View
1
Download
0
Category
Preview:
Citation preview
REMOVE EXISTING TO THIS POINT
CONNECT TO EXISTING AT THIS POINT
MECHANICAL LEGENDSYMBOL DESCRIPTIONABBREVIATION
RECTANGULAR DUCT10x8
10"ø
R
D
ROUND DUCT
DUCT RISING UP
DUCT DROPPING DOWN
FLEXIBLE CONNECTION DUCTWORK
DUCTWORK WITH SOUND LINING
TURNING VANES
SIDE WALL REGISTER
SUPPLY AIR DUCT; UP, DOWNSA
RA RETURN AIR DUCT; UP, DOWN
EA EXHAUST AIR DUCT; UP, DOWN
BDD BACK DRAFT DAMPER - GRAVITY
MOD MOTOR OPERATED DAMPER
VD VOLUME DAMPER
SD SMOKE DETECTOR - DUCT MOUNTED
SMOKE DAMPER
FIRE DAMPERFD
SUPPLY AIR DIFFUSER
RETURN AIR REGISTER OR GRILLE
EXHAUST AIR REGISTER OR GRILLE
DUCT MOUNTED TEMPERATURE SENSOR
DUCT MOUNTED PRESSURE SENSOR
DUCT MOUNTED HUMIDITY SENSOR
ACCESS PANEL, ACCESS DOORA.P., AD
TEMPERATURE SENSOR
HUMIDITY SENSOR
T
H
SP SPACE PRESSURE SENSOR
T TEMPERATURE SENSOR - UNIT NO. CONTROLLED#
#H HUMIDITY SENSOR - UNIT NO. CONTROLLED
VARIABLE AIR VOLUME BOX, WITH HEATVAV, CAV
DIAMETERDIA.
NUMBERNO.#
CFM CUBIC FEET PER MINUTE
VAV BOX REFERENCE SYMBOLXX
DRAWING NOTE REFERENCE SYMBOL
A150 CFM
SIZEAIR DEVICE REFERENCE SYMBOL
AX
SECTION MARKERSECTION LETTERSHEET WHERE SECTION IS SHOWN
ABBREVIATION DESCRIPTIONADJ. ADJUSTABLEAFF ABOVE FINISHED FLOOR
BASAHU
BUILDING AUTOMATION SYSTEMAIR HANDLING UNIT
APD AIR PRESSURE DROP
CFH CUBIC FEET PER HOURCUH CABINET UNIT HEATER
EA EXHAUST AIRDN.DB
DOWNDRY BULB
ESP EXTERNAL STATIC PRESSUREEXH. EXHAUST
EX. EXISTINGEWTEAT
ENTERING WATER TEMPERATUREENTERING AIR TEMPERATURE
FFE FINISHED FLOOR ELEVATION
ET EXPANSION TANK
GPH GALLONS PER HOURGPM GALLONS PER MINUTEHP HORSE POWERLAT LEAVING AIR TEMPERATURELWT LEAVING WATER TEMPERATURE
MAX. MAXIMUMMIN. MINIMUMNO NORMALLY OPENED
OA OUTSIDE AIRNTSNICNC
NOT TO SCALENOT IN CONTRACTNORMALLY CLOSED
PSIGRA
PDPOUNDS PER SQUARE INCH GAUGERETURN AIR
PUMP DISCHARGE
MBH ONE THOUSAND BTU PER HOUR
SA SUPPLY AIRTYP. TYPICAL
VFDV/ /HZ
VARIABLE FREQUENCY DRIVEVOLTS/PHASE/HERTZ
RX. REMOVE EXISTING
S.L.D.
SDa
CONSTANT AIR VOLUME BOX, WITH HEAT
ELECTRIC HEAT TRACE
XX REVISION REFERENCE SYMBOL
COMBINATION FIRE/SMOKE DAMPER
FCU FAN COIL UNIT
RTU ROOF TOP AIR HANDLING UNIT
WB WET BULB
XX
UNIT HEATERUH
MECHANICAL LEGEND
FSD
∅
∅
GENERAL MECHANICAL PROJECT NOTES1. ALL TEMPORARY UTILITY OUTAGES OF ANY TYPE SHALL BE COORDINATED WITH THE USER. PROVIDE TWO
WEEKS ADVANCE NOTIFICATION PRIOR TO PERFORMING ANY TEMPORARY OUTAGES.2. ALL DUCTWORK SIZES SHOWN ARE INSIDE CLEAR DIMENSIONS.3. PROVIDE ACCESS DOORS (SIZE AS SPECIFIED) IN DUCTWORK FOR EVERY FIRE DAMPER, FIRE/SMOKE DAMPER,
ETC. WHETHER SHOWN OR NOT. COORDINATE ACCESS TO VOLUME DAMPERS.4. COORDINATE THE LOCATION OF ALL AIR DEVICES WITH LIGHT FIXTURES AND THE ARCHITECT'S REFLECTED
CEILING PLANS, AND DOCUMENTS.5. COORDINATE DUCT ROUTING WITH APPROVED TRUSS/STEEL SHOP DRAWINGS.6. COORDINATE MOTORS AND OTHER ELECTRICAL EQUIPMENT FURNISHED UNDER MECHANICAL DIVISIONS
WITH ELECTRICAL DIVISION. PROVIDE EQUIPMENT COORDINATION TABLE AS A SHOP DRAWING FORREVIEW. TABLE SHALL INCLUDE BUT NOT BE LIMITED TO THE FOLLOWING INFORMATION:
a. EQUIPMENT POWER REQUIREMENTS INCLUDING AMPS AND VOLTAGES.b. DISCONNECTING MEANS AND OVER CURRENT PROTECTION REQUIREMENTS.c. CONTROL REQUIREMENTS.
7. COORDINATE THE INSTALLATION OF LIGHTING FIXTURES WITH PIPING, DUCTWORK, AIR DEVICES,SPRINKLERS, AND EQUIPMENT BEING INSTALLED IN THE FACILITY SUCH THAT PIPING, DUCTWORK, AIRDEVICES, AND EQUIPMENT DO NOT BLOCK OR IMPEDE LIGHTING.
8. INSTALL DUCTWORK SO THAT VOLUME DAMPERS, V.V.T. / VAV BOX CONTROL PANELS, FANS, DUCT COILS,ETC., ARE ACCESSIBLE. PROVIDE ACCESS PANELS PER SPECIFICATION REQUIREMENTS.
9. LOCATE ALL EQUIPMENT WHICH MUST BE SERVICED, OPERATED, AND MAINTAINED IN A FULLY ACCESSIBLEPOSITION. EQUIPMENT SHALL INCLUDE, BUT NOT BE LIMITED TO VALVES, TRAPS, MOTORS, CONTROLLERS,DRAIN POINTS, ETC. IF REQUIRED FOR ACCESSIBILITY, FURNISH ACCESS DOORS FOR THIS PURPOSE.COORDINATE LOCATION OF ACCESS DOORS WITH ARCHITECT. MINOR DEVIATIONS FROM DRAWINGS MAY BEMADE TO ALLOW FOR BETTER ACCESSIBILITY.
