Loading...
HomeMy WebLinkAbout26 01 01 - Basic Materials and MethodsBEARDSLEY DESIGN ASSOCIATES CORNELL – NCP BASIC MATERIALS AND METHODS STANDARD SPECIFICATIONS 26 01 01 PAGE 1 of 19 NOVEMBER 2, 2012 SECTION 260101 BASIC MATERIALS AND METHODS PART 1 GENERAL 1.1 RELATED DOCUMENTS: A. The Contract Documents and the General Provisions of the Contract, including the General Conditions of the Contract for Construction, Supplementary Conditions, Special Conditions and Division 1 Specification Sections apply to the Work of this Section. 1.2 WORK INCLUDED: A. Provide Basic Materials and Methods as follows: 1. Conduit 2. Conduit Fittings 3. Sleeves, Inserts and Openings 4. Support Systems 5. Wireways/Wire Troughs 6. Outlet, Junction and Pull Boxes 7. Conductors 8. Conductor Splicing Materials 9. Wiring Devices 10. Conductor Pulling Lubricant 11. Miscellaneous Painting 12. Waterproofing, Caulking and Sealing 13. Protection and Storage of Materials and the work 14. Lighting 15. Panelboards 16. Grounding 17. Telecommunication ground bar 1.3 SUBMITTALS A. Provide submittals for the following: 1. Wiring Devices 2. Panelboards 3. Transformers PART 2 PRODUCTS 2.1 MATERIALS – GENERAL: BEARDSLEY DESIGN ASSOCIATES CORNELL – NCP BASIC MATERIALS AND METHODS STANDARD SPECIFICATIONS 26 01 01 PAGE 2 of 19 NOVEMBER 2, 2012 A. Conductors shall be annealed copper; 98% conductivity. B. Minimum size conductors for general wiring shall be #12. 2.2 CONDUCTORS: A. Conductors: 1. Conductors shall be annealed copper, 98 percent conductivity. 2. Grounding conductor shall have green color coded insulation. 3. Signal circuits shall be color coded using solid colors with contrasting tracer color lines. 4. Panel feeders shall be copper conductors unless otherwise shown. 5. Aluminum conductors shall not be acceptable. B. INSULATION: 1. 600 volts rating for building feeders and branch circuits. 2. 300 volts rating for signal systems operating at 50 volts or less. 3. # 12 through # 8 AWG: dry locations, use type THWN. 4. # 6 and larger in normally dry locations type THWN. 5. # 12 AWG and larger: under buildings, slab on grade, steam tunnels, crawlspaces, boiler rooms, pump house, kitchen, mechanical rooms, use type THWN. Make: Anaconda, General Cable, Rome Cable, Circle, General Electric, Essex, Okonite, BrandCRex. 2.3 CONDUCTOR SPLICING MATERIALS: A. Wires #8 and smaller: PreCinsulated solderless connectors. B. Wires #6 through #4/0: Compression or split bolt type connectors as manufactured by Dossert, Burndy, or T & B. C. Wires larger than #4/0: Compression or split bolt type connectors with minimum two pressure points per conductor. D. Wire connectors or splicing means installed on conductors for direct burial shall be UL listed for such. 2.4 CONDUCTOR PULLING LUBRICANT: A. The cable lubricant shall meet the following performance specifications: 1. When subjected to a 100 lbs./ft. Normal force, between (type) cable and (type) conduit, the lubricated cable system shall have a BEARDSLEY DESIGN ASSOCIATES CORNELL – NCP BASIC MATERIALS AND METHODS STANDARD SPECIFICATIONS 26 01 01 PAGE 3 of 19 NOVEMBER 2, 2012 coefficient of kinetic friction less than .25 (pulling force greater than lbs./ft.) 2. The lubricant shall be U.L. (or CSA) listed. 3. When used on high voltage cable, the lubricant shall not affect the volume resistivity of any semiCconducting jacket or insulation shield present. The volume resistivity of the semiCconducting material shall at no time increase more than 100% when tested via the ICEA TC25C425 method, 90 degrees centigrade exposure, 7 day test, readings made at 23 degrees centigrade daily. 4. The lubricant shall not affect the tensile/elongation properties of the cable jacket more than existing ICEA/NEMA aging specifications allow. 5. The lubricant shall contain no waxes, greases, silicones, or polyalkylene glycol oils or waxes. B. Manufacturer: Polywater J. American Polywater Corporation, P.O. Box 53, Stillwater, Minnesota 55082. 2.5 CONDUIT: A. Flexible Conduit: 1. Steel interlock type, galvanized, with galvanized steel fittings. 2. Complies with NEC Article 350 and U.L. standards for flexible conduit. 3. Flex conduit to only be used for light fixture and motor connection, whips no more than 6’ in length. 4. Make: Galflex or acceptable manufacturer. B. Electrical Metallic Tubing (EMT) 1. EMT shall be low carbon steel, with set screw type, concrete tight fittings. 2. Exterior shall be galvanized by electrolytic process and extra coat provided by bright dip in zinc chromate solution. 3. Interior shall be coated with baked plating process. 