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A Z 1.5.2 Joists, girders, beams, columns or reinforcing steel shall not be cut. 1.5.3 Where construction necessitates the routing of conduit through structural members, framing or under footings, permission to make such installation shall first be obtained from the Publix Field Representative. 1.6. Temporary Operation: 1.6.1 The Owner may require operation of parts or all of the installation prior to Final Acceptance. 1.6.2 Cost of utilities for such operation shall be paid by the Contractor. This operation does not constitute acceptance of the Contractor's Work. 1.6.3 All electricity used for construction shall be paid for by the General Contractor. Furnish and install temporary electrical connection and meter for construction purposes. Remove temporary service when use is no longer required. Clean up and landscape as required. 1.7. Emergency Repairs: The Owner reserves the right to make emergency repairs as required to keep equipment in operation without voiding the Contractor's guarantee nor relieving the Contractor of his responsibilities during the guarantee period. 1.8. Operating Instructions and Service Manual: 1.8.1 Provide two (2) neatly bound copies of maintenance and instructions book, parts lists pertaining to all equipment furnished. 1.8.2 Each section shall be indexed and include parts lists, instruction books, suppliers' phone numbers and addresses, and individual equipment guarantees all in separate sections. 1.8.3 Representatives of the Owner shall be instructed by the Contractor as to complete care and operation of the electrical system. Inform the Architect in writing as to the persons who received the instructions and the date that this was done. 2. Products: 2.1. Materials: 2.1.1 All materials shall be new, of the best quality. 2.1.2 All similar materials such as switches, panelboards, fuses, circuit breakers, junction boxes, contactors and other classes of equipment shall be of the same type and manufacturer. 2.1.3 All equipment and materials shall be furnished in strict accordance with the equipment schedule and Specification requirements. 2.2. Panelboards 2.2.1 The panelboards shall be dead -front, totally enclosed, with locking doors, with bolt - in type circuit breakers in one, two or three pole common trip units as noted on the Drawings, UL approved. The panelboards shall be 3 phase, 4 wire, solid neutral, ground bus, 120/208 volts, with number of poles, ampacity, and short circuit interrupting rating as noted on the Drawings. Panelboards shall have copper bussing. The circuits shall be connected to individual poles of the panel exactly as shown on the Drawings, and the panel shall be provided with a typewritten s directory. 2.2.2 All panels shall be factory assembled. 2.2.3 Ground fault circuit interrupters shall be provided on each circuit as required by the NEC or where specified on the Drawings. 2.2.4 Circuit breakers installed in panels AB, BC and CD shall be equipped with HID rated breakers as applicable for the load. 2.2.5 Isolated ground busses shall be provided where indicated. 2.2.6 Acceptable Manufacturers: G.E Square - D Westinghouse ITE Div. of Siemens -Allis 2.3. Electrical Service Entrance 2.3.1 The service entrance shall be as indicated on the Drawings. 2.3.2 Coordinate with the utility company. Verify method of service with local utility company and obtain written approval from Publix Representative before commencement of work. 2.3.3 The system shall be grounded in conformance with NEC and as shown on Drawings. 2.4. Main Switchboard/Main Distribution Panel (MDP) 2.4.1 Acceptable Manufacturers: G.E. Square - D Westinghouse ITE Div. of Siemens -Allis 2.4.2 General: Furnish and install the main switchboard as herein specified and shown on the Drawings. 2.4.3 The switchboard shall meet Underwriters' Laboratories enclosure requirements and be furnished with an Underwriters' Laboratories label. 2.4.4 Enclosure Construction 2.4.4.1 The switchboard framework shall consist of steel channels welded or bolted to the frame to rigidly support the entire shipping section for moving on rollers and floor mounting. The framework is to be formed, code gauge steel, rigidly welded and bolted together to support all cover plates, bussing and component devices during shipment and installation. 2.4.4.2 Each switchboard section shall have an open bottom and individual removable top plate for installation and termination of conduit. Top and bottom conduit areas are to be clearly shown and dimensioned on the Shop Drawings. The end plates of the switch boxes shall be removable for installation purposes. The wireway front covers are to be hinged to permit access to the branch switch load side terminals without removing the covers. All closure plates shall be screw removable and small enough for easy handling by one man. The paint finish shall be gray enamel over a rust -inhibiting phosphate primer. 