted to Architect. A. torque. B. Tests GENERAL ELECTRICAL PROVISIONS 16010 - 8 ... Georgina Cole Library HVAC Replacement Project No. 39421 C. D. E. F. 1. The Contractor shall furnish all necessary instruments and equipment required for making tests and shall make test of all wiring for shorts, open circuits, grounds, etc., and shall immediately correct any defective work. When the entire installation has been completed and all lighting fixtures installed, test out all circuits and switching and demonstrate that the operation of the system is in accordance with the Contract Documents. 2. Spares Fuses-Provide Owner with three (3) fuse refills for each size fuse used in the installation. Mount fuse clip in spare fuse cabinet. Locate in main electrical room or maintenance shop. Cleaning and Touch-Up 1. All panelboards, cabinets, switchboards, motor controllers, control panels and other enclosures shall be cleaned and the paint touched up as necessary to duplicate a factory finished appearance. Touch-up paint shall match the color, composition and quality of the factory applied finish. Label all electrical equipment or controls by means of engraved laminated plastic plates screwed or riveted to device. Height of letters to be not less than 1/4" unless otherwise specified or directed. Items to be labeled include the following: 2. a. b. c. d. Main circuit breakers and switches All circuit breakers and switches in switchboards and distribution panels All panel boards (labeled on inside) Printed card labels may be used on items of equipment furnished with plastic windows. Labeling of the cards shall be neatly printed using a lettering device such as a "KROY" instrument. Directories on inside of panelboards shall be type-written and shall show list of circuits and points, equipment of areas supplied (1/8 letter height acceptable). Labels or tags inside the covers of safety switches or motor starters noting interlocks, conductor sizes, etc., may be of the embossed adhesive type, Record Drawings - At the end of the project the Contractor's working drawings shall be brought up to date and a set of prints delivered to the Owner's Rep with written material certification that all corrections are true and accurately noted installed thereon. Each drawing shall be labeled Record Drawings, dated and signed by the Contractor. Operation and Maintenance (O&M) Manuals 1. These requirements are supplemental to those listed or referred to in any foregoing sections of these specifications. 2. Contractor shall prepare suitable bound volumes pertaining to his systems and equipment. Submit one (1) copy to the Owner's Rep for approval. After approval, submit three (3) copies to the Owner's Rep for e. f. GENERAL ELECTRICAL PROVISIONS 16010 - 9 Georgina Cole Library HVAC Replacement Project No. 39421 . ... c. . .. G. 3. 4. 5. delivery to the Owner. Volumes shall be properly bound, indexed and contained in hard, heavy duty 3 ring binders. The following shall be clearly printed on the front cover: a. b. c. Bind the written operating instructions, shop drawings, equipment catalog cuts and manufacturer's instructions into the binder. Material to be assembled as follows: Project name, address and date Name and address of Architect-Engineer Telephone number of Contractor, including night or emergency a. First page - Title of job, Owner, address, date of submittal, name of Contractor and name of Owner's Rep. Emergency operating instructions and/or list of service organizations (including address and telephone numbers) capable of rendering emergency service on 24 hour calls. Second page - Table of Contents. b. Material shall be assembled in divisions according to the systems which are on the project (e.g., emergency distribution system, etc.). Each division shall include the following sections: a. First Section - Written description of system contents, where actually located in building, how each part functions individually and how system works as a whole. Conclude with a list of items requiring services and either state the service needed or refer to the manufacturer's data in the binder that describes the proper service. b. . c. d- . e. Second Section - A copy of each approved shop drawing (clearly marked for item furnished) with an index at the beginning of the section. Third Section - A copy of each manufacturer's operating instructions with an index at the beginning of the section. Fourth Section - A list of all equipment used in the system, Contractor's purchase order numbers, suppliers name and address. Field replacement parts list. Guarantee and Warranty 1. These requirements are supplemental to those listed or referred to in any foregoing section of these specifications. 2. All wiring and conduit systems provided under Division 16 shall be guaranteed for a period of three (3) years. 3. Warranty period shall also apply to services, including instruction, adjustment, testing, noise control, etc. Special Requirements GENERAL ELECTRICAL PROViSlONS 16010 - 10 Georgina Cole Library HVAC Replacement Project No. 39421 1. 2. 3. No work shall be performed "HOT'. Any power outages shall be coordinate with the Owner, giving at least twenty (20) days notice. All overtime costs shall be included in the Contractors Bid. Temporary service or service jumper to be provided when outage will be expected to last more than three hours. The cost of this service shall be addressed and shall be included in contract. ' END OF SECTION \ GENERAL ELECTRICAL P ROVl S IO N S 16010-11 . Georgina Cole Library HVAC Replacement 1.1 1.2 1.3 1.4 1 Project No. 39421 SECTION 161 11 CONDUIT PART 1 - GENERAL SECTION INCLUDES A. B. C. D. E. F. Metal conduit. Liquidtight flexible metal conduit. Electrical metallic tubing. Nonmetal conduit. Flexible nonmetallic conduit. Fittings and conduit bodies. RELATED SECTIONS A. Section 16010 - General Electrical Provisions. B. Section 16130 - Boxes. C. Section 16450 - Grounding. REFERENCES A. ANSI C80.1 - Rigid Steel Conduit, Zinc Coated. B. C. ANSI C80.3 - Electrical Metallic Tubing, Zinc Coated. ANSVNEMA FB 1 - Fittings, Cast Metal .Boxes, and Conduit Bodies for Conduit and Cable Assemblies. ANSIINFPA 70 - National Electrical Code. D. E. NECA "Standard of Installation." F. G. DESIGN REQUIREMENTS A. Conduit Size: ANWNFPA 70. NEMA TC2 - Electrical Plastic Tubing (EPT) and Conduit (EPC4O and EPC-80). NEMA TC 3 - PVC Fittings for Use with Rigid PVC Conduit and Tubing. CONDUIT 16111 - Georgina Cole Library HVAC Replacement I .5 PROJECT RECORD DOCUMENTS Project No. 39421 A. Accurately record actual routing of conduits larger than 2 inches (51 mm). 1.6 REGULATORY REQUIREMENTS A. Conform to requirements of ANSVNFPA 70. 1.7 PROJECT CONDITIONS A. Verrfy that field measurements are as shown on Drawings. B. Verify routing and termination locations of conduit prior to rough-in. C. Conduit routing is shown on Drawings in approximate locations unless dimensioned. Route as required to complete wiring system. PART 2 - PRODUCTS 2.1 CONDUIT REQUIREMENTS A. Minimum Size: 112 inch (13 mm) unless otherwise specified. B. Underground Installations: 1. 2. 3. 4. More than Five Feet from Foundation Wall: Use thick wall nonmetallic conduit. Within Five Feet from Foundation Wall: Use rigid steel conduit. In or Under Slab on Grade: Use thick wall nonmetallic conduit. Minimum Size: 1 inch (25 mm). C. Outdoor Locations, Above Grade: Use rigid steel. D. Wet and Damp Locations: Use rigid steel conduit. E. Dry Locations: 1. 2. Concealed: Use electrical metallic tubing. Exposed: Use intermediate metal conduit. 2.2 METAL CONDUIT A. Rigid Steel Conduit: ANSI C80.1. B. C. Intermediate Metal Conduit (IMC): Rigid steel. Fittings and Conduit Bodies: ANSVNEMA FB 1; material to match conduit. 2.3 LIQUIDTIGHT FLEXIBLE METAL CONDUIT A. Description: Interlocked steel construction with PVC jacket. B. Fittings: ANSVNEMA FB 1. 2 CONDUIT 16111 - . ... . . . -. . Georgina Cole Library HVAC Replacement Project No. 39421 2.4 ELECTRICAL METAlLIC TUBING (EMT) A. B. Description: ANSI C80.3; galvanized tubing. Fittings and Conduit Bodies: Die cast EMT type. , 2.5 NONMETALLIC CONDUIT A. B. Description: NEMA TC 2; Schedule 40 PYC &80 PVC. Fittings and Conduit Bodies: NEMA TC 3. PART 3 EXECUTION 3.1 INSTALLATION A. Install conduit in accordance with NECA "Standard of Installation." 3 '_ .: . B. C. D. Install nonmetallic conduit in accordance with manufacturer's instructions. Arrange supports to prevent misalignment during wiring installation. Support conduit using coated steel or malleable iron straps, lay-in adjustable hangers, clevis hangers, and split hangers. E. Group related conduits; support using conduit rack. Construct rack using steel channel; provide space on each for 25 percent additional conduits. F. Fasten conduit supports to building structure and surfaces under provisions of Section 161 90. G. Do not support conduit with wire or perforated pipe straps. Remove wire used for temporary supports 1 H. i. Do not attach conduit to ceiling support wires. Arrange conduit to maintain headroom and present neat appearance. J. K. Route conduit parallel and perpendicular to walls. Route conduit installed above accessible ceilings parallel and perpendicular to walls. Maintain adequate clearance between conduit and piping. temperatures exceeding 104 degrees F (40 degrees C). Cut conduit square using saw or pipecutter; de-burr cut ends. L. M. Maintain 12 inch (300 mm) clearance between conduit and surfaces with N. CONDUIT 16113 - Georgina Cole Library HVAC Replacement Project No. 39421 0. Bring conduit to shoulder of fittings; fasten securely. Join nonmetallic conduit using cement as recommended by manufacturer. Wipe nonmetallic conduit dry and clean before joining. Apply full even coat of cement to entire area inserted in fitting. Allow joint to cure for 20 minutes, minimum. Use conduit hubs or sealing locknuts to fasten conduit to boxes in damp and wet locations. Install no more than equivalent of three 9O-degree bends between boxes. Use conduit bodies to make sharp changes in direction, as around beams. Use hydraulic one-shot bender to fabricate bends in metal conduit larger than 2 inch (50 mm) size. Avoid moisture traps; provide junction box with drain f~ing at low points in conduit system. Provide XJG expansion coupling with internal grounding (by Crouse Hinds) to accommodate expansion and deflection where conduit crosses seismic, control and expansion joints. P. Q. R. S. T. U. Threadless fittings, indentor type or set-screw type fittings shall not be used for EMT. EMT shall be installed with threaded gland compression type connectors and couplings. V. Provide suitable pull string in each empty conduit except sleeves and nipples. Use suitable caps to protect installed conduit against entrance of dirt and moisture. W. Ground and bond conduit under provisions of Section 1&50. X. Properly identify conduit. 3.2 INTERFACE WITH OTHER PRODUCTS A. Install conduit to preserve fire resistance rating of partitions and other elements using approved material and methods. B. Route conduit through roof openings for piping and ductwork or through suitable roof jack with pitch pocket. END OF SECTION 4 CONDUIT 16111 - Georgina Cole Library HVAC Replacement SECTION 16120 CONDUCTORS Project No. 39421 PART 1 - GENERAL 1.7 SECTION INCLUDES A. Building wire and cable. B. Wiring connectors and connections. 1.2 RELATED SECTIONS A. Section 16010 - General Electrical Provisions. B. Section 161 11 - Conduits. C. Section 161 30 - Boxes. 1.3 REGULATORY REQUIREMENTS A. Conform to requirements of ANSVNFPA 70. 1.4 PROJECT CONDJTIONS A. Verify that field measurements are as shown on Drawings. B. Wire and cable routing shown on Drawings is approximate unless dimensioned. Route wire and cable as required to meet Project Conditions. C. Where wire and cable routing is not shown, and destination only is indicated, determine exact routing and lengths required. 1.5 COORDINATION A. Determine required separation between cable and other work, or between the different type of conductors in the same raceway. B. Determine cable routing to avoid interference with other work. PART 2 - PRODUCTS 2.1 BUILDING WRE AND CABLE A. B. Conductor: Copper. Description: Single conductor insulated wire. C. Insulation Voltage Rating: 600 volts. CONDUCTORS 16120 - 1 Georgina Cole Library HVAC Replacement Project No. 39421 D. Insulation: ANSIMFPA 70, Type THHN/THWN and THW. PART 3 - EXECUTION 3.1 EXAMINATION A. B. Verify that mechanical work likely to damage wire and cable has been completed. Verify that interior of building has been protected from weather. 3.2 PREPARATION A. Completely and thoroughly swab raceway before installing wire. 3.3 INSTALLATION A. B. C. D. E. F. G. H. 1. J. K. L. M. N. 0. 