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Home My WebLink AboutM04.01 Mech Respons Schedule1. Summary Ventilation Sizing Method ... ........ ..:........................ ASHRAE Sea 62142013 Design Condition ._......: .............. .................... ....... ...__. Headng operation Creamer Diversity (D)........................................................................ 1.DDO Uncensored! OUMar Air Irtalae(you).................................................... an CFM System Wetilatlan Elements (Ev) ...................x................................. O.ae7 Outdoor Arhnake(Vol).....................................-................................ 1001 DIM 9 onu Van+llaann aaaleele ' SupplySpamFlarAreaOutdoor Air CFM Area IP Air Rate CFN ) Time Averaged Occupancy Occu Ms People Outdoor Air luster CFMI rson -- Air [ventilation Enectiveness Space Outdoor Air CFM - arerthlrg Zone Outdoors FM - Space VentllMon EMatene Zone Name l Space Notes Meg. IVpxI (Az) (Ra) (Pz) (Rp) (Ezl [Fox) DxD (Evy Zone1 BOH 1 637 637.0 0.12 32 7% 0.8 126 lIXi 1.077 surest 1 1707 1425.0 0.12 285 7SO 0.8 b1 385 0.992 Sueea2 1 1203 11680 0.12 23.4 7.50 0.8 ]p4 3f5 0.897 Caahwrap 1 4% 309.0 0.12 6.0 7.50 0.8 121 47 0.958 Tetels(inel. Space Wituraparni 4004 898 0.897 OUTSIDE AIR CALCULATIONS DESIGN WEATHER PARAMETERS Design Parameters City Name Location Latitude Longitude Elevation Summer Design Dry -Bulb Summer Coincident Wet -Bulb Summer Daily Range Winter Design Dry -Bulb Winter Design Wet -Bulb Atmospheric Clearness Number Average Ground Reflectance Sol Conductivity Local Time Zone (GMT +/- N hours) Consider Daylight Savings Time Simulation Weather Data Current Data Is Design Cooling Months Indianapolis Indiana 39.7 Deg. 86.3 Deg. 807.0 It 91.0 OF 75.0 OF 18.9 OF .3.0 OF 4.4 OF 1.00 0.20 0.800 BTU/(hrN `F) 5.0 hours No N/A 2001 ASHRAE Handbook January to December NTS VARIABLE AIR VOLUME (VAV) AND FAN -POWERED VARIABLE AIR VOLUME (FPVAVI NETWORK WIRING AND SEQUENCE 18/2 COMMUNICATION CABLE ) CMDNUD ON E/110e.01 FPVAV N SUPPLY AIR SENSOR POWER BY OTHERS HEATING/ COOLING CHANGEOVER SENSOR 18/3 CABLE L HVAC LOAD CALCULATIONS SENSOR NOTES: (1) PROVIDE 18" SERVICE LOOP FOR CONTROL WIRE AT UNIT. Project Name: 1943073-BBW Clay Terrace, IN 05/22/2019 Prepared by: MEngineerng 10:2aAM FAN POWERED VAV (FPVAV) SEQUENCE OF OPERATIONS Air SysteminformaBon Air Syslem Name_ ............................ Split System Number of zones ................................ _......._..._.....,....1 Equipment Class ................................... SPLTAHU Floor Area........................................................... 3539.0 B2 MANUFACTURER SHALL FURNISH AND/OR INSTALL ALL NECESSARY CONTROL DEVICES ACCOMPLISH THE FOLLOWING SEQUENCE OF Air System Type .............................................. SZCAV Location ... ............................. ..... .. Indianapolis, Indiana OPERATION (REFER TO RESPONSIBILITY SCHEDULE FOR FIELD INSTALLATION REQUIREMENTS): DURING OCCUPIED HOURS THE VARIABLE AIR VOLUME TERMINAL UNIT FAN SHALL BE ENERGIZED AND DAMPER SHALL MODULATE TO MAINTAIN Sizing Calculation Information THE SPACE TEMPERATURE. FOR UNITS WITH NEAT/COOL CHANGEOVER CONTROL, THE DAMPER SHALL MODULATE TO MAINTAIN THE SPACE TEMPERATURE, REVERSING DAMPER OPERATION AS REQUIRED BASED ON ZONE DEMAND AND THE TEMPERATURE OF THE PRIMARY SUPPLY AIR. Calculation Months .................................... Jan to Doe Zone CFM Sizing ................ Sum of space airflow rates Shag Data ................................................ Calculated Space CFM Sizing ............ Individual peak space bads IF THE SPACE TEMPERATURE DROPS ONE DEGREE BELOW SETPOINT AND THE DAMPER IS AT MINIMUM POSITION, THE UNIT'S ELECTRIC HEAT SHALL ENERGIZE. THE HEAT WILL REMAIN ON UNTIL THE SPACE TEMPERATURE IS SATISFIED. Central Cooling Coll Sizing Data THE TERMINAL UNIT DAMPER SHALL FULLY CLOSE AND THE FAN SHALL DEENERGIZE UPON A SIGNAL FROM THE FIRE ALARM SYSTEM. DURING THE UNOCCUPIED SCHEDULE, THE DAMPER SHALL CLOSE AND FAN/HEATER WILL DEENERGIZE. THE DAMPER SHALL OPEN AND THE Total call load ................................................. ........ 9.2 Tons Load ocws at .............. '--..--..-...--.-- .... Jul 17DO FAN SHALL ENERGIZE IF UNOCCUPIED COOLING SETPOINT IS REACHED. THE FAN AND HEATER SHALL ENABLE IF UNOCCUPIED TEMPERATURE Totalcallload.................................................. t70A MBH OA DB/DUB...IS........................................... 89.1 /74.5 °F IS ZF BELOW UNOCCUPIED SETPOINT. FAN AND HEATER SHALL STOP WHEN SETPOINT IS REACHED. Sensible ail load00............................................ MBH DB/DUB........................................... 77.2/672 °F Coil CFM at Jul 1700........................................... 004 4004 CFM LeavEnteing Leaving DB /DUB ........................................... 59... / 57.3 °F SETPOINTS: Max block CFO ................................................... 4004 CFM Coll ADP.................................................................. 57.2 °F Sum of peak zone CFM....................................... 4004 CFM Bypass Factor........................................................ 0.10D Sensible heat ratio .............................................. 0.691 Resulting RH................................ .............................. 62 % OCCUPIED HEATING: 70°F COOLING: 746F CFM/Ton............................................................ 435.1 Design supplytemp................................................. 