2.4.5 Bussing: 2.4.5.1 The switchboard bussing shall be of sufficient cross -sectional area to continuously conduct amperage as indicated on Drawings with a maximum average temperature rise of 50 degrees c. above an ambient temperature of 25 degrees c. 2.4.5.2 The buss shall be aluminum with 50% neutral with an integrated equipment short circuit rating of 150,000 amps (sym). 2.4.5.3 The buss shall extend the full length of the available feeder area of each enclosure section. 2.4.6 Withstand Rating. 2.4.6.1 The switchboard, as a complete unit, shall be given a single withstand short circuit current rating by the manufacturer. The withstand short circuit current rating shall certify that all equipment is capable of withstanding the stress of a fault equal to the interrupting rating of the least overcurrent protective device contained therein. Such rating shall be established by actual tests by the manufacturer on equipment constructed similarly to the subject switchboard. This test data shall be available and shall be furnished to the Architect, if requested, with or before the submittal of Approval Drawings. 2.4.6.2 The complete unit shall have interrupting rating of not less than the available or interrupting fault current shown on the drawings. 2.4.7 Main Switch (where shown on the Drawings): 2.4.7.1 The main switch shall be fusible and of the bolted contact type, equipped with a 120 volt electric trip device for remote shunt trip operation. 2.4.7.2 The switches shall be dead -front type with a fuse -door interlock and provisions for padlocking in the open position with at least three padlocks. The bolted contacts are to firmly bolt the movable blades to both the top and bottom stationary contacts. The switch shall have a quick -make, quick -break mechanism. Easily replaceable stationary are tips and arch chambers shall be used. The switch shall be capable of opening and closing into a fault of twelve times its continuous current rating in accordance with UL requirements to insure safety on emergency operation. 2.4.7.3 The main switch shall be equipped with NEMA Class 'L' fuses and be Bussman KTU type. 2.4.7.4 The main switch shall be as manufactured by Pringle or Square "D" bolted lock and rated at ampacity shown on the Drawings - no substitutions. 2.4.8 Main Breaker (where shown on the Drawings): The main breaker shall be equipped with a 120 volt electric trip device for remote shunt trip operation. 2.4.9 Fusible Switches (where shown on the Drawings): 2.4.9.1 The fusible switches shall be quick -make, quick -break with the size shown on the associated Drawings. The units shall be listed and approved by Underwriters' Laboratories for general use and where applicable, shall be dual horsepower rated for both standard one-time or dual -element fuses. The fusible switches shall be group mounted in panel -type construction. Each switch shall be equipped with class 'R' rejection type fuse clips. 2.4.9.2 Each switch is to be enclosed in a separate steel enclosure. The enclosure shall employ a hinged cover for access to the fuses which shall be interlocked with the operating handle to prevent opening the cover when the switch is in the on position. This interlock shall be constructed so that it can be released with a standard electrician's tool for testing fuses without interrupting service. The units shall have padlocking provisions in the off position and the operating handle position shall give positive switch position indication. Switches shall pass industry standard I2t withstandability tests and fuse race tests as described elsewhere in the Specifications. 2.4.9.3 All fusing as manufactured by Bussman, type KTN-R, dual -element and current limiting as shown on the Drawings. 2.4.10 Circuit Breakers (where shown on the Drawings). The circuit breakers shall be group of individually mounted, as required for the sizes shown on the Drawings. 2.5. Bus Duct (where shown on the Drawings): 2.5.1 Service entrance bus duct shall be rated as shown on Drawings, 3 phase, full neutral, suitable for 120/208 volts service, inside -outside location. 2.5.2 The bus duct shall be complete with all necessary elbows, transformer taps, fire stops, wall flange for fittings and supports to provide a satisfactory installation as indicated on the Drawings. 2.5.3 The bus duct shall be of the same manufacturer as the main switchboard. 2.5.4 The bus duct shall have the same or greater withstand rating as the main switchboard's interrupting rating. 