2 Install products in accordance with manufacturer's instructions. Use solid conductor for feeders and branch circuits 10 AWG and smaller. Use stranded conductors for control circuits. Use conductor not smaller than 12 AWG for power and lighting circuits. Use conductor not smaller than 16 AWG for control circuits. Use 10 AWG conductors for 20 ampere, 120 volt branch circuits longer than 75 feet (23 m). Use 10 AWG conductors for 20 ampere, 277 volt branch circuits longer than 200 feet (61 m). Pull all conductors into raceway at same time. Use suitable wire pulling lubricant for building wire 4 AWG and larger. Protect exposed cable from damage. Support cables above accessible ceiling, using spring metal clips or plastic cable ties to support cables from structure. Do not rest cable on ceiling panels. Use suitable cable fittings and connectors. Neatly train and lace wiring inside boxes, equipment, and panelboards. Clean conductor surfaces before installing lugs and connectors. Make splices,taps, and terminations to carry full ampacity of conductors with no perceptible temperature rise. CONDUCTORS 16120 - e 0; .. .. e .. .. Project No. 39421 3 Georgina Cole Library HVAC Replacement P. Use split bolt connectors for copper conductor splices and taps, 6 AWG and larger. Tape uninsulated conductors and connector with electrical tape to 150 percent of insulation rating of conductor. Use solderless pressure connectors with insulating covers for copper conductor splices and taps, 8 AWG and smaller. Q. R. Use insulated spring wire connectors with plastic caps for copper conductor splices and taps, 10 AWG and larger. 3.4 INTERFACE WITH OTHER PRODUCTS A. Identify each conductor with its circuit number or other designation indicated on Drawings. 3.5 FIELD QUALITY CONTROL A. B. Inspect wire and cable for physical damage and proper connection. Measure tightness of bolted connections and compare torque measurements with manufacturer's recommended values. C. Verify continuity of each branch circuit conductor. END OF SECTION Y CONDUCTORS 16120 - 3 Georgina Cole Library Project No. 39421 HVAC PART 1.1 1.2 1.3 - 1.4 1.5 Replacement SECTION 16130 BOXES 1 - GENERAL SECTION INCLUDES A. Wall and ceiling outlet boxes. 6. Floor boxes. C. Pull and junction boxes. RELATED SECTIONS A. . Section 1601 0 - General Electrical Provisions. B. Section 16450 - Grounding. REFERENCES A. B. C. D. NECA - Standard of Installation. NEMA FB 1 - Fittings and Supports for Conduit and Cable Assemblies. NEMA OS 1 - Sheet-steel Outlet Boxes, Device Boxes, Covers, and Box Supports. NEMA OS 2 - Nonmetallic Outlet Boxes, Device Boxes, Covers and Box Supports. E. NEMA 250 - Enclosures for Electrical Equipment (1000 Volts Maximum). F. SUBMIITALS FOR CLOSEOUT A. NFPA 70 - National Electrical Code. Record actual locations and mounting heights of outlet, pull, and junction boxes on project record documents. REGULATORY REQUlREMENTS A. Conform to requirements of NFPA 70. PART 2 - PRODUCTS 2.1 OUTLET BOXES A. Sheet Metal Outlet Boxes: NEMA OS 1, galvanized steel. 1. Luminaire and Equipment Supporting Boxes: Rated for weight of equipment supported; include 1/2 inch male fixture studs where required. BOXES 16130 - 1 Georgina Cole Library HVAC Replacement Project No. 39421 2. Concrete Ceiling Boxes: concrete type. B. Nonmetallic Outlet Boxes: NEMA OS 2. C. Cast Boxes: NEMA FB 1, Type FD, cast feralloy. Provide gasketed cover by box manufacturer. D. Floor Boxes: Single gang, Hubbell #B-2536. Covers: Combination, Hubbell #S- 2525. Duplex receptacle, Hubbell #S-3925. Carpet flange: Hubbell #S-3075 thru #S-3079. E. F. Pull and Junction: Wall Plates for Finished Areas: As specified in Section 16140. 1. 2. Sheet Metal Boxes: Nema OSI-galvanized steel. Hinged Enclusures: Per Section 16160. 3. Surface Mounted Cast Boxes: NEMA 250; flat-flanged; furnish with ground flange neoprene gasket, and stainless steel cover screws. In-ground Cast Metal Box: NEMA 250; type 6 galvanized cast iron; recessed cover box for flash mounting, with neoprene gasket and stainless steel cover scres. Cover legend: "ELECTRIC". Fiberglass Hand Holes (for underground direct-burial cable installations): Die molded glass fiber hand holes; Precut 6 inch x 6 inch cable entrance at center bottom of each side; Provide glass fiber weather proof cover with non skid finish. 4. 5. PART 3 - EXECUTION 3.1 EXAMINATION A. Verify locations of outlets prior to rough-in. 3.2 INSTALLATION A. B. Install boxes in accordance with NECA "Standard of Installation." Install in locations as shown on Drawings, and as required for splices, taps, wire pulling, equipment connections and compliance with regulatory requirements. C. Set wall mounted boxes at elevations to accommodate mounting heights indicated. D. Electrical boxes are shown on Drawings in approximate locations unless dimensioned. Adjust box location if required to accommodate intended purpose. E. Orient boxes to accommodate wiring devices as specified in'Section 16140. BOXES 16130 - 2 Georgina Cole Library HVAC Replacement Project No. 39421 3 F. G. H. 1. J. K. L. M. N. 0. P. Q. R. S. T. U. v. W. X. Y. Maintain headroom and present neat mechanical appearance. Install pull boxes and junction boxes above accessible ceilings and in unfinished areas only. Inaccessible Ceiling Areas: Install outlet and junction boxes no more than 6 inches from ceiling access panel or from removable recessed luminaire. Coordinate mounting heights and locations of outlets mounted above counters, benches, and backsplashes. Locate outlet boxes to allow luminaires positioned as shown on reflected ceiling plan. Align adjacent wall mounted outlet boxes for switches, thermostats, and similar devices. Use flush mounting outlet box in finished areas. Locate flush mounting box in masonry wall to require cutting of masonry unit comer only. Coordinate masonry cutting to achieve neat opening. Do not install flush mounting box back-to-back in walls; provide minimum 6 inches separation. Provide minimum 24 inches separation in acoustic rated walls. Secure flush mounting box to interior wall and partition studs. Accurately position to allow for surface finish thickness. Use stamped steel bridges to fasten flush mounting outlet box between studs. Install flush mounting box without damaging wall insulation or reducing its effectiveness. Use adjustable steel channel fasteners for hung ceiling outlet box. Do not fasten boxes to ceiling support wires. Support boxes independently of conduit. Use gang box where more than one device is mounted together. Do not use sectional box. Use gang box with plaster ring for single device outlets. Use cast outlet box in exterior locations and wet locations. Set floor boxes level. Large Pull Boxes: Use hinged enclosure in interior dry locations, surface-mounted cast metal box in other locations. BOXES 16130 - Georgina Cole Library HVAC Replacement Project No. 39421 * 3.4 A. t .. ADJUSTING I A. B. CLEANING A. Adjust Rush - mounting outlets to make front flash with finished wall material. Install knockout closures in unused box openings. Clean interior of boxes to remove dust, debris, and other material. B. Clean exposed surfaces and restore finish. END OF SECTION -. 4 BOXES 16130 - Georgina Cole Library HVAC Replacement SECTION 16140 WRING DEVICES PART 1 - GENERAL 1.1 1.2 1.3 1.4 1.5 SECTION INCLUDES A. Wall switches. 6. Wall dimmers. C. Receptacles. D. Device plates and decorative box covers. RELATED SECTIONS A. Section 1601 0 - General Electrical Provisions. B. Section 16130 - Boxes. REFERENCES Project No. 39421 A. . NECA - Standard of Installation. B. C. D. Q UALl FI CATIONS A. Manufacturer: Company specializing in manufacturing the Products specified in NEMA WD 1 - General Requirements for Wiring Devices. NEMA WD 6 - Wiring Device - Dimensional Requirements. NFPA 70 - National Electrical Code. this section with minimum three years experience. EXTRA MATERIALS A. Furnish two of each style, size, and finish wall plate. PART 2 - PRODUCTS 2.1 WALL SWTCHES A. Manufacturers: . 1. Hub bell. 2. General Electric. 3. Pass & Seymor. Description: NEMA WD I, Heavy-Duty, AC only general-use switch, B. WRING DEVICES 16140 - 1 Project No. 39421 Georgina Cole library HVAC Replacement 2.2 2.3 2.4 2 C. Body and Handle: Plastic with rocker handle. Finish: as required by Architect. D. Ratings: 1. Voltage: 2. Current: WALL DIMMERS A. Manufacturers: 1. Lutron 120-277 volts, AC. 20 amperes. 2. Lightolier 3. Prescolite 4. Widelite 5. or approved equal. Description: NEMA WD1 and as specified on drawings. B. C. D. E. Body and Handle: as indicated on drawings; Finish: Per Architect requirements. Voltage: Match lighting voltage (120V or 277V). Power rating: Match load shown on drawings; 600 watts minimum. RECEPTACLES . A. B. C. D. E. F. Manufacturers: 1. Hub bell. 2. General Electric. 3. Pass & Seymor. Description: NEMA WD 1, Heavy-duty general use receptacle. Finish: as required by Architect. Configuration: NEMA WD 6, type as specified and indicated. Convenience Receptacle: Type 5-20. GFCI Receptacle: Convenience receptacle with integral ground fault circuit interrupter to meet regulatory requirements. Isolated ground receptacle - (orange color) see drawings for location. WALL PLATES A. Decorative Cover Plate: Plastic. Finish: as required by Architect. 1. Hu bbell. 2. Or equivalent. Weatherproof Cover Plate: Gasketed cast metal with hinged gasketed device cover. B. WRING DEVICES 16140 - Georgina Cole Library HVAC Replacement 1. Hubbell. 2. Or equivalent. Project No. 39421 PART 3 - EXECUTION 3.1 3.2 3.3 3.4 3 EXAM I NATION A. B. Verify that outlet boxes are installed at proper height. Verify that wall openings are neatly cut and will be completely covered by wall plates. Verify that branch circuit wiring installation is completed, tested, and ready for connection to wiring devices. C. PREPARATION A. 8. Provide extension rings to bring outlet boxes flush with finished surface. Clean debris from outlet boxes. INSTALLATION A. B. c. D. E. F. G. . H. I. J. K. Install in accordance with NECA "Standard of Installation." Install devices plumb and level. Install switches with OFF position down. Install wall dimmers to achieve full rating specified and indicated after derating for ganging as instructed by manufacturer. Do not share neutral conductor on load side of dimmers. Install receptacles with grounding pole on bottom. Connect wiring device grounding terminal to outlet box with bonding jumper. Install decorative plates on switch, receptacle, and blank outlets in finished areas. Connect wiring devices by wrapping conductor around screw terminal. Use jumbo size plates for outlets installed in masonry walls. Install galvanized steel plates on outlet boxes and junction boxes in unfinished areas, above accessible ceilings, and on surface mounted outlets. INTERFACE WITH OTHER PRODUCTS WRING DEVICES 16140 - Georgina Cole Library HVAC Replacement Project No. 39421 a 6. C. D. . E. F. . r. ... .. . I . G. H. ' 3.5 3.6 Install wall switch 48 inches above finished floor. Install convenience receptacle 18 inches above finished floor. Install convenience receptacle 6 inches above backsplash of counter. Install dimmer 48 inches above finished floor. Install telephone jack 18 inches above finished floor. Install telephone jack for side-reach wall telephone to position top of telephone at 54 inches above finished floor. Install telephone jack for forward-reach wall telephone to position top of telephone at 48 above finished floor. Coordinate the installation of wiring devices with underfloor duct service fittings provided under Section 161 12. FIELD QUALITY CONTROL A, - Inspect each wiring device for defects. B. C. D. E. F. Operate each wall switch with circuit energized and verify proper operation. Verify that each receptacle device is energized. Test each receptacle device for proper polarity. Test each GFCl receptacle device for proper operation. Verify that each telephone jack is properly connected and circuit is operational. AD J UST I N G .:'. A. Adjust devices and wall plates to be flush and level. 3.7- CLEANING A. Clean exposed surfaces to remove splatters and restore finish. END OF SECTION I. ... 4 WRING DEVICES 16140 - Georgina Cole Library HVAC Replacement Project No. 39421 SECTION 16170 DISCONNECTS PART 1 - GENERAL 1.1 SECTION INCLUDES A. Fusible switches. B. Nonfusible switches. C. Fuses. 1.2 RELATED SECTIONS A. 6. Section 16010 - General Electrical Provisions. Section 161 90 - Support Devices C. Section 16450 - Grounding. 1.3 REFERENCES A. B. NEMA KS 1 - Enclosed Switches. UL 198C - High-Interrupting Capacity Fuses; Current Limiting Type. C. UL 198E - Class R Fuses. 1.4 EXTRA MATERIALS A. Provide three of each size and type fuse installed. PART 2 - PRODUCTS 2.1 MANUFACTURERS A. General Electric. B. Cutler Hammer C. Square I'D" 2.2 ENCLOSED SWITCHES A. Fusible Switch Assemblies: NEMA KS 1, Type HD load interrupter enclosed knife switch with externally operable handle interlocked to prevent opening front cover with switch in ON position. Handle lockable in OFF position. Fuse clips: Designed to accommodate Class R fuses. DISCONNECTS 16170 - 1 Georgina Cole Library HVAC Replacement Project No. 39421 B. Nonfusible Switch Assemblies: NEMA KS 1, Type HD load interrupter enclosed knife switch with externally operable handle interlocked to prevent opening front cover with switch in ON position. Handle lockable in OFF position. C. Enclosures: NEMA KS 1. 1. 2. Interior Dry Locations: Type 1. Exterior, Wet, or Exposed To Weather Locations: Type 3R. 2.3 FUSES A. Manufacturers: 1. Gould-S hawmut. 2. Bussman. 