10. COORDINATE MOUNTING HEIGHTS AND LOCATIONS OF THERMOSTATS AND HUMIDISTATS SERVINGEQUIPMENT WITH THE OWNER(S) AND/OR ARCHITECT.
11. FIRE STOP ALL PIPING AND DUCT PENETRATIONS THRU FIRE WALLS, PARTITIONS, AND FLOORS. PROVIDELISTED FIRE DAMPERS IN ALL DUCTS THAT PASS THROUGH FIRE BARRIERS AND PARTITIONS. REFER TOARCHITECTURAL DRAWINGS FOR FIRE RATED WALL, FLOOR, PARTITION AND BARRIER LOCATIONS.
12. ALL FIRE DAMPERS SHALL BEAR THE UNDERWRITERS LABORATORIES LABEL AND SHALL BE INSTALLED SOTHEY ARE FULLY ACCESSIBLE.
13. REPLACE FILTERS SERVING AIR HANDLING UNIT EQUIPMENT PRIOR TO FINAL BALANCING OF AIRDISTRIBUTION SYSTEMS.
14. PREPARE COORDINATION DRAWINGS FOR ALL INTERIOR BUILDING SYSTEMS. DRAWINGS SHALL BE ¼” = 1” -0” SCALE. SHOW THE RELATIONSHIP OF COMPONENTS SHOWN ON SEPARATE SHOP DRAWINGS. INDICATEREQUIRED INSTALLATION SEQUENCES. REFER TO SPECIFICATIONS FOR ADDITIONAL REQUIREMENTS.
15. PROVIDE FLEXIBLE DUCT CONNECTIONS AT ALL DUCTED ROOFTOP TOP UNITS, AIR HANDLING UNITS, FANCOIL UNITS, AND EXHAUST FAN INLET AND OUTLET CONNECTIONS. REFER TO SPECIFICATIONS FORADDITIONAL REQUIREMENTS.
16. PROVIDE WEATHER TIGHT WALL AND ROOF DUCT AND PIPING PENETRATIONS. ALL SEALING MATERIALS TOBE APPROVED BY ARCHITECT.
17. ROUTE DOMESTIC WATER PIPING, SPRINKLER PIPING, HVAC PIPING, GAS PIPING, ETC., IN PIPE CHASES, INFURRED OUT WALLS AND ABOVE CEILINGS, NO PIPING SHALL BE EXPOSED UNLESS APPROVED BY THEARCHITECT OR OWNER(S).
18. PROVIDE A BALANCING DAMPER ON ALL BRANCH DUCTS SERVING SUPPLY AIR DEVICES AND RETURN AIRDEVICES WHETHER SHOWN ON PLANS OR NOT.
19. EXISTING CONDITIONS (DUCTWORK, PIPING, EQUIPMENT, AND MATERIAL(S) INDICATED ON THE CONTRACTDOCUMENTS ARE NOT WARRANTED TO REPRESENT ALL EXISTING AS-BUILT CONDITIONS. FIELD VERIFYEXACT LOCATIONS OF ALL DUCTWORK, PIPING, EQUIPMENT, AND MATERIALS IN THE FIELD PRIOR TOCOMMENCING WITH NEW AND DEMOLITION WORK. EXISTING DUCT, PIPE, AND EQUIPMENT SIZES ARE NOTWARRANTED TO BE COMPLETELY CORRECT. FIELD VERIFY ALL EXISTING CONDITIONS PRIOR TO ORDERINGMATERIALS AND INSTALLING NEW WORK.
20. THE DRAWINGS ARE DIAGRAMMATIC AND DO NOT INDICATE EVERY COMPONENT AND/OR ACCESSORYREQUIRED FOR A COMPLETE INSTALLATION. PROVIDE NECESSARY AND REQUIRED COMPONENTS ANDACCESSORIES TO ENSURE THAT THE ENTIRE SYSTEM IS FUNCTIONAL AND IN COMPLIANCE WITH APPLICABLECODES, ACCEPTED INDUSTRY STANDARDS, AND MANUFACTURER'S INSTALLATIONREQUIREMENTS/RECOMMENDATIONS UPON COMPLETION OF WORK.
21. ALL DUCTWORK AND PIPING SHALL RUN AS HIGH AS POSSIBLE AND ABOVE FINISHED CEILINGS UNLESSOTHERWISE NOTED.
22. INSTALL VALVES AND COIL ASSEMBLIES IN ACCESSIBLE LOCATIONS. PROVIDE ACCESS PANELS PERSPECIFICATIONS.
23. DO NOT RELEASE ANY CFC OR HCFC BASED REFRIGERANT INTO THE ATMOSPHERE DURING INSTALLATION,START-UP, OR SERVICING OF NEW OR EXISTING HVAC EQUIPMENT EITHER DIRECTLY OR INDIRECTLY.UTILIZE AN APPROPRIATE REFRIGERANT PURIFICATION/RECLAMATION SYSTEM THAT IS CAPABLE OFSEPARATION AND REMOVAL OF OIL AND RESIDUAL MOISTURE, AND DOT-APPROVED CONTAINMENT OFRECOVERED REFRIGERANT.
24. ALL REFRIGERANT RELIEF DEVICES OR FUSIBLE PLUGS ON ALL SYSTEMS HAVING A REFRIGERANT CHARGE OF100 LBS. OR GREATER SHALL DISCHARGE TO THE OUTSIDE OF THE BUILDING IN ACCORDANCE WITHAPPLICABLE CODES. REFER TO SPECIFICATIONS FOR ADDITIONAL REQUIREMENTS.
25. ALL REFRIGERANT PIPING SHALL BE SIZED AND SUPPORTED/INSTALLED IN ACCORDANCE WITH APPLICABLECODES. REFER TO SPECIFICATIONS FOR ADDITIONAL REQUIREMENTS.
26. TEMPORARILY REMOVE EXISTING LAY-IN TILE CEILING SYSTEMS INCLUDING ALL GUY WIRE SUPPORTS ANDASSOCIATED SUSPENSION SYSTEMS WHERE REQUIRED TO COMPLETE WORK. LAY-IN TILE CEILING SYSTEMSSHALL THEN BE RE-INSTALLED AFTER NEW/DEMOLITION WORK. THE COST OF REPLACING/REPAIRING ANYDAMAGE TO THE EXISTING LAY-IN TILE CEILING SYSTEM SHALL BE INCURRED BY THE CONTRACTOR.