57.0 OF UNOCCUPIED HEATING: 60'F COOLING: 85'F R/FEm ................................................................. 384.5 Zone T-stat Check ................................................. 1 of 1 ON ( j Max ne temperatuaeYietion........:....................... 0.0 zone OF WaterRow@10.0°F rise ...................................... WA NON -FAN POWERED VARIABLE AIR VOLUME (VAV) SEQUENCE OF OPERATIONS ND/OR MANUFACTURER SHALL FURNISH AlLL ALL NECESSARY CONTROL DEVICES TO ACCOMPLISH THE FOLLOWING SEQUENCE OF Central Heating Coil Sizing Data OPERATION (REFER TO RESPONSIBRTIY SCHEDULE FOR FIELD INSTALLATION REQUIREMENTS): Max ail load ........................................................ 92.2 MEN Load oecvs at................................................... Des Ht g DURING OCCUPIED HOURS THE VARIABLE AIR VOLUME TERMINAL UNIT DAMPER MODULATE T MAINTAIN T SHALL LA E O MAI N HE SPACE TEMPERATURE. FOR Coil CFM at Des HUB ........................................... 4004 CFM BTU ..CIS..............................................51.6 UNITS WITH HEAT/COOL CHANGEOVER CONTROL THE DAMPER SHALL MODULATE TO MAINTAIN THE SPACE TEMPERATURE, REVERSING DAMPER Max all CFM..................................... CFM CIS/ L) Ent. DB / Lvg FIB ............................................ 730 51.6 173.5 °F OPERATION AS REQUIRED BASED ON ZONE DEMAND AND THE TEMPERATURE OF THE PRIMARY SUPPLY AIR. 0.........deal Water flow @ 20.0 OF dnap..........................J........ NVA WA THE TERMINAL UNIT DAMPER SHALL FULLY CLOSE UPON A SIGNAL FROM THE FIRE ALARM SYSTEM. Supply Fan Sizing Data - - DURING THE UNOCCUPIED SCHEDULE, THE DAMPER SHALL CLOSE. THE DAMPER SHALL OPEN IF UNOCCUPIED COOUNG SETPOINT IS REACHED.:. SETPOINTS: Actual max CFM................................................. 4004 CFM Fan motor BHP........................................................ 0.70 BHP Standard CFM..................................................... 3889 CFM Fan motor kW.......................................................... 0.55 kW OCCUPIED HEATING: 70°F COOLING: 747 Actual max CIRAW............................................... 1.13 CFMI Fan static.... ............... ............. ................................ . 1.00 in wg UNOCCUPIED HEATING: 6C'F COOLING: 85°F Outdoor Ventilation Air Data Design siraow CFM............................................... 1001 CFM CFM/pereon................................ ........................... 