3. Littlefuse. B. Description: Dual element, current limiting, time delay, onetime fuse, 600 volt, UL 198E, Class RK 5. C. Interrupting Rating: 200,000 rms amperes. PART 3 - EXECUTION 3.1 INSTALLATION A. B. C. 2 Install disconnect switches where indicated. Install fuses in fusible disconnect switches. Provide adhesive label on inside door of each switch indicating UL fuse class and size for replacement. END OF SECTION DISCONNECTS 16170 - Georgina Cole Library Project No.39421 HVAC Replacement SECTION, 16190 SUPPORT DEVICES AND SEISMIC RESTRAINTS PART 1 - GENERAL 1.1 SECTION INCLUDES A. Conduit and equipment supports. B. Anchors and fasteners. 1.2 RELATED SECTIONS A. Section 16010 - General Electrical Provisions. 1.3 REGULATORY REQUIREMENTS A. B. Conform to requirements of ANSVNFPA 70. Conform to SMACNA - Guideline for seismic restraints of Mechanical Systems. PART 2 - PRODUCTS A. B. 2.1 PRODUCT REQUIREMENTS Materials and Finishes: Provide adequate corrosion resistance. Provide materials, sizes, and types of anchors, fasteners, supports and seismic restraints to carry the loads of equipment and conduit. Consider weight of wire in conduit when selecting products. C. Anchors and Fasteners: 2.2 STEEL CHANNEL A. Description: Galvanized steel. SUPPORT DEVICES AND SEISMIC RESTRAINTS 1. 2. 3. 4. 5. 6. Sheet Metal: Use sheet metal screws. 7. Wood Elements: Use wood screws. Concrete Structural Elements: Use expansion anchors. Steel Structural Elements: Use beam clamps, steel ramset fasteners and welded fasteners. Concrete Surfaces: Use expansion anchors. Hollow Masonry, Plaster, and Gypsum Board Partitions: Use toggle bolts and hollow wall fasteners. Solid Masonry Walls: Use expansion anchors. a 16190 - 1 Project No.39421 Georgina Cole Library HVAC Replacement PART 3 - EXECUTION 3.1 INSTALLATION A. B. C. D. E. F. G. H. 1. J. K. Install products in accordance with m'anufacturer's instructions. Provide anchors, fasteners, and supports in accordance with NECA "Standard of Installation". Do not fasten supports to pipes, ducts, mechanical equipment, and conduit. Do not use spring steel clips and clamps. Do not use powder-actuated anchors. Do not drill or cut structural members. Fabricate supports from structural steel or steel channel. Rigidly weld members or use hexagon head bolts to present neat appearance with adequate strength, flexibility and/or and rigidity. Use spring lock washers under all nuts. Install surface-mounted cabinets and panelboards with minimum .of four anchors. In wet and damp locations use steel channel supports to stand cabinets and panelboards one inch off wall. Use sheet metal channel to bridge studs above and below cabinets and panelboards recessed in hollow partitions. Use neoprene, vibration isolators and seismic restraints where required. END OF SECTION SUPPORT DEVICES AND SEISMiC RESTRAINTS 16190 - 2 Georgina Cole Library HVAC Replacement SECTION 16195 ELECTRICAL IDENTIFICATION PART 1 - GENERAL 1.1 SECTION INCLUDES A. Nameplates and labels. 6. Wire and cable markers. C. Conduit markers. D. Conduit color coding. E. Panelboard directories. 1.2 RELATED SECTIONS A. Section 09900 - Painting. 6. Section 1601 0 - General Electrical Provisions. PART 2 - PRODUCTS NAMEPLATES AND LABELS 2.1 2.2 2.3 1 Project No. 39421 A. Type NP Nameplates: Engraved three-layer laminated plastic with black letters on white background. B. Locations: 1. 2. Communication cabinets. Each electrical distribution and control equipment enclosure. C. Letter Size: 1. 2. Use 1/8 inch (3 mm) letters for identifying individual equipment and loads. Use 1/4 inch (6 mm) letters for identifying grouped equipment and loads. LEGEND PLATES A. Type LP: Die-stamped metal legend plate with mounting hole and positioning key. B. Paint-fill engraved characters. WIRE AND TERMINAL MARKERS A. B. Self-adhering, pre-printed, self-laminating vinyl wrap-around strips. Locations: Each conductor at panelboard gutters, pull boxes, outlet and junction ELECTRICAL IDENTIFICATION 16195 - Georgina Cole Library HVAC Replacement Project No. 39421 boxes, and each load connection. C. Legend: 1. Power and Lighting Circuits: Branch circuit or feeder number indicated on drawings. 2. Control Circuits: Control wire number indicated on schematic and interconnection diagrams on drawings. 2.4 CONDUIT MARKERS A. 8. C. D. E. Description: High performance snap-on or pressure sensitive pre-coiled, preprinted suitable for indoor and outdoor conditions. Location: Furnish markers for each conduit longer than 10 feet. Spacing: 20 feet on center. Color: 1. 480 Volt System: Yellow. 2. 208 Volt System: Green. 3. Fire Alarm System: Red. 4. Telephone System: Brown. 5. Data System: Blue. Legend: 1. 480 Volt System: 480 V. 2. 208 Volt System: 208 V. 3. Fire Alarm System: FA. 4. Telephone System: TEL. 5. Data System: DATA. PART 3 - EXECUTION 3.1 3.2 3.3 2 PREPARATION A. Degrease and clean surfaces to receive nameplates and labels. I NSTALLATI ON A. B. C. Install nameplate and label parallel to equipment lines. Secure nameplate to equipment front using two screws or adhesive. Secure nameplate to inside surface of recessed panelboard doors in finished locations . WIRE IDENTIFICATION A. Provide wire markers on each conductor in panelboard gutters, pull boxes, outlet and junction boxes, and at load connection. Identify with branch circuit or feeder number for power and lighting circuits, and with control wire number as indicated ELECTRICAL IDENTIFICATION 16195 - Georgina Cole Library HVAC Replacement 3.4 3.5 3.6 3 Project No. 39421 on equipment manufacturer's shop drawings for control wiring. Provide conductor phase color coding as per Section 161 20. B. NAMEPLATING ENGRAVING A. Provide type "NP" nameplates of minimum letter height as noted below. 1. Panelboards, Switchboards and Motor Control Centers: 114inch td identify equipment designation. l/&inch to identify voltage rating and source. Individual Circuit Breakers, Switches and Motor Starters in Panelboards, Switchboards, and Motor Control Centers: 1/8-inch to identify circuit and load served, including location. 3. Individual Circuit Breakers, Enclosed Switches, and Motor Starters: 1/8- inch to identify load served. 4. Transformers: 1/4-inch to identify equipment designation. 1/8inch to identify primary and secondary voltages, primary source, and secondary load and location. 5. Equipment Cabinets, Terminal Cabinets, Control Panels and other Cabinets enclosing apparatus: 318-inch to identify equipment and designation. B. Provide type "LP" metal legend plates for attachment to panel mounted operator's devices such as pilot lights, push buttons, selector switches, etc. 2. CONDUIT COLOR CODING SCHEDULE A. Coordinate color of paint with Section 09900 - Painting to identify conduit by system. B. Fire Alarm System: Red. PANELBOARD DI RECTOR1 ES A. 8. C. Provide typewritten directories arranged in numerical order showing number of room in which each device served by each panelboard circuit is located. Verify room numbers to be used with Owner. Room number will not necessarily be those used on the Drawings. Mount directories in a 6 inch by 8 inch metal frame under a clear plastic cover inside each panelboard door. END OF SECTION ELECTRICAL IDENTIFICATION 16195 - . .. _- . , Georgina Cole Library HVAC Replacement Project No.39421 \ SECTION 16420 PART 1 - GENERAL SWTCHBOARDS 1.1 SECTION INCLUDES A. Main switchboard. 1.2 RELATED SECTIONS A. B. C. Section:16450 - Grounding. Section 1601 0 - General Electrical Provisions. Section 16190 - Support Devices and Seismic Restrains 1.3 REFERENCES A. B. C. D. E. F. ANWNFPA 70 - National Electrical Code. ANSMEEE C12.1 - Code for Electricity Metering. ANSI C39.3 - Electrical Analog Indicating Instruments. ANSI C57.13 - Instrument Transformers. NEMA AB 1 - Molded Case Circuit Breakers and Molded Case Switches. NEMA KS 1 - Enclosed Switches. G. H. NEMA PB 2 - Deadfront Distribution Switchboards. NEMA PB 2.1 - Proper Handling, Installation, Operation and Maintenance of Deadfront Switchboards Rated 600 Volts or Less. 1.4 SUBMIITALS A. Shop Drawings: Indicate front and side views of enclosures with overall dimensions shown; conduit entrance locations and requirements; nameplate legends; size and number of bus bars per phase, neutral, and ground; and switchboard instrument details. Product Data: Provide electrical characteristics including voltage, frame size and trip ratings, fault current withstand ratings, and time-current curves of all equipment and components. B. C. Test Reports: Indicate results of factory production tests. D. Manufacturer's Instructions: Indicate application conditions and limitations of use SWITCHBOARDS 16420 - 1 Georgina Cole Library HVAC Replacement Project No.39421 1.5 I .6 7.7 1.8 1.9 1.10 stipulated by Product testing agency specified under Regulatory Requirements. Include instructions for storage, handling, protection, examination, preparation, installation, and starting of Product. PRE-INSTALLATION CONFERENCE A. Convene one week prior to commencing work of this Section. DELIVERY, STORAGE, AND HANDLING A. Deliver in 48 inch (1.2 m) maximum width shipping splits, individually wrapped for protection and mounted on shipping skids. Accept switchboards on site. Inspect for damage. Store in a clean, dry space. Maintain factory wrapping or provide an additional heavy canvas or heavy plastic cover to protect units from dirt, water, construction debris, and traffic. B. C. D. Handle in accordance with NEMA PB 2.1 and manufacturer's written instructions. Lift only with lugs provided for the purpose. Handle carefully to avoid damage to switchboard internal components, enclosure, and finish. ENVIRONMENTAL REQUIREMENTS A. Conform to NEMA PB 2 service conditions during and after installation of switchboards. FIELD MEASUREMENTS A. MAINTENANCE MATERIALS A. Verify that field measurements are as indicated on shop drawings. Provide two of each key. B. Provide two fuse pullers. EXTRA MATERIALS A. Provide three of each size and type of fuse installed. PART 2 - PRODUCTS 2.1 MANUFACTURERS A. General Electric. B. Cutler - Hammer. C. Square "D". SWITCHBOARDS e 16420 - 2 Georgina Cole Library Project N0.39421 HVAC Replacement D. Or approved equal. 2.2-- SWITCHBOARD A. B. C. D. E. F. G. H. 1. J. Description: NEMA PB 2 with electrical ratings and configurations as indicated. Main Section Devices: Panel mounted. Distribution Section Devices: Panel mounted. Auxiliary Section Devices: Individually mounted. Rating: procedures. Bus Material: Copper with tin plating, standard size. Bus Connections: Bolted, accessible from front for maintenance. Provide series connected protection rating in accordance with UL Fully insulate load side bus bars in rear accessible compartments. Ground Bus: Extend length of switchboard. Neutral Bus: 100% Rated. 2.3 METERING COMPARTMENT A. B. Provide digital meters as specified on the drawings. Provide meters with appropriate multiplier tags. PART 3 - EXECUTION 3.1 3.2 3.3 manufacturer's written instructions and B. Tighten accessible bus connections switchboard. NEMA PB 2.1. and mechanical EXAMINATION A. INSTALLATION A. Install switchboard in locations shown on Drawings, in accordance with Verify that surface is suitable for switchboard installation. fasteners after placing C. Install fuses in each switch. FIELD QUALITY CONTROL A. Inspect completed installation for physical damage, proper alignment, anchorage, 16420 - 3 SWTCHBOARDS Georgina Cole Library Project No.39421 HVAC Replacement and grounding. Measure insulation resistance of each bus section phase to phase and phase to ground for one minute each, at test voltage of 1000 volts; minimum acceptable value for insulation resistance is 2 megohms. Check tightness of accessible bolted bus joints using calibrated torque wrench. Physically test key interlock systems to insure proper function. B. C. D. 3.4 ADJUSTING A. B. Adjust all operating mechanisms for free mechanical movement. Tighten bolted bus connections in accordance with manufacturer's instructions. 3.5 CLEANING A. Touch up scratched or marred surfaces to match original finish. END OF SECTION SWITCHBOARDS .. 16420 - 4 Georgina Cole Library HVAC Replacement Project No. 39421 SECTION 16450 GROUNDING .. PART 1 - GENERAL 1.1 1.2 SECTION INCLUDES A. Grounding electrodes and conductors. B. Equipment grounding conductors. C. Bonding. RELATED SECTIONS A. Section 16010 - General Electrical Provisions. 1.3 REFERENCES - - A. ANSIWFPA 70 - National Electrical Code. I .4 SUBMllTALS A. Product Data: Provide data for grounding electrodes and connections. e 6. Test Reports: Indicate overali resistance to ground. C. Manufacturer's Instructions: Include instructions for storage, handling, protection, examination, preparation and installation of exothermic connectors. 1.5 PROJECT RECORD DOCUMENTS A. Accurately record actual locations of grounding electrodes. - 1.6 GROUNDING ELECTRODE SYSTEM A. Metal underground water pipe. B. C. Concrete-encased electrode. Metal frame of the building. D. Ground ring. E. Rod electrode. 1.7 PERFORMANCE REQUIREMENTS A. Grounding System Resistance: 5 ohms maximum. GROUNDING 1 16450 - Georgina Cole Library HVAC Replacement Project No. 39421 PART 2 - PRODUCTS 2.1 ROD ELECTRODE A. Material: Copper. B. Diameter: 3/4 inch. C. Length: 10feet. 2.2 MECHANICAL CONNECTORS A. Material: Bronze. 2.3 WRE A. Material: Stranded copper. B. Grounding Electrode Conductor: Size to meet NFPA 70 requirements. 2.4 GROUNDING WELL COMPONENTS A. Well Pipe: 8 inch diameter by 24 inch long clay tile pipe with belled end. B. Well Cover: Cast iron with legend "GROUND" embossed on cover. PART 3 - EXECUTION 3.1 EXAMINATION A. Verify that final backfill and compaction has been completed before driving rod electrodes. 