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HVAC CONVERSION PLAN PAGE 16-30
H. CONCRETE PROTECTING AND CURING 1. GENERAL: PROTECT FRESHLY PLACED CONCRETE FROM PREMATURE DRYING AND EXCESSIVE COLD OR HOT TEMPERATURES. COMPLY WITH ACI 306.1 FOR COLD -WEATHER PROTECTION AND ACI 301 FOR HOT -WEATHER PROTECTION DURING CURING. 2. EVAPORATION RETARDER: APPLY EVAPORATION RETARDER TO UNFORMED CONCRETE SURFACES IF HOT, DRY, OR WINDY CONDITIONS CAUSE MOISTURE LOSS APPROACHING 0.2 LB/SQ. FT. X H BEFORE AND DURING FINISHING OPERATIONS. APPLY ACCORDING TO MANUFACTURER'S WRITTEN INSTRUCTIONS AFTER PLACING, SCREEDING, AND BULL FLOATING OR DARBYING CONCRETE, BUT BEFORE FLOAT FINISHING, 3. CURE CONCRETE ACCORDING TO ACI 308.1. I. CONCRETE SURFACE REPAIRS; DEFECTIVE CONCRETE: REPAIR AND PATCH DEFECTIVE AREAS. REMOVE AND REPLACE CONCRETE THAT CANNOT BE REPAIRED AND PATCHED. 1. CUT THE EDGES OF THE AREAS TO BE REPAIRED WITH STRAIGHT CUTS. ALL PATCHES SHALL BE CONSTRUCTED OF STRAIGHT LINES AND RIGHTANGLES. 2.6 CONCRETE FLOOR COATING A. GENERAL 1. THE CONTAINMENT WALLS AND FLOOR WITHIN SHALL BE PAINTED AND SEALED WITH A 2-PART EPDXY CONCRETE FLOOR COATING. ALL SURFACES SHALL BE PREPARED IN STRICT CONFORMANCE WITH THE MANUFACTURER'S APPLICATION INSTRUCTIONS. 2. OPTIONS: a. PROVIDE AN ANTI -SLIP ADDITIVE IN THE TOP COAT b. COLOR: CONTAINMENT WALLS -BRIGHT YELLOW I CONTAINMENT FLOOR -SLATE GRAY c. PROVIDE A CLEAR -SEAL SATIN FINAL COAT OF THE MANUFACTURER'S PROTECTIVE SEALER 2.7 FENCE AND ACCESSORIES A. GENERAL 1. THE CONTRACTOR SHALL PROVIDE ALL LABOR, MATERIALS AND APPURTENANCES NECESSARY FOR INSTALLATION OF THE GALVANIZED CHAIN LINK FENCE SYSTEM. 2. THE CONTRACTOR SHALL SUPPLY A TOTAL GALVANIZED CHAIN LINK FENCE SYSTEM OF THE DESIGN, STYLE AND STRENGTH DEFINED HEREIN, THE SYSTEM SHALL INCLUDE ALL COMPONENTS ILE., FRAMEWORK, CHAIN LINK FABRIC, HARDWARE, GATES AND FITTINGS) REQUIRED. B. MATERIAL -STEEL FRAMEWORK: 1. THE STEEL MATERIAL SHALL BE ZINC -COATED STEEL STRIP, GALVANIZED BY THE HOT -DIP PROCESS CONFORMING TO THE CRITERIA F ASTM A653 A T REQUIREMENTS OF ASTM A924. C 0 S AND HE GENERAL 2. THE ZINC USED IN THE GALVANIZING PROCESS SHALL CONFORM TO ASTM B6. WEIGHT OF ZINC SHALL BE DETERMINED USING THE TEST METHOD DESCRIBED IN ASTM A90 AND SHALL CONFORM TO THE WEIGHT RANGE ALLOWANCE FOR ASTM A653, DESIGNATION G-90. 3. THE FRAMEWORK SHALL BE MANUFACTURED IN ACCORDANCE WITH COMMERCIAL STANDARDS TO MEET THE STRENGTH REQUIREMENTS (45,000 PSI MINIMUM YIELD STRENGTH) OF ASTM F1043, GROUP IC, ELECTRICAL RESISTANCE WELDED ROUND STEEL PIPE, LIGHT INDUSTRIAL (COMMERCIAL) WEIGHT. 4. THE EXTERIOR SURFACE OF THE ELECTRICAL RESISTANCE WELD SHALL BE RECOATED WITH THE SAME TYPE OF MATERIAL AND THICKNESS AS THE BASIC ZINC COATING. 5. A CHROMATE CONVERSION COATING SHALL BE APPLIED TO THE EXTERNAL SURFACE. 6. A CLEAR COAT SHALL BE APPLIED OVER THE CHROMATE CONVERSION COATING. CLEAR POLYMERIC COATINGS SHALL BE A CLEAR FILM APPLIED IN THE MANNER ASSURING GOOD ADHESION. THE EXTERIOR CLEAR -COATED SURFACE MUST DEMONSTRATE THE ABILITY TO WITHSTAND EXPOSURE OF 500 HOURS WITHOUT FAILURE AT A BLACK PANEL TEMPERATURE OF 145 DEG F WHEN TESTED IN ACCORDANCE WITH ASTM D1499. THE CLEAR COAT SHALL ALSO WITHSTAND 500 HOURS OF EXPOSURE TO 100% RELATIVE HUMIDITY PER ASTM D2247 WITHOUT BLISTERING OR PEELING AND 950 HOURS OF EXPOSURE TO SALT SPRAY PER ASTM B117 WITH A MAXIMUM OF 5% RED RUST. 7. THE STRENGTH OF THE FENCE SHALL CONFORM TO THE REQUIREMENTS OF ASTM F1043. THE YIELD/TENSILE STRENGTH SHALL BE DETERMINED ACCORDING TO THE METHODS DESCRIBED IN ASTM E8. TERMINAL POSTS, LINE POSTS AND TONBOTTOM RAILS SHALL BE CUT TO MEET FIELD CONDITIONS. C. MATERIAL - FENCE FABRIC 1. THE FABRIC SHALL BE HOT DIPPED GALVANIZED WITH A MINIMUM ZINC COATING WEIGHT PER ASTM A392 FOR CLASS I. 2. WIRE SIZE: THE FINISHED WIRE SIZE SHALL BE 6 GAUGE. 3. HEIGHT AND MESH SIZE: THE FABRIC HEIGHT SHALL BE 8 FEET HIGH WITH A MESH SIZE OF 2 INCHES. 4. SELVAGE: TOP EDGE KNUCKLED AND BOTTOM EDGE KNUCKLED. D. MATERIAL -FENCE FITTINGS 1. THE MATERIAL FOR FENCE FITTINGS SHALL BE MANUFACTURED TO MEET THE REQUIREMENTS OF ASTM F626. E. MATERIAL -GATES 1. SWING GATES SHALL BE MANUFACTURED AND COATED TO MEET THE REQUIREMENTS OF ASTM F900. GATES SHALL BE THE SAME HEIGHT AS THE ADJACENT FENCE, F. PLASTIC FENCE WEAVE 1, PROVIDE TAN PLASTIC STRIPS WOVEN INTO FENCE FABRIC (EXTERIOR FENCE AND GATE ONLY). PROVIDE COMPLETE COVERAGE. G. INSTALLATION 1. INSTALL CHAIN LINK FENCE IN ACCORDANCE WITH ASTM F567. FENCE POSTS SHALL BESET AT SPACINGS OF A MAXIMUM OF 10 FEET O.C. GATE POSTS SHALL BE SPACED ACCORDING TO THE GATE OPENINGS SPECIFIED IN THE CONSTRUCTION PLANS. INSTALL FABRIC ON SECURITY SIDE AND ATTACH WITH WIRE TIES OR CLIP TO LINE POSTS AT 15 INCHES O.C. AND TO TOP AND BOTTOM RAILS, TENSION BARS, AND BRACES AT 24 INCHES O.C. 2.8 PIPE, FITTINGS, AND JOINTS A. GENERAL 1. WHERE MORE THAN ONE PIPING SYSTEM MATERIAL IS SPECIFIED, ENSURE SYSTEM COMPONENTS ARE COMPATIBLE AND JOINED TO ENSURE THE INTEGRITY OF THE SYSTEM IS NOT JEOPARDIZED. PROVIDE NECESSARY JOINING FITTINGS. ENSURE FLANGES, UNION, AND COUPLINGS FOR SERVICING ARE CONSISTENTLY PROVIDED. 2. USE UNIONS, FLANGES, AND COUPLINGS DOWNSTREAM OF VALVES AND AT EQUIPMENT OR APPARATUS CONNECTIONS. DO NOT USE DIRECT WELDED OR THREADED CONNECTIONS TO VALVES, EQUIPMENT, OR OTHER APPARATUS. 3. USE NON -CONDUCTING DIELECTRIC CONNECTIONS WHENEVER JOINING DISSIMILAR METALS IN OPEN SYSTEMS. 4. PROVIDE PIPE HANGERS AND SUPPORTS IN ACCORDANCE WITH ASTM B31.9 OR MSS SP69 UNLESS INDICATED OTHERWISE. 5. USE BALL OR BUTTERFLY VALVES FOR SHUT-OFF AND TO ISOLATE EQUIPMENT, PART OF SYSTEMS, OR VERTICAL RISERS, 6. USE BALL OR BUTTERFLY VALVES FOR BYPASS SERVICES. 7. USE ONLY BUTTERFLY VALVES IN CHILLED WATER SYSTEMS FOR ISOLATION SERVICE. 8. USE LUG END BUTTERFLY VALVES WITH BLIND FLANGES TO ISOLATE PIPES. 9. USE 3/4 INCH BALL VALVES WITH HOSE BIBB AND CAP WITH CHAIN FOR DRAINS AT MAIN SHUT-OFF VALVES, LOW POINTS OF PIPING, BASES OF VERTICAL RISERS, AND AT EQUIPMENT. 10. ALL INSTRUMENT TUBING SHALL BE HARD DRAWN COPPER. B. REGULATORY REQUIREMENTS 1. CONFORM TO ASME B31.9 CODE FOR INSTALLATION OF PIPING SYSTEM. 2. WELDING MATERIALS AND PROCEDURES: CONFORM TO ASME SEC 9. C. CONDENSATE DRAIN AND VENT PIPING 1. COPPER TUBING: ASTM B306, DWV. a. FITTINGS: ASME B16.23, CAST BRONZE, OR ASME B16.29, WROUGHT COPPER. b. JOINTS: ASTM B32, SOLDER, GRADE 50B. 2. SCHEDULE 40 PVC PIPE: ASTM D2665. a. FITTINGS: SCHEDULE 40 PVC. b. JOINTS: ASTM D2855, SOLVENT WELD WITH ASTM D2674 SOLVENT CEMENT. D. INSTRUMENT PIPING(TUBING 1. COPPER PIPE: ASTM B88 TYPE L HARD DRAWN COPPER TUBING. a. FITTINGS: WROUGHT COPPER FITTINGS. b. JOINTS: SOLDERED JOINTS. E. CHILLED WATER PIPE (BELOW GROUND) 1, MANUFACTURERS: SUBJECT TO COMPLIANCE WITH REQUIREMENTS, PROVIDE PRODUCTS BY ONE OF THE FOLLOWING: a. ROVANCO PIPING SYSTEMS b. INSUL-TEK c. ENERGY TASK FORCE 2, CARRIER PIPE: SCHEDULE 40 A53B ERW STEEL OR TYPE K HARD DRAWN COPPER TUBING CONFORMING TO ASTM-B-88. 3. INSULATION: POLYURETHANE FOAM, K FACTOR 0.14, DENSITY 2.0 TO 3.0 PCF, 90-95% CLOSED CELL CONFORMING TO MIL SPEC 1-24172 AND ASTM-C-591 COMPLETELY FILLING THE ANNULAR SPACE BETWEEN CARRIER PIPE AND JACKET. MAXIMUM SERVICE TEMPERATURE OF 250 DEG F. 4. JACKETING MATERIAL: HIGH DENSITY POLYETHYLENE (HOPE) CASING TYPE III, CATEGORY 5, CLASS C CONFORMING TO ASTM D-1248. 5. END SEAL: MASTIC END SEALS, FACTORY APPLIED TO INSULATION ENDS. 6. INSULATION OF STRAIGHT JOINTS: PRIOR TO JOIN ING CARRIER PIPE AN HDP E SLEEVE IS SLID ONTO JACKETING ON EITHER SIDE OF JOINT. AFTER WELDING AND HYDRO TESTING, THE HOPE SLEEVE IS SLID IN PLACE AND SEALED WITH HEAT SHRINK TAPE. POLYURETHANE FOAM IS THEN MIXED AND POURED INTO THE ANNULAR SPACE AND SEALED WATERTIGHT. 7. FITTINGS: ALL FITTINGS ARE FIELD WELDED AND INSULATED UTILIZING FITTING INSULATION KITS. FITTING KITS CONSIST OF HARD SHELL MITERED HDPE MATCHING THE THICKNESS OF JACKET, POLYURETHANE FOAM AND HEAT SHRINK TAPE. 8. BACKFILLING: UNDERGROUND SYSTEMS SHALL- BE BURIED IN A TRENCH OF NOT LESS THAN 24 INCHES DEEPER THAN THE TOP OF THE PIPE JACKET AND NOT LESS THAN 18 INCHES WIDER THAN THE COMBINED O.D. OF ALL PIPING SYSTEMS. BACKFILL SHOULD BE TAMPED COMPACTLY IN PLACE. NO ROCK SHALL BE USED IN THE FIRST FOOT OF THE BACKFILL. TO MEET H-20 HIGHWAY LOADINGS, THERE MUST BE 24 INCHES FROM TOP OF JACKET TO GRADE OF THE COMPACTED FILL. F. CHILLED WATER PIPE (ABOVEGROUND) 1. STEEL PIPE: ASTM A53, ERW BLACK STEEL WITH PLAIN ENDS, TYPE E, GRADE B, SCHEDULE 40. a, MANUFACTURERS: SUBJECT TO COMPLIANCE WITH REQUIREMENTS, PROVIDE PRODUCTS BY ONE OF THE FOLLOWING: (1) AMERICAN PIPING PRODUCTS (2) FEDERAL STEEL SUPPLY (3) SOUTHLAND (4) WHEATLAND TUBE b. JOINTS: FLANGED OR WELDED (WELDING SHALL BE IN ACCORDANCE WITH ASME BPVC SECTION IX). c, WROUGHT -STEEL FITTINGS: ASTM A234 GRADE B FITTINGS BUTT WELDED IN ACCORDANCE WITH ASME BPVC SECTION IX. WALL THICKNESS TO MATCH ADJOINING PIPE. d, FORGED -STEEL FLANGES AND FLANGED FITTINGS: ASME B16.5, INCLUDING BOLTS, NUTS, AND GASKETS OF THE FOLLOWING MATERIAL GROUP, END CONNECTIONS, AND FACINGS: (1) MATERIAL GROUP: 1.1. (2) END CONNECTIONS: BUTT WELDING. (3) FACINGS: RAISED FACE. 2. COPPER PIPE: ASTM 688 TYPE L HARD DRAWN COPPER TUBING. a. FITTINGS: ASTM B16.22 WROUGHT COPPER FITTINGS. b. JOINTS: SOLDERED JOINTS. 3. PIPE MATERIAL SCHEDULE: a. PIPES 2" AND SMALLER: COPPER PIPE b. PIPES ABOVE 2": STEEL OR COPPER PIPE G. PREPARATION 1. REAM PIPE AND TUBE ENDS. REMOVE BURRS. BEVEL PLAIN END FERROUS PIPE. 2, REMOVE SCALE AND DIRT ON INSIDE AND OUTSIDE BEFORE ASSEMBLY. 3, PREPARE PIPING CONNECTIONS TO EQUIPMENT WITH FLANGES OR UNIONS. 4. KEEP OPEN ENDS OF PIPE FREE FROM SCALE AND DIRT. PROTECT OPEN ENDS WITH TEMPORARY PLUGS OR CAPS. 5. AFTER COMPLETION, FILL, CLEAN, AND TREAT SYSTEMS. H. INSTALLATION 1. INSTALL IN ACCORDANCE WITH MANUFACTURER'S INSTRUCTIONS. 2. ROUTE PIPING IN ORDERLY MANNER, PLUMB AND PARALLEL TO BUILDING STRUCTURE, AND MAINTAIN GRADIENT. 3. INSTALL PIPING TO CONSERVE BUILDING SPACE, AND NOT INTERFERE WITH USE OF SPACE, 4. GROUP PIPING WHENEVER PRACTICAL AT COMMON ELEVATIONS. 5. SLEEVE PIPE PASSING THROUGH PARTITIONS, WALLS, AND FLOORS. 6. SLOPE PIPING AND ARRANGE TO DRAIN AT LOW POINTS, 7. INSTALL PIPING TO ALLOW FOR EXPANSION AND CONTRACTION WITHOUT STRESSING PIPE, JOINTS, OR CONNECTED EQUIPMENT. 8. PIPE SUPPORTS: a. INSTALL IN ACCORDANCE WITH ASTM B31.9 AND MSS SP89. b. PLACE HANGERS WITHIN 12 INCHES OF EACH HORIZONTAL ELBOW. c. PROVIDE COPPER PLATED HANGERS AND SUPPORTS FOR COPPER PIPING. d, PRIME COAT EXPOSED STEEL HANGERS AND SUPPORTS. 9. PROVIDE CLEARANCE IN HANGERS AND FROM STRUCTURE AND OTHER EQUIPMENT FOR INSTALLATION OF INSULATION AND ACCESS TO VALVES AND FITTINGS, 10. SLOPE PIPING AND ARRANGE SYSTEMS TO DRAIN AT LOW POINTS. USE ECCENTRIC REDUCERS TO MAINTAIN TOP OF PIPE LEVEL. 11. WHERE PIPE SUPPORT MEMBERS ARE WELDED TO STRUCTURAL BUILDING FRAMING, SCRAPE, BRUSH CLEAN, AND APPLY ONE COAT OF ZINC RICH PRIMER TO WELDING. 12. INSTALL VALVES WITH STEMS UPRIGHT OR HORIZONTAL, NOT INVERTED. 13, PROVIDE MANUAL AIR VENTS AT SYSTEM HIGH POINTS AND AS INDICATED. 14. PROVIDE VALVED DRAIN HOSE CONNECTION, AND CAP ON STRAINER BLOW DOWN CONNECTION. 15, INSTALL PERMANENT INDICATORS ON WALLS OR BRACKETS IN ACCESSIBLE AND READABLE POSITIONS. 16, ADJUST FACES OF METERS AND GAGES TO PROPER ANGLE FOR BEST VISIBILITY. TESTS AND ADJUSTMENTS 1. THE CONTRACTOR SHALL FURNISH LABOR, INSTRUMENTS, EQUIPMENT, AND MATERIALS REQUIRED TO PERFORM TESTS PRESCRIBED IN THE SECTIONS DESCRIBING THE VARIOUS SYSTEMS. 2. REPLACE OR REPAIR DEFECTS FOUND DURING INSPECTION OR TESTS WITH NEW MATERIALS. CAULKING OF SCREWED JOINTS, CRACKS, OR HOLES IS NOT ACCEPTABLE. CORRECT LEAKS IN SCREWED FITTINGS BY REMAKING JOINTS. REPEAT TESTS AFTER DEFECTS HAVE BEEN ELIMINATED. 3. WHERE REASONABLE DOUBT EXISTS AS TO A SYSTEMS ABILITY TO COMPLY WITH CONTRACT REQUIREMENTS, PERFORM ANY REASONABLE TEST REQUIRED BY THE ENGINEER. 4. USE TEST INSTRUMENTS TESTED FOR ACCURACY BY AN APPROVED LABORATORY OR BY THE INSTRUMENT MANUFACTURER AND FURNISH CERTIFICATES SHOWING DEGREE OF ACCURACY TO THE ENGINEER WHEN REQUESTED. MAKE CALIBRATION HISTORIES FOR EACH INSTRUMENT AVAILABLE FOR EXAMINATION. 5. THE FOLLOWING TESTS SHALL BE CONDUCTED BY THE CONTRACTOR AND ALL PIPING SHALL BE PROVEN TIGHT IN THE PRESENCE OF THE OWNER. THESE TESTS SHALL BE CONDUCTED BEFORE ANY INSULATION IS INSTALLED AND ANY INSULATION INSTALLED PRIOR TO TESTS SHALL BE REMOVED. PROVIDE ALL EQUIPMENTAND LABOR REQUIRED. TESTS SHALL BE AT LEAST EIGHT HOURS (8 HOURS) IN DURATION, AFTER ALL PIPING HAS BEEN PROVED TIGHT. PIPING MAY BE TESTED IN SECTIONS AS APPROVED BY THE OWNER. TESTS SHALL BE AS SPECIFIED HEREIN. a. THE FOLLOWING TESTS SHALL BE CONDUCTED BY THE CONTRACTOR. THESE TESTS SHALL BE CONDUCTED BEFORE ANY INSULATION IS INSTALLED AND ANY INSULATION INSTALLED PRIOR TO TESTS SHALL BE REMOVED. PROVIDE ALL EQUIPMENT AND LABOR REQUIRED. PIPING MAY BE TESTED IN SECTIONS AS APPROVED BY THE OWNER. TESTS SHALL BE AS SPECIFIED HEREIN. (1) USE AMBIENT TEMPERATURE WATER AS A TESTING MEDIUM. (2) WHILE FILLING SYSTEM, USE VENTS INSTALLED AT HIGH POINTS OF SYSTEM TO RELEASE AIR. USE DRAINS INSTALLED AT LOW POINTS FOR COMPLETE DRAINING OF TEST LIQUID. (3) ISOLATE EXPANSION TANKS AND DETERMINE THAT HYDRONIC SYSTEM IS FULL OF WATER. (4) SUBJECT PIPING SYSTEM TO HYDROSTATIC TEST PRESSURE THAT IS NOT LESS THAN 1.5 TIMES THE SYSTEM'S WORKING PRESSURE. TEST PRESSURE SHALL NOT EXCEED MAXIMUM PRESSURE FOR ANY VESSEL, PUMP, VALVE, OR OTHER COMPONENT IN SYSTEM UNDER TEST. VERIFY THAT STRESS DUE TO PRESSURE AT BOTTOM OF VERTICAL RUNS DOES NOT EXCEED 90 PERCENT OF SPECIFIED MINIMUM YIELD STRENGTH OR 1.7 TIMES "SE" VALUE IN APPENDIX A IN ASME B31.9, "BUILDING SERVICES PIPING." (5) AFTER HYDROSTATIC TEST PRESSURE HAS BEEN APPLIED FOR AT LEAST 10 MINUTES, EXAMINE PIPING, JOINTS, AND CONNECTIONS FOR LEAKAGE, ELIMINATE LEAKS BY TIGHTENING, REPAIRING, OR REPLACING COMPONENTS, AND REPEAT HYDROSTATIC TEST UNTIL THERE ARE NO LEAKS. (6) PREPARE WRITTEN REPORT OF TESTING. (7) PROVIDE FINE MESH IN NEW AND EXISTING STRAINERS TO CATCH PARTICULATES DURING FLUSHING. AFTER FLUSH IS COMPLETED, REPLACE MESH WITH STANDARD MESH. 2.9 PIPING AND EQUIPMENT INSULATION A. GENERAL: 1. QUALITY ASSURANCE a. MATERIALS: FLAME SPREAD/SMOKE DEVELOPED RATING OF 25/50 OR LESS IN ACCORDANCE WITH ASTM E84, NFPA 255, AND UL 723. 2. QUALIFICATIONS a. APPLICATOR: COMPANY SPECIALIZING IN PERFORMING THE WORK OF THIS SECTION WITH MINIMUM THREE YEARS EXPERIENCE. 3. DELIVERY, STORAGE, AND HANDLING a. DELIVER, STORE, PROTECTAND HANDLE PRODUCTS TO SITE UNDER PROVISIONS OF SECTION 1.6. b. DELIVER MATERIALS TO SITE IN ORIGINAL FACTORY PACKAGING, LABELED WITH MANUFACTURER'S DENSITY AND THICKNESS. c. STORE INSULATION IN ORIGINAL WRAPPING AND PROTECT FROM WEATHER AND CONSTRUCTION TRAFFIC. d. PROTECT INSULATION AGAINST DIRT, WATER, CHEMICAL, AND MECHANICAL DAMAGE. 4. ENVIRONMENTAL REQUIREMENTS a. MAINTAIN AMBIENT TEMPERATURES AND CONDITIONS REQUIRED BY MANUFACTURERS OF ADHESIVES, MASTICS, AND INSULATION CEMENTS. b. MAINTAIN TEMPERATURE DURING AND AFTER INSTALLATION FOR MINIMUM PERIOD OF 24 HOURS. 5. INSERTS AND SHIELDS: a. APPLICATION: PIPING 1 INCH DIAMETER OR LARGER. b. SHIELDS: GALVANIZED STEEL BETWEEN PIPE HANGERS OR PIPE HANGER ROLLS AND INSERTS. c. INSERT LOCATION: BETWEEN SUPPORT SHIELD AND PIPING AND UNDER THE FINISH JACKET. d. INSERT CONFIGURATION: MINIMUM 6 INCHES LONG, OF SAME THICKNESS AND CONTOUR AS ADJOINING INSULATION; MAY BE FACTORY FABRICATED. e. INSERT MATERIAL: ASTM C640 CORK 6, FINISH INSULATION AT SUPPORTS, PROTRUSIONS, AND INTERRUPTIONS. a. DO NOT INSULATE OVER NAMEPLATE OR ASME STAMPS. BEVEL AND SEAL INSULATION AROUND SUCH. b. INSTALL INSULATION FOR EQUIPMENT REQUIRING ACCESS FOR MAINTENANCE, REPAIR, OR CLEANING, IN SUCH A MANNER THAT IT CAN BE EASILY REMOVED AND REPLACED WITHOUT DAMAGE. c. IF CONDENSATION OCCURS ON ANY COLD SURFACE AT ANYTIME DURING THE WARRANTY PERIOD, OR BEFORE SUBSTANTIAL COMPLETION AFTER SYSTEMS ARE ACTIVATED, THE CONTRACTOR SHALL REWORK THE INSULATION UNTIL SATISFACTORY AT NO ADDITIONAL COST. d. IF CONDENSATION OCCURS ON THE OUTSIDE OF INSULATED PIPING DURING THE CONSTRUCTION PERIOD, THE CONTRACTOR SHALL MAKE THE OWNER AWARE IMMEDIATELY SO THAT THE DESIGN TEAM CAN DETERMINE THE REASONS AND INITIATE CORRECTIVE ACTION. SUBSTANTIAL COMPLETION SHALL NOT BE APPROVED UNTIL CORRECTIONS ARE AGREED TO IN WRITING, INCLUDING RESPONSIBILITY FOR COST. e. FINISH ALL FIELD -APPLIED INSULATION ON NEW CENTRIFUGAL CHILLER SURFACES AS REQUIRED IN ORDER TO APPLY TWO COATS OF THE CHILLER MANUFACTURER'S STANDARD PAINT. PAINT SHALL MATCH THE COLOR OF THE CHILLER. B. INSULATION MATERIAL 1. FLEXIBLE CELLULAR ELASTOMERIC INSULATION: a. INSULATION: CLOSED -CELL, EXPANDED -RUBBER MATERIAL MEETING THE REQUIREMENTS OF ASTM C534. APPLY A VAPOR BARRIER AT ALL SEAMS AND JOINTS. "K" VALUE SHALL MEET ASTM C177 OR C518 0.28 AT 75 DEG. F WITH A MAXIMUM SERVICE TEMPERATURE 220 DEG F. MAXIMUM MOISTURE ABSORPTION SHALL MEET ASTM D1056, 3.0% (PIPE) BY VOLUME. MOISTURE VAPOR TRANSMISSION SHALL MEET ASTM E96, 0.20 PERM INCHES. MAXIMUM FLAME SPREAD - 25; MAXIMUM SMOKE DEVELOPED - 50, AS MEASURED BY ASTM E84. b. ADHESIVE: COMPLY WITH MIL-A-24179A, TYPE II, CLASS I. 2. CELLULAR GLASS INSULATION: a. INORGANIC, INCOMBUSTIBLE, FOAMED OR CELLULATED GLASS WITH ANNEALED, RIGID, HERMETICALLY SEALED CELLS. APPLY A VAPOR BARRIER AT ALL SEAMS AND JOINTS. INSULATION SHALL MEET THE REQUIREMENTS OF ASTM C552. W VALUE: 0.29 AT 75 DEG F. MAXIMUM WATER VAPOR TRANSMISSION: 0.1 PERM. PREFORMED PIPE INSULATION SHALL HAVE A FACTORY -APPLIED ALL SERVICE JACKET (ASJ). b. ADHESIVE: TWO -COMPONENT, THERMOSETTING URETHANE ADHESIVE CONTAINING NO FLAMMABLE SOLVENTS, WITH A SERVICE TEMPERATURE RANGE OF MINUS 100 TO PLUS 200 DEG F. C. FIELD -APPLIED JACKETS: JACKETS SHALL COMPLY WITH ASTM C 921, TYPE I, UNLESS OTHERWISE INDICATED. 1. ALL SERVICE JACKET (ASJ): JACKET WITH SELF SEALING LAP (SSL) VAPOR RETARDER JACKET, A WHITE KRAFT PAPER, REINFORCED WITH A GLASS FIBER YARN AND BONDED TO ALUMINUM FOIL, WITH SELF SEALING LONGITUDINAL CLOSURE LAPS AND BUTT STRIPS, COMPLYING WITH ASTM C1136. 2. FOIL SCRIM KRAFT (FSK) JACKET: ALUMINUM -FOIL -FACE, FIBERGLASS -REINFORCED SCRIM WITH KRAFT-PAPER BACKING, 3. ALUMINUM JACKET: JACKET SHALL BE ASTM B209 ALUMINUM, 0.020 INCH THICK WITH EMBOSSED FINISH. JOINTS SHALL BE LONGITUDINAL SLIP JOINTS WITH 2 INCH LAPS, FITTINGS SHALL BE PRE -FORMED 2-PIECE OR GORE, 45-AND 90-DEGREE, SHORT -AND LONG -RADIUS ELBOWS, TEE COVERS, FLANGE AND UNION COVERS, END CAPS, BEVELED COLLARS, AND VALVE COVERS. FIELD FABRICATE FITTING COVERS ONLY IF FACTORY -FABRICATED FITTING COVERS ARE NOT AVAILABLE. INSTALL 3 MIL THICK, HEAT -BONDED POLYETHYLENE AND KRAFT PAPER MOISTURE BARRIER. JACKETS SHALL BE SECURED WITH ALUMINUM, ASTM B 209, ALLOY 3003, 3005, 3105, OR 5005, TEMPER H-14, 0.20 INCH THICK, 1/2 INCH WIDE BANDS WITH CLOSED SEALS. 4. APPLY A WHITE FOSTERS INSULATION COATING FOR ANY NON -JACKETED CELLULAR FOAM INSULATION. D. INSULATION SCHEDULE 1. CONDENSATE PIPING a. FLEXIBLE ELASTOMERIC: MINIMUM 1 INCH THICK 2. CHILLED WATER PIPE 2 INCHES AND SMALLER a. FLEXIBLE ELASTOMERIC - MINIMUM 1 INCH THICK b. CELLULAR GLASS - MINIMUM 2 INCHES THICK 3. CHILLED WATER PIPE ABOVE 2 INCHES a. CELLULAR GLASS - MINIMUM 2 INCHES THICK 4. PIPE APPURTENANCES AND EQUIPMENT (OTHER THAN PUMP BODIES) CONVEYING OR STORING WATER BELOW AMBIENT TEMPERATURE a. FLEXIBLE ELASTOMERIC - MINIMUM 1 INCH THICK 5. PUMP BODIES a. CELLULAR GLASS - MINIMUM 2 INCHES THICK 6. CHILLER SURFACES BELOW AMBIENT a. FLEXIBLE ELASTOMERIC - MINIMUM 2 INCH THICK E. JACKET SCHEDULE 1. CONDENSATE PIPING a. INTERIOR CONCEALED: FSK b. INTERIOR EXPOSED: FSK 2. CHILLED WATER PIPE a. INTERIOR CONCEALED: ASJ b. INTERIOR EXPOSED: ASJ WITH FABRIC AND MASTIC ELBOWS c. EXTERIOR EXPOSED: ALUMINUM 3. CHILLED WATER PUMPS a. ALUMINUM JACKET FOR PUMP BODIES: FABRICATE 0.050-INCH-THICK ALUMINUM BOXES LINED WITH CELLULAR GLASS INSULATION. INSTALL A VAPOR BARRIER AT SEAMS, JOINTS, AND PENETRATIONS. SEAL BETWEEN FLANGES WITH REPLACEABLE GASKET MATERIAL TO FORM A VAPOR BARRIER. FIT BOXES AROUND PUMPS AND COINCIDE BOX JOINTS WITH SPLITS IN PUMP CASINGS. FABRICATE JOINTS WITH OUTWARD BOLTED FLANGES. BOLT FLANGES ON 6 INCH CENTERS STARTING AT CORNERS. SECURE THE BOX SECTIONS TOGETHER USING LATCHING MECHANISMS. 