4. Make: Cerro, Republic, Allied Tube, Youngstown, Wheatland or acceptable manufacturer. C. Rigid Metallic Conduit (RGS) 1. Rigid galvanized steel, hot dipped threaded type. 2. Galvanized threaded malleable iron fittings. 3. Make: Cerro, Republic, Allied Tube, Youngstown, Wheatland acceptable manufacturer. 2.6 CONDUIT FITTINGS: A. EMT: BEARDSLEY DESIGN ASSOCIATES CORNELL – NCP BASIC MATERIALS AND METHODS STANDARD SPECIFICATIONS 26 01 01 PAGE 4 of 19 NOVEMBER 2, 2012 1. All fittings shall be U.L. listed steel or malleable iron. 2. Branch circuit conduits larger than 1” diameter and conduits containing feeders serving panelboards shall have grounding type bushings. 3. Set screw type fittings, Concrete tight as manufactured by Neer, OZ Gedney, Bridgeport or acceptable manufacturer. 4. Compression connectors, squeeze type Efcor or acceptable manufacturer. B. Flexible: 1. Fittings shall be UL listed steel or mallable iron. 2. Fittings for flexible steel conduits shall be squeeze type as manufactured by Thomas and Betts, Steel City or Appleton. C. Liquidtight: 1. Fittings shall be malleable iron, tapered hub threads, with safeC edge ground cone and double bevel sealing ring. 2. Fittings for liquid tight flexible conduits shall be screwCin type manufactured by Thomas and Betts Company or Pittsburgh Standard Conduit Company. D. Rigid Conduit: 1. Bushings for metal conduit terminations shall be the nylon insulated type throat, with grounding type locknut ahead of bushing. 2. Die cast zincCalloy and pressure cast and indenter type fittings shall not be approved. Provide steel or malleable iron only. 3. Conduit hubs shall be as manufactured by Myers Electric Products, Inc., Raco, T&B, General Electric Company or acceptable manufacturer. E. Die cast, pressure cast, potted metal or similar type fittings shall not be used. 2.7 CONDUIT SUPPORT SYSTEMS: A. Trapeze type hangers: 1. Steel horizontal members and threaded hanger rods. 2. Rods shall not be less than ½" diameter. 3. Make: Kindorf GC953 Series, or acceptable manufacturer in Unistrut or BCline complete with all necessary bolts, screws, angles, anchors, connection plates, straps, etc., as required to perform the necessary functions. B. Conduit Clamps and Supports: 1. Steel hangers and threaded hex nuts. 2. Kindorf CC149 series or acceptable manufacturer in Unistrut or BC BEARDSLEY DESIGN ASSOCIATES CORNELL – NCP BASIC MATERIALS AND METHODS STANDARD SPECIFICATIONS 26 01 01 PAGE 5 of 19 NOVEMBER 2, 2012 line complete with all necessary bolts, screws, angles, anchors, connection plates, straps, etc as required to perform the necessary functions. 2.8 OUTLET, JUNCTION AND PULLBOXES: A. Types: 1. Galvanized, stamped steel shall be provided when recessed in construction or exposed on walls and ceilings in dry areas. 2. Deep condulet style with hubs, or Myers hubs for exposed work in damp area or wet location or for weatherproof type outlets. 3. Large pullboxes shall require 14 gauge galvanized steel, fold and weld construction; with 14 gauge galvanized and gasketed steel cover secured in place by galvanized sheet metal screws on maximum 10 inches centers. All cut edges to be free of burrs. 4. Provide cast iron, gasketed, watertight boxes where installed in earth, surface mounted outdoors, where threaded connection is needed. B. Size: Provide as required for number and size of conduit and conductors. Coordinate depth to suit wall depth and construction. Use special forms and designs as required for outlet facilities. C. Covers: Provide design and style to suit outlet box and electric facility. Provide for all unused or nonCdesignated boxes. NEMA 1, 12, 3R, rating for area environment and use watertight cover with gasket for exterior boxes. D. Fixture Studs: Use 3/8 inch studs and securely fastened to support fixtures. E. Make: Appleton, CrouseCHinds, O.Z. Gedney, National, Steel City, Raco, PyleCNational. 2.9 SLEEVES, INSERTS AND OPENINGS: A. "LinkCseal" assembly as manufactured by Thunderline (see Execution for locations). B. Schedule 40 steel pipe, packed with fire barrier wool and caulk (see Execution for locations). C. Fire barrier wool and caulk. No sleeve necessary (see Execution for locations). D. Where 3 hour fire rating is required, use split collar fire seal with sleeve. 