3.2 INSTALLATION A. B. Install Products in accordance with manufacturer's instructions. Install rod electrodes at locations indicated. Install additional rod electrodes as required to achieve specified resistance to ground. Provide grounding well pipe with cover at each rod location. Install well pipe top flush with finished grade. C. D. Equipment Grounding Conductor: Provide separate, insulated conductor within each feeder circuit raceway. Terminate each end on suitable lug, bus, or bushing. 3.3 FIELD QUALITY CONTROL A. Inspect grounding and bonding system conductors and connections for tightness and proper installation. GROUNDING a, 16450 - 2 3 .. Georgina Cole Library HVAC Replacement Project No. 39421 8. Use suitable test instrument to measure resistance to ground of system. Perform testing in accordance with test instrument manufacturer‘s recommendations using the fall- of-potential method. Provide the owner with one copy of the test results. 3 .. END OF SECTION -- . .a .. C.”. GROUNDING 16450 - Georgina Cole Library HVAC Replacement Project No. 39421 SECTION 16480 MOTOR CONTROL PART 1- GENERAL 1.1 SECTION INCLUDES A. Manual motor starters. 6. . Magnetic motor starters. C. Combination magnetic motor starters. 1.2 RELATED SECTIONS A. 6. Section 16010 - General Electrical Provisions. Section 16190 - Support Devices. C. Section 16450 - Grounding. 1.3 REFERENCES A. NFPA 70 - National Electrical Code. B. UL 198C - High-Interrupting Capacity Fuses; Current Limiting Type. C. D. E. F. G. UL 198E - Class R Fuses. NECA "Standard of Installation," published by National Electrical Contractors Association. NEMA AB 1 - Molded Case Circuit Breakers. NEMA ICs 2 - Industrial Control Devices, Controllers, and Assemblies. NEMA ICs 6 - Enclosures for Industrial Controls and Systems. NEMA KS 1 - Enclosed Switches. .. 1.4 QUALITY ASSURANCE A. B. Perform Work in accordance with NECA Standard of Installation. Maintain one copy of each document on site. 1.5 EXTRA MATERIALS A. Provide three of each size and type fuse installed. MOTOR CONTROL 16480 - 1 c. .. .. Georgina Cole Library HVAC Replacement Project No. 39421 PART 2 - PRODUCTS 2.1 2.2 2.3 2.4 MANUFACTURERS A. General Electric. B. Cutler - Hammer. C. Square "D. MANUAL CONTROLLERS A. Fractional Horsepower Manual Controller NEMA ICs 2, AC general-purpose Class A manually operated, full-voltage controller for fractional horsepower induction motors, with thermal overload unit and toggle operator. Enclosure: NEMA ICs 6; Type 1. . B. AUTOMATIC CONTROLLERS A. Magnetic Motor Controllers: NEMA ICs 2, AC general-purpose Class A magnetic controller for induction motors rated in horsepower. B. Coil operating voltage: 120 volts, 60 Hertz. C. Overload Relay: NEMA ICs; melting alloy. DISCONNECTS A. Combination Controllers: Combine motor controllers with fusible switch disconnect in common enclosure. PART 3 - EXECUTION 3.1 2 A. 8. C. D. E. INSTALLATION Install enclosed controllers where instructions. Install enclosed controllers plumb. Install fuses in fusible switches. indicated, in accordance with manufacturer's Select and install overload heater elements in motor controllers to match installed motor characteristics. Provide neatly typed label inside each motor controller door identifying motor served, nameplate horsepower, full load amperes, code letter, service factor, and voltage/phase rating. MOTOR CONTROL 16480 - Georgina Cole Library HVAC Replacement Project No. 39421 3.2 FIELD QUALITY CONTROL A. Inspect and test each enclosed controller to NEMA ICs 2. . B. C. . .. .. .. Correct any abnormal operating results. Provide one copy of the final test to the owner's representative. END OF SECTION 3 MOTOR CONTROL 16480 - GEORGINA COLE HVAC REPLACEMENT FAC 05-01 APPENDIX “Cy’ HAZARDOUS MATERIALS SURVEY A Hazardous Building Materials Survey dated March 19, 2004 by Ninyo and Moore Geotechnical and Environmental Consultants was performed to evaluate the presence of asbestos containing materials and lead based paint conditions at the site in order to provide recommendations for engineering design. The data can be used to assist in bid preparation, but said data shall not be construed as a warranty of the hazardous materials conditions existing at the site. Contractor shall, therefore, satisfy himself with regard to all hazardous materials conditions that may affect Contract Work. Personal investigation by Contractor is mandatory. Contractor may perform hazardous materials testing on site prior to bid opening. Contact the Owner to arrange for access to site. Neither the information contained in the hazardous materials report nor that derived from maps, drawings, or from Owner, his agents or employees shalt act to relieve Contractor from any responsibility in fulfilling any and all of the terms and requirements specified herein. HAZARDOUS BUILDING MATERIALS SURVEY GEORGINA COLE LIBRARY MECHANICAL ROOMS 1250 CARLSBAD VILLAGE DRIVE CARLSBAD, CALIFORNIA PREPARED FOR Dahl, Taylor & Associates, Inc. 9899 Hilbert Street, Suite A San Diego, California 9213 1 PREPARED BY: Ninyo & Moore Geotechnical and Environmental Sciences Consultants 5710 Ruffin Road San Diego, California 92123 March 19,2004 Project No. 105204001 57 IO Rumn Road San Diego, Cafifornia 92 I23 Phone (858) 576-1 000 Fax (858) 576-9600 La Angeles . Oakfand = Las Vegas = Saft Lake City = Phoenix San Diego lrvine = Ontario I. ! I !. ! I March 19,2004 Project No. 105204001 Mr. Roly Geniza Dahl, Taylor & Associates, Inc. 9899 Hilbert Street, Suite A San Diego, California 92131 Subject: Hazardous Building Materials Survey Georgina Cole Library Mechanical Rooms 1250 Carlsbad Village Drive Carlsbad, California Dear Mr. Geniza: In accordance With our proposal dated February 25, 2004 and your authorization to proceed, Ninyo & Moore has performed a Hazardous Building Materials Survey at the above-referenced site. Our survey included the performance of an asbestos survey, lead-based paint testing and a preliminary microbial assessment of the referenced site. The attached report presents our meth- odology, findings, conclusions, and recommendations regarding our surveys. We appreciate the opportunity to be of service to you on this important project. Should.you have any questions regarding this report, please contact either of the undersigned at your convenience. Sincerely, NINYO & MOORE PHG/JRS/LAChf Distribution: (3) Addressee l-=-dcu---d- Lori A. Cathcart, REA. Principal Environmental Scientist 57 IO Ruffin Road = San Diego, California 92 I23 = Phone (858) 576- 1000 . Fax (858) 576-9600 San Diego - twine 9 Ontario Los Angeles Oakland = Las Vegas Salt Lake City = Phoenix Georgina Cole Library March 19,2004 Project No. 105204001 1. 2. 3. 4. 5. 6. 7. 8. 9. TABLE OF CONTENTS Page INTRODUCTION .................................................................................................................... 1 OBJECTIVE AND SCOPE OF SERVICES ............................................................................ 1 SITE DESCRIPTION ............................................................................................................... 2 PHYSICAL LIMITATIONS .................................................................................................... 2 SAMPLE COLLECTION ........................................................................................................ 3 ,. 5.1. Asbestos Survey .......................................................................................................... ..3 5.2. Paint Testing ................................................................................................................. 3 5.3. Preliminary Microbial Assessment ............................................................................... 4 LABORATORY ANALYSES AND RESULTS ..................................................................... 4 6.1. Asbestos Analysis ......................................................................................................... 4 6.2. XRF Analysis ................................................................................................................ 5 Prelunrnary Microbial Assessment ............................................................................... 5 . .. 6.3. FINDINGS AND OPINIONS .................................................................................................... 6 7.1. Asbestos ........................................................................................................................ 6 7.2. Lead-Based Paint .......................................................................................................... 6 7.3. Preliminary Microbial Assessment .............................................................................. ;7 RECOMMENDATIONS.. ....................................................................................................... ;7 8.1. Asbestos ....................................................................................................................... .7 8.2. Lead-Based Paint .......................................................................................................... 7 8.3. Prelrrmnary Microbial Assessment ............................................................................... 8 LIMITATIONS.. ....................................................................................................................... 8 .. Illustrations Figure 1 - Sample Location Map Figure 2 - XRF Testing Orientation - Table Table 1 - Asbestos Survey Results Table 2 - XRF Data Sheet Table 3 - Preliminary Microbial Assessment Survey Results Appendices Appendix A - Suspect Asbestos Containing Materiais Sampling Protocol Appendix B - XRF Testing Methodology Appendix C - Asbestos Laboratory Report and Chain-of-Custody Records Appendix D - DHS Form 8552 - Lead Hazard Evaluation Report 105204001 R I Georgina Cole Library March 19,2004 Project No. 105204001 I I ! 1. INTRODUCTION In accordance with our proposal dated February 25, 2004 and your authorization to proceed, Ninyo & Moore has performed a Hazardous Building Materials Survey of the mechanical rooms at the Georgina Cole Library (site or subject site). Our survey included the performance of an asbestos survey, lead-based paint testing, and a preliminary microbial assessment of the refer- enced site. The Georgina Cole Library is located at 1250 Carlsbad Village Drive in the city of Carlsbad, Cali- fornia. The surveys were performed in accordance with established guidelines for the assessment of asbestos-containing materials (ACMs), lead-based paints (LBPs), and preliminary microbial assessments in indoor environments, and is based upon conditions at the subject site at the time of the surveyinglassessment activities. Our objective and scope of work are presented below. 2. OBJECTIVE AND SCOPE OF SERVICES The objective of this report is to provide information regarding current site conditions to assist in the planning of future renovation activities at the site. The scope of work performed for the asbestos survey and lead-based paint testing is identified below. 0 Conducted a visual reconnaissance of the readily accessible areas of the two subject me- chanical rooms to evaluate the possible presence of ACMs and LBPs; 0 Collected 33 building material samples and submitted these samples to an independent labo- ratory for analysis of asbestos content; i 0 Prepared an asbestos sample location map showing sample locations of suspect ACMs; 0 Collected 36 x-ray fluorescence (XRF) readings of potential lead-based paint; 0 Prepared a report presenting our data and summarizing our conclusions and recommenda- tions regarding ACMs and LBPs in the subject areas. The scope of work for the preliminary microbial assessment @MA) assessment included the ac- tivities described below. 105204001 R I Georgina Cole Library Approx. Date of Approx. Roof Con- Foun- Flooring Rqom Construc- SF struction dation Materials tion 1960’s 1,000 N/A N/A C Mech. Mech. west 1960’s 1,000 N/A N/A C March 19,2004 Project No. 105204001 Interior Ceiling Wall Fin- Framing Finishes ishes w, c M p, c w, c M p, c 0 Performed a reconnaissance of the buildings, which included a visual assessment of accessi- ble areas and non-destructive moisture reading tests. Non-viable surface and air sampling was not conducted as part of the survey activities, as the goal of our preliminary study was to assess areas where moisturdmicrobial impacted building materials may exist and to help to interpret where hidden impacted materials may be encountered during fbture construction activities. 0 Prepared a report documenting our visual results and moisture readings, including conclu- sions and recommendations. 