4. MECHANICAL EQUIPMENT ASSOCIATED WITH CHILLED WATER SYSTEM (EXCEPT HEAT EXCHANGER) a. INTERIOR: ASJ b. EXTERIOR: ALUMINUM F. EXAMINATION: EXAMINE SUBSTRATES AND CONDITIONS FOR COMPLIANCE WITH REQUIREMENTS FOR INSTALLATION TOLERANCES AND OTHER CONDITIONS AFFECTING PERFORMANCE OF INSULATION APPLICATION. VERIFY THAT SYSTEMS TO BE INSULATED HAVE BEEN TESTED AND ARE FREE OF DEFECTS. VERIFY THAT SURFACES TO BE INSULATED ARE CLEAN AND DRY. PROCEED WITH INSTALLATION ONLY AFTER UNSATISFACTORY CONDITIONS HAVE BEEN CORRECTED. G. PREPARATION: SURFACE PREPARATION: CLEAN AND DRY SURFACES TO RECEIVE INSULATION. REMOVE MATERIALS THAT WILL ADVERSELY AFFECT INSULATION APPLICATION, H. GENERAL INSTALLATION REQUIREMENTS 1. INSTALL INSULATION MATERIALS, ACCESSORIES, AND FINISHES WITH SMOOTH, STRAIGHT, AND EVEN SURFACES; FREE OF VOIDS THROUGHOUTTHE LENGTH OF PIPING INCLUDING FITTINGS, VALVES, AND SPECIALTIES. 2. INSTALL INSULATION MATERIALS, FORMS, VAPOR BARRIERS OR RETARDERS, JACKETS, AND THICKNESSES REQUIRED FOR EACH ITEM OF PIPE SYSTEM AS SPECIFIED IN INSULATION SYSTEM SCHEDULES. 3. INSTALL ACCESSORIES COMPATIBLE WITH INSULATION MATERIALS AND SUITABLE FOR THE SERVICE. INSTALL ACCESSORIES THAT DO NOT CORRODE, SOFTEN, OR OTHERWISE ATTACK INSULATION OR JACKET IN EITHER WET OR DRY STATE. 4. INSTALL INSULATION WITH LONGITUDINAL SEAMS AT TOP AND BOTTOM OF HORIZONTAL RUNS. 5. INSTALL MULTIPLE LAYERS OF INSULATION WITH LONGITUDINAL AND END SEAMS STAGGERED. 6. DO NOT WELD BRACKETS, CLIPS, OR OTHER ATTACHMENT DEVICES TO PIPING, FITTINGS, AND SPECIALTIES. 7. KEEP INSULATION MATERIALS DRY DURING APPLICATION AND FINISHING. 8. INSTALL INSULATION WITH TIGHT LONGITUDINAL SEAMS AND END JOINTS. BOND SEAMS AND JOINTS WITH ADHESIVE RECOMMENDED BY INSULATION MATERIAL MANUFACTURER. 9. INSTALL INSULATION WITH LEAST NUMBER OF JOINTS PRACTICAL. 10. WHERE VAPOR BARRIER IS INDICATED, SEAL JOINTS, SEAMS, AND PENETRATIONS IN INSULATION AT HANGERS, SUPPORTS, ANCHORS, AND OTHER PROJECTIONS WITH VAPOR -BARRIER MASTIC. a. INSTALL INSULATION CONTINUOUSLY THROUGH HANGERS AND AROUND ANCHOR ATTACHMENTS. b. FOR INSULATION APPLICATION WHERE VAPOR BARRIERS ARE INDICATED, EXTEND INSULATION ON ANCHOR LEGS FROM POINT OF ATTACHMENT TO SUPPORTED ITEM TO POINT OF ATTACHMENT TO STRUCTURE. TAPER AND SEAL ENDS AT ATTACHMENT TO STRUCTURE WITH VAPOR -BARRIER MASTIC. c. INSTALL INSERT MATERIALS AND INSTALL INSULATION TO TIGHTLY JOIN THE INSERT, SEAL INSULATION TO INSULATION INSERTS WITH ADHESIVE OR SEALING COMPOUND RECOMMENDED BY INSULATION MATERIAL MANUFACTURER. d, COVER INSERTS WITH JACKET MATERIAL MATCHING ADJACENT PIPE INSULATION. INSTALL SHIELDS OVER JACKET, ARRANGED TO PROTECT JACKET FROM TEAR OR PUNCTURE BY HANGER, SUPPORT, AND SHIELD. 11. APPLY ADHESIVES, MASTICS, AND SEALANTS AT MANUFACTURER'S RECOMMENDED COVERAGE RATE AND WET AND DRY FILM THICKNESSES. 12. INSTALL INSULATION WITH FACTORY -APPLIED JACKETS AS FOLLOWS: a. DRAW JACKET TIGHT AND SMOOTH. b. COVER CIRCUMFERENTIAL JOINTS WITH 3 INCH WIDE STRIPS, OF SAME MATERIAL AS INSULATION JACKET. SECURE STRIPS WITH ADHESIVE AND OUTWARD CLINCHING STAPLES ALONG BOTH EDGES OF STRIP, SPACED 4 INCHES O.C. c. OVERLAP JACKET LONGITUDINAL SEAMS AT LEAST 1-1/2 INCHES. INSTALL INSULATION WITH LONGITUDINAL SEAMS AT BOTTOM OF PIPE. CLEAN AND DRY SURFACE TO RECEIVE SELF-SEALING LAP. STAPLE LAPS WITH OUTWARD CLINCHING STAPLES ALONG EDGE AT 2 INCHES O.C. (1.) FOR BELOW -AMBIENT SERVICES, APPLY VAPOR -BARRIER MASTIC OVER STAPLES. d. COVER JOINTS AND SEAMS WITH TAPE, ACCORDING TO INSULATION MATERIAL MANUFACTURER'S WRITTEN INSTRUCTIONS, TO MAINTAIN VAPOR SEAL. e. WHERE VAPOR BARRIERS ARE INDICATED, APPLY VAPOR -BARRIER MASTIC ON SEAMS AND JOINTS AND AT ENDS ADJACENT TO PIPE FLANGES AND FITTINGS. 13. CUT INSULATION IN A MANNER TO AVOID COMPRESSING INSULATION MORE THAN 75 PERCENT OF ITS NOMINAL THICKNESS. 14. FINISH INSTALLATION WITH SYSTEMS AT OPERATING CONDITIONS. REPAIR JOINT SEPARATIONS AND CRACKING DUE TO THERMAL MOVEMENT. 15, REPAIR DAMAGED INSULATION FACINGS BY APPLYING SAME FACING MATERIAL OVER DAMAGED AREAS. EXTEND PATCHES AT LEAST 4 INCHES BEYOND DAMAGED AREAS. ADHERE, STAPLE, AND SEAL PATCHES SIMILAR TO BUTT JOINTS. I. PENETRATIONS 1. INSULATION INSTALLATION AT ROOF PENETRATIONS: INSTALL INSULATION CONTINUOUSLY THROUGH ROOF PENETRATIONS. a. SEAL PENETRATIONS WITH FLASHING SEALANT. b. FOR APPLICATIONS REQUIRING ONLY INDOOR INSULATION, TERMINATE INSULATION ABOVE ROOF SURFACE AND SEAL WITH JOINT SEALANT, FOR APPLICATIONS REQUIRING INDOOR AND OUTDOOR INSULATION, INSTALL INSULATION FOR OUTDOOR APPLICATIONS TIGHTLY JOINED TO INDOOR INSULATION ENDS. SEAL JOINT WITH JOINT SEALANT. c. EXTEND JACKET OF OUTDOOR INSULATION OUTSIDE ROOF FLASHING AT LEAST 2 INCHES BELOW TOP OF ROOF FLASHING. d. SEAL JACKET TO ROOF FLASHING WITH FLASHING SEALANT. 2. INSULATION INSTALLATION AT UNDERGROUND EXTERIOR WALL PENETRATIONS: TERMINATE INSULATION FLUSH WITH SLEEVE SEAL. SEAL TERMINATIONS WITH FLASHING SEALANT. 3. INSULATION INSTALLATION AT ABOVEGROUND EXTERIOR WALL PENETRATIONS: INSTALL INSULATION CONTINUOUSLY THROUGH WALL PENETRATIONS. a. SEAL PENETRATIONS WITH FLASHING SEALANT. b. FOR APPLICATIONS REQUIRING ONLY INDOOR INSULATION, TERMINATE INSULATION INSIDE WALL SURFACE AND SEAL WITH JOINT SEALANT. FOR APPLICATIONS REQUIRING INDOOR AND OUTDOOR INSULATION, INSTALL INSULATION FOR OUTDOOR APPLICATIONS TIGHTLY JOINED TO INDOOR INSULATION ENDS. SEAL JOINT WITH JOINT SEALANT. c. EXTEND JACKET OF OUTDOOR INSULATION OUTSIDE WALL FLASHING AND OVERLAP WALL FLASHING AT LEAST 2 INCHES. d. SEAL JACKET TO WALL FLASHING WITH FLASHING SEALANT. Sims Wilkerson Cartie Engineering, Inc. 12124 High Tech Avenue - Suite. 200 Orlando, Florida 32817 (407)380-0400 FAX (407)380-5900 FL. CERT. OF AUTH. NO. 6106 0 GA Y A. N➢.1 16( N. Y.C. 43167 o S7LE ]. CA =R, E 53u,9 o AD,M LLV T, EE. 77010 0 IEEFA FatI N,RE 656N o SNNUEL R AL&YAN EH P.E. 554M 14001 NJ w 0 LL W rU) V) L 6� L 2 U W L�J 0 0 N p O [t M ►i U) U 0 J L 0 0 V Z LL ''1-^0 VJ 4. INSULATION INSTALLATION AT INTERIOR WALL AND PARTITION PENETRATIONS (THAT ARE NOT FIRE RATED): INSTALL INSULATION CONTINUOUSLY THROUGH WALLS AND PARTITIONS. 5. INSULATION INSTALLATION AT FIRE -RATED WALL AND PARTITION PENETRATIONS: INSTALL INSULATION CONTINUOUSLY THROUGH PENETRATIONS OF FIRE -RATED WALLS AND PARTITIONS. 6. INSULATION INSTALLATION AT FLOOR PENETRATIONS: a. PIPE: INSTALL INSULATION CONTINUOUSLY THROUGH FLOOR PENETRATIONS. b. SEAL PENETRATIONS THROUGH FIRE -RATED ASSEMBLIES. J. GENERAL PIPE INSULATION INSTALLATION 1. INSULATION INSTALLATION ON FITTINGS, VALVES, STRAINERS, FLANGES, AND UNIONS: a. INSTALL INSULATION OVER FITTINGS, VALVES, STRAINERS, FLANGES, UNIONS, AND OTHER SPECIALTIES WITH CONTINUOUS THERMAL AND VAPOR -RETARDER INTEGRITY UNLESS OTHERWISE INDICATED. b. INSULATE PIPE ELBOWS USING PREFORMED FITTING INSULATION OR MITERED FITTINGS MADE FROM SAME MATERIAL AND DENSITY AS ADJACENT PIPE INSULATION. EACH PIECE SHALL BE BUTTED TIGHTLY AGAINST ADJOINING PIECE AND BONDED WITH ADHESIVE. FILL JOINTS, SEAMS, VOIDS, AND IRREGULAR SURFACES WITH INSULATING CEMENT FINISHED TO A SMOOTH, HARD, AND UNIFORM CONTOUR THAT IS UNIFORM WITH ADJOINING PIPE INSULATION. c. INSULATE TEE FITTINGS WITH PREFORMED FITTING INSULATION OR SECTIONAL PIPE INSULATION OF SAME MATERIAL AND THICKNESS AS USED FOR ADJACENT PIPE. CUT SECTIONAL PIPE INSULATION TO FIT. BUTT EACH SECTION CLOSELY TO THE NEXT AND HOLD IN PLACE WITH TIE WIRE. BOND PIECES WITH ADHESIVE. d. INSULATE VALVES USING PREFORMED FITTING INSULATION OR SECTIONAL PIPE INSULATION OF SAME MATERIAL, DENSITY, AND THICKNESS AS USED FOR ADJACENT PIPE. OVERLAP ADJOINING PIPE INSULATION BY NOT LESS THAN TWO TIMES THE THICKNESS OF PIPE INSULATION, OR ONE PIPE DIAMETER, WHICHEVER IS THICKER. FOR VALVES, INSULATE UP TO AND INCLUDING THE BONNETS, VALVE STUFFING -BOX STUDS, BOLTS, AND NUTS, FILL JOINTS, SEAMS, AND IRREGULAR SURFACES WITH INSULATING CEMENT. e. INSULATE STRAINERS USING PREFORMED FITTING INSULATION OR SECTIONAL PIPE INSULATION OF SAME MATERIAL, DENSITY, AND THICKNESS AS USED FOR ADJACENT PIPE. OVERLAP ADJOINING PIPE INSULATION BY NOT LESS THAN TWO TIMES THE THICKNESS OF PIPE INSULATION, OR ONE PIPE DIAMETER, WHICHEVER IS THICKER. FILL JOINTS, SEAMS, AND IRREGULAR SURFACES WITH INSULATING CEMENT. INSULATE STRAINERS SO STRAINER BASKET FLANGE OR PLUG CAN BE EASILY REMOVED AND REPLACED WITHOUT DAMAGING THE INSULATION AND JACKET. PROVIDE A REMOVABLE REUSABLE INSULATION COVER. FOR BELOW -AMBIENT SERVICES, PROVIDE A DESIGN THAT MAINTAINS VAPOR BARRIER. f. INSULATE FLANGES AND UNIONS USING A SECTION OF OVERSIZED PREFORMED PIPE INSULATION. OVERLAP ADJOINING PIPE INSULATION BY NOT LESS THAN TWO TIMES THE THICKNESS OF PIPE INSULATION, OR ONE PIPE DIAMETER, WHICHEVER IS THICKER. g. COVER SEGMENTED INSULATED SURFACES WITH A LAYER OF FINISHING CEMENT AND COAT WITH A MASTIC. INSTALL VAPOR -BARRIER MASTIC FOR BELOW -AMBIENT SERVICES AND A BREATHER MASTIC FOR ABOVE -AMBIENT SERVICES. REINFORCE THE MASTIC WITH FABRIC -REINFORCING MESH. TROWEL THE MASTIC TO A SMOOTH AND WELL -SHAPED CONTOUR. h. STENCIL OR LABEL THE OUTSIDE INSULATION JACKET 0F EACH N WITH THE WORD "UNION." MATCH SIZE AND COLOR OF PIPE C UNION 0 LABELS. 2. INSULATE INSTRUMENT CONNECTIONS FOR THERMOMETERS, PRESSURE GAGES, PRESSURE TEMPERATURE TAPS, TEST CONNECTIONS, FLOW METERS, SENSORS, SWITCHES, AND TRANSMITTERS ON INSULATED PIPES, SHAPE INSULATION AT THESE CONNECTIONS BY TAPERING IT TO AND AROUND THE CONNECTION WITH INSULATING CEMENT AND FINISH WITH FINISHING CEMENT, MASTIC, AND FLASHING SEALANT. K. FIELD -APPLIED JACKET INSTALLATION 1. WHERE FSK JACKETS ARE INDICATED, INSTALL AS FOLLOWS: a. DRAW JACKET MATERIAL SMOOTH AND TIGHT. b. INSTALL LAP OR JOINT STRIPS WITH SAME MATERIAL AS JACKET. c. SECURE JACKET TO INSULATION WITH MANUFACTURER'S RECOMMENDED ADHESIVE. d. INSTALL JACKET WITH 1-1/2 INCH LAPS AT LONGITUDINAL SEAMS AND 3 INCH WIDE JOINT STRIPS AT END JOINTS. e. SEAL OPENINGS, PUNCTURES, AND BREAKS IN VAPOR -RETARDER JACKETS AND EXPOSED INSULATION WITH VAPOR -BARRIER MASTIC. 2. WHERE PVC JACKETS ARE INDICATED, INSTALL WITH 1 INCH OVERLAP AT LONGITUDINAL SEAMS AND END JOINTS; FOR HORIZONTAL APPLICATIONS. SEAL WITH MANUFACTURER'S RECOMMENDED ADHESIVE. a. APPLY TWO CONTINUOUS BEADS OF ADHESIVE TO SEAMS AND JOINTS, ONE BEAD UNDER LAP AND THE FINISH BEAD ALONG SEAM AND JOINT EDGE. 3. WHERE METAL JACKETS ARE INDICATED, INSTALL WITH 2-INCH OVERLAP AT LONGITUDINAL SEAMS AND END JOINTS. OVERLAP LONGITUDINAL SEAMS ARRANGED TO SHED WATER, SEAL END JOINTS WITH WEATHERPROOF SEALANT RECOMMENDED BY INSULATION MANUFACTURER. SECURE JACKET WITH STAINLESS -STEEL BANDS 12 INCHES O.C. AND AT END JOINTS. 2.10 HYDRONIC ACCESSORIES A. AUTOMATIC CONTROL VALVES (CHILLED WATER SYSTEM) 1. CHILLED WATER AHU COIL CONTROL VALVE a. VALVE TYPE: 2-WAY GLOBE VALVE WITH STAINLESS STEEL TRIM b. ACTUATOR: PROPORTIONAL CONTROL GLOBE VALVE ACTUATORS SHALL BE ELECTRONIC AND DIRECT COUPLED TO THE GLOBE VALVE BONNET VIA AN INTEGRATED LINKAGE, WHICH REQUIRES NO SECONDARY LINKAGE. ACTUATORS MUST PROVIDE CONTROL IN RESPONSE TO A CONTROL INPUT FROM AN ELECTRONIC CONTROLLER. ACTUATORS SHALL HAVE BRUSHLESS DC MOTOR TECHNOLOGY AND BE PROTECTED FROM OVERLOAD AT ALL ANGLES OF ROTATION. ACTUATORS SHALL HAVE REVERSING SWITCH AND MANUAL OVERRIDE ON THE COVER, END SWITCHES, AND EACH VALVE OPERATOR SHALL HAVE 0-10V CONTROL SIGNAL AND 4-20mA FEEDBACK AND MANUAL OVERRIDE. RUN TIME SHALL BE CONSTANT AND INDEPENDENT OF TORQUE. ACTUATORS SHALL BE cULus LISTED, HAVE A 5-YEAR WARRANTY, AND BE MANUFACTURED UNDER ISO 9001 INTERNATIONAL QUALITY CONTROL STANDARDS. 2. AUTOMATIC ISOLATION VALVES: a. VALVE: BUTTERFLY b. ACTUATOR: ACTUATORS SHALL BE 1/4 TURN ELECTRONIC AND DIRECT COUPLED TO THE VALVE VIA AN INTEGRATED LINKAGE, WHICH REQUIRES NO SECONDARY LINKAGE. ACTUATORS MUST PROVIDE CONTROL IN RESPONSE TO A CONTROL INPUT FROM AN ELECTRONIC CONTROLLER. ACTUATORS SHALL HAVE BRUSHLESS DC MOTOR TECHNOLOGY AND BE PROTECTED FROM OVERLOAD AT ALL ANGLES OF ROTATION. ACTUATORS SHALL HAVE REVERSING SWITCH AND MANUAL OVERRIDE ON THE COVER, END SWITCHES, AND EACH VALVE OPERATOR SHALL HAVE 0.10V CONTROL SIGNAL AND 4-20mA FEEDBACK AND MANUAL OVERRIDE. ACTUATOR SHALL HAVE ELECTRONIC FAIL-SAFE TO RETURN TO THE CLOSED POSITION ON LOSS OF POWER. RUN TIME SHALL BE CONSTANT AND INDEPENDENT OF TORQUE. ACTUATORS SHALL BE cULus LISTED, HAVE A 5-YEAR WARRANTY, AND BE MANUFACTURED UNDER ISO 9001 INTERNATIONAL QUALITY CONTROL STANDARDS. B. AIR VENTS 1, MANUAL TYPE: SHORT VERTICAL SECTIONS OF 2 INCH DIAMETER PIPE TO FORM AIR CHAMBER, WITH 1/8 INCH BRASS NEEDLE VALVE AT TOP OF CHAMBER. 2. FLOAT TYPE: BRASS OR SEMI -STEEL BODY, COPPER FLOAT, STAINLESS STEEL VALVE AND VALVE SEAT; SUITABLE FOR SYSTEM OPERATING TEMPERATURE AND PRESSURE; WITH ISOLATING VALVE. C. RELIEF VALVES 1. BRONZE BODY, TEFLON SEAT, STAINLESS STEEL STEM AND SPRINGS, AUTOMATIC, DIRECT PRESSURE ACTUATED, CAPACITIES ASME CERTIFIED AND LABELED. D. EQUIPMENT DRAINS AND OVERFLOWS 1. COPPER TUBING: ASTM B88, TYPE M HARD DRAWN. a. FITTINGS: ANSI/ASME B16.23 CAST BRASS, OR ANSI/ASME B16.29 SOLDER WROUGHT COPPER. b. JOINTS: ASTM B32, SOLDER, GRADE 95TA. E. BALL VALVES 1. UP TO 2 INCHES: BRONZE TWO-PIECE BODY, STAINLESS STEEL BALL, FULL PORT, TEFLON SEATS AND STUFFING BOX RING, LEVER HANDLE, THREADED ENDS WITH UNION. 2. OVER 2 INCHES: CAST STEEL BODY, CHROME PLATED STEEL BALL, TEFLON SEAT AND STUFFING BOX SEALS, LEVER HANDLE, FLANGED. F. GLOBE VALVES 1. CLASSA50 2. STANDARD: MSS SP-80. 3. CWP RATING: 200 PSIG AT 100 DEG F. 4. BODY DESIGN: ASTM 62, BRONZE WITH INTEGRAL SEAT AND SCREW IN BONNET. 5. ENDS: THREADED. 6. SEAT: RESILIENT REPLACEABLE ETHYLENE PROPYLENE COPOLYMER RUBBER (EPDM) 7. STEM: STAINLESS STEEL WITH EXTENDED NECK. 8. DISC: STAINLESS STEEL. 9. SERVICE: BIDIRECTIONAL. 10.OPERATOR: PROVIDE OPERATOR AS SHOWN ON THE CONTRACT DRAWINGS a. MANUAL OPERATOR: LEVER HANDLE WITH MEMORY STOP. b. MOTORIZED OPERATOR: REFER TO AUTOMATIC CONTROL VALVE SPECIFICATION. G. BUTTERFLYVALVES 1. CLASS: 150 2. STANDARD: MSS SP-68. 3. CWP RATING: 285 PSIG AT 100 DEG F. 4. BODY DESIGN: LUG TYPE; SUITABLE FOR BIDIRECTIONAL DEAD-END SERVICE AT RATED PRESSURE WITHOUT USE OF DOWNSTREAM FLANGE. 5. BODY MATERIAL: CAST IRON OR DUCTILE IRON. 6. SEAT: RESILIENT REPLACEABLE ETHYLENE PROPYLENE COPOLYMER RUBBER (EPDM) 7. STEM: STAINLESS STEEL WITH EXTENDED NECK. 8. DISC: STAINLESS STEEL. 9. SERVICE: BIDIRECTIONAL. 10.OPERATOR: PROVIDE OPERATOR AS SHOWN ON THE CONTRACT DRAWINGS a. MANUAL OPERATOR: LEVER HANDLE WITH MEMORY STOP. b. MOTORIZED OPERATOR: REFER TO CONTROL SYSTEM SPECIFICATION. H. THERMOMETERS AND THERMOWELLS: ASME B40.200, INDUSTRIAL -STYLE, ADJUSTABLE ANGLE, LIQUID -IN -GLASS THERMOMETER WITH 9" CAST ALUMINUM CASE WITH EPDXY FINISH AND ULTRAVIOLET PROTECTIVE ACRYLIC WINDOW. TUBE SHALL BE GLASS WITH MAGNIFYING LENS AND BLUE ORGANIC LIQUID WITH NON -REFLECTIVE ALUMINUM BACKGROUND WITH PERMANENTLY ETCHED SCALE MARKINGS GRADUATED IN BOTH DEG F AND DEG C. THE CONNECTOR SHALL BE 1-1/4 INCH COUPLING NUT WITH ASME B1.1 SCREW THREADS. THERMOMETER SHALL HAVE A BARE 304 STAINLESS STEEL STEM DESIGNED FOR THERMOWELL INSTALLATION. 1. ACCURACY: PLUS OR MINUS 1 PERCENT OF SCALE RANGE OR ONE SCALE DIVISION, TO A MAXIMUM OF 1.5 PERCENT OF SCALE RANGE. 2. SCALE (ONLY FAHRENHEIT RANGES ARE SHOWN): a. CHILLED WATER: 0-100 DEG F (FIGURE INTERVALS: 5 DEG/MINOR DIVISIONS 1 DEG) 3. THERMOWELLS: ASME B40.200, PRESSURE -TIGHT, 304 STAINLESS STEEL, SOCKET -TYPE FITTING MADE FOR INSERTION INTO THREADED PIPING TEE FITTING OR THREADED WELDOLET, THERMOWELL SHALL BE STEPPED SHANK UNLESS STRAIGHT OR TAPERED SHANK IS INDICATED. INTERNALAND EXTERNAL THREADS SHALL BE ASME B1.1 SCREW THREADS. THE BORE DIAMETER SHALL MATCH THERMOMETER STEM AND THE INSERTION LENGTH SHALL BE AS REQUIRED TO MATCH THERMOMETER STEM. PROVIDE A LAGGING EXTENSION ON THERMOWELLS LOCATED IN INSULATED PIPE SYSTEMS. PROVIDE BUSHINGS AS REQUIRED FOR CONVERTING SIZE OF THERMOWELL'S INTERNAL SCREW THREAD TO SIZE OF THERMOMETER CONNECTION. THE HEAT -TRANSFER MEDIUM SHALL BE A MIXTURE OF GRAPHITE AND GLYCERIN. I. PRESSURE GAUGES: ASME B40.100, GLYCERIN -FILLED 4-INCH NOMINAL DIAMETER 304 STAINLESS STEEL CASE WITH INSTRUMENT SAFETY GLASS AND POLISHED STAINLESS STEEL RING. BOURDON TUBE PRESSURE -ELEMENT ASSEMBLY SHALL BE 316 STAINLESS STEEL. PRESSURE CONNECTION SHALL BE 316 STAINLESS STEEL WITH ASME B1.20.1 PIPE THREADS AND BOTTOM -OUTLET TYPE. CONNECTIONS SHALL BE NPS 112 FOR DIRECT PIPE CONNECTIONS, AND NPS 1/4 FOR REMOTE -MOUNTED GAUGES. MECHANICAL MOVEMENT, WITH STAINLESS STEEL LINK TO PRESSURE ELEMENT AND CONNECTION TO POINTER. NON -REFLECTIVE WHITE ALUMINUM DIAL WITH BLACK POINTER AND BLACK PERMANENTLY ETCHED SCALE MARKINGS GRADUATED IN PSI. GRADE 2A WITH 1/2% FULL SCALE ACCURACY PER ASME B40A. 1, PRESSURE GAUGE ACCESSORIES (PROVIDE THE FOLLOWING): a. SNUBBERS: ASME B40.100, BRASS; NPS TO MATCH CONNECTED PRESSURE GAUGE, ASME B1.20.1 PIPE THREADS AND POROUS -METAL -TYPE SURGE -DAMPENING DEVICE. INCLUDE EXTENSION FOR USE ON INSULATED PIPING. b. INSTRUMENT TUBING: ASTM B88 TYPE L HARD DRAWN COPPER TUBING WITH ASTM B16.22 WROUGHT COPPER FITTINGS AND SOLDERED JOINTS. c. VALVES: BRASS BALL VALVE, NPS TO MATCH CONNECTED PRESSURE GAUGE, ASME B1.20.1 PIPE THREADS. J. PRESSURE AND TEMPERATURE TEST PORTS AND TEST -PORT KITS 1. PRESSURE AND TEMPERATURE PORTS: NPS 114, ASME 61.20.1 PIPE THREADED TEST -STATION FITTING MADE FOR INSERTION INTO A THREADED PIPE TEE FITTING OR THREADED WELDOLET. PORT SHALL RECEIVE KIOUTER DIAMETER PRESSURE OR TEMPERATURE PROBE. BODY SHALL BE BRASS WITH NEOPRENE SELF-SEALING VALVE CORES INSERTS AND GASKETED AND THREADED CAP WITH CAP STRAP. INCLUDE EXTENDED STEM ON UNITS TO BE INSTALLED IN INSULATED PIPING. MINIMUM PRESSURE AND TEMPERATURE RATING: 500 PSIG AT 200 DEG F. 2. TEST -PLUG KITS: FURNISH ONE TEST -PLUG KIT IN PROTECTIVE CARRYING CASE WITH FORMED INSTRUMENT PADDING, EACH KIT SHALL CONTAIN ONE 0.100 PSI PRESSURE GAUGE WITH ADAPTER, ONE 25-125 DEG F POCKET TESTING THERMOMETER, AND ONE 0-220 DEG F POCKET TESTING THERMOMETER, K. Y-STRAINER 1. BODY: ASTM Al26, CLASS B, CAST IRON WITH BOLTED COVER AND BOTTOM DRAIN CONNECTION. 2. END CONNECTIONS: FLANGED TO MATCH EQUIPMENT CONNECTED. 3. STRAINER SCREEN: 40-MESH STARTUP STRAINER, AND PERFORATED STAINLESS STEEL BASKET WITH 50 PERCENT FREE AREA. 4. CWP RATING: 125 PSIG. L. CHECKVALVE 1. GENERAL DESCRIPTION: CLASS 125, IRON, COMPACT -WAFER, CENTER -GUIDED CHECK VALVE WITH RESILIENT SEAT. 2. STANDARD: MSS SP-125. 3. NPS 2.1/2 TO NPS 12, CWP RATING: 200 PSIG. 4. NPS 14 TO NPS 24, CWP RATING: 150 PSIG. 5. BODY MATERIAL: ASTM A 126, GRAY IRON, 6. STYLE: COMPACT WAFER. 7. SEAT; ETHYLENE PROPYLENE COPOLYMER RUBBER (EPDM) OR BUNA-N (NBR). M. DIAPHRAGM -TYPE EXPANSION TANKS: 1. TANK: WELDED STEEL, RATED FOR 125-PSIG WORKING PRESSURE AND 375 DEG F MAXIMUM OPERATING TEMPERATURE. FACTORY TEST WITH TAPS FABRICATED AND SUPPORTS INSTALLED AND LABELED ACCORDING TO ASME BOILER AND PRESSURE VESSEL CODE: SECTION VIII, DIVISION 1. 2. DIAPHRAGM: SECURELY SEALED INTO TANK TO SEPARATE AIR CHARGE FROM SYSTEM WATER TO MAINTAIN REQUIRED EXPANSION CAPACITY. 3. AIR -CHARGE FITTINGS: SCHRADER VALVE, STAINLESS STEEL WITH EPDM SEATS. N. TANGENTIAL -TYPE AIR SEPARATORS: 1. TANK: WELDED STEEL; ASME CONSTRUCTED AND LABELED FOR 125-PSIG MINIMUM WORKING PRESSURE AND 375 DEG F MAXIMUM OPERATING TEMPERATURE. 2. AIR COLLECTOR TUBE: PERFORATED STAINLESS STEEL, CONSTRUCTED TO DIRECT RELEASED AIR INTO EXPANSION TANK. 3. TANGENTIAL INLET AND OUTLET CONNECTIONS: THREADED FOR NPS 2 AND SMALLER; FLANGED CONNECTIONS FOR NPS 2-1/2 AND LARGER. 4. BLOWDOWN CONNECTION: THREADED. 5. SIZE: MATCH SYSTEM FLOW CAPACITY. 0. DOUBLE SPHERICAL RUBBER FLEXIBLE CONNECTORS 1. BODY: FIBER -REINFORCED RUBBER BODY WITH RETAINING RING. 2. END CONNECTIONS: FLANGED TO MATCH EQUIPMENT CONNECTED. 3. PERFORMANCE: CAPABLE OF 3/4-INCH MISALIGNMENT. 4. CWP RATING: 150 PSIG. 5. MAXIMUM OPERATING TEMPERATURE: 250 DEG F. P. STAINLESS -STEEL BELLOW, FLEXIBLE CONNECTORS: 1. BODY: STAINLESS -STEEL BELLOWS WITH WOVEN, FLEXIBLE, BRONZE, WIRE -REINFORCING PROTECTIVE JACKET. 2. END CONNECTIONS: THREADED OR FLANGED TO MATCH EQUIPMENT CONNECTED. 3. PERFORMANCE: CAPABLE OF 314-INCH MISALIGNMENT. 4. CWP RATING: 150 PSIG. 5. MAXIMUM OPERATING TEMPERATURE: 250 DEG F. Q. REDUCED PRESSURE PRINCIPLE BACKFLOW PREVENTER 1. STANDARD: ASSE 1013. 2. OPERATION: CONTINUOUS -PRESSURE APPLICATIONS. 3. BODY: BRONZE. 4. END CONNECTIONS: THREADED. 5. CONFIGURATION: DESIGNED FOR HORIZONTAL FLOW. 6. ACCESSORIES: a. VALVES: BALL TYPE WITH THREADED ENDS ON INLET AND OUTLET. b. AIR -GAP FITTING: ASME Al12.1.2, MATCHING BACKFLOW-PREVENTER CONNECTION. 2.11 HYDRONIC PUMPS A. GENERAL 1. QUALITY ASSURANCE a. MANUFACTURER: COMPANY SPECIALIZING IN MANUFACTURE, ASSEMBLY, AND FIELD PERFORMANCE OF PUMPS WITH MINIMUM THREE YEARS EXPERIENCE. b. ALIGNMENT: BASE MOUNTED PUMPS SHALL BE ALIGNED BY QUALIFIED MILLWRIGHT AND ALIGNMENT CERTIFIED. 