2.10 WIRE WAYS AND WIRE TROUGH: BEARDSLEY DESIGN ASSOCIATES CORNELL – NCP BASIC MATERIALS AND METHODS STANDARD SPECIFICATIONS 26 01 01 PAGE 6 of 19 NOVEMBER 2, 2012 A. Use hinged cover type wire way with provisions for full layCin along the entire length of run. B. Wire way shall be steel, enclosed with gray enamel finish. C. Use JK sectional NEMA dust resistant, oil tight type where subjected to moisture, in pump rooms, mechanical, electric and fan rooms, exterior wall, shops, maintenance shop, and similar locations. D. Knockouts along runs. E. Provide all elbows, tees, pullboxes, fittings, hangers, reducers, supports, etc., to meet installation requirements. F. Size as shown on drawings or code size where not noted. G. Make: Square D "Square Duct" or acceptable manufacturer by Hoffman, General Electric, Meco. 2.11 WIRING DEVICES: A. Receptacle, Duplex: 1. Grounding type, parallel blade with standard or grounding caps, high strength nylon construction. 2. For side or back wiring, with break off strip for two circuit wiring. 3. U.L. listed, 20 amp circuit rating, NEMA type 5C20R. 4. Extra hard use specification grade. 5. Make: Pass & Seymour PT5362A or acceptable manufacturer. B. Switches, Local: 1. Toggle operated A.C. type. 2. Specification grade, slow make, slow break. 3. 20 amperes at 120V rating. 4. Make: Sierra, ArrowCHart, circle F, Slater, P&S, Hubbell HBL 1221L single pole, HBL 1223L three way, Hubbell HBL 1224 four way or acceptable manufacturer. 2.12 CEILING PLATES A. Round ceiling plate, white finish, steel, to cover existing castCinCplace ceiling boxes. B. Mulberry Model 40430 or acceptable manufacturer. BEARDSLEY DESIGN ASSOCIATES CORNELL – NCP BASIC MATERIALS AND METHODS STANDARD SPECIFICATIONS 26 01 01 PAGE 7 of 19 NOVEMBER 2, 2012 2.13 WARRANTY: A. Provide one year manufacturer's warranty on all equipment, materials and products. Where shown or specified, provide manufacturer's extended warranty. 2.14 PANELBOARDS: A. Panelboards shall be type “Lighting and Power Distribution”, with 22,000 AIC interrupting rating unless noted otherwise. Load centers shall not be permitted. Panelboards shall be fully rated and shall include main breakers, and type written circuit directory. 2.15 DRYCTYPE TRANSFORMERS A. Transformers shall be NEMA Type TPC1, dryCtype, copper windings, with 5 secondary taps, suitable for wall or floor mounting; size and voltage as shown on Drawings. PART 3 EXECUTION 3.1 COLOR CODING AND NUMBERING: A. Color coding for branch circuits and feeders. 1. 120/208 volt, 3 phase, 4 wire Wye system. a. Phase A – Black b. Phase B – Red c. Phase C – Blue d. Neutral – White e. Grounding Conductor – Green 2. 277/480 volt, 3 phase, 4 wire, Wye system a. Phase A – Brown b. Phase B – Orange c. Phase C – Yellow d. Neutral – Gray e. Grounding Conductor – Green 3. 120/240 volt, 3 phase, 4 wire, Delta system a. Phase A – Black b. Phase B – Orange (wild leg) c. Phase C – Blue d. Neutral – White e. Grounding Conductor – Green 4. Identify grounded (neutral) conductors in accordance with NEC BEARDSLEY DESIGN ASSOCIATES CORNELL – NCP BASIC MATERIALS AND METHODS STANDARD SPECIFICATIONS 26 01 01 PAGE 8 of 19 NOVEMBER 2, 2012 Article 200 when it is shared or common raceways and enclosures B. Number code all control and instrumentation wiring at termination points. 3.2 SPARE RECEPTACLES A. Provide four (4) additional spare TVSS receptacles. 3.3 LAYING OUT WORK A. Conform to Section 013100 – Project Coordination 3.4 MISCELLANEOUS PAINTING: A. Conform to Section 099123 – Interior Painting B. Conform to Section 011000 – Summary of Work C. Conform to Section 011200 – Multiple Contract Summary D. Conform to Section 017329 – Cutting and Patching 3.5 EQUIPMENT INSTALLATION: A. Conform to Section 013100 – Project Coordination B. Conform to Section 014000 – Quality Control Service 3.6 NOISE AND VIBRATION: A. Install all equipment to be free of transmission of noise and vibration to occupied spaces. Arrange isolated equipment so that it does not contact members of the building structure, ceiling grids, piping, conduits or ductwork. B. Provide replacement at no cost to the Owner of any pump, motor, motor starter, or lighting fixture, transformer, UPS system, other equipment which in the opinion of the Engineers produces excessive vibration or noise. 3.7 ADJUSTING AND INITIAL LUBRICATION: A. Conform to Section 014000 – Quality Control Services BEARDSLEY DESIGN ASSOCIATES CORNELL – NCP BASIC MATERIALS AND METHODS STANDARD SPECIFICATIONS 26 01 01 PAGE 9 of 19 NOVEMBER 2, 2012 3.8 EQUIPMENT CHECKOUT AND TESTING: A. Conform to Section 014000 – Quality Control Services 3.9 CONDUITS: A. General: 1. Securely support conduit from building construction, separately from outlets and boxes which are secured to the building. Supports shall be spaced at intervals of eight (8) feet maximum or as required by NEC code. 2. Conduit runs shall be concealed unless otherwise specified. Do not expose in finished room unless specifically permitted. 