3. SITE DESCRIPTION The subject site consists of two, second-floor mechanical rooms located on the east and west sides of the Georgina Cole Library, located at 1250 Carlsbad Village Drive, in the city of Carls- bad, county of San Diego, California. The following table describes the areas assessed for this survey. Mechanical Room Descriptions CPT = carpet DW = drywall M =metal P = plaster C = conCrete - Notes: NIA = Not applicable ACP = acoustic ceiling panel BURM =built-up roofing membrane ACT = acoustic ceflmg tile s = stucco VFT = vinyl floor tile VSF = vinyl sheet flooring W = wood 4. PHYSICAL LIMITATIONS The survey was limited to the two mechanical rooms; an assessment of the remaining portions of the structure was not performed. Physical limitations, such as locked rooms and fenced areas, were not encountered during survey activities. However, since non-destructive sampling tech- niques were used, there is a possibility that additional ACMs, LBPs or moisture/microbial irnpActed areas may be encountered in inaccessible areas (e.g. interstitial wall and ceiling spaces) 105204M)1 R 2 Georgina Cole Library March 19,2004 Project No. 105204001 .. during renovation activities. Suspect materials encountered during renovation activities that have not been assessed either may be assumed to be hazardous and handled accordingly, or may be sampled and analyzed to assess whether they are hazardous. 5. SAMPLE COLLECTION On March 5,2004, the two mechanical rooms at the Georgina Cole Library were assessed for the presence of asbestos, lead-based paint, and moisturdmicrobial impacted areas. The surveys fol- lowed EPA guidelines, or industry standards, as appropriate, Within the limitations of the scope of this assessment. Survey activities are described below. ! 5.1. Asbestos Survey A preliminary visual assessment and bulk-sampling survey of suspect ACMs was pdormed. Representative samples of suspect ACMs were collected after identification of homogeneous ! i sampling areas (areas in which the materials are uniform in color, texture, construction or appli- cation date, and general appearance). Each homogeneous area was observed for material type, location, condition, and friability. A total of 33 samples of materials suspected of being asbes- tos-containing were collected during the survey, using EPA-recommended sampling procedures. The Ninyo & Moore asbestos bulk sampling protocol is presented in Appendix A. Building materials that were sampled and analyzed for the presence of asbestos are presented in the attached Table 1, and the locations fiom which bulk asbestos samples were collected are shown on Figure 1. 5.2. Paint Testing To test surfaces for future contractor worker safety and waste characterization, a portable NITON XL 309 XRF spectrum analyzer was utilized. The testing was conducted in gen- eral accordance with accepted environmental science and engineering practices for demolition projects. The testing methodology utilized is presented in Appendix B. A total of 36 XRF readings were analyzed. Surfaces that were tested for the presence of lead are 105204001 R 3 Georgina Cole Library March 19,2004 Project No. 105204001 0 presented in the attached Table 2. A site map indicating the XRF testing orientation (A, B, C, and D wall directions) utilized during the testing is provided on Figure 2. 5.3. Preliminary Microbial Assessment Ninyo & Moore performed a reconnaissance of the subject areas, which included a visual assessment of accessible areas and collection of non-destructive moisture readings utilizing a Protimeter moisture meter to test potential areas of excessive moisture in the subject build- ings. Non-viable surface and air sampling was not conducted as part of the survey activities. Readings were obtained fiom areas where visible water staining was observed, including in- terior wall, ceiling, and flooring materials. Surfaces were ranked as follows: - Rank Description 0 No visible moisture impact 1 2 3 4 5 6 Less than 1 square foot of water staining visible 1 square foot to 5 square feet of water staining visible Greater than 5 square feet of water staining visible Water staining with less than 5 square feet of visible microbial growth Water staining with greater than 5 square feet but less than 10 square feet of visible mi- crobial growth Water staining with greater than 10 square feet of visible microbial growth Descriptions of the materials assessed, the moisture readings collected, the size of the af- fected areas, and the potential source(s) of moisture are presented in Table 3. 6. LABORATORY ANALYSES AND RESULTS The following sections describe the laboratory analyses performed and results obtained for sam- ples collected during the asbestos survey, and the XEV testing results for lead. 6.1. Asbestos Analysis After collection, the ACM samples were transferred to EMC Laboratories (EMC) for analy- sis. EMC is a laboratory accredited in the National Voluntary Laboratory Accreditation Program o\NLAp) for bulk asbestos fiber analysis. Because of material layering, of the 33 samples collected, 71 separate analyses were performed. The samples were analyzed for the 105204001 R 4 Georgina Cole Library March 19,2004 Project No- 105204001 presence and quantification of asbestos fibers, using polarized light microscopy with disper- sion staining (PLM), in general accordance with the United Stated Environmental Protection Agency (USEPA) Method 6OOM4-82-020. The lower limit of reliable detection for asbestos using the PLM method is approximately one percent (1%) by volume. Materials in which no asbestos was detected are defined in the laboratory report as “no” asbestos detected in the Asbestos Detected column. Materials containing asbestos in amounts less than 1% but greater than 0.1% are defined as containing “trace” amounts. Analytical results are summa- rized in the attached Table 1. Copies of the laboratory analytical report and chain-of-custody record are presented in Appendix C. 6.2. XRF Analysis Currently, the State of California and the USEPA stipulate what concentrations of lead in nonvolatile components of surface coatings or materials determine whether a material is I considered to be a lead-based paint. The California Department of Health Services (DHS) stipulates that materials containing an amount equal to or in excess of one milligram per square centimeter (1.0 mg/cm2), or more than one-half of one percent (0.5%) by weight, constitute a lead-based paint. The U.S. Department of Housing and Urban Development (HUD) guideline for designating a painted surface as lead-containing is consistent with the DHS. Paint that is chipping or peeling, or that may be removed from surfaces, and has a lead content equal to or greater than 1,000 milligrams per kilogram (mag), requires handling as a California Title 22 hazardous waste. In addition, under California Code of Regulations Ti- tle8, Section 1532.1, specific worker protection measures are required in construction projects where any lead is present. LBP testing results are summarized in the attached Ta- ble2, and a copy of DHS form 8552 “Lead Hazard Evaluation Report” is included in Appendix D. 6.3. Preliminary Microbial Assessment In accordance with the scope of work, samples of potential microbial growth were not col- lected as part of this assessment. 105204001 R 5 Georgina Cole Library March 19,2004 Project No. 105204001 7. F'INDINGS AND OPINIONS The fmdings of these surveys are based on our visual observations, and analysis of suspect build- ing materials. The findings are presented below. 7.1. Asbestos Based on the analytical results of bulk samples collected during Ninyo & Moore's survey, ACMs are located within the subject site. Materials that were sampled and tested for asbes- tos content can be found in the attached Table 1, including their location and analytical results. The presence of ACMs in a building does not necessarily mean that the health of the occu- pants is endangered. If these materials are in good condition and have not been disturbed, exposures are expected to be negligible. However, when ACM deteriorates, is in damaged condition, or is disturbed, such as during renovation operations, asbestos fibers may be re- leased, creating a potential health hazard for building occupants, maintenance personnel, and contractors. I 7.2. Lead-Based Paint Based on the results of XRF assays collected during the survey, painted surfaces containing concentrations of lead greater than 1.0 mgkm,, or 5,000 mg/kg, were identified at the sub- ject site. Surfaces tested for lead content can be found in the attached Table 2. 1 The presence of LBPs in a building does not necessarily mean that the health of the occu- pants is endangered. If painted surfaces are in good condition, and are not peeling or otherwise deteriorated, exposures are expected to be negligible. However, when LBP dete- riorates, is in damaged condition, or is disturbed, such as during renovation operations, lead- containing dust may be released, creating a potential health hazard for building occupants, maintenance personnel, and contractors. 1052MOO1 R 6 Georgina Cole Library March 19,2004 Project No. 105204001 1. t i ! ! I. 6 ! i ! * i ! ! ! i \ \ 7.3. Preliminary Microbial Assessment Our visual assessment and moisture readings indicate that moisture or potential microbial growth has not impacted the subject areas of the building. The results of the assessment are presented in the attached Table 3. 8. RECOMMENDATIONS Since ACMs and LBPs have been identified at the subject site, the following recommendations and precautions are provided: 8.1. Asbestos The identified ACMs should not be disturbed. Prior to renovation work that would disturb identified ACMs, a licensed asbestos abatement removal contractor should remove the ACMs. It is the contractor’s responsibility to confirm ACM quantities present prior to initiat- ing renovation activities at the mechanical rooms of the subject building. Because non-destructive sampling techniques were used, there is a possibility that additional suspect ACMs may be found during building renovations. Ninyo & Moore recommends that should additional suspect materials, not sampled or assessed in this report, be uncovered during renovation: (a) samples of suspect materials should be collected for laboratory analy- sis, and all activities that may impact the materials should cease until laboratory analytical results are reviewed; or (b) the materials should be assumed to be hazardous and handled as Such. 8.2. Lead-Based Paint LBPs or surfaces identified to contain lead should be handled by an appropriately licensed contractor in. accordance with all federal, state, and local regulations. It is the contractor’s responsibility to confirm LBP quantities present. Because non-destructive sampling techniques were used, there is a possibility that additional suspect LBPs may be found during building renovations. Ninyo & Moore recommends that 1052O4001 R 7 Georgina Cole Library March 19,2004 Project No. 105204001 should additional suspect materials, not sampled or assessed in this report, be uncovered during renovation: (a) samples of suspect materials should be collected for laboratory analy- sis, and all activities that may impact the materials should cease until laboratory analytical results are reviewed; or (b) the materials should be assumed to be hazardous and handled as such. 8.3. Preliminary Microbial Assessment Based on our visual reconnaissance, moisture and potential microbial growth has not im- pacted the subject areas of the building. Should moisture or microbial growth impacted areas be encountered the sources of the moisture should be verified by the appropriate qualified personnel (e.g., plumber, roofer, landscaper etc.) and mitigated as necessary. Moisture- and mold-impacted building materials should be remediated by a licensed mold remediation con- tractor in accordance with EPA Document 402-K-01-001 titled “Mold Remediation in Schools and Commercial Buildings,” dated March 2001, and other generally accepted guide- lines for management of hngi in school buildings. These materials may also be asbestos- containing. For this reason, it is recommended that a contractor that is knowledgeable and . trained in performing both asbestos and mold abatement perform the remediation services. If additional microbial-impacted areas are found during renovation activities, these materials should be managed in accordance with the above-referenced guidelines. In addition, a consultant should be retained to provide remediation oversight activities, in- cluding preparing a remediation specification, performing contractor monitoring and air sampling, and performing post-remediation confirmation services. 9. LIMITATIONS Ninyo & Moore’s opinions and recommendations regarding environmental conditions, as pre- sented in this report, are based on limited sampling and chemical analysis. Further assessment of potential adverse environmental impacts may be accomplished by conducting a more compre- hensive assessment. The samples collected and used for testing, and the observations made, are believed to be representative of the areas evaluated. However, if additional suspect building ma- i05204OO l R Q Georgina Cole Library March 19,2004 Project No. 105204001 terials are encountered during renovation activities, these materials should be sampled by quali- fied personnel, and analyzed for content prior to further disturbance. In addition, please note that quantities of impacted building materials are approximate. It is the contractor’s responsibility to confinn quantities present. The environmental services described in this report have been conducted in general accordance with current regulatory guidelines and the standard of care exercised by environmental consult- ants performing similar work in the project area. No warranty, expressed or implied, is made regarding the professional opinions presented in this report. Variations in site conditions may ex- ist and conditions not observed or described in this report may be encountered during subsequent activities. Please also note that this study did not include an evaluation of geotechnical condi- tions or potential geologic hazards. This document is intended to be used only in its entirety. No portion of the document, by itself, is designed to completely represent any aspect of the project described herein. Ninyo & Moore should be contacted if the reader requires any additional information, or has questions regarding content, interpretations presented, or completeness of this document. 