2.5.5 Support for the bus duct shall be by the General Contractor. 2.6. Overcurrent Protective Devices 2.6.1 Enclosed, Molded -Case Circuit Breaker: NEMA AB 1, handle lockable. 2.6.1.1 Characteristics: Frame size, trip rating, number of poles and auxiliary devices as indicated and interrupting capacity rating to meet available fault current. 2.6.1.2 Application Listing: Appropriate for application, including switching fluorescent lighting loads or heating, air-conditioning and refrigerating equipment. 2.6.1.3 Circuit Breakers, 200 A and Larger: Trip units interchangeable within frame size. 2.6.1.4 Circuit Breakers, 400 A and Larger: Field -adjustable short -time and continuous current settings. 2.6.1.5 Current -Limiting Trips: Where indicated, let -through ratings less than NEMA FU 1, Class RK-5. 2.6.1.6 Current Limiters: Where indicated, integral fuse listed for circuit breaker 2.6.1.7 Lugs: Mechanical lugs and power -distribution connectors for number, size and material of conductors indicated. 2.6.1.8 Shunt Trip: Where indicated. 2.6.2 Future Devices: Where indicated, equip compartments with mounting brackets, supports, bus connections and appurtenances designed for overcurrent protective device types and ampere ratings indicated. 2.7. Contactors 2.7.1 Contactors shall be manufactured by Square'D', Siemens, or General Electric; or others as approved by Publix in writing specifically for this project. Contactor to be of the same manufacturer as it's respective panel serving the contactor. 2.7.2 Contactors shall be designed to carry the full rated current on a continuous basis. 2.7.3 Contactors shall be electrically operated, mechanically held, and suitable for remote operation. The mechanically held contactors shall be supplied with coil clearing contacts which disconnect the magnet coil when operated to eliminate any AC magnetic hum. 2.7.4 Contactors shall be as sized as shown on the Drawings and be installed in a NEMA 1 enclosure. 2.8. Wire and Cable 2.8.1 All wires shall be THHN/THWN-2 copper unless otherwise noted. No aluminum wire will be permitted. 2.8.2 No wire shall be smaller than #12 AWG except control wire. No smaller than #10 AWG shall be used on runs of over 100 ft. 2.8.3 In no case shall the number of conductors installed in conduits exceed the maximum fill allowed by the NEC. Should this occur on the Drawings, the Electrical Contractor shall inform the Architect before installation. Conductors shall not be installed beneath the heating equipment foundations. 2.8.4 Wire must be in one unspliced run to all secondary panel feeders, and in one unspliced run to all air conditioning and refrigeration units. 2.8.5 Install all phase conductors, neutral conductor, and ground conductor from panelboard to the equipment connection junction box. If the neutral conductor is not needed it shall be taped and identified in the J.B. for future use. 2.9. Conduits and Raceways 2.9.1 PVC Schedule 40 conduit may be used under floor slab. Risers and raceways embedded into concrete shall be heavy wall hot dipped galvanized steel. All conduit between transformer and main switch shall be heavy wall, hot dipped, galvanized steel W/MFG couplings and fittings, unless noted otherwise on the Drawings. 2.9.2 No PVC shall be installed above floor slab. 2.9.3 Raceways concealed in wall or ceiling spaces shall be standard weight galvanized EMT with compression couplings or as specified below. 2.9.4 Underfloor Duct (where shown on the Drawings): 2.9.4.1 Shall be "Walkerduct" (no substitutes) as manufactured by Walker/ Textron Company, Parkersburg, West Virginia. Install complete service fittings, blanking plates, junction boxes, covers, etc., with threaded fittings. Use standard No. 2 and No. 4 duct with 42-24 x 2 x 2 or #2-12 x 2 x 2 inserts as shown on Drawings, adaptors 41126a-3/4", for cable. Install Walker Duct junction boxes with brass tops recessed to receive terrazzo. Verify locations of duct with Drawings. 2.9.4.2 Top of cut insert shall be 3/4" below finish floor line. 2.10. Time Switches 2.10.1 Provide time switches as manufactured by Intermatic (no substitutes). 2.10.2 Time switches shall be DPST, 40 amperes, 120 volt, AC motor and astronomic dial, spring -wound carry-over. 2.10.3 Time clocks shall be labeled. 2.11, Outlet Boxes, Fittings, and Connectors 2.1 1.1 Unless hereinafter specifically noted or shown on the Drawings, the minimum size of branch circuit outlet boxes for concealed work shall be 4"x4"xI 1/2" for square boxes and 4"xl 1/2" for octagon boxes. 