2. GENERAL CONSTRUCTION REQUIREMENTS a. BALANCE: ROTATING PARTS, STATICALLY AND DYNAMICALLY. b. CONSTRUCTION: TO PERMIT SERVICING WITHOUT BREAKING PIPING OR MOTOR CONNECTIONS. c. PUMP MOTORS: OPERATE AT 1150 RPM UNLESS SPECIFIED OTHERWISE. d. PUMP CONNECTIONS: FLANGED. B.PRODUCTS 1. END SUCTION PUMPS a. DESCRIPTION: FACTORY -ASSEMBLED AND FACTORY -TESTED, CENTRIFUGAL, OVERHUNG -IMPELLER, END -SUCTION PUMP DESIGNED FOR INSTALLATION WITH PUMP AND MOTOR SHAFTS MOUNTED HORIZONTALLY. b. CASING: RADIALLY SPLIT, CAST IRON, WITH REPLACEABLE BRONZE WEAR RINGS, DRAIN PLUG AT BOTTOM AND AIR VENT AT TOP OF VOLUTE, THREADED GAUGE TAPPINGS AT INLET AND OUTLET, AND FLANGED CONNECTIONS. c. IMPELLER: ASTM B 584, CAST BRONZE; STATICALLY AND DYNAMICALLY BALANCED, KEYED TO SHAFT, AND SECURED WITH A LOCKING CAP SCREW. d. PUMP SHAFT: STAINLESS STEEL. e. MECHANICAL SEAL: CARBON ROTATING RING AGAINST CERAMIC SEAT HELD BY A STAINLESS -STEEL SPRING, AND BUNA-N BELLOWS AND GASKET. f. PUMP BEARINGS: PERMANENTLY LUBRICATED BALL BEARINGS. g. MOTOR: PREMIUM EFFICIENT, INVERTER DUTY, OPEN DRIPPROOF MOTOR RIGIDLY MOUNTED TO PUMP CASING WITH INTEGRAL PUMP SUPPORT. h. ELECTRICAL COMPONENTS, DEVICES, AND ACCESSORIES: LISTED AND LABELED AS DEFINED IN NFPA 70, BY A QUALIFIED TESTING AGENCY, AND MARKED FOR INTENDED LOCATION AND APPLICATION. I. ACCESSORIES: COUPLING GUARD, SUCTION DIFFUSER C. EXECUTION 1. INSTALLATION a. INSTALL PUMPS IN ACCORDANCE WITH MANUFACTURER'S INSTRUCTIONS. b. PROVIDE ACCESS SPACE AROUND PUMPS FOR SERVICE. PROVIDE NO LESS THAN MINIMUM AS RECOMMENDED BY MANUFACTURER. c. ENSURE PUMPS OPERATE AT SPECIFIED SYSTEM FLUID TEMPERATURES WITHOUT VAPOR BINDING AND CAVITATION, ARE NON -OVERLOADING AND OPERATE WITHIN 25 PERCENT OF MIDPOINT OF PUBLISHED MAXIMUM EFFICIENCY CURVE. d. DECREASE FROM LINE SIZE WITH LONG RADIUS REDUCING ELBOWS OR REDUCERS. SUPPORT PIPING ADJACENT TO PUMP SUCH THAT NO WEIGHT IS CARRIED ON PUMP CASINGS. FOR CLOSE COUPLED OR BASE MOUNTED PUMPS, PROVIDE SUPPORTS UNDER ELBOWS ON PUMP SUCTION AND DISCHARGE LINE SIZES 41NCHES AND OVER. e. PROVIDE AIR COCK AND DRAIN CONNECTION ON HORIZONTAL PUMP CASINGS. f. PROVIDE DRAINS FOR BASES AND SEALS, PIPED TO AND DISCHARGING INTO FLOOR DRAINS, g. LUBRICATE PUMPS BEFORE START-UP. h. INSULATE PUMP BODIES, REFER TO INSULATION SPECIFICATION FOR MORE INFORMATION. f�if�IK:Iq�I[N:1�I:a�:\I� 1=1�11 A. BYPASS CHEMICAL FEEDER: WELDED STEEL CONSTRUCTION; 125-PSIG WORKING PRESSURE; 5-GAL, CAPACITY; WITH FILL FUNNEL AND INLET, OUTLET, AND DRAIN VALVES. 1. CHEMICALS: SPECIALLY FORMULATED, BASED ON ANALYSIS OF MAKEUP WATER, TO PREVENT ACCUMULATION OF SCALE AND CORROSION IN PIPING AND CONNECTED EQUIPMENT. B. PROPYLENE GLYCOL: INDUSTRIAL GRADE WITH CORROSION INHIBITORS AND ENVIRONMENTAL -STABILIZER ADDITIVES FOR MIXING WITH WATER IN SYSTEMS INDICATED TO CONTAIN ANTIFREEZE OR GLYCOL SOLUTIONS. C. THE CONTRACTOR SHALL BE RESPONSIBLE FOR CHEMICALS AND SERVICE THRU ONE YEAR AFTER SUBSTANTIAL COMPLETION. 2,13 CHILLED WATER AIR HANDLING UNITS A. GENERAL 1. THE AIR HANDLING UNITS SHALL CONSIST OF SECTIONS LISTED IN THE AIR HANDLING UNIT SCHEDULE. B. UNIT CASING: 1. FORMING: FORM WALLS, ROOFS, AND FLOORS WITH AT LEAST TWO BREAKS AT EACH JOINT. a. CASING JOINTS: SHEET METAL SCREWS OR POP RIVETS. b. SEALING. SEAL ALL JOINTS WITH WATER-RESISTANT SEALANT. c. FACTORY FINISH FOR GALVANIZED -STEEL CASINGS: IMMEDIATELY AFTER CLEANING AND PRETREATING, APPLY MANUFACTURER'S STANDARD TWO -COAT, BAKED -ON ENAMEL FINISH, CONSISTING OF PRIME COAT AND THERMOSETTING TOPCOAT. d. AIRSTREAM SURFACES: SURFACES IN CONTACT WITH THE AIRSTREAM SHALL COMPLY WITH REQUIREMENTS IN ASHRAE 62.1. 2. CASING INSULATION AND ADHESIVE: a. MATERIALS: ASTM C 1071, TYPE II b. LOCATION AND APPLICATION: ENCASED BETWEEN OUTSIDE AND INSIDE CASING. 3. ACCESS DOORS: a. PANEL AND DOOR FABRICATION: FORMED AND REINFORCED, SINGLE- OR DOUBLE -WALL AND INSULATED PANELS OF SAME MATERIALS AND THICKNESSES AS CASING. b. HINGES: A MINIMUM OF TWO BALL -BEARING HINGES OR STAINLESS -STEEL PIANO HINGE AND TWO WEDGE -LEVER -TYPE LATCHES, OPERABLE FROM INSIDE AND OUTSIDE, ARRANGE DOORS TO BE OPENED AGAINST AIR -PRESSURE DIFFERENTIAL. c. GASKET: NEOPRENE, APPLIED AROUND ENTIRE PERIMETERS OF PANEL FRAMES. C. CONDENSATE DRAIN PANS: 1. FABRICATED WITH SLOPE IN AT LEAST TWO PLANES TO COLLECT CONDENSATE FROM COOLING COILS AND TO DIRECT WATER TOWARD DRAIN CONNECTION, 2. DOUBLE -WALL, STAINLESS -STEEL SHEET WITH SPACE BETWEEN WALLS FILLED WITH FOAM INSULATION AND MOISTURE -TIGHT SEAL. 3. DRAIN CONNECTION: LOCATED AT LOWEST POINT OF PAN AND SIZED TO PREVENT OVERFLOW. TERMINATE WITH THREADED NIPPLE ON ONE END OF PAN. D. AIR -HANDLING -UNIT MOUNTING FRAME: FORMED GALVANIZED -STEEL CHANNEL OR STRUCTURAL CHANNEL SUPPORTS, DESIGNED FOR LOW DEFLECTION, WELDED WITH INTEGRAL LIFTING LUGS. E. FAN, DRIVE, AND MOTOR SECTION: 1. STATICALLY AND DYNAMICALLY BALANCED AND DESIGNED FOR CONTINUOUS OPERATION AT MAXIMUM -RATED FAN SPEED AND MOTOR HORSEPOWER. 2. BELT GUARDS: COMPLY WITH REQUIREMENTS SPECIFIED BY OSHA AND FABRICATE ACCORDING TO SMACNA'S "HVAC DUCT CONSTRUCTION STANDARDS". 3. MOTOR: COMPLY WITH NEMA DESIGNATION, TEMPERATURE RATING, SERVICE FACTOR, ENCLOSURE TYPE, AND EFFICIENCY REQUIREMENTS FOR MOTORS SPECIFIED IN DIVISION 23 SECTION "COMMON MOTOR REQUIREMENTS FOR HVAC EQUIPMENT." a. NEMA PREMIUM (TM) EFFICIENT MOTORS AS DEFINED IN NEMA MG 1. b. MOTOR SIZES: MINIMUM SIZE AS INDICATED. IF NOT INDICATED, LARGE ENOUGH SO DRIVEN LOAD WILL NOT REQUIRE MOTOR TO OPERATE IN SERVICE FACTOR RANGE ABOVE 1.0. c. CONTROLLERS, ELECTRICAL DEVICES, AND WIRING: COMPLY WITH REQUIREMENTS FOR ELECTRICAL DEVICES AND CONNECTIONS SPECIFIED IN DIVISION 26 SECTIONS. d. FANS SHALL BE PROVIDED WITH FACTORY -MOUNTED VARIABLE FREQUENCY DRIVES. REFER TO VARIABLE FREQUENCY DRIVE SPECIFICATION FOR MORE INFORMATION. F. COIL SECTION: 1. COMPLY WITH ARI 410, 2. FABRICATE COIL SECTION TO ALLOW REMOVAL AND REPLACEMENT OF COIL FOR MAINTENANCE AND TO ALLOW IN -PLACE ACCESS FOR SERVICE AND MAINTENANCE OF COIL(S), 3. COILS SHALL NOT ACT AS STRUCTURAL COMPONENT OF UNIT. G. AIR FILTRATION SECTION: 1. COMPLY WITH NFPA 90A. 2, PROVIDE MINIMUM ARRESTANCE ACCORDING TO ASHRAE 52.1, AND A MINIMUM EFFICIENCY REPORTING VALUE (MERV) ACCORDING TO ASHRAE 52.2. 3. PROVIDE FILTER HOLDING FRAMES ARRANGED FOR FLAT OR ANGULAR ORIENTATION, WITH ACCESS DOORS ON BOTH SIDES OF UNIT. FILTERS SHALL BE REMOVABLE FROM ONE SIDE OR LIFTED OUT FROM ACCESS PLENUM. H. CONTROLS: THE AIR HANDLING UNITS SHALL BE MONITORED AND ADJUSTABLE THROUGH THE BUILDING MANAGEMENT SYSTEM, SCHEDULING AND MONITORING CAPABILITIES SHALL ALSO BE AVAILABLE THROUGH THE BUILDING MANAGEMENT SYSTEM. I. INSTALLATION 1. THE AIR HANDLING UNITS MUST BE RIGGED, LIFTED, AND INSTALLED IN STRICT ACCORDANCE WITH THE INSTALLATION, OPERATION, AND MAINTENANCE MANUAL. THE UNITS ARE ALSO TO BE INSTALLED IN STRICT ACCORDANCE WITH THE SPECIFICATIONS. UNITS MAY BE SHIPPED FULLY ASSEMBLED OR DISASSEMBLED TO THE MINIMUM FUNCTIONAL SECTION SIZE IN ACCORDANCE WITH SHIPPING AND JOB SITE REQUIREMENTS. 2. INDOOR UNITS SHALL BE SHIPPED ON AN INTEGRAL BASE FRAME PROVIDING ENOUGH HEIGHT TO PROPERLY TRAP CONDENSATE FROM THE UNIT. 3. ALL UNITS WILL BE SHIPPED WITH AN INTEGRAL BASE FRAME DESIGNED WITH THE NECESSARY NUMBER OF LIFT POINTS FOR SAFE INSTALLATION. ALL LIFTING LUGS ARE TO BE UTILIZED DURING LIFT. THE LIFT POINTS WILL BE DESIGNED TO ACCEPT STANDARD RIGGING DEVICES AND BE REMOVABLE AFTER INSTALLATION. UNITS SHIPPED IN SECTIONS WILL HAVE A MINIMUM OF FOUR POINTS OF LIFT. 4. PER ASHRAE 62.1 RECOMMENDATION, INDOOR AIR HANDLING UNITS WILL BE SHIPPED AND STORED IN STRETCH -WRAP TO PROTECT UNIT FROM RAIN AND DEBRIS. 5. INSTALLING CONTRACTOR IS RESPONSIBLE FOR LONG TERM STORAGE IN ACCORDANCE WITH THE INSTALLATION, OPERATION, AND MAINTENANCE MANUAL. 6. THE CONTRACTOR SHALL DISASSEMBLE AIR HANDLING UNITS TO FIT THROUGH THE MECHANICAL ROOM DOORWAY. THE UNIT SECTIONS SHALL THEN BE REASSEMBLED INSIDE THE ROOM AND CONNECTED TOGETHER FOR AN AIR -TIGHT INSTALLATION. 7. OWNER SHALL WITNESS THE AHU OPERATION BEFORE PROJECT COMPLETION AND PERFORM A LEAK OBSERVATION, ALL AIR LEAKS OBSERVED SHALL BE SEALED BY THE CONTRACTOR AND THE LEAK OBSERVATION SHALL BE REPEATED UNTIL SATISFACTORY OPERATION OF THE UNIT IS OBSERVED. 2.14 BLOWIER COIL UNITS A. GENERAL: BLOWER COIL UNITS CONSIST OF A HYDRONIC COIL, DRAIN PAN, AND CENTRIFUGAL FAN WITH MOTOR AND DRIVE MOUNTED IN A COMMON CABINET. DRIVE LOCATION AND COIL CONNECTIONS ARE INDEPENDENT FOR THE SAME OR OPPOSITE SIDE LOCATION, UNIT AND ACCESSORIES ARE INSULATED WITH 1 INCH,1.5 LB/FT3 DENSITY FIBERGLASS INSULATION. B. UNIT FEATURES: 1. CASING: CASINGS ARE CONSTRUCTED OF HEAVY -GAUGE GALVANIZED STEEL. 2. HYDRONIC COIL: HYDRONIC COILS SHALL HAVE ALUMINUM FINS, MECHANICALLY BONDED TO SEAMLESS COPPER TUBES. ALL COILS ARE SPECIFICALLY DESIGNED AND CIRCUITED FOR WATER USE. ALL COILS ARE FACTORY TESTED WITH 450 PSI AIR UNDER WATER. MAXIMUM STANDARD OPERATING CONDITIONS ARE: 300 PSIG 200 DEG F. 3. FAN: FANS SHALL BE FORWARD CURVED, CENTRIFUGAL BLOWER TYPE EQUIPPED WITH HEAVY-DUTY ADJUSTABLE SPEED V-BELT DRIVE. THE FAN SHAFT SHALL BE SUPPORTED BY HEAVY-DUTY, PERMANENTLY SEALED BALL BEARINGS, ALL FANS SHALL BE DYNAMICALLY BALANCED. 4. MOTORS: ALL STANDARD MOTORS ARE OPEN DRIP -PROOF WITH PERMANENTLY SEALED BALL BEARINGS, INTERNAL CURRENT AND THERMAL OVERLOAD PROTECTION, A MINIMUM 1,15 SERVICE FACTOR AND 56 FRAME RESILIENT BASES. MOTORS ARE FACTORY -INSTALLED AND WIRED TO THE AIR HANDLER JUNCTION BOX. Sims Wilkerson Cartier Engineering, Inc. 12124 High Tech Avenue - Suite. 200 Orlando, Florida 32817 (407)380-0400 FAX (407)380-5900 FL. CERT. OF AUTH. NO. 6106 •G. YA. NILRP ON, PE. 43167 •K. S. CARIRFl, P.P. 53269 •A A2,15.I8VM. P.E. 77010 • ffiEF.4. pRFMAS, P.E. 65629 oSA TJ, R. AEEXANDEIL P.E. S5422 14001 U r„ s 1, it n� d =. U_ Z 2 • r CL C L 5) NU) J CLL M Z .2 -1 O C N C ~ O > O U o U U w W J J /•\ _ a- � wL VJ ''1-^^-� ''-1-VJ ^^-� x VJ O� O CV �O O C:-) C W Vi 5. DRAIN PAN: THE DRAIN PAN SHALL BE STAINLESS STEEL AND DOUBLE -SLOPED TO ALLOW CONDENSATE DRAINAGE, COILS MOUNT ABOVE THE DRAIN PAN - NOT IN THE DRAIN PAN - THUS ALLOWING THE DRAIN PAN TO BE FULLY INSPECTED AND CLEANED. THE DRAIN PAN CAN ALSO BE REMOVED FOR CLEANING. THE MAIN DRAIN CONNECTION IS AT THE LOWEST POINT OF THE DRAIN PAN, AN AUXILIARY DRAIN CONNECTION IS PROVIDED ON THE SAME SIDE AS THE MAIN CONNECTION. PROVIDE A SWITCH IN THE AUXILIARY DRAIN PAN CONNECTION TO DISABLE THE UNIT IF THE PRIMARY DRAIN IS PLUGGED. 6. FILTERS: ONE -INCH STANDARD EFFICIENCY THROWAWAY. UNITS HAVE A STANDARD FLAT FILTER RACK THAT IS SIZED FOR LESS THAT 500 FEET PER MINUTE AT NOMINAL AIRFLOW, 7. CONTROLS: THE BLOWER COIL UNITS SHALL HAVE STAND-ALONE CAPABILITY WITH A LOW -VOLTAGE THERMOSTAT ALONG WITH SCHEDULING AND MONITORING CAPABILITIES FROM THE SITE ENERGY MANAGEMENT SYSTEM. PROVIDE A CONTROL INTERFACE, A DISCONNECT SWITCH (FOR NON -ELECTRIC HEAT UNITS), FUSED TRANSFORMER, CONTACTOR(S), AND TERMINAL STRIP. 8. CHILLED WATER CONTROL VALVE: THE WATER CIRCUIT SHALL INCLUDE 2-WAY MODULATING VALVE. 2.15 CONDENSATE PUMPS A. CONDENSATE PUMPS: UL LISTED LITTLE GIANT CONDENSATE REMOVAL PUMPS (OR EQUAL) MATCHED WITH THE AIR HANDLER VOLTAGE, TANKS SHALL BE CONSTRUCTED OF ASS WITH 1 GALLON CAPACITY. CONDENSATE PUMPS SHALL COME WITH A SAFETY SWITCH AND THERMAL OVERLOAD PROTECTION. PUMPS SHALL BE CAPABLE OF 270 GPH AT 1 FT-H20 AND HAVE A SHUT OFF HEAD OF 24 FT-H2O. 2.16 AIR-COOLED CHILLER A. GENERAL: FACTORY ASSEMBLED, SINGLE -PIECE CHASSIS, MICROPROCESSOR CONTROLLED, AIR-COOLED LIQUID CHILLER UTILIZING SCROLL COMPRESSORS, LOW SOUND FANS, AND CAPABLE OF MAKING ICE, PROVIDE ALL ACCESSORIES AND ADD -ON COMPONENTS REQUIRED FOR THE ICE PRODUCTION. UNIT SHALL BE RATED IN ACCORDANCE WITH AHRI STANDARD 550/590, LATEST EDITION (U.S.A.) AND ALL UNITS SHALL BE ASHRAE 90.1 COMPLIANT. B. UNIT CABINET: FRAME SHALL BE OF HEAVY -GAUGE PAINTED GALVANIZED STEEL. EXTERIOR PANELS SHALL BE GALVANIZED STEEL WITH A BAKED ENAMEL FINISH. CABINET SHALL BE CAPABLE OF WITHSTANDING 500-HOUR SALT SPRAY TEST IN ACCORDANCE WITH ASTM B-117, C. FANS: CORROSION -RESISTANT, DIRECT -DRIVEN, AIRFOIL, SHROUDED -AXIAL TYPE, AND SHALL BE STATICALLY AND DYNAMICALLY BALANCED. AIR SHALL DISCHARGE UPWARD AND FANS SHALL BE PROTECTED BY COATED STEEL WIRE SAFETY GUARDS. D. COMPESSOR/COMPRESSOR ASSEMBLY: 1. FULLY HERMETIC, DIRECT -DRIVE, SCROLL TYPE COMPRESSORS. 2. COMPRESSOR MOTORS SHALL BE COOLED BY REFRIGERANT GAS. 3. COMPRESSORS SHALL BE MOUNTED ON RUBBER IN SHEAR VIBRATION ISOLATORS. 4. EACH COMPRESSOR SHALL BE EQUIPPED WITH CRANKCASE HEATERS TO MINIMIZE OIL DILUTION. E. COOLER: 1. SHELL AND TUBE TYPE, DIRECT EXPANSION. 2. TUBES SHALL BE INTERNALLY ENHANCED SEEMLESS-COPPER TYPE ROLLED INTO TUBE SHEETS. 3. ALL CONNECTIONS SHALL USE STANDARD VICTAULIC-TYPE FITTINGS. 4. SHELL SHALL BE INSULATED WITH 3/4-IN. CLOSED -CELL, POLYVINYL -CHLORIDE FOAM WITH A MAXIMUM K FACTOR OF 0.28. 5. DESIGN SHALL INCORPORATE A MINIMUM OF 2 INDEPENDENT REFRIGERANT CIRCUITS. 6. COOLER SHALL BE RATED FOR A REFRIGERANT WORKING -SIDE PRESSURE OF 445 PSIG AND SHALL BE TESTED FOR A MAXIMUM WATER -SIDE PRESSURE OF 300 PSIG. 7. UNIT SHALL BE PROVIDED WITH A FACTORY -INSTALLED FLOW SWITCH. F. CONDENSER: 1. COIL SHALL BE AN AIR-COOLED HEAT EXCHANGER WITH MICROCHANNEL (MCHX) COILS AND SHALL HAVE A SERIES OF FLAT TUBES CONTAINING A SERIES OF MULTIPLE, PARALLEL FLOW MICROCHANNELS LAYERED BETWEEN THE REFRIGERANT MANIFOLDS. COILS SHALL CONSIST OF A TWO -PASS ARRANGEMENT. COIL CONSTRUCTION SHALL CONSIST OF ALUMINUM ALLOYS FOR FINS, TUBES, AND MANIFOLDS IN COMBINATION WITH A CORROSION -RESISTANT COATING. 2. TUBES SHALL BE CLEANED, DEHYDRATED, AND SEALED. 3. ASSEMBLED CONDENSER COILS SHALL BE LEAK TESTED AND PRESSURE TESTED AT 656 PSIG. G. REFRIGERATION COMPONENTS: REFRIGERANT CIRCUIT COMPONENTS SHALL INCLUDE REPLACEABLE -CORE FILTER DRIER, MOISTURE INDICATING SIGHT GLASS, ELECTRONIC EXPANSION DEVICE, DISCHARGE AND LIQUID SERVICE VALVES AND COMPLETE OPERATING CHARGE OF SIDES BOTH REFRIGERANT R-410A AND COMPRESSOR OIL. H. CONTROLS, SAFETIES, AND DIAGNOSTICS: 1. UNIT CONTROLS SHALL INCLUDE THE FOLLOWING MINIMUM COMPONENTS: a. MICROPROCESSOR WITH NON-VOLATILE MEMORY. BATTERY BACKUP SYSTEM SHALL NOT BE ACCEPTED. b. SEPARATE TERMINAL BLOCK FOR POWER AND CONTROLS. c. CONTROL TRANSFORMER TO SERVE ALL CONTROLLERS, RELAYS, AND CONTROL COMPONENTS. d. ONIOFF CONTROL SWITCH. e. REPLACEABLE SOLID-STATE CONTROLLERS f. PRESSURE SENSORS SHALL BE INSTALLED TO MEASURE SUCTION AND DISCHARGE PRESSURE FOR EACH CIRCUIT. THERMISTORS SHALL BE INSTALLED TO MEASURE COOLER ENTERING AND LEAVING FLUID TEMPERATURES AS WELL AS REFRIGERANT PUMP DOWN PRESSURE AND TEMPERATURE. g. PICK UP SIGNAL FROM BUILDING TRANSFER SWITCH TO ALERT CHILLER WHEN THE BUILDING IS OPERATING ON EMERGENCY POWER. 2. UNIT CONTROLS SHALL INCLUDE THE FOLLOWING FUNCTIONS: a. AUTOMATIC CIRCUIT LEAD/LAG FOR DUAL CIRCUIT CHILLERS. b. HERMETIC SCROLL COMPRESSORS ARE MAINTENANCE FREE AND PROTECTED BY AN AUTO -ADAPTIVE CONTROL THAT MINIMIZES COMPRESSOR WEAR. c. CAPACITY CONTROL BASED ON LEAVING CHILLED FLUID TEMPERATURE AND COMPENSATED BY RATE OF CHANGE OF RETURN -FLUID TEMPERATURE WITH TEMPERATURE SET POINT ACCURACY TO 0.1 DEG F. d. LIMITING THE CHILLED FLUID TEMPERATURE PULL -DOWN RATE AT START-UP TO AN ADJUSTABLE RANGE OF 0.2 DEG F TO 2 DEG F PER MINUTE TO PREVENT EXCESSIVE DEMAND SPIKES AT START-UP. e. SEVEN-DAY TIME SCHEDULE. If. LEAVING CHILLED FLUID TEMPERATURE RESET. g. CHILLED WATER PUMP STARTISTOP CONTROL AND PRIMARY/STANDBY SEQUENCING TO ENSURE EQUAL PUMP RUN TIME. h. TIMED MAINTENANCE SCHEDULING TO SIGNAL MAINTENANCE ACTIVITIES FOR PUMPS, CONDENSER COIL CLEANINGS, STRAINER MAINTENANCE AND USER -DEFINED MAINTENANCE ACTIVITIES. I. SINGLE STEP DEMAND LIMIT CONTROL ACTIVATED BY REMOTE CONTACT CLOSURE. j. ICE -MAKING MODE FOR THERMAL STORAGE SYSTEM. 3. DIAGNOSTICS: a. THE CONTROL PANEL SHALL INCLUDE, AS STANDARD, A SCROLLING MARQUEE DISPLAY CAPABLE OF INDICATING THE SAFETY LOCKOUT CONDITION BY DISPLAYING A CODE FOR WHICH AN EXPLANATION MAY BE SCROLLED AT THE DISPLAY WITH TIME AND DATE STAMP. b. INFORMATION INCLUDED FOR DISPLAY SHALL BE: 1) COMPRESSOR LOCKOUT 2) LOSS OF CHARGE 3) LOW FLUID FLOW 4) COOLER FREEZE PROTECTION 5) COOLER SET POINT 6) CHILLED WATER RESET PARAMETERS 7) THERMISTER AND TRANSDUCER MALFUNCTION 8) ENTERING AND LEAVING WATER TEMPERATURE 9) COMPRESSOR SUCTION TEMPERATURE 10) EVAPORATOR AND CONDENSER PRESSURE 11) SYSTEM REFRIGERANT TEMPERATURES 12) CHILLER RUN HOURS 13) COMPRESSOR NUMBER OF STARTS 14) LOW SUPERHEAT 15) TIME OF DAY: a) DISPLAY MODULE, IN CONJUNCTION WITH THE MICROPROCESSOR, MUST ALSO BE CAPABLE OF DISPLAYING THE OUTPUT (RESULTS) OF A SERVICE TEST. SERVICE TEST SHALL VERIFY OPERATION OF EVERY SWITCH, THERMISTOR, FAN, AND COM-PRESSOR BEFORE CHILLER IS STARTED. b) DIAGNOSTICS SHALL INCLUDE THE ABILITY TO REVIEW A LIST OF THE 20 MOST RECENT ALARMS WITH CLEAR LANGUAGE DESCRIP-TIONS OF THE ALARM EVENT. DISPLAY OF ALARM CODES WITHOUT THE ABILITY FOR CLEAR LANGUAGE DESCRIPTIONS SHALL BE PROHIBITED. c) AN ALARM HISTORY BUFFER SHALL ALLOW THE USER TO STORE NO LESS THAN 20 ALARM EVENTS WITH CLEAR LANGUAGE DESCRIPTIONS, TIME AND DATE STAMP EVENT ENTRY. d) THE CHILLER CONTROLLER SHALL INCLUDE MULTIPLE CONNECTION PORTS FOR COM-MUNICATING WITH THE LOCAL EQUIPMENT NETWORK, THE CARRIER COMFORT NETWORK (CCN) SYSTEM AND ACCESS TO CHILLER CONTROL FUNCTIONS FROM ANY POINT ON THE CHILLER. e) THE CONTROL SYSTEM SHALL ALLOW SOFT -WARE UPGRADE WITHOUT THE NEED FOR NEW HARDWARE MODULES, 4. SAFETIES: a. UNIT SHALL BE EQUIPPED WITH THERMISTORS AND ALL NECESSARY COMPONENTS IN CONJUNCTION WITH THE CONTROL SYSTEM TO PROVIDE THE UNIT WITH THE FOLLOWING PROTECTIONS: 1) LOSS OF REFRIGERANT CHARGE 2) REVERSE ROTATION 3) LOW CHILLED FLUID TEMPERATURE 4) THERMAL OVERLOAD 5) HIGH PRESSURE 6) ELECTRICAL OVERLOAD b. CONDENSER FANS AND FACTORY PUMP MOTORS SHALL HAVE EXTERNAL OVERCURRENT PROTECTION. I. OPERATING CHARACTERISTICS: 1. UNIT SHALL BE CAPABLE OF OPERATING AT OUTDOOR AMBIENT TEMPERATURES BETWEEN 32 DEG F AND 125 DEG F. 2. UNIT SHALL BE CAPABLE OF STARTING UP WITH 95 DEG F ENTERING FLUID TEMPERATURE TO THE COOLER. 3. UNIT SHALL BE CAPABLE OF THE ICE -MAKING MODE REQUIRED BY THE CONTRACT DOCUMENTS. J. FAN MOTORS: 1. CONDENSER FANS SHALL BE TOTALLY ENCLOSED SINGLE SPEED, 3-PHASE TYPE WITH PERMANENTLY LUBRICATED BALL BEARINGS, AND CLASS F INSULATION. K. ELECTRICAL CHARACTERISTICS: 1. UNITIMODULE PRIMARY ELECTRICAL POWER SUPPLY SHALL ENTER THE UNIT AT A SINGLE ELECTRICAL BOX. 2. UNIT SHALL OPERATE ON 3-PHASE POWER AT THE VOLTAGE SHOWN IN THE EQUIPMENT SCHEDULE. 3. CONTROL POINTS SHALL BE ACCESSED THROUGH TERMINAL BLOCK. 4. UNIT SHALL BE SHIPPED WITH FACTORY CONTROL AND POWER WIRING INSTALLED. L. SPECIAL FEATURES TO BE INCLUDED: 1. BACNET COMMUNICATION OPTION: SHALL PROVIDE FACTORY -INSTALLED COMMUNICATION CAPABILITY WITH A BACNET MS/TP NETWORK AND ALLOWS INTEGRATION WITH A BACNET BUILDING AUTOMATION SYSTEM. 2. COMPRESSOR SUCTION SERVICE VALVE: STANDARD REFRIGERANT DISCHARGE ISOLATION AND LIQUID VALVES SHALL ENABLE SERVICE PERSONNEL TO STORE THE REFRIGERANT CHARGE IN THE COOLER OR CONDENSER DURING SERVICING. THIS FACTORY -INSTALLED OPTION (ONE VALVE PER REFRIGERANT CIRCUIT) SHALL ALLOW FOR FURTHER ISOLATION OF THE COMPRESSOR FROM THE COOLER VESSEL. 3. SUCTION LINE INSULATION: INSULATION SHALL BE TUBULAR CLOSED -CELL INSULATION. 4, SERVICE OPTION: THE SERVICE OPTION SHALL PROVIDE A REMOTE SERVICE PORT FOR NAVIGATOR CONNECTION AND A FACTORY -INSTALLED CONVENIENCE OUTLET INCLUDES 4-AMP GFI (GROUND FAULT INTERRUPT) RECEPTACLE WITH INDEPENDENT FUSE PROTECTION. CONVENIENCE OUTLET SHALL BE A 115-V FEMALE RECEPTACLE. 5, CONDENSER COIL PROTECTIVE COATING - FACTORY -APPLIED FLEXIBLE DIP AND BAKE EPDXY COATING. 2.17 THERMAL ICE STORAGE SYSTEM A. ICE STORAGE TANKS 1. GENERAL: THE ICE STORAGE TANKS SHALL BE DESIGNED FOR A MINIMUM 20 YEAR SERVICE LIFE AND SHALL BE CON-STRUCTED SOLELY OF CORROSION -RESISTANT MATERIALS. IT SHALL CONSIST BASICALLY OF A CYLINDRICAL CONTAINER, SPIRAL TUBULAR HEAT EXCHANGER, AND SUPPLY AND RETURN HEADERS. EACH TANK SHALL HAVE FACTORY RATED AND PUBLISHED CHARGE AND DISCHARGE PERFORMANCE CURVES. THE TANKS SHALL BE SUITABLE AS STANDARD FOR EXTERIOR INSTALLATION ABOVEGROUND. EACH TANK MUST BE CAPABLE OF BEING INDIVIDUALLY ISOLATED FROM THE THERMAL STORAGE SYSTEM SO THAT EACH MAY BE SERVICED WITHOUT INTERRUPTING THE OPERATION OF THE TOTAL SYSTEM. 2. TANK CONSTRUCTION: THE TANK CONTAINER SHALL BE CYLINDRICAL AND SHALL BE CONSTRUCTED OF POLYETHYLENE WITH AN AVERAGE THICKNESS OF 3/81NCH AND A MINIMUM ULTIMATE STRENGTH OF 2600 PSI PER ASTM D 638-08. THE TANK SHALL BE ABLE TO WITHSTAND TOTAL FREEZING OF THE WATER WITHIN IT THROUGH REPEATED CYCLES WITHOUT DAMAGE. THE BOTTOM AND SIDES OF THE TANK SHALL BE INSULATED WITH A MINIMUM R-FACTOR OF 9 AND THE TOP SHALL BE INSULATED WITH A MINIMUM R-FACTOR OF 16. STANDBY LOSSES MUST NOT EXCEED 1 PERCENT OF THE TOTAL STORED CAPACITY OVER AN 85 DEG F DAY. THE SIDES OF THE TANK SHALL BE COVERED WITH .032 INCH TEXTURED ALUMINUM SHEET. THE TANK CONTAINER SHALL BE WARRANTED FOR A PERIOD OF 10 YEARS. 