0 The environmental interpretations and opinions contained in this report are based on the results of laboratory tests and analyses intended to detect the presence and concentration of specific chemical or physical constituents in samples collected fiom the subject site. The testing and analyses have been conducted by an independent laboratory that is certified by the State of Cali- fornia to conduct such tests. Ninyo & Moore has no involvement in, or control over, such testing and analysis. Ninyo & Moore, therefore, disclaims responsibility for any inaccuracy in such laboratory results. Our findings, opinions, and recommendations are based on an analysis of the observed site con- ditions. It should be understood that the conditions of a site can change with time as a result of natural processes or the activities of man at the subject site or nearby sites. In addition, changes to the applicable laws, regulations, codes, and standards of practice may occur due to govern- ment action or the broadening of knowledge. The findings of this report may, therefore, be invalidated over time, in part or in whole, by changes over which Ninyo & Moore has no control. @ 1052MOO1 R 9 3 3 t 0 PI v) #1 ASB 015, ASB 01 8,19,20- ASB 003 ’ ASB 004’ ASB 011’ ASB 00 ASB 006 ASB 009 I 1 / / ASS 013 ‘ASB 008 2NDFLOOR ASB 001 ASB 012 ASB 016 / ASB 017 ASB 032, ASB 026, I- 1ST FLOOR EAST BOILER ROOM ASB 028 AS5027 \ /ASB 033 1 HANDLER 3 HANDLER 4 ASB 031--) ASB 029 / ‘ \ \‘ ASB ASB023 022 ASB 021 ASB 025 ASB 024 ASB 030 WEST BOILER ROOM LEGEND 0 ASB 033 Approximate location of asbestos sample Not to Scale f Y SAMPLE LOCATION MAP I) 0 GEORGINA COLE LIBRARY 1250 CARLSBAD VILLAGE DRIVE CARLSBAD, CALIFORNIA 3/04 PROJECT NO. 105204001 A .. 2ND FLOOR D rj B 1 ST FLOOR EAST BOILER ROOM ~ FI HANDLER 3 HANDLER 4 17 C WEST BOILER ROOM A Not to Scale GEORGINA COLE LIBRARY 1250 CARLSBAD VILLAGE DRIVE PROJECT NO. NIA NIA NIA NIA Y NIA ND NIA NIA ND ND NIA NIA ND Good 3% chrysotile NIA ND East Mech. Room East Mech. Room Air handler 1, west side 6" pipe Air handler 1, west side 6" pipe 2 ~~ NIA NIA Beigelsilver pipe lagging wrap Gray hard valve packing insulation East Mech. Room Air handler 1, west side 6" pipe NIA Beige hard packing wrap East Room East Mech. Room Air handler 1, west side 6" pipe Boiler, 6" pipe Beigelgray hard packing coating Gray hard elbow insulation 10 EA NIA East /South of air handler 1, 8" pipe IYellow pipe lagging insulation I Room NIA NIA NIA NIA ND ND ND NIA NIA NIA East Mech. Room East Mech. Room 8" pipe east of boiler 8'' pipe east of boiler Beige hard elbow wrap Beige/gray hard elbow coating NIA 20 EA 1250 Carlsbad Village Drive March 19,2004 Project No. 105204001 Table 1 - Asbestos Survey Results East lAir handler 1, west side 4" pipe IGray hard elbow insulation NIA I Room NM03-ASBOO 1A Library - Air handler 1, west side 4" pipe Beige hard elbow wrap I NIA I NM03-ASBOO 1B Library Library NM03-ASB002A 2 I Eaz-Mrh' 1 Air handler 1, west side 4" pipe IYellow pipe lagging insulation ~~ NM03-ASB002B Library Air handler 1, west side 4" pipe Beige pipe lagging wrap 1 NIA NM03-ASB003A Library NIA East Mech. 1 Room I Air handler 1, west side 6" pipe Yellow pipe lagging insulation Library 2 I Eacoyrh' 1 Air handler 1, west side 6" pipe Black pipe lagging wrap I NIA I NM03-ASB003B NM03-ASB003C Library Library NM03-ASB004A NM03-ASB004B ~ ~~ Library Library NM03-ASB004C NM03-ASB005A ~ Library Library 2 I Ea:oyTh' IBoiler, 6" pipe (Beigelgray hard elbow wrap I NIA NM03-ASB005B NM03 -ASB 00 6 A Library Library 2 1 Ea~o~~h' ISouth of air handler 1, 8" pipe I Beigelsilver pipe lagging wrap 1 NIA NM03-ASB006E - . . . ... I I NM03-ASB007F Library lEastoy;h.I 8" pipe east of boiler lGray hard elbow insulation I NIA Library NM03 -ASB007E NM03-ASB007C Librarj Y I Good I 3@rysotile 1250 9 sbad Village Drive Library Library Library Library Library Library Table 1 - Asbestos Survey Results ND ND NIA NIA N/A N/A 8" pipe west of boiler Yellow hard pipe insulation N/A 2 2 8" pipe west of boiler Gray hard pipe insulation NIA East Mech. Room East Mech. Room Room Room East Mech. 2 12" pipe south of compressor Beige hard packing wrap Room East Mech. 2 Room 2 East 8" pipe west of boiler Beige hard pipe wrap NJA NJA NIA ND 2 East 12" pipe south of compressor Gray hard valve packing insulation NIA N/A NIA ND - ND NJA NJA NJA 12" pipe south of compressor Beige hard packing coating 4 EA Y Good 3% chrysotile e March 19,2004 Library Library Library Library Library Library Library Library Library Library Library Project No. 105204001 2 East East side of boiler Brownlgray gasket 2 EA N Good 90% chrysotile 2 West side of air handler 1 Black panel sealant 150 LF N Good 3% chrysotile Room East Mech. Room Room East Mech. Room Room Room support Room support Room support 2 East West storage tank south Yellow tank insulation NIA NIA NIA ND 2 East West storage tank south Beige tank coating NJA NJA NJA ND West storage tank south BeigeJsilver tank wrap NIA NIA NIA ND 2 NIA N/A NIA ND NJA NIA NJA ND NJA NIA NJA ND East Mech. West storage tank underside at East Mech. West storage tank underside at East Mech. West storage tank underside at East Mech. East Mech. Room East Mech. Room Gray tank insulation Beige tank wrap Beige tank coating 2 2 2 Good 5% chrysotile 2 Room Boiler east side (inside) Beige/gray boiler insulation 80 SF Y North wall at hole Beigelgray plaster - scratch coat NIA NIA N/A ND NIA NIA NIA ND 2 2 North wall at hole 1 Beigelwhite plaster - finish coat with paint NM03-ASB008A NM03-ASB008B ~ NM03-ASB008C NM03 -ASB 009A NM03-ASB009B NM 03-ASB 0 0 9C ~ NM03-ASB010 NM03-ASBO11 ~ NM03-ASB012A NM03-ASB012B NM03-ASB012C NM03-ASBO 13A NM03-ASBO 13B NM03-ASBO13C NM03-ASB014 NM03-ASBO15A NM03-ASBO15B 10520400 I T 1250 Carlsbad Village Drive Library Library Library Library Library Library Library Library Library Library Library Library Library Library March 19 , 2004 Project No. 105204001 ND ND NIA NIA NIA NIA East wall at hole Beigelgray plaster - scratch coat N/A 1 East wall at hole Whte plaster - finish coat NIA East Mech. East Mech. Room Room East Mech. East Mech. Room East Mech. Room Room 1 East East wall at hole Beige plaster - texture with paint N/A NIA NIA ND 1 Room South wall at hole Beigelgray plaster - scratch coat N/A NIA NIA ND ND Beige/white plaster - finish coat with paint Whitebrown button board NIA N/A NIA ND NIA NIA NIA 1 South wall at hole 2 North wall behind plaster 2 East Room North wall behind plaster Whitehrown button board N/A NIA NIA ND East North wall behind plaster Whitehrown button board N/A NIA NIA ND Room West mech. Room West mech: Silverhrowdoff-white pipe lagging RooIn West Room Room West mech. Room West mech. Room West mech. 2 2 Yellow pipe lagging insulation NIA N/A NIA ND N/A N/A N/A ND East of tank, 1 pipe East of tank, 1" pipe wrap 2 mech. East of tank, 1" pipe Beige pipe lagging coating 5 LF Y Good 2% chrysotile West West of air handler 3,4" pipe Yellow pipe lagging insulation NIA NIA NIA ND 2 2 West of air handler 3,4" pipe Beige pipe lagging wrap N/A N/A N/A ND West of air handler 3,4" pipe Off-white pipe lagging coating NIA N/A NIA ND 2 2 Room West of air handler 3,4" pipe Beigelgray hard elbow insulation N/A NIA NIA ND 2 West of air handler 3,4" pipe Beige hard elbow wrap N/A NIA N/A ND Room Table 1 - Asbestos Survey Results \J ,: . -I Sample No. I NM03-ASBO 16A NM03-ASBO16B NM03-ASBO 16C NM03-ASB017A NM03-ASBO 17B NMO 3 - ASBO 1 8 NM03-ASBO 19 NM03-ASB020 NM03-ASB02 1A NM03-ASB02 1B NM03-ASB021C NM03-ASB022A NM03-ASB022B NM03-ASB022C NM03-ASB023A NM03-ASB023B Vh403-ASB025B 1 ~ ~ I VM03-ASB025C NM03-ASB026 I ,ibrary 2 2 2 2 2 NIA N/A West of air handler 3, 6" pipe Room West of air handler 3, 6" pipe Beigeloff-white pipe lagging wrap N/A NIA NIA West mech. Room West mech. West of air handler 3,6" pipe White pipe lagging coating 10 LF Y Good Room West mech. Room West mech. Room West mech. Room West mech. Room West mech. Room West mech. Room West mech. West of air handler 4 Black panel sealant 150 LF N Good NIA insulation Beigelgray hard elbow insulation 30 EA Y Good West of air handler 3,6" pipe at damage NIA N/A NIA Southeast of air handler 3, 8" pipe Yellow pipe lagging insulation N/A N/A NIA Southeast of air handler 3, 8" pipe Silverhrowdbeige pipe lagging wrap N/A NIA N/A Southeast of air handler 3, 8" pipe Black pipe lagging tar N/A N/A N/A Southeast of air handler 3, 8" pipe Beigelgray hard elbow insulation Southeast of air handler 3, 8" pipe Beige hard elbow wap NIA NIA NIA Room West mech. Room West mech. Room West mech. Room 2 West portion of room, wall mounted tank Yellow tank insulation N/A N/A N/A West portion of room, wall mounted NIA NIA tank West portion of room, wall mounted NIA NIA tank Beigelsilver tank wrap NIA Beige tank coating NIA 1250 U dr sbad Village Drive March 19, 2004 Project No. 105204001 Table 1 - Asbestos Survey Results I I Yellow pipe lagging insulation N/A N/A NIA 1 West 1 Room West of air handler 3, 6" pipe VM03-ASB024A I Library Library I ND Library ND ND Library 3% chrysotile 3% chrysotile ND Arary Library Library NM03 -ASB027A NM03-ASB027B ND ND ND Library NM03-ASB027C NM03-ASB028A Library NM03-ASB028B Library ND NM03-ASB029 Library 5% chrysotile NM03-ASB03 OA Library ND ND Library Library NM03-ASB030B NM03-ASB030C ND 105204001 T 4 of5 1250 Carlsbad Village Drive March 19,2004 Project No. 105204001 I NM03-ASB03 1A NMO3-ASB03 1B NM03-ASB032A NM03-ASB03 2B NM03-ASB033A Library NM03-ASB033B Library 2 NOTES: SF = Square feet LF = Linear feet ND = None detected NIA = Not applicable EA = Each Table 1 - Asbestos Survey Results North wall behind door Beigelgray plaster - scratch coat N/A N/A N/A ND West mech. Room West mech. Room West mech. Room West mech. Room paint West mech. Room West mech. Room paint ND NIA N/A NIA Beigelwhite plaster - finsh coat with paint North wall behind door North wall northeast comer of room Beigelgray plaster - scratch coat NIA N/A N/A ND N/A N/A N/A ND East wall, south end Beigelgray plaster - scratch coat N/A NIA N/A ND NIA NIA NIA ND Beige/white plaster - finish coat with North wall northeast comer of room Beigelwhite plaster - finish coat with East wall, south end 105204001 e m +-’ rd A ? ti .- a 0 rn N Georgina Cole Library March 19,2004 Project No. 105204001 APPENDIX A ASBESTOS BULK SAMPLING PROTOCOL 105204001 R SUSPECT ASBESTOS-CONTAINING MATERIALS SAMPLING PROTOCOL Personal Protection Equipment Inhalation of asbestos fibers during asbestos survey may pose a serious health hazard, the use of personal protection equipment (PPE) by building inspectors is crucial during the sam- pling process. As a minimum level of protection, Inspectors should wear a respirator with either a 111 or half-face mask type respirator and high efficiency disposable filter cartridges. Full face masks will also prevent eye imtation from dust, fibers, and debris released during the sampling operation. Disposable clothing should be worn during sampling if necessary. Inspectors should have plastic bags to handle the disposal of drop cloths, protective clothing, wet cloths, and debris. Sampline Equipment Inspectors will need various tools and aids to accomplish their sampling tasks: A ladder and flashlight are needed to access areas and aid visibility. Airtight, sampling containers (e.g., resealable plastic bags). Aplastic spray mister bottle with water to spray the area to be sampled. Plastic drop cloths to spread beneath the area to be sampled. A knife, linoleum cutter, screwdriver, or other tool appropriate for collecting samples. A caulking gun and compound for filling holes once a sample has been extracted. Spray acrylic or adhesive to encapsulate sample extractions. Duct tape for repairing thermal system insulation jackets. Cloths and cleaner for decontaminating tools. A vacuum cleaner equipped with high efficiency particulate air (HEPA) filters, if avail- able. Indelible ink pen for labeling sample containers. Camera for photographic documentation. ACM Sampling attachment The types of suspect asbestoscontaining materials are divided into three categories. They are: surfacing materials, thermal system insulation (TSI), and miscellaneous materials. The procedures for smpling these three types are as follows: Surfacing Materials 1. Spread the plastic drop cloth and set up other equipment, (e.g., ladder). 2. Put on protective equipment (respirator at all times when sampling fiiable material and protective clothing if needed). 