1&88 CFMWpelaon CRAI................................................................. 0.26 CFMm2 DESIGN COOLING DESIGN HEATING COOLING DATA AT Jul 1700 HEATING DATA AT DES HTG COOLINGOADB/WB 89.1°F/74.5°F HEATINGOADB/WS-3.OF/4.4•F Sensible Latent Sensible Latent ZONE LOADS Details (BTUIhr) (BTURV) Details (BTUIhr) (BTUIhr) Window & Skylight Solar Loads 190 flat 3188 - 190 112 - - Wall Transmission 354 R2 2530 - 354 112 5825 - Roof Transmission 0 ft2 0 - 0 fY 0 Window Transmission 190 tie 1286 190 IF 6366 Skylight Transmission 00' 0 - 002 0 Door Loads 082 0 0a2 0 - Floor Transmission 3539 82 0 - 3639 a2 1642 - PadMons 0IP 0 - 002 0 - Ceiling 0IP 0 - - ow 0 - Overhead Lighting 450 W 968 - 0 0 - Task Lighting 8389 W 24610 - 0 0 - Electric Equipment 2700W 8636 - 0 0 - Paople 63 12578 12924 0 0 0 Infiltration - 0 0 - 0 0 Miscellaneous - 0 0 - 0 0 Safety Factor 10%/10% 5377 1292 25% 3458 0 Total Zone Loads - 59143 14217 - 17292 0 Zone Conditioning - 57634 14217 - 17635 0 Plenum Wall Load 0% 0 - 0 0 - Plenum Roof Load 70% 0 - 0 0 - Plenum Lighting Load 30% 461 - 0 0 - Retum Fan Load 4004 CFM 0 - 4004 CFM 0 - VerNlation Load 1001 CFM 16370 19876 loot CFM 76423 0 Supply Fan Load 4004 CFM 1886 - 4004 CFM -1886 - Spam Fan Coll Fens - 0 - - 0 - Duct Heat rain / Loss 0% 0 - 0% 0 - >> Total 9vxtwm Lode - 76351 34093 - 92173 0 RELEASED FDR CDNSTRUCTIDN - 7635 34194 o 0 0 0 92173 Subject to compliance with all regulations 76351 34094 92173 0 of State and Local Codes Positive values are clg loads Positive values are hill loads FAN POWERED VARIABLE AIR VOLUME (FPVAV) III VARIABLE AIR VOLUME (VAV) BOX RESPONSIBILITY SCHEDULE FURNISHED BY INSTALLED OR PERFORMED BY RE -USE ITEM DXSTING N/A REMARKS LSD@C LANDLORD CON1R. LANDLORD CONTR. OTHER SENT] ARRANGEMENT FAN PO M VAV AC MC BOX (WITH HUT AND NO HUT OPTIONS) NON -FAN POWERED VAV BOX • FAN POWERED BOX ELECTRICAL AC AC DISCONNECT NON -FAN POWERED BOX • ELECTRICAL DISCONNECT BAS CONTROLLER WITH AC AC INTEGRATED ACTUATOR SUPPLY MR TEMPERATURE AC NC SENSOR HEATING/COOUNG CHANGEOVER AC MC TEMPERATURE SENSOR SPACE TEMPERATURE/HUMIDITY AC MC SENSORS TERMINAL UNIT COMMISSIONING AC AC CALL HVAC EQUIPMENT SUPPLIER CONTROL SYSTEM WIRE FOR AC MC FINAL CONN. BY MC SYSTEM COMPONENTS City of Carmel ( Negative values am hig bads Negative values are ctg loads NFT�lIlndDoA� I T I O N S NTS N NETWORK WIRING AND SEQUENCE DATE: 07/16/19 OOD-MO4101-MOO-LOAD 10/31/2014 SPLIT DX AIR HANDLING UNIT WITH ELECTRIC HEAT NETWORK WIRING AND SEQUENCE 18/3 COMMUNICATION FRONT END TERMINATE NETWORK WIRES ON THE LIGHTING CONTROLLER NETWORK TERMINALS LOCATED IN THE ITS ELECTRICAL PANEL SYSTEM CABLE COMMUNICATION CABLE OUTSIDE AIR CO2 SENSOR SENSOR (DUCT MOUNTED) 18/3 24Y MONITORING CONTROLLER AT IFS COMMUNICATION CABLE ' i b BUr TYPE ONE NOTES: SENSOR (1) ALL WIRE SHALL BE 18/3 UNLESS OTHERWISE INDICATED. (CASHWRAP) (2) NUMBER OF CABLES FURNISHED BY HVAC SUPPLIER IS INDICATED BY NUMBER OF TICK MARKS ACROSS THE LINE. (3) PURPLE 18/2 WIRE IS FURNISHED BY III SUPPLIER AND IS PLENUM RATED. (4) SCHEMATIC IS FOR REFERENCE ONLY. AT TIME OF CONSTRUCTION, THE HVAC SUPPLIER WILL PROVIDE A COMPLETE DIAGRAM FOR INSTALLATION. SEE