27. CAREFULLY REMOVE PLASTER TYPE CEILINGS AS REQUIRED TO FACILITATE THE INSTALLATION/REMOVAL OFALL EXISTING/NEW DUCTWORK AND ALL EXISTING/NEW PIPING SYSTEMS AND ASSOCIATED APPURTENANCES.NEW PLASTER TYPE CEILINGS SHALL BE INSTALLED TO REPLACE EXISTING REMOVED PORTIONS WHEREINDICATED AND REQUIRED.
28. UNLESS OTHERWISE NOTED ON THE CONTRACT DOCUMENTS, STATIC PRESSURE SENSORS SERVING: AIRHANDLING EQUIPMENT, EXHAUST FANS OR RETURN FANS SHALL BE LOCATED AS FOLLOWS:
a. AIR HANDLING EQUIPMENT- LOCATE 2/3 DOWNSTREAM FROM THE DISCHARGE OF THE SUPPLY FAN.b. EXHAUST / RETURN FANS- LOCATE SENSORS ON THE EXHAUST / RETURN DUCTWORK - 2/3 FROM THE
INLETS OF EXHAUST / RETURN FANS.
CONTRACTOR COMMISSIONING
APPLICABLE CODESYEAR CODE
2015 VIRGINIA EXISTING BUILDING CODE
2015 VIRGINIA PLUMBING CODE
2015 VIRGINIA MECHANICAL CODE
2015 VIRGINIA ENERGY CONSERVATION CODE
2015 INTERNATIONAL FIRE CODE
2015 VIRGINIA FUEL GAS CODE
2015 VIRGINIA STATEWIDE FIRE PREVENTION CODE
2018 ASHRAE 62.1
BDD
SUBSTANTIAL COMPLETION1. MECHANICAL AND ELECTRICAL SYSTEMS ARE NOT SUBSTANTIALLY COMPLETE UNTIL ALL
SYSTEMS ARE STARTED, TESTED, BALANCED, AND O&M'S ARE RECEIVED BY THE OWNER.
2. THESE ITEMS NOTED ABOVE MUST BE COMPLETE IN TIME FOR THE SYSTEMSDEMONSTRATIONS TO OWNER WITH ALL O&M'S MANUALS IN HAND AT TIME OFDEMONSTRATION.
3. PROVIDE SYSTEM DEMONSTRATION AND TRAINING FOR OWNER PERSONNEL FOR EACHSYSTEM. PROVIDE 8 HOURS OF SYSTEM DEMONSTRATION AND 8 HOURS OF OPERATIONSTRAINING FOR EACH SYSTEM.
4. PUNCHLIST ITEMS SHALL BE COMPLETED PRIOR TO SUBSTANTIAL COMPLETION.
5. ON SEASON COMMISSIONING SHALL BE COMPLETED PRIOR TO SUBSTANTIAL COMPLETION.
6. START OF ALL WARRANTIES TO BEGIN ON DATE OF SUBSTANTIAL COMPLETION.
BAS CONNECTION TO ACPS CENTRAL SYSTEM1. CONTRACTOR SHALL PROVIDE CONNECTION BETWEEN BUILDING AND ACPS CENTRAL BAS SYSTEM.
2. ALL POINTS SEEN THROUGH THE BUILDING AUTOMATION SYSTEM SHALL BE VISIBLE AND ADJUSTABLE THROUGHTHE ACPS CENTRAL BAS SYSTEM.
1. CONTRACTOR COMMISSIONING
a. PROVIDE ALL COMMISSIONING REQUIREMENTS OF HVAC SYSTEMS IN ACCORDANCE WITHTHE INTERNATIONAL ENERGY CODE 2015, SECTION 408.
b. SUBMIT COMMISSIONING AUTHORITY (CxA) QUALIFICATIONS FOR REVIEW PRIOR TO THESTART OF ANY WORK. CxA SHALL BE CERTIFIED BY THE BUILDING COMMISIONINGASSOCIATION (BCxA), THE ASSOCIATED COMMISSIONING GROUP (ACG), OR THE NATIONALENVIRONMENTAL BALANCING BUREAU (NEBB).
c. COMMISSIONING REQUIREMENTS SHALL INCLUDE BUT NOT BE LIMITED TO PREPARATIONOF THE COMMISSIONING PLAN, TEST AND BALANCING, FUNCTIONAL PERFORMANCETESTING, COMMISSIONING REPORT, AND OPERATIONAL/MAINTENANCE DOCUMENTATION.
d. COPIES OF ALL DOCUMENTATION SHALL BE PROVIDED TO THE OWNER, ARCHITECT, ANDCODE OFFICIAL.
M
SD
SD
SD
T
P
H
MECHANICAL LEGENDSYMBOL ABBREVIATION DESCRIPTION
CW COLD WATERHW HOT WATER (110°F OR 140°F)
HWR HOT WATER RECIRCULATING (110°F OR 140°F)CHS CHILLED WATER SUPPLYCHR CHILLED WATER RETURN
CHSCHRCD CONDENSATE DRAIN (ABOVE FLOOR)
CD-UG CONDENSATE DRAIN (UNDERGROUND)HSHR
HEATING WATER SUPPLYHEATING WATER RETURNHR
HS
CDCD
VENTURI STYLE FLOWMETER WITH PRESSURE/TEMPERATURE PORTS
PRESSURE AND TEMPERATURE PLUG
SOLENOID VALVE
PRESSURE TRANSMITTER
MANUAL AIR VENT
FLOW METER FITTING - VENTURI
FLOW METER FITTING - PITOT TUBE
AUTOMATIC AIR VENT
THERMAL WELL
STRAINER (Y OR BASKET) W/ HOSE END
PRESSURE GAUGE W/ NEEDLE VALVE
BACKFLOW PREVENTOR W/ FUNNEL
PRESSURE GAUGE W/ NEEDLE VALVE & SYPHON
THERMOMETER
DRAIN VALVE
RELIEF VALVE (TYPE AS NOTED)
PRESSURE REDUCING (REGULATING) VALVETWO-WAY CONTROL VALVE (ATC)THREE-WAY CONTROL VALVE (ATC)BUTTERFLY VALVEOPEN SITE DRAIN - FLOOR DRAIN W/ FUNNELROOF DRAINFLOOR SINKFLOOR DRAIN
IN-LINE CIRCULATING PUMP
DRIP LEG
SHOCK ABSORBER
TEMPERATURE & PRESSURE RELIEF VALVE
GAS COCK
OUTSIDE STEM & YOKE VALVE
BACK WATER VALVEPIPE REDUCER - CONCENTRIC
DOUBLE CHECK BACKFLOW PREVENTOR
DIRECTION OF PIPE PITCH (DOWN)COMBINATION BALANCING & SHUT-OFF VALVEPLUG VALVE
CHECK VALVE
GATE VALVEBALL VALVEVENT THRU ROOFFLOW SWITCHPIPE ANCHORPIPE GUIDEUNIONCAPPED PIPECAPPED OUTLET
P/T
S
PT
A.A.V.