3. HEAT EXCHANGER: THE TANK SHALL CONTAIN A SPIRAL -WOUND, MAT -TYPE HEAT EXCHANGER CONSISTING OF POLYETHYLENE TUBING ARRANGED IN MULTIPLE PARALLEL CIRCUITS WITH OPPOSITE DIRECTION OF FLOW IN ADJOINING TUBES. THE HEAT EXCHANGER SHALL BE CAPABLE OF OPERATING UP TO A 90 PSI MAXIMUM PRESSURE AND SHALL HAVE A MINIMUM BURST PRESSURE RATED FOR 4 TIMES THE MAXIMUM OPERATING PRESSURE. EACH ICE TANK HEAT EXCHANGER AND ITS ASSOCIATED PIPING SHALL BE FACTORY HYDROSTATICALLY PRESSURE TESTED TO A MINIMUM OF 250 PSI AFTER TANK INSERTION. 4. CAPACITY: REFER TO SCHEDULE ON CONTRACT DRAWINGS. B. PIPING SYSTEM:THE PIPING SYSTEM SHALL BE FILLED WITH A FULLY FORMULATED APPROPRIATE MIXTURE OF HEAT TRANSFER FLUID OF PROPYLENE GLYCOL. THE SOLUTION SHALL BE THOROUGHLY MIXED IN A SEPARATE CONTAINER BEFORE IT IS PUT INTO THE SYSTEM. SYSTEM LEAK PROTECTION SHALL BE PROVIDED BY LIQUID LEVEL AND/OR PRESSURE SWITCHES IN THE EXPANSION TANK, TANK BOTTOMS SHALL BE LEVEL AND SUPPORTED OVER THEIR ENTIRE AREA. C. GLYCOL MANAGEMENT SYSTEM (GMS): A FACTORY -BUILT, PACKAGED GMS SHALL BE PROVIDED FOR THE PIPING SYSTEM INSTEAD OF A POTABLE WATER CONNECTION TO PROVIDE MAKE-UP SOLUTION, INSURE PROPER HEAT TRANSFER FLUID CONCENTRATIONS, AND PROVIDE OPERATIONAL SAFETIES. 1. STANDARD FEATURES: a. TEFC PUMP MOTOR AND HOT -DIPPED GALVANIZED STEEL FRAME. b. 65-GALLON COVERED, VENTED RESERVOIR, WITH 10 GALLON GRADUATIONS. c. BUILDING SYSTEM ISOLATION VALVE BETWEEN BUILDING SYSTEM AND GMS. d. SERVICE VALVE BETWEEN THE RESERVOIR AND THE PUMP. e. DRAIN VALVE. f. LOW LIQUID LEVEL ALARM CONTACTS CLOSE ON A LOSS OF POWER. g. PRESSURE RELIEF VALVE: PROTECTS AGAINST OVER -PRESSURIZATION BY THE GLYCOL MANAGEMENT SYSTEM. 2. VISIBLE WARNING LIGHTS AND ELECTRICAL CONTACTS FOR REMOTE MONITORING FOR THE FOLLOWING CONDITIONS: a. ADD SOLUTION WARNING: INDICATES THAT SOLUTION NEEDS TO BE ADDED TO THE RESERVOIR, BUT PUMP WILL CONTINUE TO RUN UNTIL LEVEL REACHES THE LOW LIQUID LEVEL ALARM. b. LOW LIQUID LEVEL: GMS PUMP IS AUTOMATICALLY TURNED OFF. c. HIGH LIQUID LEVEL d. LOW SYSTEM PRESSURE: POSSIBLE LEAK IN SYSTEM e. LOSS OF POWER 3. REMOTE MONITORING: THE BMS SHALL MONITOR THE WARNINGS LISTED ABOVE AND GENERATE AN ALARM FOR EACH CONDITION. D. ICE INVENTORY METER: METER SHALL MEASURE THE QUANTITY OF ICE IN A THERMAL STORAGE TANK AND PROVIDE BOTH A VISUAL INDICATION AND AN ELECTRONIC SIGNAL (4-20MA) SUITABLE FOR REMOTE MONITORING. THE INVENTORY METER CONSISTS OF A WEATHER RESISTANT CONTROL BOX, TANK PROBE AND TWIN TUBING. POWER (115V) NEEDS TO BE SUPPLIED TO THE CONTROL BOX, BUT THERE IS NO ELECTRIC CONNECTION TO THE TANKS. METER SHALL HAVE A 4" ANALOG TYPE VISUAL INDICATOR WHICH IS FACTORY CALIBRATED AT 0 TO 100%AND THE 4-20MA SIGNAL IS ALSO FACTORY ADJUSTED TO THIS SAME RANGE. A HOLE MUST BE DRILLED INTO A TANK'S COVER INTO WHICH THE SUPPLIED, ADJUSTABLE COMPRESSION FITTING IS THREADED. INSTALL ICE INVENTORY METER IN TANK T-1. 2.18 PLATE HEAT EXCHANGER A. CONFIGURATION: FREESTANDING ASSEMBLY CONSISTING OF FRAME SUPPORT, TOP AND BOTTOM CARRYING AND GUIDE BARS, FIXED AND MOVABLE ENDPLATES, TIE RODS, INDIVIDUALLY REMOVABLE PLATES, AND ONE-PIECE GASKETS. B. FRAME: 1. CAPACITY TO ACCOMMODATE 20 PERCENT ADDITIONAL PLATES. 2. PAINTED CARBON STEEL WITH PROVISIONS FOR ANCHORING TO SUPPORT. C. CONSTRUCTION: 1. TOP AND BOTTOM CARRYING AND GUIDE BARS: STAINLESS STEEL. 2. END -PLATE MATERIAL: PAINTED CARBON STEEL. 3. TIE RODS AND NUTS: STAINLESS STEEL. 4. PLATE MATERIAL: MINIMUM 0,024INCH THICK BEFORE STAMPING; TYPE 304 STAINLESS STEEL. 5. GASKET MATERIAL: NITRILE RUBBER OR EPDM 6. PIPING CONNECTIONS: END -PLATE PORT WITH THREADED STUDS SUITABLE FOR FLANGED CONNECTION. D. CAPACITY: REFER TO SCHEDULE ON CONTRACT DRAWINGS 2.19 AIR DISTRIBUTION A. THIS SECTION INCLUDES AIR SYSTEMS DUCTWORK AND ACCESSORIES. THE REQUIREMENTS OF SECTION "GENERAL PROVISIONS MECHANICAL" SHALL APPLY TO THE WORK SPECIFIED UNDER THIS SECTION. B. GALVANIZED STEEL DUCTWORK (ALL DUCTWORK UNLESS OTHERWISE NOTED): 1. COMPLY WITH SMACNA'S "HVAC DUCT CONSTRUCTION STANDARDS - METAL AND FLEXIBLE" BASED ON INDICATED STATIC -PRESSURE CLASS UNLESS OTHERWISE INDICATED. 2, MATERIAL: G90 GALVANIZED STEEL COMPLYING WITH ASTM A 853. 3. TRANSVERSE JOINTS: SELECT JOINT TYPES AND FABRICATE ACCORDING TO SMACNNS "HVAC DUCT CONSTRUCTION STANDARDS - METAL AND FLEXIBLE," FIGURE 1-4, "TRANSVERSE (GIRTH) JOINTS;' FOR STATIC -PRESSURE CLASS, APPLICABLE SEALING REQUIREMENTS, MATERIALS INVOLVED, DUCT -SUPPORT INTERVALS, AND OTHER PROVISIONS IN SMACNNS "HVAC DUCT CONSTRUCTION STANDARDS - METAL AND FLEXIBLE." 4, LONGITUDINAL SEAMS: SELECT SEAM TYPES AND FABRICATE ACCORDING TO SMACNA'S "HVAC DUCT CONSTRUCTION STANDARDS - METAL AND FLEXIBLE," FIGURE 1-5, "LONGITUDINAL SEAMS - RECTANGULAR DUCTS," FOR STATIC -PRESSURE CLASS, APPLICABLE SEALING REQUIREMENTS, MATERIALS INVOLVED, DUCT -SUPPORT INTERVALS, AND OTHER PROVISIONS IN SMACNA'S "HVAC DUCT CONSTRUCTION STANDARDS - METAL AND FLEXIBLE." 5. ELBOWS, TRANSITIONS, OFFSETS, BRANCH CONNECTIONS, AND OTHER DUCT CONSTRUCTION: SELECT TYPES AND FABRICATE ACCORDING TO SMACNA'S "HVAC DUCT CONSTRUCTION STANDARDS - METAL AND FLEXIBLE," CHAPTER 2, "FITTINGS AND OTHER CONSTRUCTION," FOR STATIC -PRESSURE CLASS, APPLICABLE SEALING REQUIREMENTS, MATERIALS INVOLVED, DUCT -SUPPORT INTERVALS, AND OTHER PROVISIONS IN SMACNA'S "HVAC DUCT CONSTRUCTION STANDARDS - METAL AND FLEXIBLE." 6, CLEANING: CLEAN THE INSIDE OF DUCTWORK OF DEBRIS, DIRT, AND OTHER FOREIGN MATTER BEFORE FAN IS OPERATED FOR ANY REASON. C. FIBERGLASS DUCTBOARD (ONLY ALLOWED DOWNSTREAM OF VARIABLE AIR VOLUME AIR TERMINAL UNITS): 1. FIBERGLASS DUCTBOARD SHALL BE UL 181 LISTED (ANTIMICROBIAL). DUCTBOARD SHALL BE INTERNALLY COATED WITH A BLACK ACRYLIC POLYMER FORMULATED WITH AN IMMOBILIZED, EPA -REGISTERED, ANTI -MICROBIAL AGENT. DUCTBOARD SHALL BE 1-1/2 INCH THICK RIGID GLASS FIBER WITH ALUMINUM FOIL, GLASS SCRIM, AND KRAFT JACKET VAPOR BARRIER. MAXIMUM K VALUE OF 0.23 AT 75 DEG F AND MINIMUM INSTALLED R VALUE OF 6.0, D. INSULATED FLEXIBLE DUCT: INTERLOCKING SPIRAL OF GALVANIZED STEEL OR ALUMINUM CONSTRUCTION OR FABRIC SUPPORTED BY HELICALLY WOUND SPRING STEEL WIRE OR FLAT STEEL BANDS; RATED TO 2 INCHES WG POSITIVE AND 1.5INCHES WG NEGATIVE FOR LOW PRESSURE DUCTS AND 15 INCHES WG POSITIVE OR NEGATIVE FOR MEDIUM/HIGH PRESSURE DUCTS. FLEXIBLE DUCT WRAPPED WITH FLEXIBLE GLASS FIBER INSULATION, ENCLOSED BY SEAMLESS ALUMINUM PIGMENTED PLASTIC VAPOR BARRIER JACKET; MAXIMUM 0.23 K VALUE AT 75 DEG F, MINIMUM INSTALLED R VALUE OF 6.0. E. AIR DEVICES: 1. ALL SUPPLY, RETURN, EXHAUST AND TRANSFER AIR TERMINAL DEVICES AND ACCESSORIES SHALL BE OF COMMERCIAL GRADE AND THE PRODUCT OF ONE MANUFACTURER. 2. AIR DEVICES SHALL BE FACTORY PRIME FINISHED. AIR DEVICES LOCATED IN CEILINGS SHALL HAVE OFF-WHITE ENAMEL COLOR. ALL INTEGRAL VOLUME DAMPERS AND DIRECTIONAL LOUVERS SHALL HAVE FACTORY FINISHES TO MATCH THE AIR DEVICE. 3. PROVIDE AIR DEVICES AS SCHEDULED, F. ROOF INTAKE HOOD: 1, HOOD AND BASE: a. MATERIAL TYPE: GALVANIZED STEEL b. HOOD CONSTRUCTED OF PRECISION FORMED, ARCHED PANELS WITH INTERLOCKING SEAMS c. VERTICAL END PANELS ARE FULLY LOCKED INTO HOOD END PANELS d. BASE HEIGHT IS STANDARD OF 5 INCHES e. CURB CAP IS SIX INCHES LARGER THEN THROAT SIZE f. CURB CAP HAS PRE -PUNCHED MOUNTING HOLES FOR INSTALLATION 2. BIRDSCREEN: a. CONSTRUCTED OF Yz INCH ALUMINUM MESH b. MOUNTED HORIZONTALLY ACROSS THE INTAKE AREA OF THE HOOD 3. OPTIONS/ACCESSORIES: a. ROOF CURBS: INTAKE HOOD SHALL BE MOUNTED TO A CURB ADAPTER (REFER TO CURB ADAPTERS AND CAPS SPECIFICATION) b. DAMPERS: BACKDRAFT DAMPER c. FILTERS: WASHABLE 2" ALUMINUM MESH d. FINISH: THERMO-SETTING POLYESTER URETHANE (WHITE) e. TIE -DOWN POINTS: FOUR ALUMINUM BRACKETS LOCATED ON HOOD SUPPORTS, SECURES FAN IN HEAVY WIND APPLICATIONS G. ROOF EXHAUST HOOD: 1. HOOD AND BASE: a. MATERIAL TYPE: GALVANIZED STEEL b. HOOD CONSTRUCTED OF PRECISION FORMED, ARCHED PANELS WITH INTERLOCKING SEAMS c. VERTICAL END PANELS ARE FULLY LOCKED INTO HOOD END PANELS d. BASE HEIGHT IS STANDARD OF 5 INCHES e. CURB CAP IS SIX INCHES LARGER THEN THROAT SIZE If. CURB CAP HAS PRE -PUNCHED MOUNTING HOLES FOR INSTALLATION 2. BIRDSCREEN: a. CONSTRUCTED OF V2INCH ALUMINUM MESH b. MOUNTED HORIZONTALLY ACROSS THE INTAKE AREA OF THE HOOD 3. OPTIONS/ACCESSORIES: a. ROOF CURBS: WELDED, STRAIGHT SIDED CURB SUITABLE FOR EXISTING ROOF. ROOF CURB SHALL BE FLASHED AND SEALED WEATHER -TIGHT. ROOF CURB SHALL BE ATTACHED TO STRUCTURE WITH 18 GA GALVANIZED STEEL HURRICANE STRAPS. b. DAMPERS: BACKDRAFT DAMPER c. HOOD INSULATION: 1/2" FIBERGLASS INSULATION TO PREVENT CONDENSATION d. FINISH: THERMO-SETTING POLYESTER URETHANE (WHITE) e. TIE -DOWN POINTS: FOUR ALUMINUM BRACKETS LOCATED ON HOOD SUPPORTS, SECURES FAN IN HEAVY WIND APPLICATIONS H. DUCT -MOUNTED SMOKE DETECTORS: 1. NFPA 72, PHOTOELECTRIC TYPE COMPLYING WITH UL 268A AND WITH A DUCT HOUSING ENCLOSURE. SAMPLING TUBES SHALL BE DESIGNED AND DIMENSIONS AS RECOMMENDED BY THE MANUFACTURER FOR SPECIFIC DUCT SIZE, AIR VELOCITY, AND INSTALLATION CONDITIONS WHERE APPLIED. PROVIDE A RELAY FAN SHUTDOWN RATED TO INTERRUPT FAN MOTOR -CONTROL CIRCUIT. DETECTOR ADDRESS SHALL BE ACCESSIBLE FROM FIRE -ALARM CONTROL UNIT AND SHALL BE ABLE TO IDENTIFY THE DETECTOR'S LOCATION WITHIN THE SYSTEM AND ITS SENSITIVITY SETTING. FIRE DAMPERS: 1. FABRICATE IN ACCORDANCE WITH NFPA 90A AND UL 555, AND AS INDICATED. 2. FABRICATE CURTAIN TYPE DAMPERS OF GALVANIZED STEEL WITH INTERLOCKING BLADES, CONFIGURE WITH BLADES OUT OF AIR STREAM EXCEPT FOR LOW PRESSURE DUCTS UP TO 12INCHES IN HEIGHT. 3. FUSIBLE LINKS, UL 33, SHALL SEPARATE AT 160 DEG F. 4. FIRE DAMPER SHALL BE RUSKIN MODEL DIBD23 OR EQUIVALENT. J. CONTROL DAMPER - OUTDOOR AIR: 1. DESIGN BASIS: RUSKIN CD-36-304 2. GENERAL: CONTROL DAMPER SHALL BE LOW -LEAKAGE DAMPER WITH ALL 304 STAINLESS STEEL CONSTRUCTION. CONTROL DAMPER SHALL BE MANUFACTURED BY AN ISO 9001 ACCREDITED MANUFACTURER THAT MEETS THE FOLLOWING MINIMUM CONSTRUCTION REQUIREMENTS, DAMPER FRAMES SHALL BE CONSTRUCTED USING THE UNIFRAME DESIGN CONCEPT (UDC) AND SHALL BE ROLL -FORMED STRUCTURAL HAT CHANNELS, REINFORCED AT THE CORNERS, FORMED FROM A SINGLE PIECE OF MINIMUM 16 GAUGE STAINLESS STEEL. THE BLADES SHALL BE SINGLE SKIN, 16 GAGE STAINLESS STEEL WITH THREE LONGITUDINAL GROOVES FOR REINFORCEMENT. BLADE EDGE SEALS SHALL BE PVC COATED POLYESTER FABRIC SUITABLE FOR -25 DEG F TO +180 DEG F MECHANICALLY LOCKED INTO THE BLADE EDGE. JAMB SEALS SHALL BE FLEXIBLE STAINLESS STEEL METAL, COMPRESSION TYPE TO PREVENT LEAKAGE BETWEEN END OF THE BLADE AND THE DAMPER FRAME. USE OF THE BLADE END TO OVERLAPPING FRAME FOR JAMB SEAL IS NOT ACCEPTABLE. ADHESIVE OR CLIP -ON TYPE SEALS FOR BLADE AND JAMB SEALS ARE NOT ACCEPTABLE. BEARINGS SHALL BE CORROSION RESISTANT, MOLDED SYNTHETIC SLEEVE TYPE TURNING IN AN EXTRUDED HOLE IN THE DAMPER FRAME. AXLES SHALL BE Y2" STAINLESS STEEL, HEXAGONAL SHAPED AND POSITIVELY LOCKED INTO THE DAMPER BLADE. LINKAGE SHALL BE CONCEALED OUT OF AIRSTREAM, WITHIN THE DAMPER FRAME TO REDUCE PRESSURE DROP AND NOISE AND LESSEN THE NEED FOR MAINTENANCE. SUBMITTALS MUST INCLUDE LEAKAGE, MAXIMUM AIRFLOW AND MAXIMUM PRESSURE RATINGS BASED ON AMCA PUBLICATION 500. DAMPER LEAKAGE SHALL NOT EXCEED 10 CFM PER SQUARE FOOT AT 4" STATIC PRESSURE. 3. ACTUATOR: ELECTRIC: 24 V, 60 HZ, MODULATING (FAIL POSITION:CLOSED). MANUFACTURER DESIGN BASIS: BELIMO 2.20 DUCTWORK INSULATION (INTERIOR SUPPLY AND RETURN) A. DUCTWORK INSULATION 1. ALL METAL SUPPLY, RETURN, AND OUTDOOR AIR DUCTWORK DUCTWORK SHALL BE EXTERNALLY INSULATED. INSULATION SHALL BE EITHER MINERAL -FIBER BLANKET COMPLYING WITH ASTM C 553 AND ASTM C 1290, OR MINERAL -FIBER BOARD INSULATION COMPLYING WITH ASTM C 612. INSULATION SHALL BE NON-COMBUSTIBLE WITH A "K" VALVE OF 0.29 AT 75 DEG. F. THE MAXIMUM SERVICE TEMPERATURE SHALL BE 250 DEG F. THE MAXIMUM MOISTURE ABSORPTION SHALL BE 0.20 PERCENT BY VOLUME. THE MINIMUM INSTALLED R-VALUE SHALL BE 6.0. 2. VAPOR BARRIER JACKET SHALL BE KRAFT PAPER REINFORCED WITH GLASS FIBER YARN AND BONDED TO ALUMINIZED FILM. MOISTURE VAPOR TRANSMISSION SHALL MEET ASTM E96 AND BE 0.04 PERM. THE JACKET SHALL BE SECURED WITH MASTIC CLOSURE SYSTEM MEETING UL 181 (MASTIC -PLUS -EMBEDDED FABRIC SYSTEM). TAPING OF JOINTS IS NOT PERMITTED, 3. JACKETS: FSK 2,21 SINGLE DUCTVARIABLE AIR VOLUME TERMINAL UNITS WITHOUT HEAT A. CASING: 22 GAGE GALVANIZED STEEL SINGLE WALL, 1. INSULATION: ADHESIVE ATTACHED, 1-INCH-THICK, 1.5 LB/FT3 DENSITY GLASS FIBER WITH FOIL FACING, THE INSULATION R-VALUE SHALL BE MINIMUM 4, 1, THE INSULATION SHALL BE UL LISTED AND MEET NFPA 90A AND UL 181 STANDARDS AS WELL AS BACTERIOLOGICAL STANDARD ASTM C 665. THERE SHALL BE NO EXPOSED EDGES OF INSULATION (COM PLETE METAL ENCAPSULATION). THE MAXIMUM FLAME -SPREAD INDEX SHALL BE 25 AND THE MAXIMUM SMOKE -DEVELOPED INDEX SHALL BE 50, FOR BOTH INSULATION AND ADHESIVE, WHEN TESTED ACCORDING TO ASTM E 84, 2, AIR INLETS: 18 GAGE GALVANIZED STEEL CYLINDER SIZED TO FIT STANDARD ROUND DUCT. 3. AIR OUTLET: FLANGED CONNECTION. 4. ACCESS: REMOVABLE PANELS FOR ACCESS TO PARTS REQUIRING SERVICE, ADJUSTMENT, OR MAINTENANCE; WITH AIRTIGHT GASKET AND QUARTER -TURN LATCHES. 5. AIRSTREAM SURFACES: SURFACES IN CONTACT WITH THE AIRSTREAM SHALL COMPLY WITH REQUIREMENTS IN ASHRAE 62.1. B. VOLUME DAMPER: A CLOSED CELL FOAM SEAL THAT IS MECHANICALLY LOCKED BETWEEN TWO 22 GAGE GALVANIZED STEEL DISKS. THE DAMPER BLADE ASSEMBLY SHALL BE CONNECTED TO A CAST ZINC SHAFT SUPPORTED BY SELF-LUBRICATING BEARINGS. THE SHAFT SHALL HAVE AN INTEGRAL DAMPER POSITION INDICATOR AND THE VALVE ASSEMBLY SHALL HAVE A MECHANICAL STOP TO PREVENT OVER -STROKING. THE DAMPER SHALL BE ARI 880 RATED AND AT 4-INCH WG THE AIR VALVE SHALL NOT EXCEED 1% OF CATALOGED AIRFLOW. C. AIRFLOW SENSOR: MULTIPLE -POINT AVERAGING FLOW SENSING RING WITH BALANCING TAPS FOR MEASURING +1- 5% OF UNIT CATALOGED AIRFLOW. Sims Wilkerson Cartie Engineering, Inc. 12124 High Tech Avenue - Suite. 200 Orlando, Florida 32817 (407)380-0400 FAX (407)380-5900 FL, CERT. OF AUTH. NO. 6106 oGARYA.JV 1 RSUN, PL 43167 oLYLEI.CA =KP,E 53169 O W.11 f S. OVINE. P.P..77010 • NE A. �LAN, P.E. 65629 0 WNIUL R. ALEYAWER, P.E. 55422 14001 �1 U_ Z Z U co L0 W - • •O L O N 1 J C: u- O Z .O � (� O _� 4-0 C ~ 1 O > O �- U LL U .0 o U U 5 U U w U^ J j CL LL j vJ T. U) O Lr) ' p 04 Tp p W 0CID r d' _23 W D. FACTORY -MOUNTED AND -WIRED CONTROLS: COORDINATE ACQUISITION OF THE CONTROLLER WITH THE CONTROLS CONTRACTOR. ELECTRICAL COMPONENTS SHALL BE MOUNTED IN CONTROL BOX WITH REMOVABLE COVER. CONTROL PANEL ENCLOSURE SHALL BE NEMA 250, TYPE 1, WITH ACCESS PANEL SEALED FROM THE AIRFLOW AND MOUNTED ON THE SIDE OF THE UNIT. INCORPORATE SINGLE -POINT ELECTRICAL CONNECTION TO POWER SOURCE. 1. CONTROL TRANSFORMER: FACTORY -MOUNTED FOR CONTROL VOLTAGE ON ELECTRIC AND ELECTRONIC CONTROL UNITS WITH TERMINAL STRIP IN CONTROL BOX FOR FIELD WIRING OF THERMOSTAT AND POWER SOURCE, 2. WIRING TERMINATIONS: CONTROLS TO TERMINAL STRIP. TERMINAL LUGS TO MATCH QUANTITIES, SIZES, AND MATERIALS OF BRANCH -CIRCUIT CONDUCTORS. ENCLOSE TERMINAL LUGS IN TERMINAL BOX THAT IS SIZED ACCORDING TO NFPA 70. F. SPACE SENSOR: COORDINATE ACQUISITION OF THE WALL -MOUNTED ZONE SENSOR WITH THE CONTROLS CONTRACTOR. 2.22 SINGLE DUCT VARIABLE AIR VOLUME TERMINAL UNITS WITH ELECTRIC HEAT A, CASING: 22 GAGE GALVANIZED STEEL SINGLE WALL. 1, INSULATION: ADHESIVE ATTACHED, 1-INCH-THICK, 1.5 LB/FT3 DENSITY GLASS FIBER WITH FOIL FACING, THE INSULATION R-VALUE SHALL BE MINIMUM 4.1. THE INSULATION SHALL BE UL LISTED AND MEET NFPA 90A AND UL 181 STANDARDS AS WELL AS BACTERIOLOGICAL STANDARD ASTM C 665. THERE SHALL BE NO EXPOSED EDGES OF INSULATION (COMPLETE METAL ENCAPSULATION). THE MAXIMUM FLAME -SPREAD INDEX SHALL BE 25 AND THE MAXIMUM SMOKE -DEVELOPED INDEX SHALL BE 50, FOR BOTH INSULATION AND ADHESIVE, WHEN TESTED ACCORDING TO ASTM E 84, 2. AIR INLETS: 18 GAGE GALVANIZED STEEL CYLINDER SIZED TO FIT STANDARD ROUND DUCT. 3. AIR OUTLET: FLANGED CONNECTION. 4. ACCESS: REMOVABLE PANELS FOR ACCESS TO PARTS REQUIRING SERVICE, ADJUSTMENT, OR MAINTENANCE; WITH AIRTIGHT GASKET AND QUARTER -TURN LATCHES. 5. AIRSTREAM SURFACES: SURFACES IN CONTACT WITH THE AIRSTREAM SHALL COMPLY WITH REQUIREMENTS IN ASHRAE 62.1. B. VOLUME DAMPER: A CLOSED CELL FOAM SEAL THAT IS MECHANICALLY LOCKED BETWEEN TWO 22 GAGE GALVANIZED STEEL DISKS. THE DAMPER BLADE ASSEMBLY SHALL BE CONNECTED TO A CAST ZINC SHAFT SUPPORTED BY SELF-LUBRICATING BEARINGS. THE SHAFT SHALL HAVE AN INTEGRAL DAMPER POSITION INDICATOR AND THE VALVE ASSEMBLY SHALL HAVE A MECHANICAL STOP TO PREVENT OVER -STROKING. THE DAMPER SHALL BE ARI 880 RATED AND AT 4-INCH WG THE AIR VALVE SHALL NOT EXCEED 1 % OF CATALOGED AIRFLOW. C. AIRFLOW SENSOR: MULTIPLE -POINT AVERAGING FLOW SENSING RING WITH BALANCING TAPS FOR MEASURING +/- 5% OF UNIT CATALOGED AIRFLOW. D. ELECTRIC -RESISTANCE HEATING COILS: NICKEL -CHROMIUM HEATING WIRE, FREE OF EXPANSION NOISE AND HUM, MOUNTED IN CERAMIC INSERTS IN A GALVANIZED -STEEL HOUSING; WITH PRIMARY AUTOMATIC, AND SECONDARY MANUAL, RESET THERMAL CUTOUTS. 1. STAGES: AS SCHEDULED ON THE CONTRACT DRAWINGS. 2. AIRFLOW SWITCH FOR PROOF OF AIRFLOW. 3. FUSES IN TERMINAL BOX FOR OVERCURRENT PROTECTION (FOR COILS MORE THAN 30 A. 4, MAGNETIC CONTACTOR FOR EACH STEP OF CONTROL. E. FACTORY -MOUNTED AND -WIRED CONTROLS: COORDINATE ACQUISITION OF THE CONTROLLER WITH THE CONTROLS CONTRACTOR. ELECTRICAL COMPONENTS SHALL BE MOUNTED IN CONTROL BOX WITH REMOVABLE COVER. CONTROL PANEL ENCLOSURE SHALL BE NEMA 250, TYPE 1, WITH ACCESS PANEL SEALED FROM THE AIRFLOW AND MOUNTED ON THE SIDE OF THE UNIT. INCORPORATE SINGLE -POINT ELECTRICAL CONNECTION TO POWER SOURCE. 1, CONTROL TRANSFORMER: FACTORY -MOUNTED FOR CONTROL VOLTAGE ON ELECTRIC AND ELECTRONIC CONTROL UNITS WITH TERMINAL STRIP IN CONTROL BOX FOR FIELD WIRING OF THERMOSTAT AND POWER SOURCE. 2. WIRING TERMINATIONS: CONTROLS TO TERMINAL STRIP. TERMINAL LUGS TO MATCH QUANTITIES, SIZES, AND MATERIALS OF BRANCH -CIRCUIT CONDUCTORS. ENCLOSE TERMINAL LUGS IN TERMINAL BOX THAT IS SIZED ACCORDING TO NFPA 70. F. SPACE SENSOR: COORDINATE ACQUISITION OF THE WALL -MOUNTED ZONE SENSOR WITH THE CONTROLS CONTRACTOR, 0*491961TA A :111F1 A IL111 I.\ 01.11 A. CEILING EXHAUST FANS: CEILING -MOUNTED EXHAUST FAN SHALL BE OF THE CENTRIFUGAL DIRECT DRIVE TYPE WITH A GALVANIZED STEEL HOUSING. HOUSING SHALL HAVE DUCT COLLAR WITH BACKDRAFT DAMPER. THE GRILLE SHALL BE CONSTRUCTED OF NON -YELLOWING HIGH IMPACT POLYSTYRENE AND ATTACHED TO THE HOUSING WITH SCREWS. THE ACCESS FOR WIRING SHALL BE EXTERNAL AND THE MOTOR DISCONNECT SHALL BE INTERNAL AND OF THE PLUG-IN TYPE, THE MOTOR SHALL BE MOUNTED ON VIBRATION ISOLATORS AND SHALL BE DYNAMICALLY BALANCED. FAN SHALL BEAR THE AMCA CERTIFIED RATINGS SEAL FOR SOUND AND AIR PERFORMANCE AND SHALL BE UL LISTED AND CSA APPROVED. B. IN -LINE EXHAUST FANS: 1. HOUSING: SPLIT, SPUN ALUMINUM WITH ALUMINUM STRAIGHTENING VANES, INLETAND OUTLET FLANGES, AND SUPPORT BRACKET ADAPTABLE TO FLOOR, SIDEWALL, OR CEILING MOUNTING. 2. DIRECT -DRIVE UNITS: MOTOR MOUNTED IN AIRSTREAM, FACTORY WIRED TO DISCONNECT SWITCH LOCATED ON OUTSIDE OF FAN HOUSING. 3. BELT -DRIVEN UNITS: MOTOR MOUNTED ON ADJUSTABLE BASE, WITH ADJUSTABLE SHEAVES, ENCLOSURE AROUND BELTS WITHIN FAN HOUSING, AND LUBRICATING TUBES FROM FAN BEARINGS EXTENDED TO OUTSIDE OF FAN HOUSING. 4. FAN WHEELS: ALUMINUM, AIRFOIL BLADES WELDED TO ALUMINUM HUB. 5. ACCESSORIES: a. AS SCHEDULED ON THE CONTRACT DRAWINGS. b. COMPANION FLANGES: FOR INLET AND OUTLET DUCT CONNECTIONS. c. FAN GUARDS: 1/2- BY 1-INCH MESH OF GALVANIZED STEEL IN REMOVABLE FRAME. PROVIDE GUARD FOR INLET OR OUTLET FOR UNITS NOT CONNECTED TO DUCTWORK, d. MOTOR AND DRIVE COVER (BELT GUARD): EPDXY -COATED STEEL. 6. PERFORMANCE: a. AS SCHEDULED ON THE CONTRACT DRAWINGS. 2.24 ELECTRIC DUCT HEATERS A. GENERAL: ELECTRIC DUCT HEATERS SHALL BE CONSTRUCTED FOR FLANGED MOUNTING. HEATER ELEMENT SHALL BE AN OPEN -COIL RESISTANCE WIRE OF 80 PERCENT NICKEL AND 20 PERCENT CHROMIUM, SUPPORTED AND INSULATED BY FLOATING CERAMIC BUSHINGS RECESSED INTO CASING OPENINGS, AND FASTENED TO SUPPORTING BRACKETS. COIL ASSEMBLY SHALL COMPLY WITH THE REQUIREMENTS OF UL AND THE NEC. B. HIGH -TEMPERATURE COIL PROTECTION: HEATERS SHALL BE PROVIDED WITH BOTH PRIMARY AND SECONDARY OVER -TEMPERATURE PROTECTION. 1. PRIMARY PROTECTION: DISK -TYPE, AUTOMATICALLY RESET, THERMAL -CUTOUT, SAFETY DEVICE; SERVICEABLE THROUGH TERMINAL BOX WITHOUT REMOVING HEATER FROM DUCT OR CASING. 2. SECONDARY PROTECTION: LOAD -CARRYING, MANUALLY RESET OR MANUALLY REPLACEABLE, THERMAL CUTOUTS; FACTORY WIRED IN SERIES WITH EACH HEATER STAGE. C. CONTROL PANEL: UNIT -MOUNTED PANEL INCLUDING THE FOLLOWING CONTROLS: 1. DISCONNECT: BUILT-IN, SNAP -ACTING, DOOR INTERLOCKING DISCONNECT SWITCH WITH MARKED "ON" AND "OFF" POSITIONS. 