RESPONSIBILITY SCHEDULES, THIS SHEET, FOR A LIST OF ALL COMPONENTS AND SENSORS REQUIRING FIELD INSTALLATION. (5) PROVIDE 182 SERVICE LOOP FOR CONTROL WIRE AT UNIT. SPLIT DX AIR HANDLING UNIT (AHU) SEQUENCE OF OPERATIONS MANUFACTURER SHALL FURNISH AND/OR INSTALL ALL NECESSARY CONTROL DEVICES TO ACCOMPLISH THE FOLLOWING SEQUENCE OF OPERATION (REFER TO RESPONSIBILITY SCHEDULE FOR FIELD INSTALLATION REQUIREMENTS): DURING OCCUPIED HOURS THE SUPPLY FANS SHALL OPERATE CONTINUOUSLY, AND THE OUTSIDE AIR DAMPER SHALL OPEN TO THE MINIMUM SCHEDULED POSITION (ADJUSTABLE). WHEN THE OUTDOOR TEMPERATURE IS ABOVE 55 DEGREES FAHRENHEIT (ADJUSTABLE), AND THE SPACE TEMPERATURE IS 1•F ABOVE COOLING SETPOINT, COOLING SHALL BE ENERGIZED IN STAGES (WHERE APPLICABLE) UNTIL I•F BELOW SETPOINT IS ACHIEVED. WHEN THE OUTDOOR TEMPERATURE IS BELOW 55 DEGREES FAHRENHEIT (ADJUSTABLE), AND SPACE TEMPERATURE IS ABOVE COOUNG SETPOINT, COOLING SHALL DEENERGIZE, AND OUTSIDE AIR DAMPERS AND RETURN AIR DAMPERS SHALL MODULATE TO PROVIDE A SUPPLY AIR TEMPERATURE TO SATISFY THE DEMAND FOR COOLING. IF THE SPACE TEMPERATURE FALLS 1°F BELOW THE HEATING SETPOINT, AND THE OUTDOOR DAMPER IS AT THE MINIMUM POSITION, ELECTRIC HEAT SHALL BE ENERGIZED IN STAGES (WHERE APPLICABLE) UNTIL 1°F ABOVE SETPOINT IS ACHIEVED. DURING UNOCCUPIED HOURS, THE SUPPLY FANS SHALL DEENERGIZE AND THE OUTDOOR DAMPER SHALL CLOSE. IF THE SPACE TEMPERATURE RISES 1°F ABOVE THE COOLING SETPOINT, THE FANS SHALL ENERGIZE, AND THE OUTSIDE AIR DAMPERS SHALL REMAIN CLOSED. COOLING SHALL BE ENERGIZED IN STAGES (WHERE APPLICABLE). WHEN THE SPACE TEMPERATURE FALLS BELOW COOLING SETPOINT, COOLING AND FANS SHALL DEENERGIZE. IF THE SPACE TEMPERATURE FALLS BELOW THE HEATING SETPOINT, THE FANS SHALL ENERGIZE, AND THE OUTSIDE AIR DAMPERS SHALL REMAIN CLOSED. ELECTRIC HEAT SHALL BE ENERGIZED IN STAGES WHERE APPLICABLE) . WHEN THE SPACE TEMPERATURE RISES ABOVE THE HEATING SEPOINT, ELECTRIC HEAT AND FANS SHALL BE DEENERGIZED. REUEF FAN (WHERE APPLICABLE) SHALL BE ENERGIZED WHENEVER THE SUPPLY FANS ARE OPERATING, AND THE UNIT IS IN THE ECONOMIZER MODE OF OPERATION. THE RELIEF FAN SPEED SHALL BE VARIED THROUGH A VARIABLE FREQUENCY DRIVE CONTROLLED BY SPACE PRESSURE DIFFERENTIAL RELATIVE TO OUTDOOR PRESSURE. FAN SPEED SHALL MODULATE TO MAINTAIN A SPACE PRESSURE OF 0.05" POSITIVE RELATIVE TO OUTDOOR PRESSURE. REUEF DAMPER SHALL OPEN WHENEVER RELIEF FAN IS ENERGIZED. A MANUFACTURER PROVIDED OR FIELD INSTALLED PAN OVERFLOW SWITCH WILL DISABLE ALL FANS, COOLING, HEATING, AND CLOSE OUTDOOR AIR DAMPER IF HIGH WATER IS SENSED IN THE PAN. A FIELD INSTALLED CO2 SENSOR SHALL MODULATE THE OUTDOOR AIR DAMPER DURING OCCUPIED OPERATION BETWEEN SCHEDULED CA FLAW CFM AND MIN SCHEDULED CA FLOW TO MAINTAIN A 002 CONCENTRATION BETWEEN IOOOPPM