V.T.
P.T.
MAV
FMF - V.T.
FMF - P.T.
AAV
BFP
RV
PRV
R.DR.OSD
FSF.DR.
AGC
CP
DP
SA
OS & Y
T & P
BWV
VTR
TOP PIPE CONNECTIONBOTTOM PIPE CONNECTIONSIDE PIPE CONNECTIONRISE OR DROP IN PIPE
ELBOW DOWN OR DROPELBOW UP OR RISEPIPE CONTINUESFLOW IN DIRECTION OF ARROW
DP, DNUP
FLEXIBLE CONNECTION - PIPINGFC
EX. EXISTINGRX. REMOVE EXISTING
F.S.
ACVACV
MULTI-PURPOSE VALVE
(REDUCED PRESSURE PRINCIPAL TYPE)
ATC FLOW SWITCH
TEMPERATURE SENSOR WITH IMMERSION WELLTS
TURBINE FLOW METERM
DIFFERENTIAL PRESSURE SENSORDP SENSOR
DIFFERENTIAL PRESSURE SWITCHDP SWITCH
GENERAL DEMOLITION PROJECT NOTES1. NOTIFY THE OWNER, IN WRITING, AT LEAST FOURTEEN (14) DAYS IN ADVANCE OF ALL REQUIRED
SHUTDOWNS OF WATER, SEWER, FIRE PROTECTION, GAS, ELECTRICAL SERVICE, OR OTHER UTILITIES.UPON WRITTEN RECEIPT OF APPROVAL FROM OWNER, SHUTDOWNS SHALL BE PERFORMED BETWEEN THEHOURS OF 8AM AND 5PM, OR AS DIRECTED OTHERWISE BY THE OWNER AT NO ADDITIONAL CONTRACTCOST. AT THE END OF EACH WORK DAY, SHUT DOWN SERVICES SHALL BE RESTORED SO THAT NORMAL USEOF UTILITIES CAN CONTINUE.
2. WHEN WORKING IN AND AROUND THE EXISTING BUILDING, CARE SHALL BE EXERCISED WITH REGARDS TOPROTECTION OF EXISTING STRUCTURE AND MECHANICAL AND ELECTRICAL SERVICES WHICH SHALLREMAIN.
3. REPAIR, REPLACE, OR RESTORE TO THE SATISFACTION OF THE ARCHITECT, ALL EXISTING WORK DAMAGEDIN THE PERFORMANCE OF THE DEMOLITION AND/OR NEW WORK.
4. EXISTING CONDITIONS (DUCTWORK, PIPING, EQUIPMENT, AND MATERIAL(S) INDICATED ON THE CONTRACTDOCUMENTS ARE NOT WARRANTED TO REPRESENT ALL EXISTING AS-BUILT CONDITIONS. FIELD VERIFYEXACT LOCATIONS OF ALL DUCTWORK, PIPING, EQUIPMENT, AND MATERIALS IN THE FIELD PRIOR TOCOMMENCING WITH NEW AND DEMOLITION WORK. EXISTING DUCT, PIPE, AND EQUIPMENT SIZES ARE NOTWARRANTED TO BE COMPLETELY CORRECT. FIELD VERIFY ALL EXISTING CONDITIONS PRIOR TO ORDERINGMATERIALS AND INSTALLING NEW WORK.
5. EXISTING MECHANICAL AND ELECTRICAL WORK INDICATED TO BE REMOVED (PIPES, VALVES, DUCTS, ETC.),SHALL BE REMOVED TO A POINT BELOW THE FINISHED FLOORS OR BEHIND FINISHED WALLS AND CAPPED.TERMINATION POINTS SHALL BE FAR ENOUGH BEHIND FINISHED SURFACES TO ALLOW FOR THEINSTALLATION OF THE NORMAL THICKNESS OF FINISHED MATERIAL.
6. EXISTING PIPING NO LONGER REQUIRED TO REMAIN IN SERVICE SHALL BE DISCONNECTED AND REMOVEDBACK TO EXISTING ASSOCIATED SERVICE MAINS UNLESS OTHERWISE INDICATED OR NOTED ON THECONTRACT DRAWINGS. REMOVED EXISTING PIPE HANGERS, PIPE INSULATION, SUPPORTS, VALVES, ETC.EXISTING PIPING INDICATED OR REQUIRED TO REMAIN IN SERVICE OR IN PLACE SHALL BE CAPPED,PLUGGED OR OTHERWISE SEALED. NO EXISTING PIPING SHALL BE LEFT OPEN ENDED.
7. EXISTING DUCTWORK INDICATED TO BE DISCONNECTED AND REMOVED SHALL INCLUDE RELOCATED AIRDEVICES, DUCT INSULATION, HANGERS, SUPPORTS, ETC. DUCTWORK SHALL BE CAPPED WITH SIMILARGAGE SHEET METAL. SECURE CAP(S) WITH SHEET METAL SCREWS AND SEAL WITH DUCT SEALER, NOEXISTING DUCTWORK SHALL BE LEFT UNCAPPED. IF CAPPING INSULATED DUCTS, CAP SHALL BE SIMILARLYINSULATED TO MATCH EXISTING INSULATION MATERIALS AND THICKNESS.
8. PATCH TO MATCH ALL NEW AND EXISTING OPENINGS IN WALLS, CEILINGS, AND FLOOR SURFACES DAMAGEDOR CREATED BY DEMOLITION WORK. PATCHING SHALL MATCH EXISTING ADJACENT SURFACES AS TOTHICKNESS, TEXTURES, MATERIALS, AND COLOR. ALL PATCHING SHALL BE PERFORMED TO THESATISFACTION OF THE ARCHITECT AND AT NO ADDITIONAL CONTRACT COST.
9. ALL DEMOLISHED EQUIPMENT SHALL BE OFFERED TO THE OWNER PRIOR TO DISPOSAL. EQUIPMENTRETAINED BY THE OWNER SHALL BE STORED WHERE DIRECTED BY THE OWNER. ANY EQUIPMENT THEOWNER DOES NOT WISH TO RETAIN SHALL BE DISPOSED OF, OFF SITE, BY THE CONTRACTOR.
10. ALL ABANDONED DUCTWORK, PLUMBING PIPING, MECHANICAL SYSTEMS PIPING, AND ATC CONTROLWIRING LOCATED IN PLENUM CEILING SPACES SHALL BE REMOVED.