3. Label container with its sample identification number and fill out location and type of material sampled on a sampling data form. 4. Mark the location and sample identification number of the sample container and on the sample location map 5. Moisten area where sample is to be collected (spray the immediate area with water). 6. Collect sample using a clean knife or appropriate to cut out or scrape off a small piece of the material. Be sure to penetrate all layers of material. Be careful not to disturb adjacent material. 7. Place sample in a container and tightly seal it. 8. Wipe the exterior of the container with a wet wipe to remove any material which may have adhered to it during sampling. 9. Clean your tools with wet wipes and wet mop or vacuum area with a HEPA vacuum to clean all debris. 10. Fill hole with caulking compound or appropriate filler (to minimize subsequent fiber re- lease) or for appearance. 11. Repeat the above steps at each sample location. Place sample containers in plastic bags. 12. Discard protective clothing, rags, and drop cloth in a plastic bag. Thermal System Insulation Sampling TSI follows the same procedural sequence as laid out above. Obtain samples from exposed or damaged areas if possible. However, random sampling will require sampling of some intact material. Sampling holes can be patched with plastic spackling, caulk, or fibrous glass. ACM SamplingallschmmI Miscellaneous Materials Samples of miscellaneous materials follows the same procedural sequence as laid out above making sure that a cross section of the materials had been obtained. Samples to Laboratory The samples are transferred using standard chain-of-custody procedures to a laboratory ac- credited in the National Voluntary Laboratory Accreditation Program (NVLAP), for bulk asbestos fiber analysis. The samples are analyzed using polarized light microscopy with dis- persion staining (PLWds) for the presence and quantification of asbestos fibers, in general accordance with either EPA Method 600/M4-82-020 or EPA Method 600/R-93/116. The lower Iimit of reliable detection for asbestos using the PLM/ds method is approximately 1% by volume. California regulations now define ACMs as those materials having an asbestos content of greater than one tenth of 1 % (0.1 %). Materials in which no asbestos was detected are defined in the laboratory report as "none detected." Materials containing asbestos, in amounts less than 1 % and greater than 0.1 %, are defined as containing "trace" amounts. Georgina Cole Library March 19,2004 Project No. 105204001 APPENDIX B XRF TESTING METHODOLOGY ~. . . - . .. . .. . . .. . . . 105204001 R XRFTESTING METHODOLOGY To assess the painted surfaces for future contractor worker safety, x-ray fluorescence (XRF) testing technologies were utilized. The testing was conducted in general accordance with the following regulations: 1) Title 17, California Code of Remlations. Division 1. Chapter 8, Accreditation Certification, and Work Practice in Lead Related Construction, Section 36000. Mer a visual assessment, accessible painted surfaces were screened for lead content with a NITON 309 XRF spectrum analyzer. XRF readings were taken using the standard paint mode. Standard paint mode measurements have no predetennined testing length, and auto- matically adjust to account for various types of substrates and material’s densities. In the standard paint mode, the NITON 309 XRF tests until a K-shell result is indicated as either positive or negative, compared to the threshold level based on the current precision of the test. Correction for paint matrix and substrate effects is performed automatically. XRF readings were made on testing combinations in all room eqyivalents in an effort to test typical materials which are representative of the room equivalent. Testing combinations were tested non-destructively by holding the XRF against the surf-ace being tested. At each XRF sample location the shutter is opened, and one reading was made using the standard paint testing mode. Results of each test were read from the digital display of the instrument . console and recorded on the XRF Data Sheet attached as Table 2. To ensure that the XRF equipment was working properly, various quality control tests were performed before, during, and after the on-site work. At the beginning of the work day, three start up validation measurements were made in the standard paint calibration mode, using the calibration check standard associated with the particular XRF that was used. This painted standard contains a known quantity of lead and allows the XRF operator to determine whether the instrument is functioning within acceptable tolerance ranges for accuracy and precision, as determined by the manufacturer. In addition to the three starts up tests, calibration readings were taken on the red 1.06 mg/cm2 and/or yellow 1.57 mg/cm2 Standard Reference Material (SRM) paint film, devel- oped by the National Institute of Standards and Technology (NIST). Results of each reading a XRT Testing atixhmnt were recorded on the XRF Data Sheet. This calibration check was also performed after four hours and at the end of the day. The quality control tests taken during testing at the subject property were within the acceptable performance range prescribed by the XRF equipment manufacturer. Documentation of the quality control calibration check is included in the XRF Data Sheet, Table 2. Georgina Cole Library March 19,2004 Project No. 105204001 APPENDIX C LABORATORY ANALYTICAL REPORT,AND CHAIN-OF-CUSTODY RECORDS i ,. ! I i 105204001 R m a - EMC LABS, INC. Laboratory Report 9830 S. 51st Street, Suite €5109, Phoenix, AZ 85044 Phone: 800-362-3373 or 480-940-5294 - Fax: (480) 893-1726 Bulk Asbestos Analysis by Polarized Light Microscopy 0019702 NVLAP#101926-0 Client: “YO & MOORE Job# / P.O. #: Address: 5710 RUFFING RD Date Received: 03/04/2004 SANDIEGO CA 92123 Date Analyzed: 03/04/2004 Collected: 03/03/2004 Date Reported: 03/04/2004 Project Named GEORGINA COLE LIBRARY EPA Method: EPA 6OOM4-82-020 Address: 1250 CARLSBAD VILLAGE DR, CARLsBAD, CA Submitted By: PAUL GESKES Collected By: Customer MID Sample Layer Name I Asbestos Asbestos Type Non-Asbestos Location Sample Description Detected (”/.I Constituents Client ID 0019702-001 LIBRARY-2ND FL- LAYER 1 No ASB-001 E. MECH RM-AIR Hard Elbow Insulation, Gray HANDLER 1 W. SDE 4” LAYER 2 No Hard Elbow Wrap, Beige Mineral Wool 30% Gypsum Carbonstu Mica Perlite BinderlFilla 70% Celhlose Fib 90% Binder/Filla 10% 0019702-002 LIBFWRY-2ND FL- LAYER 1 No FibrousGlas ’ 95% ASB-002 E. MECH RM-Am Pipe Lagging Insulation, Yellow HANDLER 1 W. SIDE 4” BinderRillcr 5% LAYER 2 No Pipe Lagging Wrap, Beige Cellulose Fik 90% BinderlFiller 10% 0019702-003 LIBRARY-2ND FL- LAYER 1 No Fibrous Glass 95% ASB-003 E. MECH RM-AIR Pipe Lagging Insulation. Yellow HANDLER 1-6’ PIPE LAYER 2 No Pipe Lagging Wrap, Black LAYER 3 No Pipe Lagging Wrap, Beige, Silvn BinderlF iller 5% Fibrous Glass <I% Gypsum BindcrlFills 99% Cellulose Fiber 30% Fibrous Glass 10% Aluminum Carbonates BinderRiller 60% Page I of 13 EMC LABS, INC. Laboratory Report 0°19'02 a 9830 S. 51st Street, Snite B109, Phoenix, AZ 85044 Phone: 800-362-3373 or 480-940-5294 - Fax: (480) 893-1726 Bulk Asbestos Analysis by Polarized Light Microscopy "#101926-0 "YO&MMooRE Job# / P.O. #: Client Address: 571 0 RUFFING RD Date Received: 03/04/2004 SANDIEGO CA 92123 Date Analyzed: 03/04/2004 Collected: 03/03/2004 Date Reported: 03/04/2004 Project Name/ GEORGINA COLE LIBRARY EPA Method: EPA 6oo/M4-82-020 Address: 1250 CARLSBAD VILLAGE DR, WAD, CA Submitted By: PAULGESI<ES Collected By: Customer IablD Sample Layer Name I Asbestos Asbestos Type Non-Asbestos clientlD Location Sample Description Detected ("/I Constituents 0019702-004 LIBRARY-2ND FL- LAYER 1 No ASB-OW E. MECH RM-AIR Hard Value Packing Insulation. HANDLER 1-6' Gray PIPE No LAYER 2 Hard Packing Wrap, Beige Mineral Wool 30% Gypsum Carbonates Mica Perlite BinderlFillcr Cellulose Fib Bindafiiller 10% LAYER 3 Yes Chrysotile 3% Hard Packing Coating, Beige, Gray Gypsum Carbonates Quartz BindcrlFillcr 97% 0019702-005 LIBRARY-2ND FL- LAYER 1 No Mineral Wool 30% ASB-005 E. MECH RM- Hard Elbow Insulation, Gray BOILER4 PIPE Gm Carbonates Mica Perlite BinderlFiller 70% LAYER 2 No Cellulose Fiber 90% Hard Eibow Wrap, Beige BindedFiller 10% Page 2 of 13 EMC LABS, INC. Laboratory Report 9830 S. 51st Street, Suite B109, Phoenix, AZ 85044 0019702 Phone: 800-362-3373 or 480-940-5294 -Fax: (480) 893-1726 Bulk Asbestos Analysis by Polarized Light hlicroscopy Client "YO & MOORE Job# / P.O. #: Address: 5710 RUFFING RD Date Received: 03/wn004 SANDJEGO CA 92123 Date Analyzed: 03/04/2004 Collected: 03/03/2004 Date Reported: 03/04/2004 Project Name/ GEORGINA COLE LIBRARY EPA Method: EPA 6oo/M4-82-020 Address: 1250 CARLSBAD VILLAGE DR, WBAD, CA Submitted BY: PAULGESKES ColIected By: Customer MID Sample Layer Name I Asbestos AsbestosType Non-Asbestos Location Sample Description Detected (%I Constituents Client ID 0019702-006 LIBRARY-2ND FL- LAYER 1 No ASB-006 E. MECH W-S. Pipe Lagging Insulation, Yellow OF AH1 -8" PIPE LAYER 2 No Pipe Lagging Wrap, Beige, Silver Fibrous Glass 95% BinderfFilla 5% Cellulose Fik 30% Fibrous Glass 10% Aluminum Carbonates Binder/Filler 60% 0019702-007 LIBRARY-2ND FL- LAYER 1 No Mineral Wool 30% ASB-007 E. MECH m-8" Hard Elbow insulation, Gray PIPE E. OF BOILER Gypsum Carbonates Mica Perlite BinderfFiler 70% LAYER 2 No Hard Elbow Wrap, Beige Cellulose Fibcr 90% BinderfFiller 10% LAYER 3 Ys Chrysotile 3% Hard Elbow Coating, Beige, Gray Gyps= Carbonates Quartz BinderfFiller 97% a Page 3 of 13 EMC LABS, INC. 9830 S. 51st Street, Suite B109, Phoenix, AZ 85044 Phone: 800-362-3373 or 480-940-5294 -Fax: (480) 893-1726 Bulk Asbestos Analysis by Polarized Light Microscopy NVLAWII 019260 Client: "YO & MOORE Job# / P.O. # Address: 5710 RUFFING RD Date Received 03/04/2004 SANDIEGO CA 92123 Date Analyzed: 03/04/2004 Collected: 03/03/2004 Date Reported: 03/04/2004 Project Name/ GEORGINA COLE LIBMY EPA Method: EPA 6OO/M4-82-020 Address: 1250 CARLSAD VILLAGE DR, CARLSBAD, CA Submitted By: PAULGESKES Collected By: Customer Laboratory Report ~- Non-Asbestos MID Sample. Layer Name I Asbestos AsbeStosQpe Client ID LOGitiOO Sample Description Detected ("/.I Constitn ents 0019702-008 LIBRARY-2ND FL- LAYER 1 No ASB-008 E. MECH W-8" Hard Pipe Insulation. Yellow PIPE W. OF BOILER LAYER 2 Hard Pipe Insulation, Gray No LAYER 3 NO Hard Pipe Wrap, Beige Fibrous Glw 95% BinderiFiller 5% Mineral Wool 30% Gypnrm Carbonates Mica Perlite BinderiFilIa 70% Cellulose Fiba 9OYu BinderiFilla 10% 0019702-009 LIBRARY-2ND FL- LAYER 1 No ' Mineral Wool 30% ASB-009 E. MECH RM-12" Hard Value Packing Insulation, PIPE S. OF Gray COMPRESSR LAYER 2 No Hard Packing Wrap, Beige Gypsum Carbonates Mica Perlite Bindcr/Filla 70% Cellulose Fiba 90% BinderiFiller 10% LAYER 3 Yes Chrysotile 3% Hard Packing Coating, Beige Gyps- CHitmnates Quartz BinderfFillcr 97% EMC LABS, INC. Laboratory Report 9830 S. 51st Street, Suite B109, Phoenix, AZ 85044 Bulk Asbestos Analysis by Polarized Light Microscopy 0019702 Phone: 800-362-3373 or 480-940-5294 -Fax: (480) 893-1726 NVLAP#101926-0 Client: "YO & MOORE Job# / P.O. #: Ad dress: 571 0 RUFFING RD Date Received: 03/04/2004 SANDEGO CA 92123 Date Analyzed: 03/04/2004 Collected: 03/03/2004 Date Reported: 03/04/2004 Project Name/ GEORGJNA COLE LIBRARY EPA Method EPA 6Oo/M4-82-020 Address: 1250 CARLSBAD VILLAGE DR, CAFWBAD, CA Submitted By: PAULGESKES Collected By: Customer ~~ ~ ~~ MID Sample Layer Name I Asbestos Asbestos Type Non-Asbestos Client ID Location Sample Description Detected ("/.I Constituents 0019702-010 LIBRARY-2ND FL- Gask&. Brown, Gray SIDE OF BOILER ASB-0 10 E. MECH RM-E. Yes Chrysotile 90% Mica Binder/Filla 10% 0019702-01 1 LIBRARY-ZND FL- Panel Sealant, Black Yes Chrysotile 3% Cellulose Fiber <I % ASB-011 E. MECH RM-W. SIDE OF AH1 Gypsum Quartz Carbonates Bindcr/Filla 96% 0019702-012 LIBRARY-2ND FL- LAYER 1 No Fibrous Glass 95% ASB-OI 2 E. MECH W-S. Tank Insulation, Yellow STORAGE TANK S. BinddFiller 5% LAYER 2 No Tank Wrap, Beige, Silver LAYER 3 Tank Coating, Beige No Cellulose Fiber 40% Fibrous Glass 10% Aluminum Carbonates Binder/Filla 50% Cellulose Fik 5% BinderRillcr 95% Page 5 of 13 Client: Address: Collected: ProjectNamel Address: EMC LABS, I". Laboratory Rcport 0019702 a I 9830 S. 51st Street, Suite BlW, Phoenix, AZ 85044 Phone: 800-362-3373 or 480-940-5294 - Fax: (480) 893-1726 Bulk Asbestos halysis by Polarized Light Microscopy NVJAP#101926-0 "YOBrMOoRE Job# / P.O. #: 5710 RUFFING RD Date Received: 03/04/2004 SANDEGO CA %123 Date Analyzed: 03/04/2004 03/03/2004 Date Reported: 03/04/2004 GEORGINA COLE LIBRARY EPA Method: EPA 6OOA44-82-020 1250 CARISBAD VILLAGE DR CARESBAD, (=A Submitted By: PAULGESKES Collected By: Customer Non-Asbestos LoCatioD Sample Description Detected ("/.I Constituents LabJD Sample Layer Name I Asbestos Asbestos Type client ID 0019702-013 LIBRARY-m FL- LAYER 1 ASB-0 1 3 E. MECH W-S. Tank Insulation, Gray ' STORAGE TANK LAYER 2 Tank Wrap, Beige No No Mineral Wool 30% Gypsum Carbonates Mica Perlite BinderIFiller 70% Cellulose Fiber Carbonates BinderlFilln 10% LAYER 3 No Cellulose Fiber 5% Tank Coating, Beige BinderIFiller 95% 001 9702-014 LIBRARY-2ND FL- Boiler Insulation, Beige. Gray Yes Chrysotile 5% ASB-014 E. MECH Rh4- BOILER E SIDE (INSIDE) Gypsum Perlite Mica Carbonates