AND 50OPPM. A DUCT MOUNTED SMOKE DETECTOR SHALL DEENERGIZE THE SUPPLY AND RELIEF FAN, AND CLOSE THE OUTDOOR AIR DAMPER WHEN ACTIVATED. SETPOINTS: OCCUPIED HEATING: 70•F COOLING: 74'F UNOCCUPIED HEATING: SOT COOLING: BSF SPLIT DX AIR HANDLING UNIT WITH CONDENSING UNIT RESPONSIBILITY SCHEDULE FURNISHED BY INSTALLED OR PERFORMED BY RE -USE ITEM EXISTING N A REMARKS LSDAC LANDLORD CONTR. LANDLORD CONTR. OTHER AIR HANDLING UNIT AC MC MR HANDLING UNIT DISCONNECT/FAN CONTACTOR AC AC HIGH AND LOW PRESSURE FACTORY SWITCHES (FACTORY INSTALLED) AC AC INSTALLED ELECTRIC HEATER WITH SINGLE AC MC POINT CONNECTION AND CONTACTOR CONDENSATE DRAIN LINES MC MC VERIFY REQUIREMENTS WITH LOCAL CODE MIXING BOX WITH ACTUATOR AC MC INTERCONNECTIVE WIRING BY MC AND 0-10 VOLT ADAPTER VIBRATION ISOLATORS AC AC EVAPORATOR FAN MOTOR, ACI AC CHANGES REQUIRED FOR SHEAVES AND BELTS RAIANCE ARE PROVIDED BY MC THERMAL EXPANSION VALVE AC MC PRIMARY CONDENSATE PAN AC AC OVERFLOW SWITCH SECONDARY CONDENSATE PAN AC MC OVERFLOW SWITCH FAN PROVING SWITCH AC AC AIR COOLED CONDENSING UNIT AC NC CONDENSING UNIT DISCONNECT ED EC SWITCH CONDENSING UNIT GROUND EC EC FAULT OUTLET SAS CONTROLLER AC AC SUPPLY AIR TEMPERATURE AC AC SENSOR SPACE TEMPERATURE SENSOR • CARBON DIOXIDE SENSOR • HUMIDITY SENSOR • OUTSIDE MR TEMPERATURE AC MIC ONE PER SENSOR PROJECT LOW AMBIENT KIT AC MC REWIRES MOTOR CHANGE OUT SINGLE ZONE VAV CONTROLS AC AC UNITS WITH CAPACITY GREATER THAN 110 MBH AT AHRI CONDITIONS SPLIT SYSTEM COMMISSIONING AC AC CALL HVAC EQUIPMENT SUPPLIER MONITORING SPACE AD MC TEMPERATURE SENSOR MONITORING CARBON DIOXIDE AC MC SENSOR ROOM TEMPERATURE/HUMIDITY SENSOR AC MC WNRNW DRY M M LLETB NIRI AXN00 CC MC INSTALL MONITORING YAWS MD D NKAm1 O CONTROLLER AT IFS CONTROL TRANSFORMERS MC MC AS REQUIRED FOR MONITORING DEVICES CONTROL SYSTEM WIRE FOR CC MC FINAL CONN. BY MC SYSTEM COMPONENTS NOTE TO CONTRACTOR ITEM(S) NOT SHOWN ON ANY OF THE RESPONSIBILITY SCHEDULES ARE THE RESPONSIBILITY OF THE CONTRACTOR. LOCAL AREA REQUIREMENTS YES NO YES NO ❑ Z 1. SMOKE EVACUATION ❑ N 5. SPECIAL CURB HEIGHT REQUIREMENTS ❑ ® 2. CARBON DIOXIDE MONITORING ❑ N 6. TEN MILE COASTAL PROXIMITY ❑ ® 3. HURRICANEZONE ❑ ® 7. OTHERS, I.E. METHANE, CARBON MONOXIDE, SOUND ❑ 10 4. SEISMIC ZONE SENSITIVE, EFC. DESCRIPTION... ❑ N S. TYPE B+COMMISSIONING ® ❑ 9. TYPE B COMMISSIONING ❑ ® 10. TYPE C COMMISSIONING ABBREVIATIONS, RESPONSIBILITY SCHEDULES AC HVAC EQUIPMENT SUPPLIER LC LANDLORD CONTRACTOR AHJ AUTHOR" HAVING JURISDICTION LD LIGHTING PACKAGE DISTRIBUTOR BAS BUILDING AUTOMATION SYSTEM U. LANDLORD EC ELECTRICAL CONTRACTOR LSD&C LIMITED STORE DESIGN CONSTRUCTION FAC FIRE ALARM CONTRACT OR MC MECHANICAL CONTRACTOR GC GENERAL CONTRACTOR CC CONTROLS CONTRACTOR HVAC RESPONSIBILITY SCHEDULE FURNISHED BY INSTALLED OR