2. OVERCURRENT PROTECTION: EITHER FUSES OR BREAKERS BUILT-IN TO THE CONTROL PANEL. 3. AIRFLOW INTERLOCK: BUILT-IN DIFFERENTIAL PRESSURE SWITCH TO PREVENT HEATER OPERATION DURING LOW OR NO AIRFLOW. 4. MAGNETIC CONTACTOR, 5. CONTROL CIRCUIT TRANSFORMER. 6. TIME -DELAY RELAY. 7. STEP CONTROLLER WITH TOGGLE SWITCHES (ONE PER STEP) AND PILOT LIGHTS (ONE PER STEP). D. TEMPERATURE SENSOR: DUCT -MOUNTED. E. CAPACITIES AND CHARACTERISTICS: REFER TO SCHEDULES ON CONTRACT DRAWINGS. F. INSTALLATION: 1. EXAMINE DUCTS, PLENUMS, AND CASINGS TO RECEIVE AIR COILS FOR COMPLIANCE WITH REQUIREMENTS FOR INSTALLATION TOLERANCES AND OTHER CONDITIONS AFFECTING COIL PERFORMANCE. 2. INSTALL COILS IN METAL DUCTS AND CASINGS CONSTRUCTED ACCORDING TO SMACNA'S "HVAC DUCT CONSTRUCTION STANDARDS, METAL AND FLEXIBLE." 3. CLEAN COILS USING MATERIALS AND METHODS RECOMMENDED IN WRITING BY MANUFACTURERS, AND CLEAN INSIDE OF CASINGS AND ENCLOSURES TO REMOVE DUST AND DEBRIS. 4. CONNECT WIRING AND GROUND EQUIPMENT ACCORDING TO ELECTRICAL SPECIFICATIONS. 5. DIVISION 26 SECTION "GROUNDING AND BONDING FOR ELECTRICAL SYSTEMS." G. FIELD QUALITY CONTROL: 1. PERFORM THE FOLLOWING FIELD TESTS AND INSPECTIONS AND PREPARE TEST REPORTS: a. OPERATIONAL TEST: AFTER ELECTRICAL CIRCUITRY HAS BEEN ENERGIZED, OPERATE ELECTRIC COILS TO CONFIRM PROPER UNIT OPERATION. b. TEST AND ADJUST CONTROLS AND SAFETIES. REPLACE DAMAGED AND MALFUNCTIONING CONTROLS AND EQUIPMENT. 2.25 ROOF CURB ADAPTERS AND CAPS A.GENERAL: 1. MANUFACTURERS: THYBAR, MICROMETL, OR CURBCO 2. PRE -FABRICATED ROOFTOP ADAPTERS AND CAPS TO BE MANUFACTURED OF PRIME GALVANIZED STEEL, 18 OR 14 GAUGE OR AS REQUIRED, MEETING ASTM A6531653M WITH WELDED CORNERS AND WITH SEAMS JOINED BY CONTINUOUS WATER AND AIR TIGHT WELDS. ADAPTERS SHALL BE INSULATED AND INTERNALLY REINFORCED AND INCLUDE NECESSARY BLOCK OFF PANELS AND TRANSITIONS TO ALLOW USE OF INTAKE CAPS WHERE SHOWN ON THE CONTRACT DRAWINGS. 3. HEAVY GAUGE PRIME G-90 GALVANIZED STEEL 14 TO 18 GAUGE MEETING ASTM A653/653M 4. FULLY WELDED AND MITERED CORNERS 5. 1-1/2" THICK 3-POUND DENSITY RIGID INSULATION 6. 2" COUNTER FLASHING 7. ALL HORIZONTAL SURFACES SHALL BE SLOPED TO DRAIN 8. ALL EXPOSED METAL SHALL BE PRIMED AND PAINTED WHITE 2.26 VARIABLE FREQUENCY DRIVES (DESIGN BASIS: ABB ACH550) A. GENERAL 1. MANUFACTURERS: SUBJECT TO COMPLIANCE WITH REQUIREMENTS, PROVIDE PRODUCTS BY ONE OF THE FOLLOWING: a. TRANE b. YASKAWAAMERICA c. ABB 2. THIS SPECIFICATION IS TO COVER A COMPLETE VARIABLE FREQUENCY DRIVE CONSISTING OF A PULSE WIDTH MODULATED (PWM) INVERTER DESIGNED FOR USE WITH A STANDARD NEMA DESIGN B INDUCTION MOTOR. 3. THE DRIVE MANUFACTURER SHALL SUPPLY THE DRIVE AND ALL NECESSARY OPTIONS AS HEREIN SPECIFIED. VFD'S THAT ARE MANUFACTURED BY A THIRD PARTY AND "BRAND LABELED" SHALL NOT BE ACCEPTABLE. ALL VFD'S INSTALLED ON THIS PROJECT SHALL BE FROM THE SAME MANUFACTURER. 4. VFDS AND OPTIONS SHALL BE UL508 LISTED AS A COMPLETE ASSEMBLY. THE BASE VFD SHALL BE UL LISTED FOR 100 KA SCCR WITHOUT THE NEED FOR EXTERNAL INPUT FUSES. 5. CE MARK - THE BASE VFD SHALL MEET PRODUCT STANDARD EN 61800-3 FOR THE FIRST ENVIRONMENT RESTRICTED LEVEL (CATEGORY C2). 6. THE VFD PACKAGE AS SPECIFIED HEREIN SHALL BE ENCLOSED IN A UL TYPE ENCLOSURE (ENCLOSURES WITH ONLY NEMA RATINGS ARE NOT ACCEPTABLE). ENVIRONMENTAL OPERATING CONDITIONS: 5 TO 104 DEG F CONTINUOUS. ALTITUDE 0 TO 3300 FEET ABOVE SEA LEVEL, LESS THAN 95%, NON -CONDENSING ALL CIRCUIT BOARDS SHALL BE COATED TO PROTECT AGAINST CORROSION, B. STANDARD FEATURES 1. ALL VFD'S SHALL HAVE THE SAME CUSTOMER INTERFACE, INCLUDING DIGITAL DISPLAY, AND KEYPAD, REGARDLESS OF HORSEPOWER RATING. THE KEYPAD SHALL BE REMOVABLE, CAPABLE OF REMOTE MOUNTING AND ALLOW FOR UPLOADING AND DOWNLOADING OF PARAMETER SETTINGS AS AN AID FOR START-UP OF MULTIPLE VFD'S. 2. THE KEYPAD SHALL INCLUDE HAND -OFF -AUTO SELECTIONS AND MANUAL SPEED CONTROL.' THERE SHALL BE FAULT RESET AND "HELP" BUTTONS ON THE KEYPAD. THE HELP BUTTON SHALL INCLUDE "ON-LINE" ASSISTANCE FOR PROGRAMMING AND TROUBLESHOOTING. 3. VFD'S THROUGH 200 HP SHALL HAVE INTERNAL CHOKES (REACTORS) PROVIDING 5% IMPEDANCE TO REDUCE THE HARMONICS TO THE POWER LINE AND TO ADD PROTECTION FROM AC LINE TRANSIENTS. 4. THE INPUT CURRENT RATING OF THE VFD SHALL NOT BE GREATER THAN THE OUTPUT CURRENT RATING. VFD'S WITH HIGHER INPUT CURRENT RATINGS REQUIRE THE UPSTREAM WIRING, PROTECTION DEVICES, AND SOURCE TRANSFORMERS TO BE OVERSIZED PER NEC 430.122 5. THE VFD SHALL PROVIDE A PROGRAMMABLE LOSS -OF -LOAD (BROKEN BELT/BROKEN COUPLING) FORM-C RELAY OUTPUT. THE DRIVE SHALL BE PROGRAMMABLE TO SIGNAL THE LOSS -OF -LOAD CONDITION VIA A KEYPAD WARNING, FORM-C RELAY OUTPUT, AND/OR OVER THE SERIAL COMMUNICATIONS BUS. 6. ALL VFDS TO HAVE THE FOLLOWING ADJUSTMENTS: a. RUN PERMISSIVE CIRCUIT - THERE SHALL BE A RUN PERMISSIVE CIRCUIT FOR DAMPER OR VALVE CONTROL. REGARDLESS OF THE SOURCE OF A RUN COMMAND (KEYPAD, INPUT CONTACT CLOSURE, TIME -CLOCK CONTROL, OR SERIAL COMMUNICATIONS), THE VFD SHALL PROVIDE A DRY CONTACT CLOSURE THAT WILL SIGNAL THE DAMPER TO OPEN (VFD MOTOR DOES NOT OPERATE). WHEN THE DAMPER IS FULLY OPEN, A NORMALLY OPEN DRY CONTACT (END -SWITCH) SHALL CLOSE. THE CLOSED END -SWITCH IS WIRED TO A VFD DIGITAL INPUT AND ALLOWS VFD MOTOR OPERATION. TWO SEPARATE SAFETY INTERLOCK INPUTS SHALL BE PROVIDED. WHEN EITHER SAFETY IS OPENED, THE MOTOR SHALL BE COMMANDED TO COAST TO STOP AND THE DAMPER SHALL BE COMMANDED TO CLOSE. b. THE VFD CONTROL SHALL INCLUDE A PROGRAMMABLE TIME DELAY FOR VFD START AND A KEYPAD INDICATION THAT THIS TIME DELAY IS ACTIVE. A FORM C RELAY OUTPUT PROVIDES A CONTACT CLOSURE TO SIGNAL THE VAV BOXES OPEN. THIS WILL ALLOWVAV BOXES TO BE DRIVEN OPEN BEFORE THE MOTOR OPERATES c. THE VFD SHALL INCLUDE A FIREMAN'S OVERRIDE INPUT. THE MODE SHALL OVERRIDE ALL OTHER INPUTS (ANALOG/DIGITAL, SERIAL COMMUNICATION, AND ALL KEYPAD COMMANDS), EXCEPT CUSTOMER DEFINED SAFETY RUN INTERLOCKS, AND FORCE THE MOTOR TO RUN AT A PRESET SPEED OR IN A SEPARATE PID MODE, 7. SERIAL COMMUNICATIONS: THE VFD SHALL HAVE AN EIA-485 PORT AS STANDARD, THE STANDARD PROTOCOLS SHALL BE MODBUS, JOHNSON CONTROLS N2, SIEMENS BUILDING TECHNOLOGIES FLN, AND BACNET. THE USE OF THIRD PARTY GATEWAYS AND MULTIPLEXERS IS NOT ACCEPTABLE. ALL PROTOCOLS SHALL BE "CERTIFIED" BY THE GOVERNING AUTHORITY (I.E. BTL LISTING FOR BACNET). 8. EMI I RFI FILTERS: ALL VFD'S SHALL INCLUDE EMI/RFI FILTERS. THE ONBOARD FILTERS SHALL ALLOW THE VFD ASSEMBLY TO BE CE MARKED AND THE VFD SHALL MEET PRODUCT STANDARD EN 61800-3 FOR THE FIRST ENVIRONMENT RESTRICTED LEVEL (CATEGORY C2). 9. DRIVE OPTIONS - OPTIONS SHALL BE FURNISHED AND MOUNTED BY THE DRIVE MANUFACTURER. ALL OPTIONAL FEATURES SHALL BE UL LISTED BY THE DRIVE MANUFACTURER AS A COMPLETE ASSEMBLY AND CARRY A UL508 LABEL. 10. BYPASS -VFD'S FOR AIR HANDLING UNITS WILL NOT HAVE A BYPASS OPTION. C. INSTALLATION 1. INSTALLATION SHALL BE THE RESPONSIBILITY OF THE MECHANICAL CONTRACTOR. 2. POWER WIRING SHALL BE COMPLETED BY THE ELECTRICAL CONTRACTOR, TO NEC CODE 430.122 WIRING REQUIREMENTS BASED ON THE VFD INPUT CURRENT. 3. THE CONTRACTOR SHALL COMPLETE ALL WIRING IN ACCORDANCE WITH THE RECOMMENDATIONS OF THE VFD MANUFACTURER AS OUTLINED IN THE INSTALLATION MANUAL. D. START-UP 1. FACTORY START-UP SHALL BE PROVIDED FOR EACH DRIVE BY A FACTORY AUTHORIZED SERVICE CENTER. E. PRODUCT SUPPORT 1. FACTORY TRAINED APPLICATION ENGINEERING AND SERVICE PERSONNEL THAT ARE THOROUGHLY FAMILIAR WITH THE VFD PRODUCTS OFFERED SHALL BE LOCALLY AVAILABLE AT BOTH THE SPECIFYING AND INSTALLATION LOCATIONS. A TOLL FREE 24/365 TECHNICAL SUPPORT LINE CONNECTED TO FACTORY SUPPORT PERSONNEL LOCATED IN THE US SHALL BE AVAILABLE. TECHNICAL SUPPORT OFFERED ONLY THROUGH THE LOCAL SALES OFFICE IS NOT ACCEPTABLE. F. WARRANTY 1. THE VFD PRODUCT WARRANTY SHALL BE 36 MONTHS FROM THE DATE OF FACTORY SHIPMENT. THE WARRANTY SHALL INCLUDE ALL PARTS, LABOR, TRAVEL TIME AND EXPENSES. A TOLL FREE 24/365 TECHNICAL SUPPORT LINE SHALL BE AVAILABLE. 2.27 ACOUSTICAL CEILING A. GENERAL 1. FOR RETROFIT PROJECTS PROVIDE NEW TILES THAT MATCH THE EXISTING CEILING TILE DIMENSIONS, SIZE, FINISH, AND COLOR. THE CONTRACTOR IS REQUIRED TO COORDINATE THE INSTALLATION WITH EXISTING SYSTEMS (I.E. SPRINKLERS, FIRE ALARM DEVICES, SPEAKERS, ETC.). B. PRODUCTS 1. THE EXISTING SUSPENSION SYSTEM SCHEDULED TO REMAIN. ANY NEW GRID SYSTEM SHALL MEET AND FORM POSITIVE STRUCTURAL CONNECTION WITH EXISTING SYSTEM, USING CLIPS AND OTHER DEVICES AS NECESSARY, WHICH SHALL BE CONCEALED FROM VIEW. FINAL APPEARANCE SHALL APPEAR TO BE ONE CONTINUOUS GRID SYSTEM. C. ACOUSTICAL PANEL (AP) MATERIALS 1. AP 1: 3/4INCHES THICK, SIZE AS SHOWN ON DRAWINGS, SQUARE EDGE, WHITE, MINERAL FIBER, CLASS A, CAC RANGE 35-39, NRC RANGE 0,65-0,75. D. GRID SUSPENSION SYSTEM (GS) 1. SYSTEM DESCRIPTION; SYSTEMS SHALL BE OF STEEL CONSTRUCTION AS PER CBC STANDARD 25-2 AND SHALL CONSIST OF MAIN AND CROSS RUNNERS, PERIMETER TRIM, CONNECTORS, HANGERS AND ALL ACCESSORIES NECESSARY FOR THE COMPLETE INSTALLATION. a. ALL SYSTEMS SHALL PERMIT THE INSTALLATION OF RECESSED LIGHTING FIXTURES UPON THE FLANGES OF THE SYSTEMS AND ANY FORM OF SPLICE OR OTHER OBSTRUCTION WHICH WOULD INHIBIT OR RENDER SUCH INSTALLATION OF FIXTURES DIFFICULT WILL NOT BE PERMITTED. 2. FINISH: FACTORY FINISHED WHITE BAKED ENAMEL OVER BONDERIZED, ELECTRO-ZINC-COATED STEEL. 3. CONNECTORS AND CLIPS: MANUFACTURER'S STANDARD. 4. HANGER AND BRACING WIRES: FED. SPEC. QQ-W-461, CLASS 1, GALVANIZED AND ANNEALED, 12 GAGE MINIMUM. 5. FASTENERS: FASTENERS USED FOR ATTACHMENT OF ACOUSTICAL CEILINGS TO BUILDING SUPERSTRUCTURE SHALL HAVE AN APPROVED ICBO REPORT. 6. EDGE SEALER: LATEX ADHESIVE DESIGNED FOR THE PURPOSE OF SEALING FIELD -CUT EDGES OF ACOUSTIC PANELS. E. INSTALLATION 1. COORDINATE INSTALLATION WITH OTHER TRADES WHOSE WORK ADJOINS OR COMBINES WITH ACOUSTICAL CEILINGS. UNLESS OTHERWISE SHOWN, EQUIPMENT, FIXTURES, ETC., APPLIED ON OR WITHIN ACOUSTICAL PANELS ARE TO BE LOCATED SYMMETRICALLY WITH RESPECT TO BOTH AXES. PROVIDE GRID MEMBERS REQUIRED TO ACCOMMODATE LAY -IN AIR DIFFUSERS AND SIMILAR ITEMS OF MECHANICAL EQUIPMENT. 2. MAKE INSTALLATION OF GRID SYSTEMS AND ACOUSTICAL MATERIALS IN STRICT ACCORDANCE WITH APPROVED MANUFACTURER'S SPECIFICATIONS OR RECOMMENDATIONS AND DRAWING DETAILS. WHERE DETAILS AND/OR THESE SPECIFICATIONS ARE IN APPARENT CONFLICT WITH MANUFACTURER'S RECOMMENDATIONS, THE MORE STRINGENT REQUIREMENT SHALL APPLY. 3. GRID SUSPENSION SYSTEMS: a. STRUCTURAL REQUIREMENTS: ATTACHMENT TO BUILDING SUPERSTRUCTURE: INSTALL FASTENERS USED TO ATTACH GRID SUSPENSION SYSTEM TO BUILDING SUPERSTRUCTURE IN ACCORDANCE WITH THE REQUIREMENTS OF THEIR APPROVED ICBO REPORT. 1) INSTALL SUSPENSION SYSTEMS IN FLAT, LEVEL PLANE UNLESS OTHERWISE SHOWN, JOINTS IN EXPOSED MEMBERS TIGHT AND ALIGNED WITHOUT OFFSETS. DIRECTION OF MAIN RUNNERS, WHERE NOT SPECIFICALLY INDICATED, SHALL BE DETERMINED BY FIXTURE LAYOUT. 2) UNLESS CLOSER SPACINGS ARE REQUIRED BY MANUFACTURER OF SYSTEM, SPACE HANGER WIRES ALONG MAIN RUNNERS AT 4 FEET (1.2 M) MAXIMUM. PROVIDE SPECIAL HANGERS AS REQUIRED WHERE ITEMS ABOVE CEILING OBSTRUCT NORMAL HANGER WIRES. 3) PROVIDE HOLD-DOWN CLIPS FOR LAY -IN PANELS WHERE REQUIRED TO PREVENT LIFTING AND FLUTTER CAUSED BY AIR PRESSURES, 4) INSTALL PERIMETER TRIM AT WALL AND ABUTTING VERTICAL SURFACES. FLANGE OF TRIM SHALL BE AT THE SAME LEVEL AS FLANGES OF MAIN AND CROSS RUNNERS. 5) LEVEL SUSPENSION SYSTEMS TO A TOLERANCE OF 1/8 INCHES IN 12 FEET. 4. UNLESS OTHERWISE SHOWN ON REFLECTED CEILING PLANS, ALIGN GRID MEMBERS AND TILE JOINTS PARALLEL TO PERIMETER WALLS WITH PATTERN CENTERED IN ROOM AREAS BOTH DIRECTIONS. 5. SEAL FIELD -CUT PANEL EDGES OF TYPE AP 2 PANELS WITH EDGE SEALER. 2.28 GYPSUM BOARD A. PERFORMANCE/DESIGN CRITERIA 1. ENDS SQUARE CUT AND TAPERED 2. GYPSUM BOARD AT NON -RATED ASSEMBLIES: 1/2 INCH THICK 3. GYPSUM BOARD AT FIRE -RESISTIVE RATED ASSEMBLIES: 5/8 INCH THICK, UL LABELED, AND CONFORMING TO ICC ES REPORT FOR TYPE X OR TYPE C. B. MATERIALS 1. PAPER FACED GYPSUM BOARD: CONFORM TO ASTM C1396, C. ACCESSORIES 1. JOINT MATERIALS: AS RECOMMENDED BY GYPSUM BOARD MANUFACTURER FOR INTENDED PURPOSE. a, TAPE: MANUFACTURER 'S STANDARD PAPER TAPE. FIBERGLASS TAPE NOT ACCEPTED b. COMPOUND: MANUFACTURER 'S STANDARD. c. CONFORM TO GA-201 AND GA-216 FOR REINFORCING TAPE, JOINT COMPOUND, ADHESIVE, AND WATER. d. DO NOT USE TOPPING COMPOUNDS FOR EMBEDDING TAPE OR AS FIRST COAT OVER TRIMS AND FASTENERS. 2. PRIMER/SURFACER FOR LEVEL 5 FINISH: USG TUFF -HIDE PRIMER -SURFACER. 3. JOINT SEALANT AT EXPOSED JOINTS: PAINTABLE, NON -SETTING, AND NON -STAINING. D. TRIM 1. PROVIDE TRIM SHAPES AS REQUIRED TO COVER AND MAKE NEAT EDGES. 2. PAPER FACED METAL BEAD AND TRIM: ASTM C1047, ELECTRO-GALVANIZED STEEL WITH PAPER FACE AND FLANGES, USG BEADEX SPECIFIED FOR TYPE AND QUALITY. a. OUTSIDE CORNER BEADS b. INSIDE CORNERS. c. L-TYPE EDGE TRIMS. d. J-SHAPED EDGE TRIM e. 3/4 INCH RADIUS CORNER BEADS. 3. METAL TRIM SHAPES: ASTM C1047 a. GALVANIZED STEEL EXPANDED FLANGE CORNER BEAD, L-TRIM, AND J-TRIM b. GALVANIZED ONE-PIECE L-TRIM, AND J-STOP. c. ZINC CONTROL JOINT NO, 093. D. FASTENERS 1, SCREWS CONFORMING TO ASTM C1002. BUGLE OR PAN HEAD, AND LENGTHS AS REQUIRED FOR SECURING MATERIALS IN PLACE. a. WOOD FRAMING AND BACKING: TYPE W. b. LIGHT GAUGE METAL FRAMING: TYPE S. c. 18 GAUGE OR HEAVIER METAL FRAMING: TYPE S-12. E. PREPARATIONIINSTALLATION 1. PROTECT SURROUNDING AREAS AND SURFACES TO PRECLUDE DAMAGE. 2. AVOID SOILING, SPATTER, AND DAMAGE TO WORK OF OTHER TRADES. USE COVER CLOTHS, OR OTHER MEANS OF PROTECTION. REMOVE, CLEAN, AND REPAIR SOILED OR DAMAGED WORK. 3. CONFORM TO ASTM C840, GA-216, AND MANUFACTURER'S INSTRUCTIONS. CORNER TRIM: REINFORCE EXTERNAL CORNERS WITH SPECIFIED CORNER BEADS. 4. EDGE TRIM: INSTALL SQUARE EDGED METAL TRIM BEAD AT EXPOSED EDGES AND BOUNDARIES OF AREAS AND WHERE ABUTTING DISSIMILAR MATERIALS. 5. REVEAL TRIM: a. INSTALL WITH SCREWS AT 12 INCH ON CENTER IN 10 FOOT LENGTHS, EXCEPT WHERE SHORTER LENGTHS ARE SUFFICIENT FOR DIMENSION OF WALL PLANE. b. MAKE BUTT JOINTS TIGHT AND IN ALIGNMENT. c. MITER CORNERS. e. PROMPTLY REMOVE EXCESS JOINT COMPOUND. 6. CONTROL JOINTS: CONFORM TO WCB TECH BULLETIN CONTROL JOINTS AND GA-234, EXCEPTAS OTHERWISE INDICATED. VERIFY THAT REQUIRED DOUBLE FRAMING IS IN PLACE BEFORE INSTALLING CONTROL JOINTS. a. DOOR AND OTHER OPENINGS: INSTALL CONTROL JOINTS AT EACH SIDE OF WALL OPENING AND AT BOTH SIDES OF WALL, EXCEPT ALCOVES AND SIMILAR WALL CONFIGURATIONS. b. CONTINUOUS WALL PLANES: INSTALL CONTROL JOINTS FLOOR TO CEILING AT EACH 30 LINEAL FOOT OF WALL. c. CEILINGS: INSTALL ACROSS CEILING AT EACH 50 LINEAL FOOT DISTANCE AND EACH 2,500 SQUARE FOOT OF CEILING AREA. d. JOINTS WITH OTHER MATERIALS: INSTALL WHERE GYPSUM BOARD MEETS MASONRY, CONCRETE, AND OTHER MATERIALS, EXCEPT WHERE JOINTS ARE CONCEALED UNDER HORIZONTAL CHAIR RAILS OR OTHER TRIM. 7. PANEL JOINTS a. LAYOUT: DESIGN TO REDUCE JOINTS TO MINIMUM. b. INSTALL BOARD IN MAXIMUM LENGTHS TO MINIMIZE HORIZONTAL AND VERTICAL JOINTS. c. START INSTALLATION OF PANELS AT EXTERIOR WALL TO POSITION BUTT JOINTS AS FAR AWAY FROM EXTERIOR WALL AS POSSIBLE. d. PLACE EDGES IN CONTACTAND FIT NEATLY, WITHOUT FORCING INTO PLACE. e. STAGGER JOINTS ON OPPOSITE SIDES OF PARTITIONS AND ON SAME SIDE OF WALL SURFACE ATADJACENT JOINTS. f. MAINTAIN 1121NCH CLEARANCE FROM BOTTOM OF WALL PANEL AND TOP OF FLOOR. SEAL WITH ACOUSTICAL SEALANT. g. IN ORDER TO PREVENT WICKING OF MOISTURE, DO NOT LET GYPSUM BOARD REST ON FLOOR AFTER INSTALLATION. 8. JOINT SEALANT AND ACOUSTICAL SEALANT: INSTALL TO COMPLETELY FILL VOID BETWEEN WALLBOARD EDGES AND ADJACENT SURFACE. 9. TRIM AND JOINT FINISHING a. JOINTS AND INTERIOR ANGLES: EMBED TAPE IN JOINT COMPOUND AND APPLY THREE SEPARATE COATS OF JOINT COMPOUND OVER JOINTS, ANGLES, FASTENER HEADS, AND ACCESSORIES. TOOL JOINT COMPOUND SMOOTH AND FREE OF TOOL MARKS AND RIDES. 1) CENTER REINFORCING TAPE OVER JOINT AND COAT INTO COMPOUND LEAVING APPROXIMATELY 1/641NCH TO 1/32 INCH UNDER TAPE TO PROVIDE PROPER BOND. 2) FOLLOW WITH SKIM COAT TO EMBED TAPE, BUT NOT TO FUNCTION AS SECOND COAT, 3) ALLOW EMBEDDING COAT TO THOROUGHLY DRY PRIOR TO APPLICATION OF SECOND COAT. 4) ALLOW SECOND COAT TO THOROUGHLY DRY. 5) APPLY THIRD COAT EVENLY OVER AND EXTENDING BEYOND SECOND COAT ON JOINTS, FEATHERING TO SMOOTH UNIFORM FINISH. b. BEADS, TRIM, FASTENER AND JOINT DEPRESSIONS: 1) COVER WITH THREE COATS OF TAPING AND JOINT COMPOUND, APPLY IN DIFFERENT DIRECTIONS MAKING SMOOTH TRANSITIONS WITH ADJACENT SURFACES. 2) ALLOW SUFFICIENT DRYING TIME BETWEEN COATS, 3) LEAVE DEPRESSIONS FLUSH WITH SURFACE PLANE. 10. TOLERANCES 1) SHIM PANELS AS NECESSARY TO CONFORM TO TOLERANCES. 2) BETWEEN BOARD FACES: 1/161NCH OFFSET. 11. CLEANING 1) CLEAN BEADS, SCREEDS, METAL BASE, METAL TRIM, MECHANICAL AND ELECTRICAL ITEMS, AND OTHER WORK. 2) WIPE CLEAN, LEAVING WORK READY FOR FINISH. 3) AS WORK IS COMPLETED IN EACH SPACE, CLEAN ALL RUBBISH, UTENSILS, AND SURPLUS MATERIALS FROM THE SPACE. LEAVE FLOORS BROOM -CLEAN. F. FINISH 1. PRIME, PAINT, AND TEXTURE TO MATCH SURROUNDING AREAS. 2.29 CEILING ACCESS PANELS A. GENERAL: THE GYPSUM DRYWALL CONTRACTOR SHALL INSTALL AND TAPE THE WORK UNDER THIS SECTION AND WILL BE RESPONSIBLE FOR COORDINATING THE INSTALLATION WITH GYPSUM DRYWALL WORK AND OTHER TRADES. B. PRODUCT: LAY -IN PREFABRICATED ACCESS PANEL, CONSTRUCTED OF HIGH -DENSITY GYPSUM AND REINFORCED WITH CONTINUOUS RANDOM FILAMENT GLASS FIBER MAT AND STRUCTURAL REINFORCING AS REQUIRED. DESIGN BASIS: WIND -LOCK - STEALTH ACCESS PANEL C. PREPARATION/INSTALLATION 1. DO NOT BEGIN INSTALLATION UNTIL SUBSTRATES HAVE BEEN PROPERLY CONSTRUCTED; VERIFY THAT SUBSTRATES ARE PLUMB AND TRUE. 2. CHECK FIELD DIMENSIONS BEFORE BEGINNING INSTALLATION. 3, CLEAN SURFACE THOROUGHLY PRIOR TO INSTALLATION, 4. PREPARE SURFACES USING METHODS RECOMMENDED BY THE MANUFACTURER FOR ACHIEVING THE BEST RESULT FOR THE SUBSTRATE UNDER PROJECT CONDITIONS. 5. INSTALL SUPPLEMENTARY AND PERMANENT SUPPORTS AS REQUIRED FOR PROPER INSTALLATION. 6. INSTALL IN ACCORDANCE WITH APPLICABLE CODE AND MANUFACTURER 'S RECOMMENDATIONS, PLUMB AND TRUE TO LINE, SHIM WHERE NECESSARY. 7. COORDINATEWORK RK WITH RELATED GYPSUM WALLBOARD WORK AND FRAMING. 0 8, INSTALL FRAME WITH #6 BUGLEHEAD SCREWS IN COUNTERSUNK HOLES IN FRAME. 9. FINISH JOINTS AND SURFACES AS REQUIRED FOR LEVEL 5 IN ASTM C 840. 10. PRIME, PAINT, AND TEXTURE ACCESS DOOR TO MATCH SURROUNDING CEILING. Sims Wilkerson Cartier Engineering, Inc. 12124 High Tech Avenue - Suite. 200 Orlando, Florida 32817 (407)380-0400 FAX (407)380-5900 FL. CERT. OF AUTH. NO. 6106 o OART.A. AQ. SON, P.E. 43167 o KTLE L C.A =, P.A 53469 0AI S. UV T, P.E. 77010 • JEFF A. MAN, P.E.65629 03A. LA AL& PANDER. P.E. 554P 14001 U J U_ Z Z U1 CIO Lo l1' .O r N U) J C LL Z � 'N _M O ~ � fy O > O UU o C) (1)U a) �5 - U wv_v_j W ^ LNL � ''�^^ ''4..; '4j O LL LO CC) C-) W o v � � o '^C� G VJ o 2.30 CONTROL SYSTEM A. GENERAL: THE CONTRACTOR IS RESPONSIBLE FOR INSTALLING A COMPLETE AND OPERATIONAL WEB -BASED HVAC CONTROL SYSTEM. THE CONTROL SYSTEM SHALL ALLOW THE USER TO VIEW AND CONTROL THE CONNECTED COMPONENTS USING A WEB BROWSER. THE CONTROL SYSTEM SHALL RESIDE ON THE COUNTY'S SERVER AND SHALL INTERFACE WITH THE COUNTY -WIDE SIEMENS CONTROLS NETWORK FOR MONITORING AND CONTROL. COORDINATION WITH THE COUNTYS IT DEPARTMENT WILL BE REQUIRED OF ANY SUCCESSFUL CONTROLS VENDOR. ALL NEW GRAPHICS AND INTERFACES SHALL BE SIMILAR TO THE EXISTING. B. MANUFACTURERS: TRANE OR SIEMENS 1. INTERFACE WITH THE COUNTY -WIDE SIEMENS CONTROLS NETWORK FOR MONITORING AND CONTROL WILL BE REQUIRED OF ANY SUCCESSFUL CONTROLS VENDOR. C. DESCRIPTION: OPERATOR INTERFACE VIA WEB BROWSER: THE CONTROL SYSTEM SHALL CONSIST OF A HIGH-SPEED, PEER -TO -PEER NETWORK OF DDC CONTROLLERS AND A STAND ALONE WEB SERVER OPERATOR INTERFACE. DEPICT EACH MECHANICAL SYSTEM AND BUILDING FLOOR PLAN BY A POINT -AND -CLICK GRAPHIC. A WEB SERVER SHALL GATHER DATA FROM THIS SYSTEM AND GENERATE WEB PAGES ACCESSIBLE THROUGH A CONVENTIONAL WEB BROWSER ON EACH PC CONNECTED TO THE NETWORK. OPERATORS SHALL BE ABLE TO PERFORM ALL NORMAL OPERATOR FUNCTIONS THROUGH THE WEB BROWSER INTERFACE. OPERATORS WITH SUFFICIENT ACCESS LEVEL SHALL HAVE AN ABILITY TO MAKE CHANGES TO ALL SYSTEM AND EQUIPMENT GRAPHICS IN THE WEB SERVER IN ADDITION TO HAVING FULL DDC SYSTEM ACCESS TO MAKE CONFIGURATION CHANGES TO THE CONTROL SYSTEM. ANY TOOLS REQUIRED FOR MAKING GRAPHIC CHANGES SHALL BE PROVIDED WITH WEB SERVER. D. OPERATOR INTERFACE: 1. FURNISH ONE WEB SERVER INTERFACE WITH UNINTERRUPTED POWER SUPPLY (UPS). OPERATORS SHALL BE ABLE TO ACCESS ALL NECESSARY OPERATIONAL INFORMATION IN THE DDC SYSTEM VIA CLIENT COMPUTER UTILIZING A STANDARD WEB BROWSER. 