3. Conduit runs shall be exposed in electrical, mechanical and fan rooms. 4. Conduit runs shall be installed neatly and parallel to ceilings, walls, and floors. 5. All conduits and fittings on exposed work shall be secured by means of metal clips on back plates. 6. Avoid installation adjacent to hot surfaces. Raceways shall be spaced from heat sources as follows: a. Steam: no conduit within 12 inches of outside surface of insulation. b. Hot water piping: 6 inches minimum from outside surface of insulation. 7. Provide one pull box or junction box per three 90 bends in any one conduit run. 8. Plug openings until wire is installed and ream conduit joints and ends before installation. Wires shall not be pulled until conduit system is completed in all details. 9. Conduits feeding panelboards; pull boxes. a. Terminations at each pullbox, panelboard and switch board shall have double locknut (one inside and one outside) b. Provide a minimum of two 1 inch conduit stubs from each flush mounted panelboard to an accessible ceiling space above the panel, in an adjacent area or at the ceiling line. 10. Conduit terminating in gasketed enclosures shall be terminated with conduit hubs or Myers hubs. 11. Avoid installing conduits in water or where excessive moisture exists. For conduits terminating to boxes in wet areas, use Myers hub fittings. BEARDSLEY DESIGN ASSOCIATES CORNELL – NCP BASIC MATERIALS AND METHODS STANDARD SPECIFICATIONS 26 01 01 PAGE 10 of 19 NOVEMBER 2, 2012 B. EMT: 1. Use in dry locations for concealed or exposed work. C. Liquidtight Conduit: 1. Use for terminating connection for motors, compressors, air conditioners, sound equipment and dry type transformers. 2. Provide proper fittings with insulated throats. Provide green wire ground. 3. Use Liquidtight conduit and fittings in outdoor locations and in pump rooms, garages, elevator pits and other locations subjected to moisture. 4. Use for all motor transformer terminations and other equipment where vibration is present. D. Flexible Conduit: 1. Install as terminating connection for motors, compressors, air conditioners, sound equipment and dry type transformers in dry areas as shown or scheduled. 2. Install green wire ground in all flexible conduit. 3. Flex conduit to be used only for light fixtures and motor connections, whips no more than 6’ in length. E. RGS: 1. Use in dry locations for concealed or exposed work where shown. 2. Use in or under concrete pours. 3. Use where exposed to weather. 4. Where run in earth and below slab on grade, encase conduit in 1C 1/2” concrete envelope unless otherwise noted. 5. Use where noted on drawings. 3.10 CABLE LUBRICATION AND LUBRICANT: 1. The cable jacket and/or conduit walls shall be completely lubricated when cable is pulled into conduit. The lubricant shall be applied immediately before or during the pull. 2. Minimum quantities of lubricant are as follows: a. 1 quart of lubricant per 100 feet of 1 inch conduit. b. 2 quarts of lubricant per 100 feet of 2 inch conduit. c. 3 quarts of lubricant per 100 feet of 3 inch conduit. d. 1 gallon of lubricant per 100 feet of 4 inch conduit. 3. This quantity shall be increased as needed for difficult pulling situations BEARDSLEY DESIGN ASSOCIATES CORNELL – NCP BASIC MATERIALS AND METHODS STANDARD SPECIFICATIONS 26 01 01 PAGE 11 of 19 NOVEMBER 2, 2012 (high temperatures, multiple bends, poorly placed conduit, etc.) 4. Cable attachments for pulling shall be patent cable grips, or other devices subject to the Owner's approval. In using woven basket type grips on covered cable, care shall be taken to avoid damage to the cable and seal, which shall be marked up and maintained during cable installation. Difficult pulling is not anticipated; if unduly difficult pulling occurs, the Contractor shall check pull required and suspend further pulling until further procedure has been approved by the Owner. Maximum pull tension shall not exceed recommended value for the cable when measured by tension dynamometer. 5. Cable pulling during low temperatures is subject to review by the Owner and shall be discontinued when, in the Owner's and Engineers opinion, the cable may be damaged. 6. The Contractor shall keep records of all cables pulled, meggered and terminated. Exact lengths of cables installed shall be supplied to the Owner. 