MECHANICAL DRAWING LISTM001 COVERSHEET
M002 COMCHECK
M101 DEMOLTION - FIRST FLOOR - MECHANICAL
M102 DEMOLITION - PART PLANS - MECHANICAL
M103 DEMOLITION - PENTHOUSE - MECHANICAL
M104 DEMOLITION - ROOF PLAN - MECHANICAL
M201 NEW WORK - FIRST FLOOR - MECHANICAL
M202 NEW WORK - PART PLANS - MECHANICAL
M203 NEW WORK - PENTHOUSE- MECHANICAL
M204 NEW WORK - ROOF PLAN - MECHANICAL
M601 CONTROLS - MECHANICAL
M602 CONTROLS - MECHANICAL
M701 DETAILS - MECHANICAL
M702 DETAILS - MECHANICAL
M703 DETAILS - MECHANICAL
M801 SCHEDULES - MECHANICAL
BALANCING AND CONTROLS1. WIPE DOWN AND CLEAN ALL DIFFUSERS AND GRILLES IN THE BUILDING.
2. BUILDING RE-BALANCE. BALANCE BUILDING TO ORIGINAL DESIGN CONDITIONS. DRAWINGSOF EXISTING BUILDING PROVIDED FOR REFERENCE.
3. REPLACE ALL CONTROLS:
a. REPLACE BAS SYSTEM COMPLETELY. ALL BUILDING CONTROLS INCLUDING SENSORSAND ACTUATORS WILL BE REPLACED. FIELDWORK TO CONFIRM LOCATIONS.
b. BASIS OF DESIGN: NIAGARA TRIDIUM
c. ADDRESS ALL SWITCHOVER ISSUES. VERIFY PUMPS AND RTU'S PERFORMANCE DURINGSWITCHOVER BETWEEN COOLING AND HEATING SEASONS.
d. REPLACE ALL THERMOSTATS
SAMUEL TUCKER ES -HVAC REPLACEMENT
901
Dul
aney
Val
ley
Roa
d, S
uite
301
Pho
ne: 4
10-4
94-1
111
Tow
son,
MD
212
04
Fax
: 410
-494
-111
2
KIB
AR
TCO
NSUL
TING
ENGI
NEER
S
CONSTRUCTIONDOCUMENT
SUBMISSION10/28/2020
435 FERDINAND DAY DR.
ALEXANDRIA, VA 22304
COMcheck Software Version 4.1.1.0
Mechanical Compliance Certificate
Project InformationEnergy Code:Project Title:Location:Climate Zone:Project Type:
Construction Site:
Mechanical Systems ListQuantity System Type & Description
1 AHU-1Heating: 1 each - Hydronic or Steam Coil, Hot Water, Capacity = 272 kBtu/hCooling: 1 each - Single Package DX Unit, Capacity = 218 kBtu/h, Water-Cooled Condenser, Unknown EconomizerFan System: None
SYSTEM COMPLIANCE EXEMPTION APPLIESExemption: Modification or repair without energy use change.
1 AHU-2Heating: 1 each - Hydronic or Steam Coil, Hot Water, Capacity = 75 kBtu/hCooling: 1 each - Single Package DX Unit, Capacity = 73 kBtu/h, Water-Cooled Condenser, Unknown EconomizerFan System: Unspecified
SYSTEM COMPLIANCE EXEMPTION APPLIESExemption: Modification or repair without energy use change.
1 AHU-3Heating: 1 each - Hydronic or Steam Coil, Hot Water, Capacity = 270 kBtu/h
No minimum efficiency requirement appliesCooling: 1 each - Single Package DX Unit, Capacity = 286 kBtu/h, Water-Cooled Condenser, Air Economizer
Proposed Efficiency = 12.20 EER, Required Efficiency: 12.20 EER + 13.4 IEERFan System: RF-3 | AHU-3 -- Compliance (Brake HP method) : Passes
Fans:FAN 9 Return, Single-Zone VAV, 5125 CFM, 1.0 motor nameplate hp, 0.4 design brake hp (0.5 max. BHP), 80.0 fan efficiency
gradeFAN 10 Supply, Single-Zone VAV, 5125 CFM, 5.0 motor nameplate hp, 3.8 design brake hp (4.0 max. BHP), 80.0 fan efficiency
gradePressure Drop Credits:
1
Particulate filtration credit: MERV 9 through 12, 1.2406 credit
SYSTEM VERIFICATION REQUIRED.
PLANT - CHILLERCooling: Water Chiller, Capacity 241 tons, Condenser Water-Cooled, Standard Centrifugal Chiller, Heat Rejection Equipment: AirCooled Condenser
PLANT COMPLIANCE EXEMPTION APPLIESExemption: Modification or repair without energy use change.
90.1 (2016) StandardSamuel Tucker HVAC ReplacementAlexandria, Virginia4aAlteration
Owner/Agent:Alexandria County Public School
Designer/Contractor:Kibart Inc.
Project Title:Data filename:
Samuel Tucker HVAC ReplacementP:\2020\20041.00\LEED\COMcheck.cck
Report date: 10/28/201 of 15Page
Mechanical Compliance StatementCompliance Statement: The proposed mechanical alteration project represented in this document is consistent with the buildingplans, specifications, and other calculations submitted with this permit application. The proposed mechanical systems have beendesigned to meet the 90.1 (2016) Standard requirements in COMcheck Version 4.1.1.0 and to comply with any applicablemandatory requirements listed in the Inspection Checklist.
Ian Nguyen - Mechanical Design EngineerName - Title Signature
Ian Nguyen October 28, 2020Date
Project Title:Data filename:
Samuel Tucker HVAC ReplacementP:\2020\20041.00\LEED\COMcheck.cck
Report date: 10/28/202 of 15Page
SAMUEL TUCKER ES -HVAC REPLACEMENT
901
Dul
aney
Val
ley
Roa
d, S
uite
301
Pho
ne: 4
10-4
94-1
111
Tow
son,
MD
212
04
Fax
: 410
-494
-111
2
KIB
AR
TCO
NSUL
TING
ENGI
NEER
S
CONSTRUCTIONDOCUMENT
SUBMISSION10/28/2020
435 FERDINAND DAY DR.
ALEXANDRIA, VA 22304
STAGE /PLATFORM
GYM OFFICE
STUDENTSEATING
STORAGE
STORAGE
TOILET
PRINCIPAL
CONFERENCE
ASSTPRINCIPAL
FREEZER LOCKERS
KITCHEN
STORAGE
ELECSTUDENT DINING
SERVING
CORR
RECEIVING
GYM
ADMIN CORR
ADMIN CORR
MAIL /WORKROOM
TOILET
WAITING / RECEPTIONBOOK STORAGE
TOILET HEALTH
RX. VVT BRIDGE
HWRHWS
EX. 4" HWR / HWS
EX. 10x10 SAUP TO DUCTMAIN
2
2
2
2
& CAP
3
33
33
3
3
3
3
3
3
3
3
3
3
EX. 12x24RA UP
EX. 24x8 RA
EX. 16" Ø SAEX. 16" Ø SA
RX. 8" Ø SA
RX. 8" Ø SA
EX. 24x10RA DN
EX. 24x10RA DN
EX. 20" Ø SA
EX. 24x12 SA
EX. 24x12 RA
EX. 20x16 RA
EX. 20x16 SAEX. 16x12 SA
EX. 8" Ø SA
EX. 12x10 SA
EX. 6" Ø SA
EX. 8" Ø SA
EX. 10" Ø SA
EX. 6" Ø SA
EX. 8x12 SA EX. 10" Ø SA
EX. 6" Ø SA
EX. 12x10 SA
EX. 6" Ø SA
EX. 6" Ø SA
EX. 18x12 OA
EX. 8" Ø SA
EX. 8" Ø SA
EX. 8x4 EA
EX. 8x4 EA
EX. 10x10 SA
EX. 8" Ø SAEX. 8" Ø SA
EX. 6x6 SA
EX. 8x6 EA
EX. 8x6 SA
EX. 8x4 SA
EX. 16x12 EA
EX. 8" Ø SA
4
5
3
5
2
6
1
1
7 7
7
2
7
7
7
7
7
2
1
1
1
1
1
MEDIA
MEDIA STOR ITRX. WALL MOUNTED FCU
RX. 1" CD
RX. REFRIGERANT PIPINGTO ASSOCIATED ROOFMOUNTED ACCU
SAMUEL TUCKER ES -HVAC REPLACEMENT
901
Dul
aney
Val
ley
Roa
d, S
uite
301
Pho
ne: 4
10-4
94-1
111
Tow
son,
MD
212
04
Fax
: 410
-494
-111
2
KIB
AR
TCO
NSUL
TING
ENGI
NEER
S
CONSTRUCTIONDOCUMENT
SUBMISSION10/28/2020
435 FERDINAND DAY DR.
ALEXANDRIA, VA 22304
KEY PLANNO SCALE
STAGE AREA
ADMIN AREA
MEDIA CENTER
DEMOLITION - FIRST FLOOR - STAGE AREA - HVACSCALE: 1/8" = 1'-0"
DEMOLITION - FIRST FLOOR - ADMINISTRATION AREA - HVACSCALE: 1/8" = 1'-0"
GENERAL NOTES
DRAWING NOTES
DEMOLITION TO EXTENT NECESSARY TOACCOMMODATE NEW EQUIPMENT.
RX. VVT BOX AND ALL ASSOCIATEDAPPURTENANCES. DEMOLISH TO EXTENTNECESSARY TO ACCOMMODATE NEW EQUIPMENT.
EX. SUPPLY AIR DIFFUSER.
RX. 8x6 EA UP TO EF-7. REFER TO NEW WORKROOF PLANS FOR MORE INFORMATION.
RX. 12x16 EA UP TO EF-8. REFER TO NEW WORKROOF PLANS FOR MORE INFORMATION.
RX. 18x12 OA UP TO MAU-1. REFER TO NEW WORKPLANS FOR MORE INFORMATION.
EX. PLENUM RETURN GRILLE.
1
2
3
4
5
6
7
REPLACE ALL DAMAGED AND RUSTEDDUCTWORK.
REPLACE ALL DAMAGED INSULATION.
1:
2:
DEMOLITION - FIRST FLOOR - MEDIA AREA - MECHANICALSCALE: 1/8" = 1'-0"
EX.PUMP
RX. PUMP
EX.PUMP
RX. PUMP
EX.BOILER
EX.BOILER
EX. 54x26RELIEF AIRDUCT.REPLACEDAMAGEDINSULATION.
EX. 60x30 OA.REPLACE DAMAGEDINSULATION.
EX. 36x30 SA.REPLACE DAMAGEDINSULATION.
EX.EXPANSIONTANK
EX. WATERHEATER
EX. 5" Ø CHR
EX. 4" Ø HWR / HWS
EX. 4" Ø HWR
EX. 4" Ø HWR
EX. 6" Ø PVCAIR INLET UPTO ROOF
EX. 4" Ø HWS
EX. UH
EX. 6" Ø DOUBLEWALL W/ MUFFLEREXHAUST UP TO ROOF
HWS
HWS
CHRCHR
HWS
HWR
HWR
HWR
DEMOLITION - MECHANICAL ROOM 171 - MECHANICALSCALE 1/4" = 1'-0"
DEMOLITION - MECHANICAL ROOM 243 - AHU 4 - MECHANICALSCALE 1/4" = 1'-0"
DEMOLITION - MECHANICAL ROOM 244 - AHU 5 - MECHANICALSCALE 1/4" = 1'-0"
EX. 36x18 RA.REPLACEDAMAGEDINSULATION.
EX. 36x20 RA.REPLACE DAMAGED INSULATION.
EX. 24x36 RA DN.REPLACE DAMAGEDINSULATION.
EX. AHU-5. REPLACEVIBRATIONISOLATION ON ALLINTERNAL FANS.
RX. 4" CHS/CHR AND 2"HWS/HWR. RX. FREEZEPROTECTION PUMP. REPLACE PIPEHEADER TO AHU AND DAMAGEDINSULATION. REFER TO DETAILFOR MORE INFORMATION.
EX. 24x36 RA DN.REPLACE DAMAGEDINSULATION.
EX. AHU-4. REPLACEVIBRATIONISOLATION ON ALLINTERNAL FANS.
RX. 4" CHS/CHR AND 2" HWS/HWR. RX. FREEZEPROTECTION PUMP. REPLACE PIPE HEADER TOAHU AND DAMAGED INSULATION. REFER TODETAIL FOR MORE INFORMATION.
EX. 36x20 RA.REPLACE DAMAGED INSULATION.
EX. 54x26RELIEF AIRDUCT.REPLACEDAMAGEDINSULATION.
EX. 60x30 OA.REPLACE DAMAGEDINSULATION.
EX. 36x30 SA.REPLACE DAMAGEDINSULATION.
EX. CHEMICALFEEDER
EX. AIRSEPARATOR
EX. DISCONNECT
RX.DISCONNECT
EX. SUPPLY FAN VFDEX. RETURN FAN VFD
EX. ATC PANEL
EX. SUPPLY FAN VFDEX. RETURN FAN VFD
EX. ATC PANEL
EX. 4" CHS/CHR AND 2"HWS/HWR. REPLACEDAMAGED INSULATION.
EX. 4" CHS/CHR AND 2"HWS/HWR. REPLACEDAMAGED INSULATION.