2. WEB SERVER SHALL CONNECT VIA THE LAN AND BE ABLE TO SIMULTANEOUSLY SERVE UP CONTROLLER INFORMATION TO MULTIPLE OPERATORS CONNECTED VIA LAN WITH STANDARD WEB BROWSERS. EACH CLIENT WEB BROWSER CONNECTED TO SERVER SHALL BE ABLE TO ACCESS ALL SYSTEM INFORMATION. 3. WEB SERVER SHALL BE COMPATIBLE WITH WIRELESS ACCESS PROTOCOL (WAP) ENABLED CELLULAR TELEPHONE OR PERSONAL DIGITAL ASSISTANT (PDA), THE PDANVAP INTERFACE MAY BE TEXT -BASED AND SHALL PROVIDE A SUMMARY OF THE MOST IMPORTANT DATA. 4, WITH THE USE OF A REMOTE SMTP EMAIL SERVER THE OPERATORS INTERFACE WEB SERVER SHALL BE ABLE TO NOTIFY PERSONNEL OF AN ALARM OR RECORD INFORMATION ABOUT AN ALARM IN THE DDC SYSTEM. E. WEB SERVER HARDWARE: FURNISH ONE COMPACT WEB SERVER WITH ETHERNET PORT FOR LAN OR DIRECT OPERATOR CLIENT COMPUTER ACCESS. THE WEB SERVER SHALL BE CAPABLE OF COMMUNICATING TO THE PEER TO PEER DDC CONTROLLER NETWORK. ANY REQUIRED INSTALLATION OR COMMISSIONING SOFTWARE SHALL BE PRE -INSTALLED ON THE WEB SERVER. INSTALLATION OR COMMISSIONING OF THE WEB SERVER SHALL BE DONE THROUGH A CLIENT COMPUTER WITH A STANDARD WEB BROWSER. F. WEB BROWSER INTERACTION: 1. THE WEB SERVER SHALL BE CAPABLE OF PROVIDING THE OPERATOR, AT A CLIENT WEB BROWSER, WITH BOTH TABULAR AND GRAPHICAL PAGES OF ALL CONTROLLER DATA. AN OPERATOR WITH THE PROPER PASSWORD LEVEL SHALL BE ABLE TO CHANGE SET POINT AND OCCUPANCY SCHEDULES OR OVERRIDE POINTS AND REMOVE OVERRIDES. DYNAMIC OBJECTS SHALL INCLUDE ANALOG AND BINARY VALUES, DYNAMIC TEXT, STATIC TEXT, AND ANIMATION FILES. GRAPHICS SHALL HAVE THE ABILITY TO SHOW ANIMATION BASED ON THE STATUS OF THE OBJECT, AND ALLOW POINT -AND -CLICK USER INTERACTION TO MAKE CHANGES TO THE OBJECT. 2. CUSTOM GRAPHICS: THE USER SHALL HAVE AN ABILITY TO CUSTOMIZE WEB SERVER GRAPHICS. CUSTOM GRAPHICS MAY BE CREATED WITH THE USE OF GRAPHICS GENERATION SOFTWARE. ANY GRAPHICS GENERATION SOFTWARE REQUIRED TO MAKE THESE CHANGES SHALL BE PROVIDED WITH THE WEB SERVER. 3. GRAPHICS LIBRARY: FURNISH A LIBRARY OF STANDARD HVAC EQUIPMENT GRAPHICS SUCH AS CHILLERS, BOILERS, AIR HANDLERS, TERMINALS, FAN COILS, AND UNIT VENTILATORS. THE LIBRARY SHALL BE FURNISHED IN A FILE FORMAT COMPATIBLE WITH THE GRAPHICS GENERATION SOFTWARE PROGRAM. UPON CONNECTION TO THE CONTROLS SYSTEM THE WEB SERVER SHALL HAVE THE CAPABILITY TO LEARN THE CONTROLS SYSTEM AND AUTOMATICALLY PRESENT DEFAULT WEB PAGES WITH GRAPHICS FOR EACH CONTROLLER FOUND. 4. ALARMS: AN OPERATOR SHALL BE ABLE TO ACCESS A TABULAR LISTING OF THE SYSTEM'S MOST RECENT ALARM MESSAGES FROM A STANDARD WEB BROWSER. THIS LISTING SHALL ALLOW THE OPERATOR TO MANAGE THE ALARMS AND ACKNOWLEDGE, PRINT, DELETE AND HYPERLINK TO TROUBLE AREAS. 5. DISPLAY INFORMATION: AN OPERATOR SHALL HAVE THE CAPABILITY TO PERFORM SETUP OF THE WEB SERVER FROM A STANDARD WEB BROWSER. SETUP SHALL INCLUDE LEARNING NEW CONTROLLERS THAT ARE ADDED TO THE CONTROLS SYSTEM, AND BEING ABLE TO FULLY CONFIGURE THE NEW CONTROLLER. G. PERFORMANCE STANDARDS: SYSTEM SHALL CONFORM TO THE FOLLOWING MINIMUM STANDARDS OVER NETWORK CONNECTIONS. 1. GRAPHIC DISPLAY. A GRAPHIC WITH 20 DYNAMIC POINTS SHALL DISPLAY WITH CURRENT DATA WITHIN 10 SEC. 2. GRAPHIC REFRESH. A GRAPHIC WITH 20 DYNAMIC POINTS SHALL AUTOMATICALLY REFRESH EVERY 10 SEC. 3. CONFIGURATION AND TUNING SCREENS. SCREENS USED FOR CONFIGURING, CALIBRATING, OR TUNING POINTS, PID LOOPS, AND SIMILAR CONTROL LOGIC SHALL AUTOMATICALLY REFRESH WITHIN 10 SEC. 4. OBJECT COMMAND. DEVICES SHALL REACT TO COMMAND OF A BINARY OBJECT WITHIN 2 SEC. DEVICES SHALL BEGIN REACTING TO COMMAND OF AN ANALOG OBJECT WITHIN 2 SEC, 5. ALARM RESPONSE TIME. AN OBJECT THAT GOES INTO ALARM SHALL BE ANNUNCIATED AT THE WEB BROWSER WITHIN 15 SEC. H. OPERATOR FUNCTIONS: OPERATOR INTERFACE SHALL ALLOW EACH AUTHORIZED OPERATOR TO EXECUTE THE FOLLOWING FUNCTIONS AS A MINIMUM: 1. LOG IN AND LOG OUT. SYSTEM SHALL REQUIRE USER NAME AND PASSWORD TO LOG IN TO OPERATOR INTERFACE. 2. POINT -AND -CLICK NAVIGATION. OPERATOR INTERFACE SHALL BE GRAPHICALLY BASED AND SHALL ALLOW OPERATORS TO ACCESS ENTIRE DDC SYSTEM USING A GRAPHICAL POINT -AND -CLICK NAVIGATION. 3. VIEW AND ADJUST EQUIPMENT PROPERTIES. OPERATORS SHALL BE ABLE TO VIEW CONTROLLED EQUIPMENT STATUS AND TO ADJUST OPERATING PARAMETERS SUCH AS SET POINTS, PID GAINS, ON AND OFF CONTROLS, AND SENSOR CALIBRATION. 4. VIEWAND ADJUST OPERATING SCHEDULES. OPERATORS SHALL BE ABLE TO VIEW SCHEDULED OPERATING HOURS OF EACH SCHEDULABLE PIECE OF EQUIPMENT ON A WEEKLY OR MONTHLY CALENDAR -BASED GRAPHICAL SCHEDULE DISPLAY, TO SELECT AND ADJUST EACH SCHEDULE AND TIME PERIOD, AND TO SIMULTANEOUSLY SCHEDULE RELATED EQUIPMENT. SYSTEM SHALL CLEARLY SHOW EXCEPTION SCHEDULES AND HOLIDAYS ON THE SCHEDULE DISPLAY. 5. VIEW AND RESPOND TO ALARMS, OPERATORS SHALL BE ABLE TO VIEW A LIST OF CURRENTLY ACTIVE SYSTEM ALARMS, TO ACKNOWLEDGE EACH ALARM, AND TO CLEAR (DELETE) UNNEEDED ALARMS. REMOTE USERS SHALL BE ABLE TO RECEIVE ALARMS VIA EMAILS OR CELL PHONE TEXT MESSAGES. 6. VIEW AND CONFIGURE TRENDS. OPERATORS SHALL BE ABLE TO VIEW A TREND GRAPH OF EACH TRENDED POINT AND TO EDIT GRAPH CONFIGURATION TO DISPLAY A SPECIFIC TIME PERIOD OR DATA RANGE. OPERATOR SHALL BE ABLE TO CREATE CUSTOM TREND GRAPHS TO DISPLAY ON THE SAME PAGE DATA FROM MULTIPLE TRENDED POINTS. 7. VIEW AND CONFIGURE REPORTS. OPERATORS SHALL BE ABLE TO RUN PRECONFIGURED REPORTS, TO VIEW REPORT RESULTS, AND TO CUSTOMIZE REPORT CONFIGURATION TO SHOW DATA OF INTEREST. 8, MANAGE CONTROL SYSTEM HARDWARE. OPERATORS SHALL BE ABLE TO VIEW CONTROLLER STATUS AND DOWNLOAD NEW CONTROL MODIFICATIONS TO EACH CONTROLLER. 9, MANAGE OPERATOR ACCESS. TYPICALLY, ONLY FEW OPERATORS ARE AUTHORIZED TO MANAGE OPERATOR ACCESS. AUTHORIZED OPERATORS SHALL BE ABLE TO VIEW A LIST OF OPERATORS WITH SYSTEM ACCESS AND OF FUNCTIONS THEY CAN PERFORM WHILE LOGGED IN. OPERATORS SHALL BE ABLE TO ADD OPERATORS, TO DELETE OPERATORS, AND TO EDIT OPERATOR FUNCTION AUTHORIZATION. ADMINISTRATORS OF THE SYSTEM SHALL BE ABLE TO AUTHORIZE EACH OPERATOR FUNCTION SEPARATELY. I. SYSTEM SOFTWARE 1. OPERATING SYSTEM AND REQUIRED SOFTWARE. WEB SERVER OPERATOR INTERFACE SHALL BE A SELF CONTAINED WEB SERVER WITHOUT THE NEED FOR ANY TYPE OF MAINTENANCE, ANY REQUIRED OPERATING SYSTEM OR SOFTWARE SHALL BE FACTORY LOADED AND MAINTENANCE FREE. 2. SYSTEM GRAPHICS. OPERATOR INTERFACE SHALL BE GRAPHICAL AND SHALL INCLUDE AT LEAST ONE GRAPHIC PER PIECE OF EQUIPMENT OR OCCUPIED ZONE, GRAPHICS FOR EACH CHILLED WATER AND HOT WATER SYSTEM, AND GRAPHICS THAT SUMMARIZE CONDITIONS ON EACH FLOOR OF EACH BUILDING INCLUDED IN THIS CONTRACT. INDICATE THERMAL COMFORT ON FLOOR PLAN SUMMARY GRAPHICS USING DYNAMIC COLORS TO REPRESENT ZONE TEMPERATURE RELATIVE TO ZONE SET POINT. a. FUNCTIONALITY. GRAPHICS SHALL ALLOW OPERATOR TO MONITOR SYSTEM STATUS, TO VIEW A SUMMARY OF THE MOST IMPORTANT DATA FOR EACH CONTROLLED ZONE OR PIECE OF EQUIPMENT, TO USE POINT -AND -CLICK NAVIGATION BETWEEN ZONES OR EQUIPMENT, AND TO EDIT SET POINTS AND OTHER SPECIFIED PARAMETERS. b. ANIMATION. GRAPHICS SHALL BE ABLE TO ANIMATE BY DISPLAYING DIFFERENT IMAGE FILES FOR CHANGED OBJECT STATUS. c. ALARM INDICATION. INDICATE AREAS OR EQUIPMENT IN AN ALARM CONDITION USING COLOR OR OTHER VISUAL INDICATOR. d. FORMAT. GRAPHICS SHALL BE SAVED IN AN INDUSTRY -STANDARD FORMAT SUCH AS JPEG, OR GIF. WEB -BASED SYSTEM GRAPHICS SHALL BE VIEWABLE ON BROWSERS COMPATIBLE WITH WORLD WIDE WEB CONSORTIUM BROWSER STANDARDS. WEB GRAPHIC FORMAT SHALL REQUIRE NO PLUG-IN (SUCH AS HTML AND JAVASCRIPT) OR SHALL ONLY REQUIRE WIDELY AVAILABLE NO -COST PLUG -INS (SUCH AS ACTIVE-X AND MACROMEDIA FLASH). J. SYSTEM TOOLS: SYSTEM SHALL PROVIDE THE FOLLOWING FUNCTIONALITY TO AUTHORIZED OPERATORS AS AN INTEGRAL PART OF THE OPERATOR INTERFACE OR AS STAND-ALONE SOFTWARE PROGRAMS. IF FURNISHED AS PART OF THE INTERFACE, THE TOOL SHALL BE AVAILABLE FROM EACH WORKSTATION OR WEB BROWSER INTERFACE, IF FURNISHED AS A STAND-ALONE PROGRAM, SOFTWARE SHALL BE INSTALLABLE ON STANDARD WINDOWS COMPATIBLE PCS WITH NO LIMIT ON THE NUMBER OF COPIES THAT CAN BE INSTALLED UNDER THE SYSTEM LICENSE, 1, AUTOMATIC SYSTEM DATABASE CONFIGURATION. EACH WEB SERVER SHALL STORE ON ITS HARD DISK A COPY OF THE CURRENT SYSTEM DATABASE. STORED DATABASE SHALL BE EASILY UPDATED WITH EACH SYSTEM CONFIGURATION OR CONTROLLER FIRMWARE OR SOFTWARE CHANGE. 2. CONTROLLER CONFIGURATION. OPERATORS SHALL BE ABLE TO MODIFY CONFIGURATION FOR EACH CONTROLLER IN THE SYSTEM. 3. SYSTEM CONFIGURATION. OPERATORS SHALL BE ABLE TO CONFIGURE THE SYSTEM. 4. ONLINE HELP. CONTEXT -SENSITIVE ONLINE HELP FOR EACH TOOL SHALL ASSIST OPERATORS IN OPERATING AND EDITING THE SYSTEM. 5. SECURITY. SYSTEM SHALL REQUIRE A USER NAME AND PASSWORD TO VIEW, EDIT, ADD, OR DELETE DATA. a. OPERATOR ACCESS. EACH USER NAME AND PASSWORD COMBINATION SHALL DEFINE ACCESSIBLE VIEWING, EDITING, ADDING, AND DELETING FUNCTIONS IN EACH SYSTEM APPLICATION, EDITOR, AND OBJECT. b. AUTOMATIC LOG OUT. AUTOMATICALLY LOG OUT EACH OPERATOR IF NO KEYBOARD OR MOUSE ACTIVITY IS DETECTED. OPERATORS SHALL BE ABLE TO ADJUST AUTOMATIC LOG OUT DELAY. c. ENCRYPTED SECURITY DATA. STORE SYSTEM SECURITY DATA INCLUDING OPERATOR PASSWORDS IN AN ENCRYPTED FORMAT, SYSTEM SHALL NOT DISPLAY OPERATOR PASSWORDS. 6. SYSTEM DIAGNOSTICS. SYSTEM SHALL AUTOMATICALLY MONITOR CONTROLLER AND 1/0 POINT OPERATION. SYSTEM SHALL ANNUNCIATE CONTROLLER FAILURE AND 1/0 POINT LOCKING (MANUAL OVERRIDING TO A FIXED VALUE). 7. ALARM PROCESSING. SYSTEM INPUT AND STATUS OBJECTS SHALL BE CONFIGURABLE TO ALARM ON DEPARTING FROM AND ON RETURNING TO NORMAL STATE, OPERATOR SHALL BE ABLE TO ENABLE OR DISABLE EACH ALARM AND TO CONFIGURE ALARM LIMITS, ALARM LIMIT DIFFERENTIALS, ALARM STATES, AND ALARM REACTIONS FOR EACH SYSTEM OBJECT. CONFIGURE AND ENABLE ALARM POINTS AS SPECIFIED IN POINTS LIST. 8, ALARM MESSAGES, ALARM MESSAGES SHALL USE AN ENGLISH LANGUAGE DESCRIPTOR WITHOUT ACRONYMS OR MNEMONICS TO DESCRIBE ALARM SOURCE, LOCATION, AND NATURE. 9. ALARM REACTIONS. OPERATOR SHALL BE ABLE TO CONFIGURE (BY OBJECT) ACTIONS THAT THE WORKSTATION OR WEB SERVER SHALL INITIATE ON RECEIPT OF EACH ALARM. AS A MINIMUM, WORKSTATION OR WEB SERVER SHALL BE ABLE TO LOG, PRINT, DISPLAY MESSAGES, SEND E-MAIL, SEND PAGE, AND AUDIBLY ANNUNCIATE. 10. ALARM MAINTENANCE, OPERATORS SHALL BE ABLE TO VIEW SYSTEM ALARMS AND CHANGES OF STATE CHRONOLOGICALLY, TO ACKNOWLEDGE AND DELETE ALARMS, AND TO ARCHIVE CLOSED ALARMS TO THE WORKSTATION OR WEB SERVER HARD DISK FROM EACH WORKSTATION OR WEB BROWSER INTERFACE. 11. TREND CONFIGURATION. OPERATOR SHALL BE ABLE TO CONFIGURE TREND SAMPLE INTERVAL, START TIME, AND STOP TIME FOR EACH SYSTEM DATA OBJECT AND SHALL BE ABLE TO RETRIEVE DATA FOR USE IN SPREADSHEETS AND STANDARD DATABASE PROGRAMS. OPERATOR MAY ALTERNATELY CHOOSE TO SAMPLE TRENDS ON COV CHANGE OF VALUE), INSTEAD OF AT A FIXED INTERVAL. CONTROLLER SHALL SAMPLE AND STORE TREND DATA AND SHALL BE ABLE TO ARCHIVE DATA TO THE HARD DISK. CONFIGURE TRENDS AS SPECIFIED IN POINTS LIST, 12.OBJECT AND PROPERTY STATUS AND CONTROL, OPERATOR SHALL BE ABLE TO VIEW, AND TO EDIT IF APPLICABLE, THE STATUS OF EACH SYSTEM OBJECT AND PROPERTY BY MENU OR ON GRAPHICS. 13. REPORTS AND LOGS. OPERATOR SHALL BE ABLE TO SELECT, TO MODIFY, TO CREATE, AND TO PRINT REPORTS AND LOGS. OPERATOR SHALL BE ABLE TO STORE REPORT DATA IN A FORMAT ACCESSIBLE BY STANDARD SPREADSHEET AND WORD PROCESSING PROGRAMS. 14. STANDARD REPORTS. FURNISH THE FOLLOWING STANDARD SYSTEM REPORTS: a. REPORTS SHALL BE FILTERED BASED UPON THE SELECTED EQUIPMENT. b. ALARM REPORTS ALARM SUMMARY - CURRENT ALARMS ALARM SOURCES - LIST OF EQUIPMENT AND ASSOCIATED ALARM CONDITIONS ALARM ACTIONS - CONFIGURED ALARM ACTIONS SUCH AS E-MAIL AND ALARM POP-UP c. SCHEDULE REPORTS EFFECTIVE SCHEDULES - DISPLAYS EFFECTIVE SCHEDULES FOR EACH EQUIPMENT SCHEDULE INSTANCES - DISPLAYS ALL SCHEDULES ENTERED d. SECURITY REPORTS - MAINTAINS AUDIT OF ALL ACTIONS TAKEN THROUGH USER INTERFACE e. COMMISSIONING REPORTS - PROVIDE EQUIPMENT CHECKOUT STATUS AND NOTES f. EQUIPMENT REPORTS - PROVIDE REPORTS SHOWING TRENDED POINTS AND AVAILABLE NETWORK POINTS 15. CUSTOM REPORTS: OPERATOR SHALL BE ABLE TO CREATE CUSTOM REPORTS THAT RETRIEVE DATA, INCLUDING ARCHIVED TREND DATA FROM THE SYSTEM, AND THEN ORGANIZE THE DATA AND PRESENT RESULTS IN TABULAR OR GRAPHICAL FORMAT. REPORTS SHALL BE LAUNCHED FROM THE OPERATOR INTERFACE. 16. GRAPHICS GENERATION: GRAPHICALLY BASED TOOLS AND DOCUMENTATION SHALL ALLOW OPERATOR TO EDIT SYSTEM GRAPHICS, TO CREATE GRAPHICS, AND TO INTEGRATE GRAPHICS INTO THE SYSTEM. OPERATOR SHALL BE ABLE TO ADD ANALOG AND BINARY VALUES, DYNAMIC TEXT, STATIC TEXT, AND ANIMATION FILES TO A BACKGROUND GRAPHIC USING A MOUSE. 17. GRAPHICS LIBRARY: COMPLETE LIBRARY OF STANDARD HVAC EQUIPMENT GRAPHICS SHALL INCLUDE EQUIPMENT SUCH AS CHILLERS, BOILERS, AIR HANDLERS, TERMINALS, FAN COILS, AND UNIT VENTILATORS. LIBRARY SHALL INCLUDE STANDARD SYMBOLS FOR OTHER EQUIPMENT INCLUDING FANS, PUMPS, COILS, VALVES, PIPING, DAMPERS, AND DUCTWORK. LIBRARY GRAPHIC FILE FORMAT SHALL BE COMPATIBLE WITH GRAPHICS GENERATION TOOLS. K. WEB SERVICES DATA EXCHANGE: SYSTEM SHALL SUPPORT WEB SERVICES DATA EXCHANGE WITH ANY OTHER SYSTEM THAT COMPLIES WITH XML (EXTENSIBLE MARKUP LANGUAGE) AND SOAP (SIMPLE OBJECT ACCESS PROTOCOL) STANDARDS SPECIFIED BY THE WEB SERVICES INTEROPERABILITY ORGANIZATION (WS-1) BASIC PROFILE 1.0 OR HIGHER. WEB SERVICES SUPPORT SHALL AS A MINIMUM BE PROVIDED AT THE WORKSTATION OR WEB SERVER LEVEL AND SHALL ENABLE DATA TO BE READ FROM OR WRITTEN TO THE DDC SYSTEM. 1. SYSTEM SHALL SUPPORT WEB SERVICES READ DATA REQUESTS BY RETRIEVING REQUESTED TREND DATA OR POINT VALUES (1/0 HARDWARE POINTS, ANALOG VALUE SOFTWARE POINTS, OR BINARY VALUE SOFTWARE POINTS) FROM ANY SYSTEM CONTROLLER OR FROM THE TREND HISTORY DATABASE. 2. SYSTEM SHALL SUPPORT WEB SERVICES WRITE DATA REQUEST TO EACH ANALOG AND BINARY OBJECT THAT CAN BE EDITED THROUGH THE SYSTEM OPERATOR INTERFACE BY DOWNLOADING A NUMERIC VALUE TO THE SPECIFIED OBJECT. 3. FOR READ OR WRITE REQUESTS, THE SYSTEM SHALL REQUIRE USER NAME AND PASSWORD AUTHENTICATION AND SHALL SUPPORT SSL (SECURE SOCKET LAYER) OR EQUIVALENT DATA ENCRYPTION. 4. SYSTEM SHALL SUPPORT DISCOVERY THROUGH A WEB SERVICES CONNECTION OR SHALL PROVIDE A TOOL AVAILABLE THROUGH THE OPERATOR INTERFACE THAT WILL REVEAL THE PATH/IDENTIFIER NEEDED TO ALLOW A THIRD PARTY WEB SERVICES DEVICE TO READ DATA FROM OR WRITE DATA TO ANY OBJECT IN THE SYSTEM WHICH SUPPORTS THIS SERVICE. L. OPEN PROTOCOL COMMUNICATIONS: DDC SYSTEM SHALL ALLOW COMMUNICATION TO ANCILLARY SYSTEMS OR CONTROLLERS, SUCH AS LIGHTING SYSTEM OR VFD CONTROLLERS THAT UTILIZE BACNET, MODBUS, OR LONWORKS COMMUNICATION PROTOCOLS. 1. BACNET COMMUNICATION a. DDC SYSTEM SHALL SUPPORT BACNET/IP ADDRESSING AS SPECIFIED IN ASHRAE/ANSI 135-2001, BACNET ANNEX J USING ISO 8802-3 (ETHERNET) DATA LINK/PHYSICAL LAYER PROTOCOL. b. DDC SYSTEM SHALL SUPPORT BACNET MS/TP COMMUNICATIONS USING EIA-485 TWISTED PAIR TOPOLOGY RUNNING AT 9600, 19200, 38400, AND 76800 BAUD. 2. MODBUS COMMUNICATION a. DDC SYSTEM SHALL SUPPORT MODBUS RTU/ASCII COMMUNICATIONS OVER EIA-485/EIA-232 TYPE NETWORKAT 9600, 19200, 38400, AND 76800 BAUD. b. DDC SYSTEM SHALL SUPPORT MODBUS TCP/IP COMMUNICATIONS OVER ISO 8802.3 (ETHERNET) DATA LINKIPHYSICAL LAYER PROTOCOL, 3. LONWORKS COMMUNICATION a. DDC SYSTEM SHALL SUPPORT LONWORKS COMMUNICATION UTILIZING ANSI/EIA-709.1 COMMUNICATIONS OVER FT-10A NETWORK. b. COMMUNICATION BETWEEN DEVICES SHALL BE VIA STANDARD NETWORK VARIABLE TYPES (SNVTS). M. EQUIPMENT CONTROLLERS: 1. GENERAL: THE CONTROLS CONTRACTOR IS REQUIRED TO PROVIDE CONTROLLERS FOR ALL HVAC EQUIPMENT ASSOCIATED WITH THIS PROJECT (BLOWER COILS, VARIABLE -AIR -VOLUME TERMINAL UNITS, AIR HANDLING UNITS, PUMPS, CHILLERS, ETC.). a. VARIABLE -AIR -VOLUME (VAV) CONTROLLERS: THE CONTROLS CONTRACTOR SHALL COORDINATE WITH THE VAV BOX MANUFACTURER TO HAVE THE CONTROLLERS FACTORY -INSTALLED. N. CONTROL VALVE AND ACTUATORS: 1. PROVIDE CONTROL VALVES WHERE SHOWN ON THE CONTRACT DRAWINGS. CONTROL VALVE ACTUATORS SHALL HAVE END SWITCHES, CONTROL VALVES SHALL BE STEEL WITH STAINLESS STEEL SHAFT AND DISC AND SHALL BE RATED FOR 150 PSI. EACH VALVE OPERATOR SHALL HAVE 0-10V CONTROL SIGNAL AND 4-20mA FEEDBACK AND MANUAL OVERRIDE. ACTUATOR SHALL BE SPRING RETURN. ACTUATOR SHALL BE EIM OR APPROVED EQUAL. 0. CURRENT SWITCHES: 1. THE CURRENT SENSOR SHALL BE INDUCE POWERED FROM THE MONITORED LOAD. 2. THE CURRENT SENSOR SHALL HAVE AN ADJUSTABLE OPERATING RANGE FROM 0.5 -175A. 3. THE CURRENT SENSOR SHALL PROVIDE VISUAL INDICATION (LED) FOR OUTPUT STATUS AND SENSOR POWER, 4. THE CURRENT SENSOR SHALL HAVE AN ADJUSTABLE TRIP SET -POINT TO +/-1 % OF THE RANGE FROM -60 TO 140 DEG F. 5. THE CURRENT SENSOR SHALL BE ISOLATED TO 600 VAC RMS. 6. THE CURRENT SENSOR SHALL HAVE A MOUNTING BRACKET FOR INSTALLATION FLEXIBILITY. 7. THE CURRENT SENSOR SHALL BE A SELF GRIPPING SPLIT -CORE TYPE, 8. THE CURRENT SENSOR OUTPUT SHALL BE N.O., SOLID STATE, 0.1 A @ 30 VAC/DC. 9. ALL DEVICES THAT ARE NOT "DIRECT DRIVE" (USING FLEX COUPLINGS OR BELTS) SHALL UTILIZE ADJUSTABLE THRESHOLD CURRENT SWITCHES TO ENABLE DETECTION OF CHANGES IN MOTOR AMP DRAW UPON DRIVE FAILURE. 10. THE CURRENT SENSOR SHALL BE A VERIS INDUSTRIES HAWKEYE MODEL H608 OR OWNER APPROVED EQUAL. P. DIFFERENTIAL PRESSURE TRANSMITTERS: 1, STAINLESS -STEEL DIAPHRAGM CONSTRUCTION, SUITABLE FOR SERVICE; 0-100 PSIG OPERATING PRESSURE RANGE AND TESTED TO 300 PSIG; LINEAR OUTPUT 4-20mA, DESIGN BASIS: VERIS INDUSTRIES MODEL PWLX04S WITH DIGITAL DISPLAY OR OWNER APPROVED EQUAL. Q. ELECTRONIC TEMPERATURE SENSORS: 1. TEMPERATURE SENSORS SHALL 10,000 OHM TYPE III IMMERSION SENSORS. SENSORS SHALL BE CALIBRATED TO LESS THAN OR EQUAL TO A 114 DEG F RESOLUTION FOR THE SPECIFIC APPLICATION. 2. USE INSERTION ELEMENTS IN PIPES. USE AVERAGING ELEMENTS WHERE LARGER PIPES ARE PRONE TO STRATIFICATION. 3. INSERTION ELEMENTS FOR LIQUIDS SHALL BE BRASS SEPARABLE SOCKETS (THERMOWELLS). 4. SENSOR ELEMENTS SHALL BE APPLICABLE FOR THE MEDIUM BEING SENSED, I.E., WELL -MOUNTED ELEMENTS. RANGE SHALL BE FROM 0-100 DEG F. 5. SENSOR SHALL HAVE SWITCH SELECTABLE RANGES OF 10, 20, 50, OR 100 PSI. 6. SENSOR SHALL HAVE TEST MODE TO PRODUCE FULL-SCALE OUTPUT AUTOMATICALLY. 7. SENSOR SHALL HAVE PROVISION FOR ZEROING BY PUSHBUTTON OR DIGITAL INPUT. 8. SENSOR SHALL HAVE FIELD SELECTABLE OUTPUTS OF 0-5V, 0-10V, AND 4-20MA. 9, SENSOR SHALL HAVE TWO PRESSURE SENSORS. 10. SENSOR SHALL OPERATE FROM 24VDC OR 24VAC (AC POWER APPLIES TO OPERATION IN VOLTAGE MODE ONLY). 11. SENSOR HOUSING SHALL BE POWDER -COATED STEEL. 12. SENSOR SHALL HAVE NEMA 4 RATING. 13. SENSOR SHALL HAVE A PORT SWAP FEATURE. 14. SENSOR ACCURACY SHALL BE CAPABLE OF +/-1%AND +/-2% FS COMBINED LINEARITY, HYSTERESIS, AND REPEATABILITY, DEPENDING ON THE RANGE SELECTED. 15. DESIGN BASIS: VERIS INDUSTRIES MODEL TIGC1HO OR OWNER APPROVED EQUAL. R. INSERTION ELECTROMAGNETIC FLOW METER: 1. PROVIDE FLOWMETER WITH SENSOR AND INDICATOR. SENSOR AND INDICATOR SHALL COVER THE OPERATING RANGE OF SYSTEM SERVED. 2. AMBIENT TEMPERATURE RANGE: -5 -150 DEG F 3. OPERATING PRESSURE: 400 PSI MAX 4. SUPPLY VOLTAGE: 24VAC 5. OUTPUT SIGNAL: 4-20mA 8. ACCURACY: PLUS OR MINUS 1 PERCENT. 7. DISPLAY MODULE: PROVIDE DISPLAY MODULE IN NEMA 4 STEEL ENCLOSURE TO INDICATE FLOW RATE ON AN LCD INDICATOR. 8. DESIGN BASIS: ONICON F-3500 SERIES INSERTION ELECTROMAGNETIC FLOW METER. S. AIRFLOW MEASURING STATION (AFMS) 1. THE AIRFLOW MEASUREMENT SYSTEM TRANSMITTER SHALL BE SUPPLIED WITH A COMPATIBLE PROBE SUITABLE FOR THE DUCT SIZE AND AIR VELOCITY. THE TRANSMITTER SHALL PROVIDE AN ANALOG 0-10 VDC OR 4-20 MA ANALOG OUTPUT FOR CONNECTION TO THE BUILDING AUTOMATION SYSTEM. AFMS SHALL BE FACTORY CALIBRATED TO NISI -TRACEABLE STANDARDS (-T PROBES TO VOLUMETRIC FLOW STANDARDS) AND NOT REQUIRE ADDITIONAL TRANSMITTERS OR TRANSDUCERS TO INTERFACE TO THE HOST BUILDING AUTOMATION SYSTEM. THE SENSOR NODE SHALL HAVE ACCURACY OF 2% OR BETTER FROM 0-5,000 FEET PER MINUTE. DESIGN BASIS: EBTRON ADVANTAGE II SILVER SERIES. T. CONTROL WIRING: 1. ALL CONDUCTORS SHALL BE OF STRANDED COPPER WIRE. PROVIDE RIGID STEEL CONDUIT FOR ALL CONTROL WIRING. 2. ALL CONDUIT AND OUTLET BOXES SHALL CONFORM TO THE REQUIREMENTS SPECIFIED UNDER DIVISION 16, ELECTRICAL. ALL FLEXIBLE WIRING CONDUIT SHALL BE LIQUID -TIGHT, PROVIDE ALL CONTROL WIRING IN CONDUIT. U. FLOW SWITCH: TO BE PROVIDED BY CHILLER MANUFACTURER AND INSTALLED BY CONTRACTOR, V. COMMUNICATION WITH VFD 1. CONTRACTOR TO COORDINATE. W. ROOM TEMPERATURE SENSORS 1. COMMUNICATION AND POWER: SENSOR SHALL COMMUNICATE TO THE ASSOCIATED UNIT CONTROLLER AND BE POWERED BY THE LOW -VOLTAGE CONTROL SYSTEM. 