3.11 CONDUIT FITTINGS: A. EMT: 1. Provide EMT connector and nylon bushing at all EMT plain end terminations for power, CATV, communications and computer. 2. Use set screw type, concrete tight indoors, dry locations. 3. Use compression connectors, squeeze type in wet locations. B. RGS: 1. Provide galvanized steel locknuts at each termination unless hubs are used. 2. Use sealing locknuts for all wet/damp areas. 3. Use grounding type locknuts for rigid terminations not equipped with grounding bushings. 3.12 CONDUIT HANGERS: A. General: 1. Investigate thoroughly, Architectural and Shop Drawings related to work, to determine how equipment, fixtures, piping, ductwork, etc, are to be supported, mounted or suspended. Provide extra steel, bolts, inserts, pipe stand brackets, or any other items required for proper support. Provide supporting accessories where required, whether or not shown on the drawings. Where directed, furnish drawings showing supports, etc., for approval. 2. Conduit hanger rods in areas where hot dipped galvanized conduit is installed shall be galvanized steel, sprayed with one coat of BEARDSLEY DESIGN ASSOCIATES CORNELL – NCP BASIC MATERIALS AND METHODS STANDARD SPECIFICATIONS 26 01 01 PAGE 12 of 19 NOVEMBER 2, 2012 Rustoleum paint. 3. Size support member within load rating of member section, and without visible deflection. 4. Mount conduit on top of support member unless space considerations prevent installation; use conduit clamps. 5. Provide channels for racking up conduit, trapeze, suspensions, cable racks, panel racks, etc., as shown and as required and provide pouredCinCplace inserts for supporting channels. B. Conduit Clamps: 1. Single conduits shall be supported by means of oneChole pipe clamps in combination with oneCscrew back plates to raise conduits from the surface. C. Trapeze Hangers: 1. Multiple runs of conduits shall be supported by means of trapeze hangers, keeping conduits as high as possible with minimal beads and offsets in height. 3.13 SURFACE RACEWAYS: A. Surface Raceways: 1. Blank cover raceways shall be provided where shown, or as approved in advance by the Engineer. 2. Secure to structure at 5 foot intervals. 3. All surface boxes to be independently secured to structure. 4. Provide separate green grounding wire within each surface raceway and extend back to ground of serving panelboard. 5. Paint all raceways to match adjacent walls. 3.14 CONDUCTOR SPLICING MATERIALS: A. Splices and connections for lighting and receptacles shall be made in accessible outlets, pullboxes or junction boxes. B. Insulate all splices, taps and connections for lighting and receptacles with U.L. labeled gauge plastic tape or molded composition caps. C. Splices shall not be made except where called for by the drawings, or where specifically permitted by the Owner. Where splices are permitted, they shall be made in a neat, workmanlike and approved manner by those specialized in this class of work, close attention being paid to all splices with particular attention to splices on higher voltages. Splices shall be made by the Contractor for each type of wire or cable in accordance with instruction issued by Cable Manufacturers and the Owner. Before splicing, insulated cables shall have conductor insulation stepped and bound or penciled for recommended distances back from BEARDSLEY DESIGN ASSOCIATES CORNELL – NCP BASIC MATERIALS AND METHODS STANDARD SPECIFICATIONS 26 01 01 PAGE 13 of 19 NOVEMBER 2, 2012 splices to provide a long leakage path. After splicing, insulation equal to that on the spliced conductors shall be applied at each splice. In baring conductors for splices, care shall be taken to avoid nicking strands. 3.15 CONDUCTORS: A. All wire and cable shall be installed in an approved raceway. B. Provide wire and cable in conduit for all feeders, motor circuits, lighting circuits, receptacle circuits, equipment circuits, etc., as shown on drawings. C. Coil slack wire at outlets, inside the outlet boxes and seal the outlet opening with cardboard or fiber plug to prevent entrance of concrete plaster or paint. Provide separate neutrals for all single phase circuits. D. Tag all feeders, subfeeders, special system wiring and control wiring in each pullbox/gutter space, denoting points of origin/termination of wires. E. Install a maximum of 3 phase and one neutral conductor in any one feeder or branch circuit conduit unless otherwise directed by Engineer. F. Provide supports for conductors in vertical raceways in accordance with NEC, Article 300C19. G. Flexible conduit used as connection to any equipment shall contain separate green grounding wire run