2.11.2 Boxes shall be provided with plaster covers of sufficient depth to bring the face of the outlet substantially flush with the finished wall or ceiling. The box shall not project beyond the finished wall or ceiling line. 2.11.3 Outlets in concrete block, or other hollow masonry walls: 2.11.3.1 Openings in concrete block walls for outlets shall be cut to exact size with a masonry saw. 2.11.3.2 Switch and receptacle mounting heights, as specified or noted may be adjusted so that the bottom of the outlet box may rest on the top of the wall block at the nearest mortar joint 2.11.3.3 All unused outlets shall be provided with blank covers. 2.11.4 Where conduits 1" or larger enter outlet boxes, the boxes shall be 4 l l/] 6"x4 - I I/ 16"x2 1/4" minimum. Boxes shall be of ample size to provide conductor spaces as required by the National Electric Code. 2.11.5 "Handy", utility or sectional boxes will not be permitted in masonry walls. 2.11.6 When more than one switch or device is shown ganged at any location, a one-piece box of suitable size shall be installed. 2.11.7 Outlet boxes intended for the installation of lighting fixtures shall be equipped with 3/8" "No -Bolt" or equal fixture studs. 2.11.8 Unless otherwise noted, all switches, receptacles and devices shown on the exterior of building walls shall be installed in flush mounted boxes provided with weatherproof gaskets. 2.11.9 All conduit fittings (condulets) shall be of the cast metal threaded hub type, Crouse - Hinds, or Appleton. 2.11.10A11 rigid conduits entering panels, cabinets, outlet boxes, etc., shall be provided with locknuts on both sides of such devices driven tight so as to maintain positive electrical and mechanical continuity throughout the conduit system. Insulated bushings shall be installed on the inside of the termination 2.11.11 Threadless couplings shall not be used for rigid conduit. 2.1 1.12A11 EMT couplings and box connectors shall be of the set screw steel concrete tight or steel compression type. Compression type shall be used in all coolers or freezers. No cast connectors or couplings will be allowed. 2.11.13A11 flex conduit shall be steel w/steel fittings, and shall extend a maximum of 10 ft, unless approved by Publix. 2.12. Junction Boxes: Wiring shall be neatly arranged, bundled and laced in proper groups. 2.13. Pull Boxes 2.13.1 Pull boxes shall be installed in conduit system where needed whether or not they are shown on the Drawings. 2.13.2 Boxes shall be constructed of code gauge galvanized steel with screw covers. 2.14. Safety Switches 2.14.1 The basis of design and quality standards is Square - D. 2.14.2 All units shall be of the same manufacturer. 2.14.3 Safety switches shall be fusible, solid neutral, 250 volt, quick -make and quick -break with visible blades, single throw, general duty, of size and fusing as shown on the Drawings, or required for application. Switches mounted out of doors shall be with protective barrier over hot lugs. 2.14.4 Exterior units shall be in rain tight enclosure. (NEMA 3R) 2.15. Wall Switches 2.15.1 Switches shall be flush mounted, quiet tumbler type, 120/277 volts, 20 amp rated. 2.15.2 Wall plates shall be smooth, 302 stainless steel, one piece as indicated on the Drawings. 2.15.3 Switches shall be installed on the "strike" side of the door swing. 2.15.4 Switches shown near doors shall be not less than two inches and not more than twelve (12) inches from the trim. 2.16. Receptacles 2.16.1 All units shall be totally enclosed composition with side and rear connections. All units shall be equipped with ears and have a rating as listed below. All devices shall be Hubbell or Leviton. See symbol schedule on the Drawings. 2.16.2 Duplex convenience outlets with ground shall be 20 amp, 125 volt parallel slot, "U"- shaped ground, heavy duty "T" rated. 2.16.3 120/208 volt, 3 wire receptacles with ground shall be single 3 wire polarized receptacles with grounding terminal. 2.16.4 Weatherproof receptacles shall be duplex, 20 amp, 125 volt parallel slot receptacle with "U" shaped grounding slot in flush, weatherproof box with gasketed cover and self closing, spring door. 2.16.5 Floor outlets shall be 20 amp, 125 volts single or duplex parallel slot receptacles with "U" shaped grounding slot as called for, located as shown on the Drawings. Provide slotted brass flush cap for sealing when not in use. 2.16.6 All device cover plates shall be smooth 302 stainless steel, one piece. 2.17. Lighting Fixtures 2.17.1 All lighting fixtures shall be furnished by Publix and installed by this Subcontractor. In -line fuses are included with all fluorescent and metal halide fixtures. 2.1.7.2 In areas of suspended ceilings two safety wires per fixture will be supplied and hung by the suspended ceiling Subcontractor, the Electrical Subcontractor shall tie fixtures in areas of suspended ceilings with two (2) #10 wire up to the roof joists per fixture. 