RX. 4" Ø HWR
EX. 4" Ø HWR
EX.EXP.TANK
3
3
2
1
RX. 4" Ø HWSRX. 4" Ø HWS
RX. 4" Ø HWS
EX. 4" Ø HWS
SAMUEL TUCKER ES -HVAC REPLACEMENT
901
Dul
aney
Val
ley
Roa
d, S
uite
301
Pho
ne: 4
10-4
94-1
111
Tow
son,
MD
212
04
Fax
: 410
-494
-111
2
KIB
AR
TCO
NSUL
TING
ENGI
NEER
S
CONSTRUCTIONDOCUMENT
SUBMISSION10/28/2020
435 FERDINAND DAY DR.
ALEXANDRIA, VA 22304
GENERAL NOTES DRAWING NOTES
EXISTING BOILERS. REPLACE PIPEHEADER, PIPES, AND INSULATION TOBOILER. REFER TO DETAILS FOR MOREINFORMATION.
REMOVE EXISTING PUMPS. REPLACEPIPE HEADER, PIPES, AND INSULATIONTO PUMPS. REFER TO DETAILS FORMORE INFORMATION.
EXISTING CONCRETE HOUSEKEEPINGPAD. EXTEND HOUSEKEEPING PAD TOACCOMMODATE NEW EQUIPMENT.REFER TO DETAILS FOR MOREINFORMATION.
REPLACE ALL DAMAGED AND RUSTEDDUCTWORK.
REPLACE ALL DAMAGED INSULATION.
11:
2:
KEY PLANNO SCALE
MECH ROOM
MECH ROOM
MECH ROOM
2
3
RX. AHU
RX. AHU
RX. AHU
EX. 36x24 DUCTUP TO GRAVITYRELIEF HOOD
EX. 30" Ø SA
EX. 30x24 OA RX. 30X18 OA
EX. 24X12 OA
EX. 36x24 RA
EX. 30x18 RA
EX. 20X16 OA
EX. 30x12 DUCTUP TO GRAVITYHOOD RELIEF
RX. 36X20 OA
EX. 36x14 OA
EX. 36x18 SA DN
RX. 66x14 RA DN
RX. 42x10 RA DN
RX. 42x10 RA DN
EX. 10" Ø SA DN
DEMOLITION - PENTHOUSE - MECHANICALSCALE 1/4" = 1'-0"
RX. 30X20 OA
RX. AHU
RX. AHU
RX. AHU
DEMOLITION - PENTHOUSE - HYDRONICSCALE 1/4" = 1'-0"
RX. 2 1/2" CHS /CHR, 2" HWS / HWR
EX. 2 1/2" CHS /CHR. 2" HWS / HWR.
RX. 2" CHS / CHR,1" HWS / HWR
EX. 2" CHS / CHR.1" HWS / HWR.
RX. 2 1/2" CHS /CHR. 2" HWS / HWR
EX. 2 1/2" CHS / CHR.2" HWS / HWR.
1
1
1
1
1
1
EX. RETURNFAN
EX. RETURNFAN
RX. RETURN FAN
2
M
M
M
M
M
M
M
M
M
EX.6' x 7'DOOR
RX. 36x14 OA
3
RX. 1" CD
RX. 1" CD
RX. 1" CD
7
7
7
7
7
7
7
7
CHR CHSHS HR
CHRCHS
HSHR
CHR
CHS
HSHR
6
6
6
EX. 36x24 DUCTUP TO GRAVITYRELIEF HOOD
EX. 30" Ø SA
EX. RETURNFAN
7
SAMUEL TUCKER ES -HVAC REPLACEMENT
901
Dul
aney
Val
ley
Roa
d, S
uite
301
Pho
ne: 4
10-4
94-1
111
Tow
son,
MD
212
04
Fax
: 410
-494
-111
2
KIB
AR
TCO
NSUL
TING
ENGI
NEER
S
CONSTRUCTIONDOCUMENT
SUBMISSION10/28/2020
435 FERDINAND DAY DR.
ALEXANDRIA, VA 22304
GENERAL NOTES
DRAWING NOTES
REMOVE EXISTING AHU. DEMOLISH DUCTWORK TOTO EXTENT NECESSARY TO ACCOMMODATE NEWEQUIPMENT.
TEMPORARILY RX. 82x64 OA LOUVER W/ 3'INSULATED INTAKE PLENUM TO ACCOMMODATE THEINSTALLATION OF NEW WORK.
REMOVE EXISTING 4" CHS/CHR AND 2" HWS/HWR.RX. FREEZE PROTECTION PUMP. REPLACE PIPEHEADER TO AHU AND DAMAGED INSULATION. REFERTO DETAIL FOR MORE INFORMATION.
EXISTING BUTTERFLY VALVE AT FLOOR.
EXISTING FLOOR DRAIN.
EXISTING ACCESS PANEL.
EX. CONCRETE HOUSEKEEPING PAD. EXTENDHOUSEKEEPING PAD TO ACCOMMODATE NEWEQUIPMENT. REFER TO DETAILS FOR MOREINFORMATION.
REPLACE ALL DAMAGED AND RUSTEDDUCTWORK.
REPLACE ALL DAMAGED INSULATION.
1
1:
2:
2
KEY PLANNO SCALE
PENTHOUSE
3
4
5
5
5
5
3
4
6
3
7
RX. EF
EX. RTU
EX. RTU
1
RX. EF1
RX. EF1
RX. EF1
RX. GREASE EF1
RX. EF1
RX. EF1
RX. ACCU
EX. LOUVEREDPENTHOUSE
EX. LOUVEREDPENTHOUSE
EX. LOUVEREDPENTHOUSE
EX. LOUVEREDPENTHOUSE
RX. KITCHEN MAU
RX. AIRCOOLEDCHILLER
EX. 5" ØCHS/CHR DN
RX. 5" ØCHS/CHRABOVE ROOF
1
EX. BOILEREXHAUST FLUES
RX. REFRIGERANT PIPING
2
SAMUEL TUCKER ES -HVAC REPLACEMENT
901
Dul
aney
Val
ley
Roa
d, S
uite
301
Pho
ne: 4
10-4
94-1
111
Tow
son,
MD
212
04
Fax
: 410
-494
-111
2
KIB
AR
TCO
NSUL
TING
ENGI
NEER
S
CONSTRUCTIONDOCUMENT
SUBMISSION10/28/2020
435 FERDINAND DAY DR.
ALEXANDRIA, VA 22304
KEY PLANNO SCALE
AREA OF WORKDEMOLITION - ROOF PLAN - MECHANICALSCALE: 1/16" = 1'-0"
GENERAL NOTES
DRAWING NOTES
DEMOLISH DUCTWORK TO THE EXTENTNECESSARY TO INSTALL NEW EQUIPMENT.
EXISTING RTU. PROVIDE VFD. REPLACECONTROLLER AND ALL SENSORS. RTU TOOPERATE AS A VAV RTU. REFER TOSEQUENCES FOR MORE INFORMATION.
PERFORM FIELDWORK TO VERIFYLOCATION AND SIZE OF EQUIPMENT.