2. TEMPERATURE SENSOR FEATURES SHALL INCLUDE THE FOLLOWING: a. SENSOR SHALL HAVE NO DISPLAY AND NO SET POINT ADJUSTMENT CAPABILITIES b. SENSOR SHALL HAVE A PUSH-BUTTON OCCUPANCY OVERRIDE BUTTON X. OUTDOOR AIR TEMPERATURE SENSOR 1, OUTSIDE AIR TEMPERATURE SENSORS SHALL BE CONSTRUCTED TO BE MOUNTED OUTDOORS, HAVE A UV -RESISTANT SHIELD TO KEEP THE SENSOR OUT OF DIRECT SUNLIGHT, AND ALLOW FOR ADEQUATE AIR CIRCULATION. THE SENSOR SHALL BE CONTAINED IN A CAST ALUMINUM WEATHERPROOF ENCLOSURE WHICH CARRIES A NEMA 3R RATING. PSI r1:6111a 147-11111 7:1I:1� 1011210 A. THE MECHANICAL CONTRACTOR SHALL PROCURE THE SERVICES OF AN INDEPENDENT TESTING AND BALANCING AGENCY. ALL INSTRUMENTS USED SHALL BE ACCURATELY CALIBRATED AND MAINTAINED IN GOOD WORKING ORDER, TESTING AND BALANCING SHALL ONLY BE PERFORMED BY THE MECHANICAL CONTRACTOR IF EXPLICITLY APPROVED BY THE ENGINEER. ALL INSTRUMENTS USED SHALL BE ACCURATELY CALIBRATED AND MAINTAINED IN GOOD WORKING ORDER. B. THE TESTING AND BALANCING AGENCY SHALL PREPARE A WRITTEN REPORT WHICH SHALL INCLUDE DIAGRAMS AND DESCRIPTION OF PROCEDURES TOGETHER WITH ALL RECORDED TEST DATA. SUBMIT THREE COPIES OF THE FINAL TEST DATA FOR APPROVAL. C. CONDUCT BALANCING AND TESTING IN ACCORDANCE WITH TECHNICAL PORTIONS OF THE ASSOCIATED AIR BALANCING COUNCIL "NATIONAL STANDARD FOR FIELD MEASUREMENTS AND INSTRUMENTATION VOL. 2, NO. 12173" - "TOTAL SYSTEM BALANCE" 1973 EDITION. TEST PROCEDURES NOT IN ACCORDANCE OR NOT DESCRIBED IN THE STANDARDS MUST BE APPROVED BY THE ENGINEER IN WRITING PRIOR TO ANY TESTING. D. PERMANENTLY MARK THE SETTINGS OF DAMPERS, AND OTHER ADJUSTMENT DEVICES SO THAT ADJUSTMENT CAN BE RESTORED IF DISTURBED AT ANYTIME. PAINT BALANCING DAMPER HANDLES LOCATED ABOVE THE CEILING NEON ORANGE. E. ALL FLOW RATES SHALL BE BALANCED TO WITHIN 10% OF DESIGN. F. SHOULD THE BASIC SYSTEM OR ANY OF ITS COMPONENTS FAIL TO MEET CONTRACT REQUIREMENTS, AND THEREBY MAKE THE TESTING AND BALANCING WORK INVALID, NOTIFY THE ENGINEER AND STOP THE TESTS UNTIL SUCH TIME THAT THE FAILURE IS CORRECTED, G. SPECIFIC TESTING AND BALANCING PROCEDURES SHALL INCLUDE, BUT NOT BE LIMITED TO THE FOLLOWING: 1. TITLE PAGE a. COMPANY NAME b. COMPANYADDRESS c. COMPANY TELEPHONE NUMBER d. PROJECT NAME e. PROJECT LOCATION f. PROJECT ARCHITECT g. PROJECT ENGINEER h. PROJECT CONTRACTOR I. PROJECTALTITUDE 2. INSTRUMENT LIST a. INSTRUMENT b. MANUFACTURER c. MODEL d. SERIAL NUMBER e. RANGE f. CALIBRATION DATE Sims Wilkerson Cartier Engineering, Inc. 12124 High Tech Avenue - Suite. 200 Orlando, Florida 32817 (407)380-0400 FAX (407)380-5900 FL. CERT. OF AUTH. NO. 6106 • GARY.A. WI %SON. PE. 4.16/ •KYLE I. CA MT P.E. 53]69 •AD VS. UE ,PE. 77010 • MEP A. �N, PS! 65629 •WAY LR.p1 XS NDM PE. 55422 14001 P,KIh'/r2� C) F w = o S OR�OQ • �_ 0�� 5SI ON N `�` /llII It\ J U_ Z Z v WLO o •� 1 J C O Z >+ .2 �. O C L Q U I- C G LL. U wLLJ U U U) U) = OLn LL (E0 C14 W M C) c0 ::) 4 o U) - CC) U) U U J U) U Y c 3.DUCTWORK a. MAKE PITOT TUBE TRAVERSE OF MAIN DUCTS AND OBTAIN DESIGN AIR QUANTITY b. TEST AND RECORD SYSTEM STATIC PRESSURES, SUCTION AND DISCHARGE c. TEST AND ADJUST SYSTEMS FOR DESIGN SUPPLY AIR QUANTITIES d. ADJUST ALL MAIN AND BRANCH DUCTS FOR SUPPLY AIR AND SET AND "MARK" ALL VOLUME DAMPERS e. SEAL PITOT TUBE OPENINGS IN DUCTWORK WITH PARKER-KALON PLUGS, RESTORE INSULATION TO ORIGINAL CONDITION 4. AIR DEVICES a. EQUIPMENT IDENTIFICATION b. DIMENSIONS c. AIRFLOW (CFM) DESIGN/ACTUAL 5. MECHANICAL EQUIPMENT a. EQUIPMENT IDENTIFICATION b. LOCATION c. MAKE, TYPE, AND MODEL NUMBER 6. EXHAUST FAN DATA: a. TOTAL AIR FLOW RATE IN CFM, DESIGN/ACTUAL b. MOTOR HP/RPM c. VOLTS/PHASE/HERTZ 7. CHILLED WATER AIR HANDLING UNIT: a. MAXIMUM AIRFLOW (CFM) AND SPEED (HZ), DESIGN/ACTUAL b. MINIMUM AIRFLOW (CFM) AND SPEED (HZ), DESIGN/ACTUAL c. OUTDOOR AIRFLOW (CFM), DESIGN/ACTUAL d. TEST AND RECORD SYSTEM STATIC PRESSURES, SUCTION AND DISCHARGE e. MOTOR VOLTS/PHASEIHERTZ f. HEATER VOLTS/PHASEIHERTZ g. AMPERAGE FOR EACH PHASE 8. HYDRONIC COIL: a. ROWS/FINS PER INCH b. AIRFLOW RATE (CFM) c. ENTERING AIR DBMS TEMPERATURE (DEG F), DESIGNIACTUAL d. LEAVING AIR DB/ B TEMPERATURE (DEG F), DESIGN/ACTUAL e. AIR PRESSURE DROP (PSIG) f. WATER FLOW RATE (GPM), DESIGNIACTUAL g. ENTERING WATER TEMPERATURE (DEG F), DESIGNIACTUAL h. LEAVING WATER TEMPERATURE (DEG F), DESIGN/ACTUAL i. WATER PRESSURE DROP (FT-H20), DESIGNIACTUAL 9. ELECTRIC HEATING COIL: a. HEATER CAPACITY (KW) b. NUMBER OF STAGES OR SCR c. HEATING AIR FLOW RATE (CFM), DESIGNIACTUAL d. HEATER ENTERING/LEAVING AIR TEMPERATURE (DEG F), DESIGNIACTUAL e. VOLTS/PHASE/HERTZ f. AMPERAGE FOR EACH PHASE 10. VARIABLE AIR VOLUME TERMINAL UNIT: a. MAXIMUM AIR FLOW RATE (CFM), DESIGNIACTUAL b. MINIMUM AIR FLOW RATE (CFM), DESIGN/ACTUAL c. SPACE TEMPERATURE COOLING SET POINT (DEG F) d. HEATER CAPACITY (KW) e. NUMBER OF STAGES OR SCR f. HEATING AIR FLOW RATE (CFM), DESIGN/ACTUAL g. HEATER ENTERING/LEAVING AIR TEMPERATURE (DEG F), DESIGN/ACTUAL h. SPACE TEMPERATURE HEATING SET POINT (DEG F) I. VOLTS/PHASE/HERTZ j. AMPERAGE FOR EACH PHASE I i. AIR-COOLED CHILLER: BALANCE WATER FLOW THROUGH EACH EVAPORATOR TO WITHIN SPECIFIED TOLERANCES OF INDICATED FLOW WITH ALL PUMPS OPERATING. WITH ONLY ONE CHILLER OPERATING IN A MULTIPLE CHILLER INSTALLATION, DO NOT EXCEED THE FLOW FOR THE MAXIMUM TUBE VELOCITY RECOMMENDED BY THE CHILLER MANUFACTURER. MEASURE AND RECORD THE FOLLOWING DATA WITH EACH CHILLER OPERATING AT DESIGN CONDITIONS: a. NORMAL OPERATING MODE - EVAPORATOR ENTERING WATER TEMPERATURE (DEG F), DESIGNIACTUAL b. NORMAL OPERATING MODE - EVAPORATOR LEAVING WATER TEMPERATURE (DEG F), DESIGN/ACTUAL c. NORMAL OPERATING MODE - CAPACITY CALCULATED IN TONS OF COOLING d. ICE MAKING MODE - EVAPORATOR ENTERING WATER TEMPERATURE (DEG F), DESIGN/ACTUAL e. ICE MAKING MODE - EVAPORATOR LEAVING WATER TEMPERATURE (DEG F), DESIGN/ACTUAL f. ICE MAKING MODE - CAPACITY CALCULATED IN TONS OF COOLING g. EVAPORATOR WATER FLOW RATE (GPM), DESIGNIACTUAL h. EVAPORATOR PRESSURE DROP (FT-H20), DESIGN/ACTUAL I. EVAPORATOR AND CONDENSER REFRIGERANT TEMPERATURES AND PRESSURES, USING INSTRUMENTS FURNISHED BY CHILLER MANUFACTURER. j. POWER FACTOR IF FACTORY -INSTALLED INSTRUMENTATION IS FURNISHED FOR MEASURING KILOWATTS. k. KILOWATT INPUT IF FACTORY -INSTALLED INSTRUMENTATION IS FURNISHED FOR MEASURING KILOWATTS. I. VERIFY CONDENSER FAN ROTATION AND RECORD FAN AND MOTOR DATA INCLUDING NUMBER OF FANS AND ENTERING AND LEAVING AIR TEMPERATURES. rn. VOLTS/PHASEIHERTZ n. AMPERAGE FOR EACH PHASE 12. PUMP TEST REPORTS: CALCULATE IMPELLER SIZE BY PLOTTING THE SHUTOFF HEAD ON PUMP CURVES AND INCLUDE THE FOLLOWING: a. STATIC HEAD (FT-H20 AND PSIG) b. PUMP SHUTOFF PRESSURE (FT-H20 AND PSIG) c. ACTUAL IMPELLER SIZE IN INCHES d. FULL -OPEN FLOW RATE (GPM) e. FULL -OPEN PRESSURE (FT-H20 AND PSIG) If. FINAL WATER FLOW RATE (GPM), DESIGN/ACTUAL g. FINAL DISCHARGE PRESSURE (FT-H20 AND PSIG) h. FINAL SUCTION PRESSURE (FT-H20 AND PSIG) i. FINAL TOTAL PRESSURE (FT-H20 AND PSIG) j. MOTOR HP/RPM k. VOLTS/PHASEIHERTZ I. AMPERAGE FOR EACH PHASE 13, BLOWER COIL DATA: a. TOTAL AIR FLOW RATE (CFM), DESIGNIACTUAL b. OUTDOOR AIR FLOW RATE (CFM), DESIGN/ACTUAL c. ENTERING AIR TEMPERATURE (DEG F), DESIGN/ACTUAL d. LEAVING AIR TEMPERATURE (DEG F), DESIGN/ACTUAL e. NUMBER OF COIL ROWS/FINS PER INCH f. ENTERING WATER TEMPERATURE (DEG F), DESIGN/ACTUAL g. LEAVING WATER TEMPERATURE (DEG F), DESIGN/ACTUAL h. COIL WATER PRESSURE DROP (FT-H20), DESIGNIACTUAL i. MOTOR HP/RPM j. VOLTS/PHASE/HERTZ k. AMPERAGE FOR EACH PHASE 14. ICE STORAGE TANKS: a. TIME TO FULL CHARGE (MIN) b. WATER FLOW RATE (GPM) c. ENTERING WATER TEMPERATURE (DEG F), DESIGNIACTUAL d. LEAVING WATER TEMPERATURE (DEG F), DESIGNIACTUAL e. COIL WATER PRESSURE DROP (FT-H20) w, �j ilns'k'4'ilkerspn Cprtier � Engin Bring Entt3rporat�J. z. do, Plot ,is J Sims Wilkerson Cartier Engineering, Inc. 12124 High Tech Avenue - Suite. 200 Orlando, Florida 32817 (407)380-0400 FAX (407)380-5900 FL. CERT. OF AUTH. NO. 6106 oG4 )'A. 19EU6 ON, PE. 43167 06'SI.EJ C. RIMR P.E. 53269 oAD NT S. LL�T _P E. 77010 • JEFF A, }ad kN, P.G. 65629 o BM41,Ei. R ALEXANOER, PE 554n 14001 N �_ WU W Y a ¢ J U_ Z Q Z v CIO W -0 O U) J c LL Z .O c)Q -> U c U U U u.1 J Q � IL }; > LO 00 N O M 00 L SYMBOL LEGEND NOTES: 1. THE COLOR OF ALL DEVICES SHALL BE SELECTED BY THE ARCHITECT. COVERPLATES SHALL BE 03W SMOOTH STAINLESS STEEL, UNLESS OTHERWISE NOTED. 2. SCREENED ELECTRICAL ITEM DENOTES EXISTING. 3. "R' BY DEVICE DENOTES EXISTING TO BE REMOVED COMPLETELY. 4. 'H' BY DEVICE DENOTES DEVICE TO BE MOUNTED HORIZONTALLY, 5, ALL DIMENSIONS INDICATED ARE TO THE BOTTOM OF FIXTURE, OUTLET, OR EQUIPMENT AND SHALL BE THE DIMENSIONS USED UNLESS INDICATED OTHERWISE ON THE DRAWINGS. DIMENSIONS INDICATEO ON THE DRAWINGS AND IN THE SPECIFICATIONS ARE TO THE BOTTOM OF THE FIXTURE, OUTLET, OR EQUIPMENT UNLESS INDICATED OTHERWISE, ALL MOUNTING HEIGHTS SHALL COMPLY NTH ADA REQUIREMENTS. VERIFY AND COORDINATE THE EXACT HEIGHT AND LOCATION OF ALL FIXTURES. OUTLETS, AND EQUIPMENT WITH ALL DOCUMENTS AND DISCIPLINES (I.E., ARCHITECTURAL, STRUCTURAL, HVAC, PLUMBING, FIRE PROTECTION, KITCHEN EQUIPMENT, MILLWORK, ETC.) PRIOR TO ROUGH -IN', ADJUST TO MEET ALL REQU IREMENTS. S. ALL SYMBOLS INDICATED IN THIS LEGEND MAY NOT BE USED ON THE PLANS. 7. ALL WIRING DEVICES SHALL BE PROVIDED NTH A GROUNDING TERMINAL SCREW 0. SEE SPECIFICATIONS FOR ADDITIONAL REQUIREMENTS. 9, UO.N.= UNLESS OTHERWISE NOTED. 10. A.H.J.-AUTHORITY HAVING JURISDICTION. 11, A F.F. =ABOVE FINISHED FLOOR 12. ELECTRICAL CONTRACTOR TO PROVIDE PULL STRINGS IN ALL CONOUIT(S), REMARKS: a. MOUNTED IC ABOVE FINISHED FLOOR TO THE BOTTOM. b. MOUNTED 44 ABOVE FINISHED FLOOR TO THE BOTTOM. c. MOUNTED 50" ABOVE FINISHED FLOOR TO THE BOTTOM. tl. OUTLET BOX SHALL BE SIZED PER SYSTEM INSTALLERS REQUIREMENTS. e. SUPPORT OUTLET BOX FROM STRUCTURE WITH (1) 18' ALL THREADS MINIMUM, BOXES LARGER THAN ZZ SQUARE INCHES SHALL BE SUPPORTED WITH (2) SIB" ALL THREADS MINIMUM, L JUNCTIONIOUTLET BOX SHALL BE SIZED AS REQUIRED FOR CONDUCTORIDEVICES FILL PER N.E.C. g. THREADED CONDUIT HUBS SHALL BE SIZED AND CONFIGURED AS REQUIRED FOR APPLICATION. h, PROVIDE KINDORF MOUNTING RACK FOR FREE STANDING APPLICATIONS. KINDORF SHALL BE PAINTED FOR EXTERIOR APPLICATIONS. i. WHEN SURFACE JUNCTION BOX SYMBOL IS COMBINED NTH DEVICE SYMBOL.PROVIDE APPROPRIATE SURFACE PLATE FOR OUTLET APPLICATION. j. MAINTAIN WORKING CLEARANCES IN STRICT ACCORDANCE WITH NT C COORDINATE EXACT LOCATION OF EOU IPMENT WITH ALL DISCIPLINES (LE. ARCHITECTURAL, STRUCTURAL, HVAC, PLUMBING, FIRE PROTECTION, KITCHEN EQUIPMENT, MILLWORK. ETC) PRIOR TO ROUGH -IN TO MAINTAIN CLEARANCES. k. 'Nr INDICATES FIXTURE CONNECTED AHEAD OF ALL SWITCHES FOR 24 HOUR NIGHTLIGHT OPERATION. I. MOUNTED SVABOVE FINISHED FLOOR TO BOTTOM. m. ALL STROBES SHALL BE ADJUSTABLE INTENSITY TYPE SET AT 75ad UNLESS OTHERWISE NOTED. n. MOUNTED 72' ABOVE FINISHED FLOOR TO THE TOP. ABBREVIATIONS A AMPERES HP HORSEPOWER AFC ABOVE FINISHED CEILING HVAC HEATINGNENTILATINGI AFF ABOVE FINISHED FLOOR AIR CONDITIONING AFG ABOVE FINISHED GRADE JB JUNCTIONBOX AID AMPERES INTERUPTING CAPACITY kV KILOVOLTS AN AUTHORITY HAVING JURISDICTION kVA KILOVOLTS AMPERES ATS AUTOMATIC TRANSFER SWITCH WAR KILOVOLTS AMPERES REACTIVE BFC BELOW FINISHED CENNG kW KILOWATTS BFG BELOW FINISHED GRADE KWH KILOWATT HOUR C CONDUIT LAN LOCAL AREA NETWORK CAB CABINET LTG LIGHTING CKT CIRCUIT m METER CLG CEILING mm MILLIMETER CL CENTERLINE MAX MAXIMUM CT, CURRENT TRANSFORMERS MCS MAIN CIRCUIT BREAKER CU COPPER MFR MANUFACTURER DISC DISCONNECT(ING) MIN MINIMUM DW'G DRAWINGS) MISC MISCELLANEOUS EA EACH MTR MOTOR EF EXHAUSTFAN MTD MOUNTED EMT ELECTRICAL METALLIC TUBING MTG MOUNTING EQUIP EQUIPMENT NEC NATIONAL ELECTRICAL CODE EUH ELECTRIC UNIT HEATER PNL PANEL EMJH ELECTRIC WATER HEATER PVC POLYVINYL CHLORIDE EXH EXHAUST RED RECEPTACLE EXIST EXISTING RGS RIGID GALVANIZED STEEL FA FIREALARM TEL TELEPHONE FLA FULL LOAD AMPERES TYR TYPICAL FLUOR FLUORESCENT UON UNLESS OTHERWISE NOTED GFCI GROUND FAULT CIRCUIT V VOLTS INTERRUPTER VA VOLT4MPERES GFP GROUND FAULT PROTECTION W WATTS GND GROUND WP WEATHERPROOF HGT HEIGHT XFMR TRANSFORMER FIRE ALARM DUCT MOUNTED SMOKE DETECTOR. (S = SUPPLY; R = RETURN) O .-, Z O :5 W Lu x LLJ POWER (T) SIMPLEX RECEPTACLE, 20 AMP, WITH FLUSH WALL OUTLET BOX. a, f DUPLEX RECEPTACLE, 20 AMP, WITH FLUSH WALL OUTLET BOX. a, f DOUBLE DUPLEX RECEPTACLE, 20 AMPS EACH, WITH TWO -GANG FLUSH WALL OUTLET a, f BOX. SPECIAL PURPOSE RECEPTACLE, AS NOTED ON PLANS, WITH FLUSH WALL OUTLET BOX. a, f A30 O 30 Q 30 FLUSH WALL OUTLET BOX AND 30A, 125/250V, 3P, 4W, NEMA 14.30R RECEPTACLE. a, f 50 ([) 50 (4) 50 FLUSH WALL OUTLET BOX AND 50A, 125/250V, 3P, 4W, NEMA 14-50R RECEPTACLE. a, f SURFACE MOUNTED PLUGMOLD STRIP WITH SINGLE MODULAR RECEPTACLES. lKmLjL KmLy 1 LL ' ?{' SURFACE MOUNTED WIREWAY WITH FLUSH DUPLEX RECEPTACLES. — � POWER FURNITURE BASE FEED WITH JUNCTION BOX (8 18" A.F.F.. FLEX CONNECT TO �P ;r' j © FURNITURE SYSTEM WIREWAY. FIELD VERIFY EXACT CONNECTION POINT WITH FURNITURE VENDOR. CAST IRON FULLY ADJUSTABLE FLOOR OUTLET BOX AND (1) 20 AMP DUPLEX I®J " ❑® RECEPTACLE WITH CARPET OR TILE FLANGE (PROVIDE SPECIAL RECEPTACLES, I.E. f ISOLATED GROUND TYPE WHERE NOTED) 2 HR. FIRE RATED FLUSH POKE-THRU WITH INTEGRAL 20 AMP DUPLEX RECEPTACLE AND 1IfE PT `3J PT ❑® PT (2) COMMUNICATION PORTS. DIE CAST BRUSHED ALUMINUM FLANGE, UL514A AND UL514C d, f RATED. CAST IRON FULLYADJUSTABLE TWO -GANG FLOOR OUTLET BOX WITH (2) 20 AMP DUPLEX RECEPTACLES AND CARPET OR TILE FLANGE (PROVIDE SPECIAL RECEPTACLES, I.E. ISOLATED GROUND TYPE WHERE NOTED) CAST IRON FULLY ADJUSTABLE TWO -GANG FLOOR OUTLET BOX WITH (1) 20 AMP DUPLEX 0 1 Gu i ®V RECEPTACLE AND (1) TELECOMMUNICATIONS BLANK OUTLET WITH (1)1"C. TO TTB(TTC d, T (UNLESS OTHERWISE NOTED). PROVIDE CARPET OR TILE FLANGE. (PROVIDE SPECIAL RECEPTACLES, I.E. ISOLATED GROUND TYPE WHERE NOTED) CAST IRON FULLY ADJUSTABLE TWO -GANG FLOOR OUTLET BOX WITH (2) 20 AMP DUPLEX 12I, b1 7, G®v RECEPTACLES AND (1) TELECOMMUNICATIONS BLANK OUTLET WITH (1)1"C. TO TTBrTTC tl f — -'-) (UNLESS OTHERWISE NOTED). PROVIDE CARPET OR TILE FLANGE. (PROVIDE SPECIAL RECEPTACLES, I.E. ISOLATED GROUND TYPE WHERE NOTED) CAST IRON FULLY ADJUSTABLE TWO -GANG FLOOR OUTLET BOX WITH (1) 20 AMP DUPLEX RECEPTACLE AND (2) TELECOMMUNICATIONS BLANK OUTLET WITH (2)1"C. TO TTB/TTC d, f (UNLESS OTHERWISE NOTED). PROVIDE CARPET OR TILE FLANGE. (PROVIDE SPECIAL RECEPTACLES, I.E. ISOLATED GROUND TYPE WHERE NOTED) APE PPI PP POWER POLE J 0 SURFACE MOUNTED JUNCTION BOX AND BLANK PLATE, WALL MTD. OR MTD. TO e, f, h, i CEILING/STRUCTURE AS INDICATED. SURFACE MOUNTED WEATHERPROOF JUNCTION BOXAND BLANK PLATE, WALL MTD. OR f, h, i WIG -1 VUP J❑ MTD. TO CEILING/STRUCTURE AS INDICATED. QJ JUNCTION BOX AND BLANK PLATE, ABOVE CEILING. e, f FLUSH CEILING JUNCTION BOX AND BLANK PLATE. e, f FLUSH WALL JUNCTION BOXAND BLANK PLATE. f /cy /\ % /0/ MOTOR, AS NOTED, 1 DISCONNECT SWITCH. REFER TO EQUIPMENT FEEDER SCHEDULE FOR REQUIREMENTS h 1 ] 1--}' (I.E. SIZE, FUSED, NON -FUSED, ETC.) g fc ® MAGNETIC MOTOR STARTER OR CONTACTOR, AS NOTED. h, J COMBINATION DISCONNECT/MOTOR STARTER, AS NOTED. h,1 VFDJ VFD VFD VARIABLE FREQUENCY DRIVE, COORDINATE WITH DIVISION 15. h, l LMfi r MJ-r -i- M❑f f 120V CONNECTION TO MOTORIZED DAMPER, COORDINATE WITH DIVISION 15. (W THERMOSTAT CONNECTION. PROVIDE AND INSTALL WALL OUTLET BOX AND c, d RACEWAY AS REQUIRED BY DIVISION 15. ICE Cj © CONTROL AND/OR POWER EQUIPMENT CONNECTION. 1 RELAY. COIL VOLTAGE = 24VAC OR 120VAC, TYPE AS INDICATED ON DRAWINGS. (NO) = NORMALLY OPEN. (NC) = NORMALLY CLOSED 120/208V OR 2771480V BRANCH CIRCUIT PANELBOARD AS INDICATED, FLUSH j MOUNTED -- --- � 120/208V OR 2771480V BRANCH CIRCUIT PANELBOARD AS INDICATED, SURFACE h 1 MOUNTED = __= ❑ TRANSFORMER, PAD MOUNTED (PROVIDE 4" CONCRETE HOUSEKEEPING PAD FOR ALL INDOOR APPLICATIONS.) ) AUTOMATIC TRANSFER SWITCH h, I r n ENCLOSED MOLDED CASE CIRCUIT BREAKER IN NEMA 1 ENCLOSURE h,1 I SPD 1 I,. PDT] SPD SURGE SUPPRESSION DEVICE BRANCH CIRCUIT CONDUIT CONCEALED ABOVE CEILING OR IN WALL. MINIMUM TWO — CONDUCTORS PLUS GROUND, REFER TO SPECIFICATIONS AND EQUIPMENT FEEDER SCHEDULE FOR CONDUCTOR REQUIREMENTS. ARROWS INDICATE CIRCUIT CONNECTIONS AND HOMERUNS TO PANEL AS INDICATED ON PLANS, TYPICAL FOR ALL RACEWAY TYPES, U.O.N. BRANCH CIRCUIT CONDUIT CONCEALED BELOW SLAB OR UNDERGROUND P --J I BRANCH CIRCUIT CONDUIT EXPOSED �E E ' -, E \ EMERGENCY SYSTEM BRANCH CIRCUIT CONDUIT, CONCEALED (LIFE SAFETY BRANCH) i C ` C LEGALLY REQUIRED STANDBY SYSTEM BRANCH CIRCUIT CONDUIT, CONCEALED (CRITICAL BRANCH) . Q ^ Q OPTIONAL STANDBY SYSTEM BRANCH CIRCUIT CONDUIT, CONCEALED (EQUIPMENT �Q� / \ / "\ BRANCH) ADC, ,,-DC -. /-DC--,\ DIRECT CURRENT EMERGENCY SYSTEM WIRE AND CONDUIT, CONCEALED / \ IG IG -... IG ISOLATED POWER SYSTEM CONDUIT, CONCEALED WITH INSULATED ISOLATED / \ / GROUNDING CONDUCTOR IN ADDITION TO EQUIPMENT GROUND CONDUCTOR. LV � LV ..... / LV \ LOW VOLTAGE CONTROL WIRING AND CONDUIT, CONCEALED COMPUTER EQUIPMENT POWER BRANCH CIRCUITRY, CONCEALED. PROVIDE INDIVIDUAL CIO CP NEUTRAL FOR EACH CIRCUIT COMPLETE FROM PANEL TO RECEPTACLE. DO NOT COMBINE 'CP' NEUTRALS OF ONE CIRCUIT WITH NEUTRAL OF OTHER CIRCUIT, #10 AWG MINIMUM THROUGHOUT ENTIRE CIRCUIT. — — — --- --j CONDUIT CONTINUED — — — ---------------] ] CONDUIT CAPPED OFF — — — --------a o CONDUIT RUN UP — — — ---------e CONDUIT RUN DOWN — --� — e- ----- EXPLOSION -PROOF CONDUIT SEAL OFF FITTING 9 GENERAL ELECTRICAL NOTES: 1. ALL 120V, 20A CIRCUITS SHALL BE #10 CU MINIMUM UNLESS NOTED OTHERWISE. #12 CU CONDUCTORS ARE ONLY ACCEPTABLE WHERE SPECIFICALLY CALLED OUT ON THE PLANS. INCREASE HOMERUN CONDUCTOR SIZE AS NOTED BELOW FOR VOLTAGE DROP. NOTE THAT THE CORRESPONDING EQUIPMENT GROUNDING CONDUCTOR SIZE WILL BE THE SAME AS THE PHASE CONDUCTOR SIZE TO SATISFY 240.23 NEC. 2. ALL 120V, 20A CIRCUIT HOMERUNS, SHALL BE #10 CU MINIMUM, UNLESS NOTED OTHERWISE. 3, ALL 120V, 20A CIRCUIT HOMERUNS OVER 100FT, BUT LESS THAN 240FT SHALL BE #8 CU MINIMUM, UNLESS NOTED OTHERWISE. 4. ALL 120V, 20A CIRCUIT HOMERUNS OVER 240FT SHALL BE #6 CU MINIMUM, UNLESS NOTED OTHERWISE. 5. ALL 277V, 20A CIRCUITS SHALL BE #12 CU MINIMUM UNLESS NOTED OTHERWISE, 6. ALL 277V, 20A CIRCUIT HOMERUNS OVER 125FT, BUT LESS THAN 20OFT SHALL BE #10 CU. MINIMUM, UNLESS NOTED OTHERWISE. 7. ALL 277V, 20A CIRCUIT HOMERUNS OVER 200FT, BUT LESS THAN 30OFT SHALL BE #8 CU. MINIMUM, UNLESS NOTED OTHERWISE. 8. ALL 277V, 20A CIRCUIT HOMERUNS OVER 30OFT SHALL BE #6 CU, MINIMUM, UNLESS NOTED OTHERWISE. 9, ALL 120VAND 277V 20A BRANCH CIRCUITS NOT SPECIFICALLY CALLED OUT BY NOTE OR EQUIPMENT SCHEDULE DO COMPLY WITH 505.7.3.2 FBC, ENERGY CONSERVATION, 2010. BRANCH CIRCUIT CONDUCTORS AS NOTED ON THE PLANS AND AS NOTED IN THE GENERAL NOTES ARE SIZED FOR A MAXIMUM VOLTAGE DROP OF 3%AT DESIGN LOAD. FEEDERS INCLUDING SERVICE ENTRANCE FEEDERS COMPLY WITH 505.7.31 FBC, ENERGY CONSERVATION, 2010. FEEDERS ARE SIZED FOR A MAXIMUM VOLTAGE DROP OF 2%AT DESIGN LOAD. 10. PROVIDE PULL STRINGS IN ALL EMPTY CONDUIT AND RACEWAYS AT EACH END. 11. COMPLY WITH ARTICLE 210.4 OF THE NEC, 2008. PROVIDE A DEDICATED NEUTRAL FOR ALL 120V AND 277V CIRCUITS OR PROVIDE C.B. HANDLE TIES TO CONNECT POLES SERVING MULTI -WIRE CIRCUITS. 12. VERIFY EXACT LOCATION OF ALL MECHANICAL EQUIPMENT WITH MECHANICAL INSTALLER PRIOR TO ROUGH -IN. 13. COORDINATE EXACT LOCATION OF LIGHTING FIXTURES IN MECH. ROOMS/SPACES WITH DUCTWORK INSTALLER PRIOR TO ROUGH -IN. LOCATE BELOW DUCTWORK (8'-0" AFF MINIMUM) CENTERED IN ROOM AS MUCH AS POSSIBLE. 14. COORDINATE THE REQUIRED SIZE OF ALL CIRCUIT BREAKERS FEEDING EQUIPMENT, (I.E. MOTORS, HVAC, KITCHEN EQUIPMENT, SPECIAL PURPOSE OUTLETS, ELEVATORS, OWNER FURNISHED EQUIPMENT ETC.) WITH APPROVED EQUIPMENT SHOP DRAWINGS AND OWNER REPRESENTATIVES PRIOR TO ORDERING PANELBOARDS. BREAKERS SHALL BE SIZED IN ACCORDANCE WITH THE NEC, THE EQUIPMENT NAME PLATE AND MANUFACTURERS RECOMMENDATIONS. 15, THE USE OF ANY PROCESS INVOLVING ASBESTOS OR PCB, AND THE INSTALLATION OF ANY PRODUCT, INSULATION, COMPOUND OF MATERIAL CONTAINING OR INCORPORATING ASBESTOS OR PCB, IS PROHIBITED. THE REQUIREMENTS OF THIS SPECIFICATION FOR A COMPLETE AND PROPERLY OPERATING ELECTRICAL SYSTEM SHALL BE MET WITHOUT THE USE OF ASBESTOS OR PCB. W. VISIT THE SITE AND CAREFULLY EXAMINE THE AREAS AFFECTED BY THIS WORK BEFORE SUBMITTING PROPOSALS, SO AS TO BECOME FAMILIAR WITH THE EXISTING CONDITIONS AND DIFFICULTIES THAT WILL AFFECT EXECUTION OF THE WORK. SUBMISSION OF A PROPOSAL WILL BE CONSTRUED AS EVIDENCE THAT SUCH EXAMINATION HAS BEEN MADE AND LATER CLAIMS FOR LABOR, EQUIPMENT OR MATERIALS REQUIRED BECAUSE OF DIFFICULTIES ENCOUNTERED WILL NOT BE RECOGNIZED, 17. CONTRACTOR SHALL INCLUDE IN HIS BID THE TRANSPORT AND DISPOSAL OR RECYCLING OF ALL WASTE MATERIALS GENERATED BY THIS PROJECT IN ACCORDANCE WITH ALL RULES, REGULATIONS AND GUIDELINES APPLICABLE. 18. CONTRACTOR SHALL COMPLY FULLY WITH FLORIDA STATUTE 403.7186 REGARDING MERCURY CONTAINING DEVICES. 