2.18. Electric Door Openers: Electric door openers shall be furnished and installed by others, but where shown on the Drawings, shall be wired by the Electrical Contractor with two (2) 115 volt, 20 amp, 3 wire circuits to control box at the top of the door. 2.19. Telephone Outlets: 2.19.1 Provide outlets as located on Drawings. 2.19.2 See Drawings for location and size of conduit runs. 2.19.3 Provide outlet boxes and stainless steel cover plates. 2.20. Standby Electric -Emergency Generator and Transfer Switch (where shown as new on the Drawings). 2.20.1 Emergency generator and automatic load transfer switch will be fumished by Publix and shall be set in place and connected by the contractor. 2.20.2 Emergency Generator: The system shall be installed according to the manufacturer's instructions. 2.20.3 Automatic Load Transfer Switch: The automatic load transfer switch shall be designed for the capabilities of this unit to transfer the load from normal to emergency when any phase of the normal source drops below 70 percent of rated voltage and to automatically restore the load to the normal source when all phases are 90 percent or more of rated voltage and frequency. Unit is to be provided with a contact to actuate the engine starting circuit. 2.20.4 The electrical contractor shall provide wiring and conduit to connect the battery charger, generator start circuit and any block heater wiring required. 2.21. Grounding 2.21.1 All wiring systems shall be grounded in accordance with article 250 of the NEC. All items of electrical equipment not connected directly and mechanically to the conduit system shall be connected thereto with a jumper of suitable size. All breaks in the continuity of the conduit system shall be bridged with a jumper of the proper size between the next adjacent outlet or junction boxes. 2.21.2 Due care must be taken as not to interchange circuit neutrals. 2.21.3 A green THHN/THWN-2 insulated stranded 12 AWG or larger conductor shall run unbroken from the system ground through the conduit system to the ground connections at all receptacles, switches and lights. Appliance outlets shall be in accordance with NEC Table 250-95. 2,22. Tests 2.22.1 The Electrical Contractor shall test all wiring and equipment for grounds, continuity and proper operation. 2.22.2 When directed he shall demonstrate by use of a 500 volt megger, the insulation resistance of any circuit or group of circuits. 2.22.3 Where such tests indicate the possibility of faulty insulation, the Electrical Contractor shall locate the point or points of such faulty insulation and shall pull out the faulty conductor or conductors, replace same with new and demonstrate the elimination of faults. 2.22.4 The provisions of article 110 of the NEC shall be used as a guide for this test. 3. Execution 3.1. General: 3.1.1 Temporary Electric Service: Install and maintain 120/240 volt, 1 phase, 3 wire, 200 amp temporary service for construction purposes. Power consumption cost shall be paid by Contractor. Installation shall comply with OSHA, NEC and all local requirements. 3.1.2 The locations of the outlets, switches and convenience outlets shall be approximately as shown on the drawings and as specified, but exact locations shall be as directed by Publix Field Representative. The running of all circuits, switch legs and conduits is purely diagrammatic. Do not scale from Drawings. 3.13 Rigging and hoisting that is incidental to the electrical portion of the Work shall be performed by the Electrical Contractor. This shall include the hoisting of equipment supplied by both the Electrical Contractor and Publix that are installed by the Electrical Contractor. 3.1.4 Coordinate this work with other trades so that interference between the trades can be avoided. 3.1.5 All channels, angles and other members for the installation and support of the electrical equipment shall be furnished and installed by the Electrical Contractor. 3A.6 The attachment of boxes, conduit, hangers, etc. shall be by machine screws or through bolts on steel, expansion bolts in concrete and masonry, and wood screws in wood. Wood composition plugs shall not be used. 3.2. Excavation and Backfilling: 3.2.1 Do all excavating required to install any underground conduit and after the same are in place and tested and approved. Thoroughly tamp earth around conduits and remove excess or spoil earth from premises as directed. 3.2.2 Underground conduit must be covered by a minimum of three (3) inches of underslab fill. 3.3. Conduit, Raceways, Etc. 3.3.1 All metallic non -current carrying components and enclosures of the electrical wiring system are to be bonded and grounded. 