back to ground bus of serving panelboard. H. Provide #12 AWG minimum size for branch circuit and emergency system wiring, #14 AWG minimum size for signal circuits. I. All wires #12 and larger and wiring to motor or other fixed equipment shall be stranded type. J. Provide #10 minimum size for branch circuit run which exceed 100 feet; unless otherwise directed. K. The neutral wire shall be identified throughout the system. Feeders shall be identified at the source and at all boxes with panel make and phase (A,B,C). L. Included in the work covered under this section is the cutting or drilling of entrance holes into enclosures, equipment terminal boxes and outlet boxes for entrance of cable not in conduit, as well as the work of cutting and drilling of holes in miscellaneous plates located in the path of cable runs. Entrance holes for cable shall be installed around cable, as part of the work of installing cable, sealing bushings, CrouseCHinds type: "CGB" or Owner approved equal, or conduit bushings where these alone are BEARDSLEY DESIGN ASSOCIATES CORNELL – NCP BASIC MATERIALS AND METHODS STANDARD SPECIFICATIONS 26 01 01 PAGE 14 of 19 NOVEMBER 2, 2012 permissible. The work shall also include the work of packing or sealing at conduit bushings after cables are pulled, using unoiled Oakum and JM DuxCseal or Owner approved equal. M. Cables shall be formed to avoid sharp bends or edges of conduit bushings upon entering or leaving conduit terminations, and insulated wiring to approximately six inch intervals between conduit and terminals. Where outlet box, cabinet, cubicle, switchgear or other terminal points for cable are equipped with cable or wiring trays, troughs or gutters. Contractor shall pull sufficient length of each cable to permit neat arrangement of all entering cables, with leads formed and cabled or clamped as each conductor is brought to its terminal connection. No tangle box work will be accepted. N. Where reasonable practicable , the minimum radius to which an insulated conductor is bent, whether permanently or temporarily during installation, shall be ten times the diameter over the outer covering. O. Making terminal connections shall be included as part of the work, except as specifically noted. At points where the conductor and cable insulation will be terminated, terminations shall be made in a neat, workmanlike and approved manner by men specialized in this class of work, particular attention being given to higher voltage terminations, shielded conductor terminations and coaxial cable terminations. Terminations shall be made by the Contractor for each type of wire or cable in accordance with instructions issued by the Owner. Spare cables shall be trimmed, taped and bundled neatly within the cabinet so their presence will not interfere with connected terminations. They shall be trimmed to a length such that they can be made up and connected to the farthest terminal block within the cabinet. P. Before any cable terminal connections are made, conductors shall be rung out. Connections shall be made according to wiring diagrams. Polarity or phasing shall be checked before final connections are made, and corrections of polarity, phasing or rotation shall be made without additional cost to the Owner. Q. Control cable terminations shall be made in accordance with wiring diagrams, using wire numbers established by the Owner for the various control circuits. It is the intent that the Contractor shall terminate the cables which he installs, except as specifically noted. R. When control cables are to be fanned out and cabled together with cord, Contractor shall make connections to terminal blocks, and test equipment for proper operation before cables are corded together. If there is any question as to proper connection, the Contractor shall make temporary connection with sufficient length of cable so that cable can be switched to another terminal, without splicing cable. S. After pulling and splicing but before making cable terminal connections, the Contractor shall expose ends, clear each conductor, and make the BEARDSLEY DESIGN ASSOCIATES CORNELL – NCP BASIC MATERIALS AND METHODS STANDARD SPECIFICATIONS 26 01 01 PAGE 15 of 19 NOVEMBER 2, 2012 required Megger test on all circuits except lighting circuits. Contractor shall test cables for motors, power, and control, with a Megger insulation testing instrument (Associated Research, Inc., Megohmmeter) before equipment is energized. In the event insulation is deficient, repeat Megger testing shall be accomplished after corrective measures have