19. LAMPS, BALLASTS AND OTHER MATERIALS SHALL BE TRANSPORTED AND DISPOSED OF IN ACCORDANCE WITH THE DEPARTMENT OF ENVIRONMENTAL PROTECTION AND THE ENVIRONMENTAL PROTECTION AGENCY GUIDELINES. 20. THE CONTRACTOR SHALL PROVIDE WRITTEN CERTIFICATION THAT ALL MATERIALS WHERE RECYCLED OR DISPOSED OF PROPERLY PER THE GUIDE LINE NOTED ABOVE. 21. EXISTING CONDITIONS AND UTILITIES INDICATED ARE TAKEN FROM EXISTING CONSTRUCTION DOCUMENTS, VARIOUS SURVEYS AND FIELD INVESTIGATIONS. IT IS TO BE UNDERSTOOD THAT UNFORESEEN CONDITIONS PROBABLY EXIST AND NEW WORK MAY NOT BE FIELD LOCATED EXACTLY AS SHOWN ON THE DRAWINGS. COOPERATION WITH OTHER TRADES IN ROUTING AND/OR BURIAL DEPTHS AS DETERMINED DURING CONSTRUCTION AND AS DIRECTED BY THE ARCHITECT/ENGINEER MAY BE NECESSARY AND IT IS INTENDED THAT SUCH DEVIATIONS SHALL BE CONSIDERED A PART OF THIS CONTRACT. IT IS ALSO UNDERSTOOD THAT THE PLANS ARE NOT COMPLETELY TO SCALE. THIS CONTRACTOR IS TO FIELD VERIFY DIMENSIONS OF ALL SITE UTILITIES, ETC., PRIOR TO BID AND INCLUDE ANY DEVIATIONS IN THE CONTRACT. 22. LOCATE ALL EXISTING UTILITIES AND PROTECT THEM FROM DAMAGE. DAMAGE TO EXISTING UTILITIES WITHIN THE PROJECT ARE TO BE REPAIRED AT NO EXPENSE TO THE OWNER. 23. REMOVE EXISTING POWER, LIGHTING, SYSTEMS MATERIALS AND EQUIPMENT WHICH ARE MADE OBSOLETE OR WHICH INTERFERE WITH THE CONSTRUCTION OF THE PROJECT. REINSTALL ANY SUCH POWER, LIGHTING, SYSTEMS, MATERIALS AND EQUIPMENT WHICH ARE REQUIRED TO REMAIN ACTIVE FOR THE FACILITY TO BE FULLY FUNCTIONAL. 24. CONDUITS ARE TO BE CONCEALED WHERE PRACTICABLE. 25. COORDINATE ROUGH -IN WITH COMMUNICATION, DATA AND SECURITY EQUIPMENT REQUIREMENTS. 26. CONTACT THE POWER COMPANY, TELEPHONE COMPANY AND COMMUNICATION COMPANY WITHIN 10 DAYS OF THE AWARD OF THE CONTRACT AND SCHEDULE NEW SERVICE INSTALLATION. 27. PROVIDE A UL LISTED FIRE RATED BARRIER APPLIED TO J-BOXES LOCATED ON A FIRE RATED WALL. FOR EXAMPLE: 3M-TYPE-45+ AND USE WITH 4-11 /16" BOX. 28, ELECTRIC WIRING FOR LIGHT, POWER, HEAT AND SIGNAL OR CONTROL CIRCUITS AND FOR ELECTRICALLY OPERATED TOOLS, PORTABLE APPLIANCES, AND DEVICES SHALL BE IN ACCORDANCE WITH THE PROVISIONS OF NFPA 70. 29. PROVIDE STEEL COMPRESSION FITTINGS FOR ELECTRICAL METALLIC TUBING (EMT). Sims Wilkerson Ca Engineering, In( 12124 High Tech Avenue - Suitt 200 Orlando, Florida 32817 (407)380-0400 FAX (407)380-5901 CERT. OF AUTH. NO. 6106 M CARY A. tk=RSON. PE.43167 o NYU I. CARTLER, PE. 53269 o ADAkl5 LHVTNE, P.E. 77010 o JEFF A. K1tML4-A, PE.656„9 = SAIvNEL R eV X.NDER, Y.E. 554M 14001 c J L.L W _.j W 1 W F— U c L0o z J N J 11 O cM W +r .� f LLj U c C � U c Z W 6 Li J VJ G OUn U. o 04 0 w o v qqr— 'D VJ 0 GENERALNOTES ( C 11 ................. '1OVERALL GROUND FLOOR PLAN - DEMO - ED201 3/64" = 11-0" 1. REFERENCE THE SYMBOL LEGEND AND GENERAL NOTES ON SHEET E001. 2, REFERENCE THE ELECTRICAL SPECIFICATIONS ON THE E800 DRAWINGS SERIES. DEMOLITION OF MECHANICAL EQUIPMENT ARE SHOWN FOR REFERENCE ONLY. COMPLETELY DEMOLISH ALL ELECTRICAL EQUIPMENT SERVING MECHANICAL EQUIPMENT TO BE DEMOLISHED BACK TO SOURCE PANEL UNLESS EXISTING ELECTRICAL EQUIPMENT ALSO SERVE OTHER EQUIPMENT THAT ARE TO REMAIN ACTIVE. IN THIS CASE, DEMOLISH BACK TO SPLICE POINT WHERE OTHER ACTIVE EQUIPMENT ARE SERVED. I. REFERENCE THE NEW WORK ON SHEETS E201, E201A, E201 B, AND E202. REFERENCE NOTES D1 EXISTING CUTLER -HAMMER 150 A MAIN CIRCUIT BREAKER PANELBOARD WITH 208/120 V, 3-PHASE, 4- WIRE, AND 10,000 AIC AT 240 V. REFERENCE SHEET E201A FOR RENOVATION WORK REQUIRED. D2 EXISTING CUTLER -HAMMER 200 A MAIN CIRCUIT BREAKER PANELBOARD WITH 208/120 V, 3-PHASE, 4- WIRE, AND 10,000 AIC AT 240 V SERVING AREA A. D3 EXISTING CUTLER -HAMMER 125 A MAIN CIRCUIT BREAKER PANELBOARD WITH 208/120 V, 3-PHASE, 4- WIRE, AND 10,000 AIC AT 240 V SERVING AREA A ALONG WITH CONDENSING UNITS CU-1 AND CU-2 TO BE DEMOLISHED. AFTER DEMOLITION OF CU-1 AND CU-2 IDENTIFY THEIR BREAKERS IN PANEL AS SPARES. D4 EXISTING CUTLER -HAMMER 100 A MAIN CIRCUIT BREAKER PANELBOARD WITH 208/120 V, 3-PHASE, 4- WIRE, AND 10,000 AIC AT 240 V SERVING AREA A. D5 EXISTING PANELS SHOWN WITHIN THIS AREA ARE ALL 208V, 3-PHASE, AND ARE FED FROM TRANSFORMERS LOCATED AT THE NORTH WEST END OF THE AREA A ON THE MEZZANINE LEVEL. D6 DEMOLISH MOTOR CONNECTION BACK TO SERVING JUNCTION BOX TO ALLOW FOR NEW EXHAUST FAN TO BE CONNECTED TO THE SAME EXISTING CIRCUIT. GENERAL PHASING NOTES 1. REFERENCE THE PHASING NOTES ON MECHANICAL SHEET M100. 2. PROVIDE ELECTRICAL DEMOLITION AND RENOVATION WORK AS NECESSARY TO SUPPORT THE PHASES OF THE MECHANICAL DEMOLITION AND RENOVATION. O KEY PLAN F1 Sims Wilkerson Cartier Engineering, Inc. 12124 High Tech Avenue - Suite. 200 Orlando, Florida 32817 (407)380-0400 FAX (407)380-5900 FL. CERT. OF AUTH. NO. 6106 CI G''Vz)h V u MU901. RL 41169 K. 11 3 CARfVkP.1 53269 o rlj),W S. IlNIRL P.E 71010 01EtH A. KI K>44N. P.F. 65fi29 • 5gNn U It AI PV ANE ElL P.E. 55122 14001 T RI111////// �� PC?.•�•ICEp `.92i�� •mom 7� = p STAp� QNA I I ING \\\\ O O -' ^� VJ U U_ orf F— J W I O w Q J O 0 � ICUL L_ O 00 �, O 0 c N c O C J U U J a) �j a) 5 U Z3 L1J J Q O (n 2 (n LO 0 o CV M w H.1 - G.1 - F.1 - E.1 - D.1 - C.1 - B,1 - 0VFRALI 3/64" = 1'-10 i i i i i I I I i i I i i I i i7- i I fi I _i i - DEMO - EL GENERALNOTES 1. REFERENCE THE SYMBOL LEGEND AND GENERAL NOTES ON SHEET E001. 2, REFERENCE THE ELECTRICAL SPECIFICATIONS ON THE E800 DRAWINGS SERIES. 3. DEMOLITION OF MECHANICAL EQUIPMENT ARE SHOWN FOR REFERENCE ONLY. COMPLETELY DEMOLISH ALL ELECTRICAL EQUIPMENT SERVING MECHANICAL EQUIPMENT TO BE DEMOLISHED BACK TO SOURCE PANEL UNLESS EXISTING ELECTRICAL EQUIPMENT ALSO SERVE OTHER EQUIPMENT THAT ARE TO REMAIN ACTIVE. IN THIS CASE, DEMOLISH BACK TO SPLICE POINT WHERE OTHER ACTIVE EQUIPMENT ARE SERVED. 4. REFERENCE THE NEW WORK ON SHEETS E201, E201A, E201 B, AND E202. REFERENCE NOTES COMPLETELY DEMOLISH ALL ELECTRICAL EQUIPMENT SERVING EXISTING AHU TO BE DEMOLISHED BACK TO SOURCE PANEL AS INDICATED. LOCATION OF SOURCE PANEL BELOW FOR EXISTING AHU CONSISTING OF 125 A MAIN CIRCUIT BREAKER, 208/120 V, 3-PHASE, 4-WIRE. PANEL IS LOCATED DIRECTLY BELOW THIS LEVEL ON GROUND FLOOR. SEE SHEET ED201 FOR LOCATION. D3 LOCATION OF EXISTING ELECTRICAL EQUIPMENT AT MEZZANINE LEVEL CONSISTING OF (2) TRANSFORMERS WITH ASSOCIATED PRIMARY AND SECONDARY DISCONNECTING MEANS. THESE EQUIPMENT ARE NOT READILY ACCESSIBLE. THE TRANSFORMERS SERVE PANELS ON GROUND FLOOR DIRECTLY BELOW MEZZANINE LEVEL. GENERAL PHASING NOTES 1. REFERENCE THE PHASING NOTES ON MECHANICAL SHEET M100. 2. PROVIDE ELECTRICAL DEMOLITION AND RENOVATION WORK AS NECESSARY TO SUPPORT THE PHASES OF THE MECHANICAL DEMOLITION AND RENOVATION. O KEY PLAN Sims Wilkerson Cartier Engineering, Inc. 12124 High Tech Avenue - Suite. 200 Orlando, Florida 32817 (407)380-0400 FAX (407)380-5900 FL. CERT. OF AUTH. NO. 6106 o GARS A. R9 RSUN. PE. 4.3167 o FYLEL('A MT P.E. 53M9 a AUA.MS. LEVL�E, P 4 77010 vMF A.E MAN.PE.656" •SANK J-R.A LNANUER P.E. 55422 14001 i 70 _ _ STgOj� ; S3l" "OR I D P t�\� ��NALIIV-14 \\\ N � F� W W n, J �G 1 J U_ U u,1 J W I O Uj Q a- U (u Z O LL Q J q >+ .0 >+ � � J U U 0 J a) •� � U LL1 J Q J O (n 2 (n L0 0 N O CV (» T O y -LLJ / (44�(�.��� � 9 G3 3 7RTU T � G l RTU X I f II RTU 4-13 j I PX LJ - OVERALL ROOF PLAN - DEMO - ELECTRICAL 3/64" = 1'-0" GENERALNOTES 1. REFERENCE THE SYMBOL LEGEND AND GENERAL NOTES ON SHEET E001. 2. REFERENCE THE ELECTRICAL SPECIFICATIONS ON THE E800 DRAWINGS SERIES. 3. DEMOLITION OF MECHANICAL EQUIPMENT ARE SHOWN FOR REFERENCE ONLY. COMPLETELY DEMOLISH ALL ELECTRICAL EQUIPMENT SERVING MECHANICAL EQUIPMENT TO BE DEMOLISHED BACK TO SOURCE PANEL "HH" IN MAIN ELECTRICAL ROOM LOCATED AT WEST END OF GROUND FLOOR, UNLESS NOTED OTHERWISE. 4. REFERENCE THE NEW WORK ON SHEETS E201, E201A, E201 B, AND E202, REFERENCE NOTES D1 EXISTING CIRCUIT SERVING EXHAUST FAN TO BE DEMOLISHED APPEARS TO BE SERVING OTHER EQUIPMENT THAT NEED TO REMAIN ACTIVE. DEMOLISH THE PORTION OF THE CIRCUITRY SERVICING EXHAUST FAN BACK TO SPLICE POINT WHERE OTHER ACTIVE EQUIPMENT ARE SERVED. GENERAL PHASING NOTES 1. REFERENCE THE PHASING NOTES ON MECHANICAL SHEET M100. 2. PROVIDE ELECTRICAL DEMOLITION AND RENOVATION WORK AS NECESSARY TO SUPPORT THE PHASES OF THE MECHANICAL DEMOLITION AND RENOVATION. 0 KEY PLAN. Sims Wilkerson Carti( Engineering, Inc. 12124 High Tech Avenue - Suite. 200 Orlando, Florida 32817 (407)380-0400 FAX (407)380-5900 FL. CERT. OF AUTH. NO. 6106 o GAR) A. FWh -R90S, Ph,43167 0K' T1 lDIRTIER. P. E 53269 o .11'M S. I15'1,1 PT 77OP' O Wn' I KPZA 12M PE. 65629 •.S,. ]LNLR A-hx, $R P. E. 51422 14001 �\�J EN 2�y ' STATE OF ss/01NA1 J Q U_ U LL I L.0 Lij 0 N U LC) 7707 J O O J LL- O LL ), O >; O a� or_ O > O o U U a� U W LJ J Q J >10 O _ (n 2 _ (n OLr) L` O T I O p M / w � IT O CV C/) _ 0 cn - = w GENERALNOTES 1. REFERENCE THE SYMBOL LEGEND AND GENERAL NOTES ON SHEET E001. 2. REFERENCE THE POWER RISER DIAGRAMS ON SHEET E601. 3. REFERENCE THE ELECTRICAL SCHEDULES ON THE E700 DRAWING SERIES. 4. REFERENCE THE ELECTRICAL SPECIFICATIONS ON THE E800 DRAWINGS SERIES. 5. REFERENCE THE DEMOLITION WORK ON SHEETS ED201, ED202, AND ED203. MECHANICAL EQUIPMENT SHOWN ON THIS SHEET ARE =OR REFERENCE ONLY. PROVIDE EQUIPMENT ONNECTION AND CIRCUITRY AS INDICATED IN THE =LECTRICAL EQUIPMENT SCHEDULE AND PANEL SCHEDULES FOR THESE EQUIPMENT. FOR THE FEEDERS SERVING AHUs INDICATED ON THIS SHEET, PROVIDE FEEDERS FROM SOURCE PANEL TO EACH AHU VFD, AND FROM THESE VFDs TO THEIR CORRESPONDING AHU. MOUNT VFDs ON WALL ADJACENT TO THEIR CORRESPONDING AHU. REFERENCE NOTES O CONNECT NEW EXHAUST FAN TO LOAD SIDE OF BATHROOM LIGHT SWITCH. VERIFY THAT EXISTING LIGHTING CIRCUIT IS AT 120 V. IF A NEW 120 V CIRCUIT IS REQUIRED, PROVIDE NEW 15A/1-POLE, 120 V CIRCUIT FROM EXISTING 208 V PANEL "LRR" IN MAIN ELECTRCAL ROOM. 20 RELOCATE EXISTING 20A RECEPTACLE ON PLYWOOD WALL BEHIND NEW AHU-2 TO AREA BETWEEN ENTRANCE TO ELECTRICAL ROOM AND AHU-1. O FEEDER FOR NEW PANEL HH4 OR NEW PANEL HH5 FROM EXISTING 480 V PANEL HH1 . ROUTE CLOSE TO THE BOTTOM OF STRUCTURE THAT IS LOCATED 26' ABOVE FINISHED FLOOR. ® PROVIDE A PERMANENT PLAQUE AT MDPt IN ACCORDANCE WITH 230.2(E), NEC WITH A LABEL "SERVICE #1 - BUILDING LOAD EXCLUDING CHILLER PLANT EQUIPMENT. SERVICE 92 AT MDP2 LOCATED ON THE NORTH SIDE OF THE BUILDING." O5 PROVIDE A PERMANENT PLAQUE AT PANEL MDP21N ACCORDANCE WITH 230.2(E), NEC WITH A LABEL "SERVICE #2 - CHILLER PLANT EQUIPMENT. SERVICE #1 AT MDP1 LOCATED ON THE EAST SIDE OF THE BUILDING." © PROVIDE NEW DUCT SMOKE DETECTOR AS INDICATED, MAKE CONNECTION TO EXISTING FIRE ALARM SYSTEM WITH CONTROL PANEL FARADAY MPC-600 LOCATED IN AREA A MEZZANINE. ALSO CONNECT TO NEW VFD SERVING AHU. TEST FOR AHU FAN SHUTDOWN CAPABILITIES. COORDINATE INSTALLATION OF DUCT DETECTOR WITH DIVISION 15 CONTRACTOR WHO IS TO INSTALL DUCT DETECTOR. 3.2 2 NEW PANELS SECTION 1 - ELECTRICAL E201 1/8" = 1'-0" O KEY PLAN Roof 26' - 0" 'ZANI 14'-0 70 " Floor 0'-0" Sims Wilkerson Cartier Engineering, Inc. 12124 High Tech Avenue - Suite. 200 Orlando, Florida 32817 (407)380-0400 FAX (407)380-5900 FL. CERT. OF AUTH. NO. 6106 D @ARC' A \NILR:RSUS. 43167 0 RYLPJ-CAR IG R. PP.5136P.II. 9 A Arl.VNI S IPNINE. PR 7701 t1 oI:A A. IIRRlLky. P.E. 65629 • SMILEL R AI EXANDER, P.E. 55422 14001 T A_LE,/II�/// 1 1 J • y 1 T 1 STATE OF 0�' �LOR\�P ON Ai O} W 0 W (n x V 0 Q I' U W J W uJ Z J O 0L � ICUL N O _O z _J C: LL �, 2) C J U U U � LiJ J Q J O Cn 2 (n LO o � ON CO V r r- W ( 2(2.2) 3 (3 1/ (3.2) �4 (4.2) 7 \_- T 1 I I OFFICE 156 I it CONFERENCE 163 ..J SUPERVISOR I153 I ----- BREAK ROOM 1.35 -� 1 GROUND FLOOR PLAN -AREAA - NEW- ELECTRICAL E201 1/8" = 1'-10" !; I OFFICE I 73I OPEN OFFICE GENERAL NOTES" c 1, REFERENCE THE SYMBOL LEGEND AND GENERAL 1991 NOTES ON SHEET E001. 2. REFERENCE THE POWER RISER DIAGRAMS ON SHEET E601. 3. REFERENCE THE ELECTRICAL SCHEDULES ON THE r ims Wilkerson Cortler Engineering E700 DRAWING SERIES. �Y ' r/ 4. REFERENCE THE ELECTRICAL SPECIFICATIONS ON4 -Inwrpor4nd, S THE E800 DRAWINGS SERIES."9 5. REFERENCE THE DEMOLITION WORK ON SHEETS - -- ED201, ED202, AND ED203. Sims Wilkerson Cart - - -- 6.- MECHANICAL EQUIPMENT SHOWN ON THIS SHEET ARE Engineering, Inc. FOR REFERENCE ONLY. PROVIDE EQUIPMENT CONNECTION AND CIRCUITRY AS INDICATED IN THE 12124 High Tech Avenue - Suite. ELECTRICAL EQUIPMENT SCHEDULE AND PANEL 200 Orlando, Florida 32817 SCHEDULES FOR THESE EQUIPMENT. (407)380-0400 FAX (407)380-5900 FI CERT. OF AUTH. NO.6106 7. FOR THE FEEDERS SERVING AHUs INDICATED ON THIS 0(iARN A Wn]3160Nd P.f 43167 SHEET, PROVIDE FEEDERS FROM SOURCE PANEL TO o K� it l.(';vi pF.R, PE 53269 i �mN,P n56 oJTJI EACH AHU VFD, AND FROM THESE VFDS TO THEIR oAD h11,\INY,CH,7010 I CORRESPONDING AHU. MOUNT VFDS ON WALL .s:natj.a ure»U!$ PE.5548 14001 ADJACENT TO THEIR CORRESPONDING AHU. REFERENCE NOTES OF>#iC O EXISTING CUTLER HAMMER 150 A MAIN CIRCUIT f 201_._._, BREAKER PANELBOARD WITH 208/120 V, 3-PHASE, 4- WIRE, AND 10,000 AIC AT 240 V. REPLACE EXISTING MECH RM CORRIDOR SPARE 20A/1-POLE BREAKER AT CIRCUIT #30 WITH A 15A/1-POLE BREAKER TO SERVE NEW EXHAUST FAN L 238 EF-3. LABEL PANEL "L1". F 2O EXISTING CUTLER -HAMMER 200 A MAIN CIRCUIT BREAKER PANELBOARD WITH 208/120 V, 3-PHASE, 4- WIRE, AND 10,000 AIC AT 240 V SERVING AREA A. LABEL PANEL "12". OFFICE _ 3O EXISTING CUTLER -HAMMER 125 A MAIN CIRCUIT 202 BREAKER PANELBOARD WITH 208/120 V, 3-PHASE, 4- WIRE, AND 10,000 AIC AT 240 V SERVING AREA A. LABEL PANEL "13". ' (D EXISTING CUTLER -HAMMER 100 A MAIN CIRCUIT BREAKER PANELBOARD WITH 208/120 V, 3-PHASE, 4- WIRE, AND 10,000 AIC AT 240 V SERVING AREA A. "LABEL PANEL "14". DENTAL OP ✓ O5 PROVIDE NEW DUCT SMOKE DETECTOR AS 293 >., WAREHOUSE INDICATED, MAKE CONNECTION TO EXISTING FIRE 205 ALARM SYSTEM WITH CONTROL PANEL FARADAY 4 MPC-600 LOCATED IN AREA A MEZZANINE. ALSO g CONNECT TO NEW VFD SERVING AHU. TEST FOR AHU 1 FAN SHUTDOWN CAPABILITIES. COORDINATE DENTAL OP INSTALLATION OF DUCT DETECTOR WITH DIVISION 15 I 23 i CONTRACTOR WHO IS TO INSTALL DUCT DETECTOR. it r L 7 P3 ry DENTAL OP t+;: STERILIZATIONI� 204 235 VAV , 6-04 DENTAL OP OFFICE CP/AHU-7 O KEY PLAN J Q U_ F— U w J W W z Q Q W Q 1 (n Z U M In Q —� O) O O O ___1 O LL c*) O .� � O L J 1 O > O MC) U o z U a� � U W O J J r1 U) OLO LL (O CN a r O W I CD AUTOMOTIVE AREA Room 223 1 GROUND FLOOR PLAN - AREA B - NEW - 01 B 1 /8" = 1'-0" GENERAL NOTES 1. REFEREENCE THE SYMBOL LEGEND AND GENERAL NOTES ON SHEET E001. 2. REFERI NCE THE RISER DIAGRAMS ON SHEET E601. 3. REFERENCE THE ELECTRICAL SCHEDULES ON THE E700 DRAWING SERIES. 4. REFERENCE THE ELECTRICAL SPECIFICATIONS ON THE E800 DRAWINGS SERIES. 5, REFERENCE THE DEMOLITION WORK ON SHEETS ED201, ED202, AND ED203. 6. MECHANICAL EQUIPMENT SHOWN ON THIS SHEET ARE FOR REFERENCE ONLY. PROVIDE EQUIPMENT CONNECTION AND CIRCUITRY AS INDICATED IN THE ELECTRICAL EQUIPMENT SCHEDULE AND PANEL SCHEDULES FOR THESE EQUIPMENT. 7. FOR THE FEEDERS SERVING PUMPS AND AHUs INDICATED ON THIS SHEET, PROVIDE FEEDERS FROM SOURCE PANEL TO EACH EQUIPMENT VFD, AND FROM THESE VFDs TO THEIR CORRESPONDING EQUIPMENT. FOR PUMPS, MOUNT VFDs AS INDICATED. FOR AHUs, MOUNT VFDs ON WALL ADJACENT TO THEIR CORRESPONDING AHU. REFERENCE NOTES O CONNECT NEW EXHAUST FAN TO LOAD SIDE OF BATHROOM LIGHT SWITCH. VERIFY THAT EXISTING LIGHTING CIRCUIT IS AT 120 V. IF A NEW 120 V CIRCUIT IS REQUIRED, PROVIDE NEW 15A/1-POLE, 120 V CIRCUIT FROM EXISTING 208 V PANEL 'LT" INDICATED 1 N THIS AREA. 2O EXISTING GENERAL ELECTRIC 225 A MAIN LUGS ONLY PANELBOARD "HT" WITH 480/277 V, 3-PHASE, 4-WIRE, AND 14,000 AIC AT 480 V SERVING UNIT HEATERS, LIGHTING, AND PANEL "LT" VIA TRANSFORMER" TT" IN THE AUTOMOTIVE AREA. O EXISTING 30 kVA TRANSFORMER "TT" SUSPENDED FROM ABOVE. ® EXISTING GENERAL ELECTRIC 100 A MAIN CIRCUIT BREAKER PANELBOARD "LT" WITH 208/120 V, 3-PHASE, 4-WIRE, AND 10,000 AIC AT 240 V SERVING RECEPTACLES AND MISCELLANEOUS EQUIPMENT IN THE AUTOMOTIVE AREA. O5 EXISTING SIEMENS 100 A MAIN LUGS ONLY PANELBOARD TYPE P1 WITH 480/277 V, 3-PHASE, 4- WIRE, AND 14,000 AIC AT 480 V SERVING AIR COMPRESSOR, LIGHTING FOR WORKSHOP AND GREEN COLOR AREA. LIGHTING IN THE WORK SHOP IS SWITCHED AT THIS PANEL. © PROVIDE NEW DUCT SMOKE DETECTOR AS INDICATED, MAKE CONNECTION TO EXISTING FIRE ALARM SYSTEM WITH CONTROL PANEL FARADAY MPC-600 LOCATED IN AREA A MEZZANINE. ALSO CONNECT TO NEW VFD SERVING AHU. TEST FOR AHU FAN SHUTDOWN CAPABILITIES. COORDINATE INSTALLATION OF DUCT DETECTOR WITH DIVISION 15 CONTRACTOR WHO IS TO INSTALL DUCT DETECTOR. 7O ROUTE FEEDER CLOSE TO THE BOTTOM OF ROOF STRUCTURE. ® DATA OUTLET FOR BUILDING MANAGEMENT SYSTEM (BMS) WORKSTATION. PROVIDE A 3/4" CONDUIT FROM OUTLET TO TECHNOLOGY ROOM 194 IN AREA A. 5.1 PANEL PANEL 11' t CPL2 Ful CPH1 011 SFORMER � 0' - �Q" -CPL2— 2 NEW PANELS SECTION - 01 B 1 /4" = 1'-0" 1) KEY PLAN Sims Wilkerson Cartier Engineering, Inc. 12124 High Tech Avenue - Suite. 200 Orlando, Florida 32817 (407)380-0400 FAX (407)380-5900 FL. CERT. OF AUTH. NO. 6106 0 GA2 A. 14T1 R50\. PI:. 43161 o M713, C, RZ HER PE. 9269 o AUA\19-IEN AT, P.C. 77010 o MFFA.K KNLAN, P.E. 656) • S, .ARU R. A&N AADIM P R 55422 14001 /Xi � Qm No. e, A o; j — 'A •, STATE OF % Q F`�'RIDp 'N���� /// /0 --- O0 O F- � W n" O W � l U � J Q U_ F— U Uj w 1 W Z m Nw Z U ca Q a 0 O LL C O O .� p c c 'J O > O 0 U o U U O J J w > U cn 2 Cn L0 C C)� m � o N - - w 2 2.1 2.2 3 3.1 3.2 4 4.2 4.4 5 5.1 5.2 6 6.1 6.2 1 7 I— fi 4 4'-0" r EXISTING ELECTRICAL ROOM AT MEZZANINE LEVEL 1 OVERALL MEZZANINE PLAN - NEW - ELECTRICAL E202 3/64" = V-0" GENERAL NOTES 1. REFERENCE THE SYMBOL LEGEND AND GENERAL NOTES ON SHEET E001. 2. REFERENCE THE POWER RISER DIAGRAMS ON SHEET E601. 3. REFERENCE THE ELECTRICAL SCHEDULES ON THE E700 DRAWING SERIES. 4. REFERENCE THE ELECTRICAL SPECIFICATIONS ON THE E800 DRAWINGS SERIES. 5. REFERENCE THE DEMOLITION WORK ON SHEETS ED201, ED202, AND ED203. 6. MECHANICAL EQUIPMENT SHOWN ON THIS SHEET ARE FOR REFERENCE ONLY. PROVIDE EQUIPMENT CONNECTION AND CIRCUITRY AS INDICATED IN THE ELECTRICAL EQUIPMENT SCHEDULE AND PANEL SCHEDULES FOR THESE EQUIPMENT. REFERENCE NOTES 1O NEW FEEDER FOR NEW PANEL HH4 OR NEW PANEL HH5 FROM EXISTING 480 V PANEL HH1. SEE SHEET E201 FOR REQUIREMENTS. O KEY PLAN Sims Wilkerson Cap Engineering, Inc 12124 High Tech Avenue- Suite. 200 Orlando, Florida 32817 (407)380-0400 FAX (407)380-590C CERT. OF AUTH. NO. 6106 o CAM A. \ND.h1R50!c PN. A1167 o k. 1 F I. CAR F[EK P.L. 53269 i] dpANJ S LLVML", P.N. 99010 p ]EA \ URI MAI PT Wi l • SAMLPJ-R. ,llBXk\])L1L P.L. 5A22 14001 IFi.IALE Zz No. 4 2 *: ��Ib STATE OF w O ��,o ,F�ORIO�•'•���� i��iE`SS/DNA �I�aO\`\\ II I J Q U_ F— U Uj W W Z Q J U Cc W -C •L r Z N Z LL Q J C:O N .� O } W C C c F— J U C: J Q - C.j a W LLJ J a. �> w O ) 2 a- u; oa LL o 0 W o N O (n = N U) W GENERAL NQTES 1 1. REFERENCE THE SYMBOL LEGEND AND GENERAL NOTES ON SHEET E001. E212 2. REFERENCE THE POWER RISER DIAGRAMS ON SHEET 'ims Wilkersou d"artie 2 E601. '6 EngineeIIIIg 3. REFERENCE THE ELECTRICAL SCHEDULES ON THE P n<o wrated° z- E700 DRAWING SERIES. -'Wo, �10N SL1 E1501 o — 0 4. REFERENCE THE ELECTRICAL SPECIFICATIONS ON ..... o ..._ THE E800 DRAWINGS SERIES. CB/ CB/ FUTURE 5 REFER NCE THE AND EDOLI ION WORK ON SHEETS Sims Wilkerson Cart CH-1 CH-2 CB/CH-3 Engineering, Inc, 6. MECHANICAL EQUIPMENT SHOWN ON THIS SHEET ARE 12124 High Tech Avenue - Suite. FOR REFERENCE ONLY. PROVIDE EQUIPMENT 200 Orlando, Florida 32817 CONNECTION AND CIRCUITRY AS INDICATED IN THE (407)380-0400 FAX (407)380-5900 FI ELECTRICAL EQUIPMENT SCHEDULE AND PANEL CERT. OF AUTH. NO. 6106 0 SCHEDULES FOR THESE EQUIPMENT. ocaean W MSON. Pa. 43167 0 6' , b4R , P.E. 53269 O o Xff A S. L84'ME, P.E. ]7010 6362 D IEFF A. IStAAM1N, P.E. 6i629 •SAMUELR, ALEXANDEII, P.E. 55422 14001 I 1 IST IST IST IST 1 3 5 7 REFERENCE NOTES 0 o IST IST IST 10 PROVIDE POWER REQUIREMENTS TO THIS EQUIPMENT AS INDICATED IN THE EQUIPMENT 2 4 6 FUTURE ICE FEEDER SCHEDULE ON SHEET E701. FOR CH-1 AND STORAGE TANK CH-2, IN ADDITION TO FEEDER CONNECTION VIA RACK (IST). TYPICAL OF MOUNTED CIRCUIT BREAKER, PROVIDE CONNECTION SEVEN (7). FOR INTEGRAL WEATHERPROOF, GFCI RECEPTACLE �. � AS INDICATED IN FEEDER SCHEDULE. \N�%,• O2 22" LONG x 16" WIDE SOLID STATE LED POLE 55 2 o MOUNTED LUMINAIRE WITH TYPE IV DISTRIBUTION = �t ; o AND SPILL CONTROL. DESIGN SELECTION: COOPER LIGHTING #GAN-AA-02-LED-SL4-BZ. PROVIDE WITH .10 S ATE OF ; ✓�y 103W LAMPS AT 8,200 LUMENS, AND WITH INTEGRAL O �. PHOTOCELL FOR PHOTOOCELL'ON', PHOTOCELL �i�'�F OR'OFFCONTROL. FIXTURE I;?� TH 7" ARM ON OF 6" SQUARE, 5' E, 2OLONG CONCRETE POLE WITH 5-TOP s/ONA ;1 DIRECTLY BURIED BELOW GRADE. SEE DETAIL 2 ON �...�..� SHEET E501. PROVIDE CIRCUIT AS INDICATED IN FEEDER SCHEDULE. b 1 ZH O O U U CH 3 " FUTURE � 4 O U J U (a / -0 t1') w cA �. ''^^ 0) O ..... __.... - 0 2 0 V JJ o LJL SL1 CIO 2 � J Q J > W U) = Cn LL o W CO cp U) N 1 ENLARGED CHILLER PLANT - ELECTRICAL U) w E210 1/4" = 1'-0"