PERFORMED BY RE -USE ITEMEXISTING N/A REMARKS -CONTR. LSDAC LANDLORD CONTR. LANDLORD OTHER SAS CONTROLLER AC MC CONTROLLER ENCLOSURES AC MC AIR CURTAIN • VIBRATION ISOLATION AC AC FIELD ADJUSTED ROOFING CUT A PATCH, INSULATED MC HIRE LANDLORD APPROVED TOE KICK It CURB LEVELING. ROOFING CONTRACTOR DUCT SMOKE DETECTOR FAC MC POWER WIRING PROVIDED BY FAC SMOKE SYSTEM ACCESSORIES, MC MC UNLESS FACTORY INSTALLED ETC. DIFFUSERS AND GRILLES MC MC DIFFUSERS/GRILLES FIRE MC MC DAMPERS WALL FIRE DAMPERS • COMBINATION FIRE/SMOKE • - DAMPERS LOW PRESSURE DUCTWORK MC MC RECTANGULAR TO ROUND DUCT NC MC ADAPTER HIGH/MEDIUM PRESSURE • DUCTWORK DUCT SUPPORTS MC MC SEISMIC BRACING • HURRICANE WIND BRACING • DUCT HEATER(S) • UNIT HEATER(S) • INUNE AND CEIUNG EXHAUST FANS) MC MC ROOF AND WALL MOUNTED • EXHAUST FAN(S) AND CURB EXHAUST FAN ROOF CURB • TOILET EXHAUST DUCTWORK • WALL OR ROOF CAP PIPING AND PIPING APPURTENANCES (CIRCUIT SETTERS, ETC.) NC MC BALANCE CONTRACTOR REPORT GC AABC OR NEBB CERTIFIED AS -BUILT DRAWINGS MC LANDLORD REWIRED TEMPERATURE • HIRE LL REQUIRED CONTRACTOR CONTROL SYSTEM COMPONENTS WHEN REQUIRED BY U. FOR a REQUIRED SYSTEM M • HIRE U. REQUIRED CONTRACTOR WMMNM WHEN REQUIRED BY U. YOUNG REGULATOR W/ BOWDEN MC MC CABLE LOCKING QUADRANT VOLUME MC MC DAMPER PNEUMATIC TUBING • FIRE ALARM SHUTDDWN RELAY FAC FAC WHERE APPUCABLE FOR FIRE ALARM SYSTEMS RELIEF MR DAMPER AND • ACTUATOR RELIEF MR FAN OR RETURN AIR • FAN SMOKE EVACUATION • OUTSIDE AIR INTAKE HOOD/LOUVER WITH DAMPER • LANDLORD PROVIDED O.A.DUCT OUTSIDE AIR INTAKE DAMPER • LANDLORD PROVIDED OakDUCT ACTUATOR real H aUNTER-BMANCED MCKDMUT MPER • DAMPERS FOR FIELD BUILT • ECONOMIZER DAMPER ACTUATORS FOR FIELD AC BUILT. ECONOMIZER OUTSIDE AIR DAMPER MC MC OUTSIDE AIR DAMPER ACTUATOR AC MC M-Engineering 750 Brookmage Blvd. WasreMlle, Ohio 43061 phone: 614.839.4639 hex: 614.839.2222 wiew.menglamang.us.com A /\ Z CNrn V O M� N M J\ M n U Oa CJ V r a O X Z Z E LL O U cio Z T 3^J O Y N V Ln D- v ILA Or- 0) J O N r. V) H- ED H d EG'$uM_agRc .ti e m ff»H g>TS�Ze`" "' a tE"�-gV �a3wg d BN�E stalls tc�s g pub >f>€sue 4Va5 €€„B o -Y % $owaaga "aa�� XW sea_ s-e ag _o3Qa ljn3Ega = 54c§� �e � xgetea =N:6 `55ba3e W§esH3 _ z g 8 £WF=e €E'ivo a Be e3 eAe e i3sE zg ? is Rwm FO�YtJ�.,W3 all NMOo O O c0 i I d�MO N all all `0 O i de qa CC U V O O_ W O W O a li Nd UXW Q W a cDa _1w W M p O N Q O N W s U O O> \O Ay� DO J W •"" W DO �ED U LWJ m 6 Car0 1Q ce N O KOr W O cc LJ m rw, 2 It 01Iz ~ L) a 'O V �U J � W O iCW12. Q Q OI W� W m O 'o� J�jQ ovto t>_ m U�tn LJ v�ic!n REVISIONS: REQUIRED Is: DATE DATE ISSUED: 05/31 /2019 DESIGNED BY: JD DRAWN BY: JD CHECKED BY: BM MECHANICAL RESPONSIBILITY SCHEDULES DRAWING NUMBER: NTS.A_. _ a 4 n 1 NTs I J NETWORK WIRING AND SEQUENCE NT8 HVAC RESPONSIBILITY SCHEDULES