been applied. Extreme care shall be exercised in meggering so as not to put excessive voltage on instrumentation and electronic equipment and thereby damage such devices. The Contractor shall megger all power feed cables for 10 to 15 sec., at 4000 volts on apparatus rated 2500 volts, 1000 volts on apparatus rated 550 volts to 2500 volts and 500 volts on apparatus rated less than 500 volts. The cable shall be meggered first on the reel before pulling and then again on a cableCbyCcable basis after being cut and pulled. T. A check shall be made of all external and internal wiring for loose connections, cable sizing and proper terminations per the elementary and connection drawings listed and attached with specification. U. All wiring systems shall be thoroughly checked before placing the system in service, for grounds, short circuits and conformity to wiring diagrams. 3.16 CONDUCTOR CIRCUITING: A. Lighting, receptacles and special circuits: 1. Lighting circuits: provide lighting arrangement as shown or 15 amperes maximum per circuit where not otherwise shown. 2. Receptacle circuits: provide 5 convenience outlets maximum per circuit unless otherwise shown or specified. 3. Special receptacle circuits: provide as indicated on drawings and as specified under special items of equipment and provide separate green conductor for grounding receptacles to panel ground bus. This includes UPS dedicate single receptacle for Telecommunication Rooms. B. Power and Control Circuits: 1. General requirements: a. Provide all power wiring. Install in conduit and make all connections to disconnect switches, motor controllers, motor and other items of electrical equipment shown on drawing details and schedules. b. Provide control wiring only as shown on electric equipment schedule and plan details. Install in conduit and make connections to motors, motor controllers, control devices, etc., including the mounting of all control devices furnished by others. BEARDSLEY DESIGN ASSOCIATES CORNELL – NCP BASIC MATERIALS AND METHODS STANDARD SPECIFICATIONS 26 01 01 PAGE 16 of 19 NOVEMBER 2, 2012 c. Verify exact location and rating of all motors, controllers, control devices, etc., with other contractors before roughing. d. Power and control wiring may be combined in common conduit by increasing conductor or conduit sizes as required by code. e. Provide minimum working clearances as required by NEC Article 110C16 and as shown on the drawings. 2. Wiring diagrams: a. Any wiring diagrams shown on drawings for hookup of equipment furnished by others, are approximate and are for bidding purposes only b. Obtain wiring diagrams, certified correct for the job, from respective Contractor for all equipment and systems furnished by them. c. Install all work in accordance with certified wiring diagrams. 3. Control devices: a. Do not accept control devices from other Contractors unless they are properly tagged and furnished with circuiting information. 3.17 LIGHTING CIRCUIT CONTROL DEVICES AND RECEPTACLES: A. All devices shall be mounted within a steel box. B. All receptacles shall be mounted with box aligned in a vertical direction with ground slot at bottom of receptacle. In those areas where vertical space is not available such as under fin radiation, cabinets and above backsplash, mount horizontally with ground slot at right. C. Provide circuit identification of lighting junction boxes and wall switches in each Telecommunication room as called for 3.18 WALL PLATES: A. Submit samples as requested by Architect/Engineer. B. Provide special plates fabricated for devices shown ganged together at one location and provide special engraving for switch plates covering special utility switches as shown on drawings. C. Special finish plates will be required where so noted on drawings or included in specifications. Sample of finishes will be furnished to Architect/Engineer for approval when so requested. BEARDSLEY DESIGN ASSOCIATES CORNELL – NCP BASIC MATERIALS AND METHODS STANDARD SPECIFICATIONS 26 01 01 PAGE 17 of 19 NOVEMBER 2, 2012 D. Provide blank matching coverplates for outlets not used. E. Coverplates for telephone, dimmer controls, etc., shall match device plates in each area. 3.19 OUTLET, JUNCTION AND PULLBOXES: A. Flush recessed wherever possible and securely supported from building construction. B. Where outlet boxes are installed in exposed block walls, locate at corner of block. Locate conduit as required to meet block conditions. Coordinate with other Divisions. C. Identify junction boxes for particular service such as power, lighting, grounding, fire alarm, etc. Label with suitable tags or use stencil lettering. D. Locate where shown or required for outlet facilities and where shown or required for installing wire or cable. Make accessible after completion of construction; Electric Contractor shall be responsible for coordination with other divisions. Junction and pullboxes shall not be located in finished room unless specifically permitted. E. Mounting height of boxes shall be as scheduled. 