3.3.2 Furnish all necessary fittings and supports to make the raceways or busways fit the building structure and equipment. Raceway size shown or called for are minimum. The Electrical Contractor shall verify all raceway sizes with the dimensions of the particular cable to be installed. 3.3.3 All exposed raceways and conduit shall be neatly installed perpendicular or parallel to walls and floors. Concealed conduit may run diagonally in the horizontal direction. No exposed conduit is allowed in sales area or work rooms (except where required in exposed structure areas of stores without ceilings.) 3.3.4 All raceways shall be supported by approved types of galvanized wall brackets, ceiling trapeze hangers, pipe hangers or pipe straps. Perforated metal strap or tie wire shall not be used for any conduit or raceway. 3.3.5 All conduit located in the attic may be EMT, and must be installed within the area provided for on Drawings. 3.3.6 Areas for work of various trades: Conform to locations as defined in Section 01010. 3.3.7 All conduit located underground may be PVC Schedule 40, except as noted on the Drawings or specified herein. 3.3.8 All job cut threads shall be given a coat of rust -inhibitive paint. 3.3.9 Caulk where conduit passes through walls, providing approved fire -stopping system where required. Caulk where conduit passes through walk-in freezers and coolers. All cutting in block work must be done with carborundum saw; no chisel or hammer work will be accepted. 3.4. Circuit Identification: Label all panels by approved means to identify circuits. Install equipment in cans, as per Drawings. Mark all panels, time clocks, starters, contactors, disconnect devices and main panels on the outside with riveted or approved attached plastic laminated labels V minimum high w/ 3/4" minimum letters of contrasting colors. All circuits shall be identified by typed lettering of contrasting color to tags & covered w/ approved plastic cover. 3.5. Installation of Items Supplied by Others: 3.5.1 All store fixtures and equipment, including shelf gondolas and check out stands, will be furnished and set in place by Publix, or others, and this Contractor shall make all required electrical connections. Verify items and their locations with Publix's Representative. 3.5.2 Meat and Deli Department equipment will all be with plug-in connectors except as indicated on the Drawings. Do not wire direct unless shown on the Drawings or directed by Publix's Representative. 3.5.3 All wiring and mounting shall be in cooperation with and under the direction of the Publix's Representative. 3.6. Control of Outlets: 3.6.1 Branch lighting circuits shall be controlled as shown on the Drawings. 3.6.2 Convenience outlets shall have no intermediate control between panels and outlets, unless indicated otherwise. 3.7. Connection of Conductors: All joints between conductors shall be connected with approved pressure type, connectors and insulated with scotch 33 tape and friction tape, if insulation is not provided in pressure type connector used. 3.8. Sleeves at Fire Retardant Lumber: If fire treated lumber is required by local codes and ordinances, the Electrical Contractor shall provide PVC fitting boxes and piping that penetrate the fire resistant lumber. If the PVC components are not approved by local code, other approved methods must be used to protect against the salt in the fire resistant lumber. 3.9. Final Inspection: All of the following items must be completed prior to final inspection. No exceptions will be made and no final payment will be made until all items are completed. 3.9.1 Thoroughly clean all parts of the apparatus and equipment. Exposed parts which are to be painted shall be thoroughly cleaned of cement, plaster, and other material and all oil and grease spots shall be removed repaint or touch up as required to make look like new. Such surfaces shall be carefully wiped and all cracks and corners scraped out. 3.9.2 Exposed metal work shall be carefully brushed down with steel brushes to remove rust and other spots and touched up with primer. End of Section 16400 Sverdrup SVERDRUF FACILITIES, INC. FLORIDA CORPORATE LICENSE #AA C001291 5750 Major Boulevard, Suite 500, Orlando, FL 32819 (407)903-5001 Fax (407)903-5150 ARCHITECT OF RECORD NAME., FLOYD WILSON McCOLLUM, JR., AIA REGISTRATION: FLORIDA REG. #AR0016162 DATE: 02128101 'tea Revision: Date: By: Description: x C2 N W L O QL ti M r L0 C�4O Liz M I—M00 00 J Q 0 U 000 QW_J LL _ Owwrn cn O m J fUJ —0QW Q� z M W _ _! _ D0�� W Z (29 >_ QM0:�Ux� OQOW O F— 5 O N m a W U LL m I— cn 1-- r_. N Key Plan: Scales: Sverdrup Project No.: 22196390 Drawing Title: SPECIFICATIONS Date: 03/12/99 Designed By: RBJ Drawn By: RM Checked By: FW M awing No.: l PM10