BinderFiller 95% Page 6 of 13 a LABS, INC. Laboratory Report 9830 S. 51st Street, Suite B109, Phoenix, A2 85044 Bulk Asbestos Analysis by Polarized Light Microscopy NVLAP#101926-0 0019702 Phone: 800-362-3373 or 480-940-5294 - Fax: (480) 893-1726 Client ”YO & MOORE Job# / P.O. #: Address: 5710 RUFFING RD Date Received: 03/04/2004 SANDEGO CA 922123 Date Analyzed: 03/04/2004 ! I Collected: 03/03/2004 Date Reported: 03/04/2004 ProjectNamd GEORGINACDLELIBRARY EPA Method EPA 6CQ/M4-82420 Address: 1250 CARLSBADVlLLAGE DR, CARLSBAD, (24 Submitted By: PAUL GESKES 1 Collected BY: Customer ~ MID Sample Layer Name I Asbestos Asbestos Type Non-Asbestos I aat ID Loeation Sample Description Detected (”/.I Constituents 0019702-015 LIBRARY-2ND FL- LAYER 1 No ! AsB-015 E. MECH W-N. PlasterScratch Coat, Beige, Gray WALL @ HOLE LAYER 2 Plaster-Finish Coat wl Paint, Beige, White No Cellulose Fiber <I% Gypsum Perlite Mica Quartz Binder&illa 99% Antigorite <1% GWum Mica Quartz BinderlFilla 99% 0019702-016 LIBRARY-IST PL- LAYER 1 No Cellulose Fiber <I% ASB-016 E. MECH RM-E. Plaster-Scratch coat, Beige, Gray WALL @ HOLE Gypsum Perlite Mica Quartz BinderlFiller 99% LAYER 2 No Plaster-Finish Coat, White LAYER 3 No Plaster-Texture w/ Paint, Beige Cellulose Fiber <I% Gypsum Mica Quartz BinderFillcr 99% Cellulose Fiber -=I% Gypsum Mica Quartz BinderIFiller 99% 0 Page 7 of 13 EMC LABS, INC. 9830 S. 51st Street, Suite B109, Phoenix, A2 85044 Phone: 800-362-3373 or 480-940-5294 -Fax: (480) 893-1726 Bulk Asbestos Analysis by Polarized Light Mcroscopy NYLAp#101926-0 0019702 @ Client: “YO & MOORE Address: 5710 RUFFING RD SANDIEGO CA 92123 Job# / P.O. #: Date Received: 03/04/2004 Date Analyzed: 03/04/2004 Collected: 03/03/2004 Date Reported: 03/04/2004 Project Name/ GEORGINA COLE LIBRARY EPA Method EPA 6Oo/M482-020 Address: 1250 CARL.SBAD WGE DR, CARLSBAD, CA Submitted By: PAULGESKES Collected By: Customer MID Sample Layer Name I Asbestos Asbestos ’Qpe Non-Asbestos Location Sample Description Detected (%I Constituents Client ID 0019702-017 LIBRARY-1ST FL LAYER 1 No ASB-OI 7 E. MECH RM-S. Plaster-Scratch Coat, Beige, Gray WALL @ HOLE Cellulose Fibs <I% GypJW Perlite Mica Quartz Bindcr/Filler 99% LAYER 2 No Cellulose Fib Plaster-Finish Coat w/ Paint, Beige, White Mica Gypsum Quartz BinderlFilla 99% 0019702-018 LJBRARy-IST pL- Button Board, White, Brown No Cellulose Fiber 10% ASB-018 E. MECH RM-N. WALL BEHIND PLASTER Quartz GypJum Carbonates BindedFilla 90% 0019702-019 LmRARY-lSTFL- Button Board, White. Brown No Cellulose Fiba 10% ASB-019 E. MECH RM-N. WALL BEHIND PLASTER Quartz Gypsum Carbonates BinderlFiller 90% Page 8 of 13 EMC LABS, INC. Laboratory Report 9830 S. 51st Street, Suite B109, Phoenix, AZ 85044 Bulk Asbestos Analysis by Polarized Light Microscopy NVLAp#101926-0 0019702 Phone: 800-362-3373 or 480-940-5294 - Fax: (480) 893-1726 Client: MNYOBrMOORE Jowl I P.O. #: Address: 5710 RUFF"G RD Date Received: 03/04/2004 SANDIEGO CA E123 Date Analyzed: 03/04/2004 Collected: 03/03/2004 Date Reported: 031W004 Project Name/ GEORGlNA COLE JJBRARY EPA Method: EPA 6oo/M4-82.-020 Address: 1250 CARLSBAD VILLAGE DR, CARI-SBAD, CA Submitted By: PAUL GESKES Collected By: Customer MID Sample Layer Name I Asbestos Asbestos Type Non-Asbestos ClientID Location Sample Description Detected ("/.I Constituents 0019702-020 LDMY-IST pL- Button Board, White, Brown No t ASB-MO E. MECH RM-N. WALL BEHIND PLASTER Cellulose Fik 10% Quartz Gypsum Carbonates BinderlFiller 90% 0019702-021 LIBRARY-IST FL- LAYER I No FibrouP Glm 9SY. ASB-021 w. MECH N-E. Pipe Lagging Insulation. Yellow OF TANK 1" PIPE BinderlFiller 5 Y9 a LAYER 2 No Pipe Lagging Wrap, Silver, Brown, Off White Cellulose Fik 40% Fibmvs Glass 5% Qu- BindedFilla 55% LAYER 3 Yes Chrysotile 2% Cellulose Fibcr 3% Pipe Lagging Coating. Beige Quartz Carbonates BinderlFilla 95% 0019702-022 LIBRARY-1ST FL- LAYER 1 No Fi3~rou.q Glass 95% ASB-022 w. MECH w-w. Pipe Lagging Insulation, Yellow OF AH3 4" PIPE Binderff ilk 5% LAYER 2 No Pipe Lagging Wrap, Beige LAYER 3 No Pipe Lagging Coating, Off White Cellulose Fib 90% Quartz Bindcr/Filla 10% Cellulose Fik 3% Mica Quartz Gypsum Carbonates Binderff iller 97% 0 Page 9 of 13 EMC LABS, INC. Laboratory Report Client: Address: Collected: Project Namd Address: 9830 S. 51st Street, Suite B109, Phoenix, AZ 85044 Phone: 800-362-3373 or 480-940-5294 - Fax: (480) 893-1726 Bulk Asbestos Analysis by Polarized Light Mcroscopy NvLAp#1019264 "YO&MOORE Job# / P.O. #: 5710 RUFFING RD Date Received: 03/04/2004 SANDEGO CA 92123 Date Analyzed 03/04/2004 03/03/2004 Date Reported: 03/04/2004 GEORGINA COLE LIBRARY EPA Method: EPA 60(MM482-020 1250 CARLSBAD WGE DR, CARLSBAD, CA Submitted By: PAUL GESKES collected By: Customer MID Sample Layer Name I Asbestos Asbestos Type Non-Asbestos Client ID Location Sample Description Detected W) Constituents 0019702-023 LIBRARY-1ST FL- LAYER 1 No ASB-023 W. MECH w-w. Hard Elbow Insulation, Beige, Gray OF AH3 4" PIPE LAYER 2 No Hard Elbow Wrap, Beige Mineral Wool 30% Perlite QW GYFW Binderffilla 70% Cellulose Fiber 90% Quartz Binderffiller 10% 0019702-024 LIBRARY-1ST FL- LAYER 1 No ASB-024 W. MECH RM-W. Pipe Lagging Insulation, Yellow OF AH3 6" PIPE LAYER 2 No Pipe Lagging Wrap, Silver, Brown, Beige Fibrous Glass 95% Binderff ina 5 Y. Cellulose Fiber 30% Fibrous Glass 10% Quartz Carbonates Bindcrffillcr 60% 0019702-025 LIBRARY-IST FL- LAYER 1 No Mineral Wool 30% ASB-025 W. MECH W-W. Hard Value Packing Insulation, OF AH3 6" PIPE Beige, Gray Perlite Quartz Gypsum Binderff iller 70% LAYER 2 No Pipe Lagging Wrap, Beige, Off White Cellulose Fiber 90% Quartz Binderfliller 10% LAYER 3 Yes Chrysotik 3% Pipe Lagging Coating, White Carbonates Gypsum BinderlFiller 97% Page IO of 13 EMC LABS, INC. ~~ ~ Laboratory Report 9830 S. 51st Street, Suite B109, Phoenix, A2 85044 Bulk Asbestos Analysis by Polarized Light Wcroscopy 0019702 Phone: 800-362-3373 or 480-940-5294 -Fax: (480) 893-1726 "#101926-0 Client: "YO & MOORE Job## / P.O. #: Address: 5710 RUFFING RD Date Received: 03/04/2004 SAN DIEGO CA 92 I23 Date Analyzed: 03/04/2004 Collected: 03/03/2004 Date Reported: 03/04/2004 Project Name./ GEORGNA COLE llBRARY EPA Method: EPA 60WM4-82-020 Address: 1250 CARLSBAD VILLAGE DR, CARLSBAD, CA Submined By: PAUL GESKES Collected By: Customer I. I MID Sample Layer Name / Asbestos Asbestos Type Non-Asbestos Client ID Location Sample Description Detected (%I Constituents 0019702-026 LIBRARY-IST FL- Hard Elbow Insulation. Beige, Gray Yes Chrysotile 3% Mineral Wool 30% ASl3-026 W. MECH RM-W. OF AH3 6" PIPE @ DAMA Perlite Quartz GFW BinderlFiller 67% 0019702-027 LIBRARY-IST FL- LAYER 1 No Fibrous Glass 95% ASB-027 w. MECH RM-SE Pipe Lagging Insulation, Yellow OF AH3 8" PIPE Quartz Binderffilla 5% LAYER 2 Cellulose Fiber 30% Pipe Lagging Wrap, Silver. Fibrous Glass 10% Brown, Beige Quartz Carbonates BindcrlFifler 60% LAYER 3 Fibrour Glass 3% Note: Difficult to separate Binderffiller 97% Pipe Lagging Tar, Black Carbonates adjacent layers 0019702-028 LIBRARY-IST FL- LAYER 1 No Mineral Wool 30% ASB-028 W. MEW RM-SE Hard Elbow Insulation, Beige, Gray OF AH3 8" PIPE Perlite Quartz Gypsum Binder/Filler 70% LAYER 2 Cellulose Fiber 90% Hard Elbow Wrap, Beige Quartz Binderffiller 10% No No No Page 11 of 13 EMC LABS, INC. 9830 S. 5lst Street, Suite B109, Phoenix, AZ 85044 Phone: 800-362-3373 or 486940-5294 -Fax: (480) 893-1726 Bulk Asbestos Analysis by Polarized Light Microscopy NVLAP#101926-0 Laboratory Report 0019702 0 Client: "YO & MOORE Job# / P.O. #: Address: 5710 RUFFING RD Date Received: 03/04/2004 SANDJEGO CA !E123 Date Analyzed: 03/04/2004 Collected: 03/03/2004 Date Reported: 03/04/2004 Project Namd GJZORGINA COLE LIBRARY EPA Method EPA 6oo/M4-82420 Address: 1250 CARLSBAD VILLAGE DR, CARLSBAD, Submitted By: PAUL GESKES Collected By: Customer MID Sample Layer Name / Asbestos Asbestos Type Non-Asbestos Loeation Sample Description Detected ("/.I Constituents Client ID 0019702-029 LIBRARY-IST a- Panel Sealant, Black ASB-029 W. MECH RM-W. OF AH4 ya chrysotile 5% Gypsum Binderffilla 95% 0019702-030 LIBRARY-ISTFL- LAYER 1 No Fibrous Glass 95% ASB-030 w. MECH m-w. Tank Insulation, Yellow PORTION OF RM- WALL LAYER 2 Tank Wrap, Beige, Silver LAYER 3 Tank Coating, Beige No No BinderlFilla 5% Cellulose Fiber 40% Fibrous Glass 10% Quartz Aluminum Carbonates BinderlFiller 50% Cellulose Fiber 5% Carbonates BinderlFilla 95% 0019702-031 LIBRARY-ISTFL- LAYER I No ASB-03 1 W. MECH M-N. Plaster-Scratch Coat, Beige. Gray WALL BEHIND DOOR Perlite Quartz Gypsum Binderff iller 100% LAYER 2 No Plaster-Finish Coat w/ Paint, Beige, White Cellulose Fiber -=I% Mica Quartz Gypsum Binderff iller 99% EMC LABS, INC. Laboratory Report 9830 S. 51st Street, Suite Bl09, Phoenix, A2 85044 Bulk Asbestos Analysis by Polarized Light lMicroscopy NvLAp#101926-0 0019702 Phone: 800-362-3373 or 480-940-5294 -Fax: (480) 893-1726 Client "YO&MOORE Job# / P.O. #: Address: 5710 RUFFING RD Date Received: 03/04/2004 SANDEGO CA 92123 ' Date Analyzed: 03KW2004 Collected 03/03/2004 Date Reported 03/04/2004 Project Name/ GEORGINA COLE LIBRARY EPA Method: EPA 6oo/M4-82-020 Address: 1250 CARLSBAD VILLAGE DR, CAM-SBAD, Submitted By: PAULGESKES Collected By: Customer ~~ Labm Sample Layer Name I Asbestos Asbestos Type Non-Asbestos ("/.I Constituents Client ID Location Sample Description Detected .0019702-032 LIBRARY-IST F'L- LAYER 1 No ASB-032 W. MECH N-N. Plaster-Scratch Coat, Beige, Gray WALL NE CORNER OF RM Perlite Quartz LAYER 2 Plaster-Finish Coat wl Paint. Beige, White No Gypsum Binderffilla 100% Celldose Fiba <I% Mica Quartz Gypsm Binderff iller 99% 0019702-033 LIBRARY-IST FL- LAYER 1 No ASB-033 w. MECH M-E. Plaster-Scratch Coat, Beige, Gray WALL S. END Perlite Quartz Gypsum Binderffiller 100% LAYER 2 Cellulose Fiber <I% Plaster-Finish Coat w/ Paint, Mica Beige, White Quartz Gypsm Binderffiller 99% No Analyst - Johnnn Hofer Signatory -Lab Director - Kurt Kettler a Page 13 of 13 - of Page - CHAIN OF CUSTODY BulC Laboratories 9830 S. 5IsT St., Ste 5109 Phoenix, AZ 85044 (800) 362-3373 F~x (480) 893-1726 COMPANY NAME: Ninyo & Moore BILL TO: (If Different Location) CONTACT: Email: jshermananin yoandrnoore.com Now Accepting: VISA - MASTERCARD FMceQuoted: $ /Sample $ I layers COMPLETE ITEMS 1 -4: (Failure to complete any items may cause a delay in processing or analyzing your samples) 1. TURNAROUND TIME [4hr rush} hr rush [1-Day] [2-DayJ [3-DayJ [5-DayJ IS-10 Day] PhonelFax: (858) 576-1000 / (858) 576-9600 ""m conflrmatlon dl turnaround time is a * ** *Additional charges for nsh analyds (please call marketing department for pricing details) ****Laboratcny analysis may be subject to delay if credit terms are not met 2. TYPE OF ANALYSIS: SPECIAL INSTRUCTIONS: Sample Collector: (Rint) Relinquished by: Date/Time: Dat d'rime: &Iinq u ish4 by: DatdTime * In the event of any dispute between the above parties for these services or otherwise, parties agree that jurisdiction and ven 'hoenix, Arizona and prevailing party will be entitled to attorney's fees and court costs. / st.-". '- *- SAMPLE DATA SHEET I .. - At <I rlinyo & Moore Project Name :@&$L*UL&L& Ltb Sampled By: PHG La bora t ow: 5710 Huffin Road Project No.:. Sampled By: /- ;an Diego, CA 92123 Tel: (858) 576-1000 Project Manager: PHG Sampled By: U F ylc, i-' IDate Sampjed: 3 -3-Of Fax: APN: Site Address: 'ION: -ax: (858) 576-9600 ZHAIN OF CUSTODY INFORMA Company : Date ' TAT /Paul Geskes XWLWA FEDEMGO Building # Sample ID - 'loo # - 2. \I/ - Room # !F Sample Location I LO- Si& '/ fw I b I' NMOS-ASB ~3 1 I NM03-ASB NM03-ASB000 NM03-ASB --ti- ooq NM03-ASB wq NMOS-ASB Of0 N M03-ASB 0 I ( NM03-ASB V/ L A- NM03-ASB0/4 I \ - &4!zhrgm"I)no~re- ASBESTOS BULK SAMPLE DATA SHEET San Diego, CA 92123 Project Manager: PHG Georgina Cole Library March 19,2004 Project No. 105204001 APPENDED DHS FORM 8552 -LEAD HAZARD EVALUATION REPORT 105204001 R LEAD HAZARD EVALUATION REPORT Mdw Inunbk. skeet. epl-bnd c .Wbk ~0 &f(5&& I/i/(A$ flv ZP code *?/(5 cd &%.- 0 &J No lead-based' paint detected. A lead inspedion Was condudectfotlowing Ihe procedures outlined m Title 17, California Code of Regulations, Division 1, Chapter 8. No lead-based paint was detected during this lead inspeclion. This struclure is found to be lead-based paint free. No lead hazards detected. Lead hazard evaluakn was conducted following the procedures outlined in Title 17, California Code of Regulations, Division 1. Chapter 8. No lead hazards were detected. Lead-based paint andlor lead hazards detected. Lead hazard evaluation was conducted fdtowing the procedures outlined in Title 17. California Code of Replatie Ddsim 1. Chapter 8. Lead-based paint andlor lead hazards were &Wed. Section Cndvidual Conducting Lead Hazard Evaluation BRndnmMdterM .rr-MY-mhfhmenlurcdw.ppk.bie) - ?' OHs~liOnnunkr Sectlon T-Attachments A A foundalion diagram lead-based paint; B- Each testing method. device, and sampling procedure used; C. All data colleded. induding quari control data. laboratory resulk. induding laboratory name, address. and phone number. ting the spedlc locations of each lead hazard or presence Of . FkS( copy and anachmnls retained by hspedor Seand copy and anachmenlz rebind by owner Third copy on& (no attadwnenls) mailed '0: Chikjhood Lead Poi&ing Prevention Branch 1515 Cby Slreet.No. 1601 Oakland. CA 94612 DeparlmenldHeatth~s Reports FAX (510) 622-5007