3.20 PREVENTION OF CORROSION: A. Protect all metallic materials against corrosion. B. Aluminum shall not be used in contact earth nor embedded in concrete. Where connected to dissimilar metal, protect by approved fittings and treatment. C. Hot dip galvanize all ferrous metal materials such as bolts, braces, boxes, bodies, clamps, fittings, guards, nuts, pins, rods, shims, washers, and miscellaneous parts which are not made of corrosionCresistant steel. Use stainless steel fasteners in wet locations and out of doors. D. Galvanized in accordance with ASTM AC123 or AC153. 3.21 PAINTING: A. General Requirements: 1. Painting shall be provided as outlined hereafter. 2. Clean all surfaces of moisture, rust, plaster, dirt, dust, and foreign matter before painting. 3. Apply full even coats as required to provide acceptable finish. BEARDSLEY DESIGN ASSOCIATES CORNELL – NCP BASIC MATERIALS AND METHODS STANDARD SPECIFICATIONS 26 01 01 PAGE 18 of 19 NOVEMBER 2, 2012 4. Apply finish coat just before final acceptance. 5. Protect all other surfaces with drop cloths. masking tape, etc. 6. Protect equipment and internal parts with making tape. 7. Factory enamelCfinished equipment not to be painted, EXCEPT when rusted or otherwise damaged; then paint as directed or if specifically called for hereinafter. 8. Appearance to be approved; repaint if required. B. Paint all work of this division in the following areas: 1. Boiler Room, Mechanical Equipment Rooms, Electrical Equipment Rooms, Penthouses, Fan Rooms, all work of this contract exposed to the weather, and where specifically called for. a. Bare pipes, conduit, supports, all supports, mounting boards/panels, metal jackets, etc., also paint equipment not supplied with factory finished surface. 1) First Coat: Pratt and Lambert "Effecto" primer unless equipment supplied with factory prime coat. 2) Second Coat: Pratt and Lambert "Effecto" enamel. 3) Color as selected by engineer/architect. 4) Additional coats as required. 3.22 FIRESTOPPING, WATERPROOFING, CAULKING AND SEALING: A. Opening Through Fire/Smoke Walls and Floors: 1. Install work per NFPA. 2. Provide sleeves for ducts and pipe anchor duct sleeves with angle iron. 3. Comply with Division 078413 – Penetrating Firestopping 3.23 TESTS: A. General: 1. Perform all operations required for the complete testing of all systems, equipment and related work as shown on drawings or specified herein and in accordance with all applicable requirements of the specifications. 2. Before final acceptance, all specified tests shall be completed to the satisfaction of the Engineer or his representative, who shall be sole judge of the acceptability of such tests and who may direct the performance of any such additional tests as he deems necessary in order to determine the acceptability of the systems, equipment, material and workmanship. Any additional tests BEARDSLEY DESIGN ASSOCIATES CORNELL – NCP BASIC MATERIALS AND METHODS STANDARD SPECIFICATIONS 26 01 01 PAGE 19 of 19 NOVEMBER 2, 2012 required by the Engineer will be made at no additional costs to Owner. 3. All protective equipment shall be actuated in a manner that clearly demonstrates their work ability and operation. 4. Demonstrate the ability of each and every piece of equipment to meet the design and operating requirements indicated on the drawings. 5. The inspection and test by the Owner or Engineer of any articles or lots thereof , or failure to inspect and accept or reject any article or lots thereof, shall not relieve the Contractor from any responsibility regarding defects or other failure to meet the Specification requirements which may be discovered prior to final acceptance. Except as otherwise provided in the Specification, final acceptance shall be conclusive except as regards any latent defects, fraud, or such gross mistakes as amount to fraud. 6. Acceptance to the material and/or equipment and the waiving of test thereof, shall in no way relieve the Contractor of the responsibility for furnishing material and/or equipment meeting the requirements of these Specifications. END OF SECTION 26 01 01