1
1:
2
STAGE /PLATFORM
GYM OFFICE
STUDENTSEATING
STORAGE
STORAGE
ELECSTUDENT DINING
GYM
EX. 12x24RA UP
EX. 24X12SA UP
EX. 16" Ø SAEX. 16" Ø SA
A500
A500
A500
A500
SA-1
SA-2
SA-3
SA-4
TOILET
PRINCIPAL
CONFERENCE
ASSTPRINCIPAL
FREEZER LOCKERS
KITCHEN
STORAGE
CORR
RECEIVING
ADMIN CORR
ADMIN CORR
MAIL /WORKROOM
TOILET
WAITING / RECEPTIONBOOK STORAGE
TOILET HEALTH
SERVING
HWSHWR
EX. 4" HWS / HWR
2 1/2" HWS / HWR
1
1
2
3
4
5
7
6
HWS
HWR
HWS
HWR
HWS
HWR
2 1/2" HWS /HWR
EX BUTTERFLYVALVES
TOILET
PRINCIPAL
CONFERENCE
ASSTPRINCIPAL
FREEZER LOCKERS
KITCHEN
STORAGE
SERVING
CORR
RECEIVING
ADMIN CORR
ADMIN CORR
MAIL /WORKROOM
TOILET
WAITING / RECEPTIONBOOK STORAGE
TOILET HEALTH
HWRHWS
EX. 4" HWR / HWS
EX. 10x10 SAUP TO DUCTMAIN
4" HWR / HWSTO ADMINAREA
1
2
22
22
2
2
2
2
2
2
2
2
2
2
1
2
3
4
5
7
6
3
4
EX.12x10 SA
EX. 8"Ø
EX. 20x16 RA
EX. 6"ØEX. 8"Ø
EX. 16x12 SA
EX. 20x16 SA
EX. 16x10 SA
EX. 8X4 EA
EX. 12x10 SA
EX. 6"Ø
EX. 6"Ø
EX. 18x12 OA
EX. 6x6 SA
EX. 8"ØEX. 8"ØEX. 6"Ø
EX. 10x10 SA
EX. 8x6 SA
EX. 16x12 EA
EX. 16x8 EA
EX. 16x8 EAEX. 8x8 EA
5
EX. 8x12 SA EX. 10" Ø SA
EX. 10" Ø SA
EX. 6" Ø SA
2 1/2" HWS / HWR18x12 OA
7 7
7
7
7
7
7
7
9
6
MEDIA
MEDIA STOR ITFCU-1
1" CD
10
SAMUEL TUCKER ES -HVAC REPLACEMENT
901
Dul
aney
Val
ley
Roa
d, S
uite
301
Pho
ne: 4
10-4
94-1
111
Tow
son,
MD
212
04
Fax
: 410
-494
-111
2
KIB
AR
TCO
NSUL
TING
ENGI
NEER
S
CONSTRUCTIONDOCUMENT
SUBMISSION10/28/2020
435 FERDINAND DAY DR.
ALEXANDRIA, VA 22304
KEY PLANNO SCALE
STAGE AREA
ADMIN AREA
MEDIA CENTER
DRAWING NOTES
1NEW WORK - FIRST FLOOR - STAGE AREA - HVACSCALE: 1/8" = 1'-0"
NEW WORK - FIRST FLOOR - ADMINISTRATION AREA - HVACSCALE: 1/8" = 1'-0"
CONNECT 2 1/2" HWS/HWR TO EX. 4"HWS/HWR MAIN WITHIN MECHANICAL ROOM.
EX. SUPPLY DIFFUSER.
8X6 EA UP TO EF-7.
12x16 EA UP TO EF-8.
EX. 24x12 SA & 12X24 RA UP TO RTU-1.
18x12 OA UP TO MAU-1.
EX. PLENUM RETURN GRILLE.
PAINT NEW DUCTWORK AND GRILLES BLACKTO MATCH EXISTING.
EX. 20x16 OPEN-ENDED RA DUCT.
SIZE AND ROUTE REFRIGERANT PIPING PERMANUFACTURER RECOMMENDATION.
MANUFACTURER REQUIRED EQUIPMENTCLEARANCE.
LOCATION OF ISOLATION AND CONTROLVALVE ASSEMBLY. REFER TO CONNECTIONDETAIL FOR MORE INFORMATION.
2
3
4
5
NEW WORK - FIRST FLOOR - ADMINISTRATION AREA - HYDRONIC AND ATCSCALE: 1/8" = 1'-0"
6
7
8
8
88
8
8
9
NEW WORK - FIRST FLOOR - MEDIA AREA - MECHANICALSCALE: 1/8" = 1'-0"
10
11
12
12
12
12
12
12
12
12
11
1111
11
11
1111
11
11
11
11
11
11
EX.PUMP
EX.PUMP
EX.BOILER
EX.BOILER
EX.EXPANSIONTANK
EX. WATERHEATER
EX. 5" Ø CHR
EX. 4" Ø HWR / HWS
EX. 4" Ø HWR
EX. 4" Ø HWR
EX. 6" Ø PVCAIR INLET UPTO ROOF
4" Ø HWS
EX. UH
EX.EXP.TANK
EX. 6" Ø DOUBLEWALL W/ MUFFLEREXHAUST UP TO ROOF
HWS
HWS
CHRCHR
HWS
HWR
HWR
HWR
EX. CHEMICALFEEDER
EX. 54x26RELIEF AIRDUCT.REPLACEDAMAGEDINSULATION.
EX. 60x30 OA.REPLACE DAMAGEDINSULATION.
EX. 36x30 SA.REPLACE DAMAGEDINSULATION.
NEW WORK - MECHANICAL ROOM 243 - AHU 4 - MECHANICALSCALE 1/4" = 1'-0"
NEW WORK - MECHANICAL ROOM 244 - AHU 5 - MECHANICALSCALE 1/4" = 1'-0"
EX. 36x18 RA.REPLACEDAMAGEDINSULATION.
EX. 36x20 RA.REPLACE DAMAGED INSULATION.
EX. 24x36 RA DN.REPLACE DAMAGEDINSULATION.
EX. AHU-5. REPLACEVIBRATIONISOLATION ON ALLINTERNAL FANS.
4" CHS/CHR AND 2" HWS/HWR.PROVIDE FREEZE PROTECTION PUMPAND COIL CONNECTION. REFER TODETAIL FOR MORE INFORMATION.
EX. 24x36 RA DN.REPLACE DAMAGEDINSULATION.
EX. AHU-4. REPLACEVIBRATIONISOLATION ON ALLINTERNAL FANS.
4" CHS/CHR AND 2" HWS/HWR.PROVIDE FREEZE PROTECTION PUMPAND COIL CONNECTION. REFER TODETAIL FOR MORE INFORMATION.
EX. 36x20 RA.REPLACE DAMAGED INSULATION.
EX. 54x26RELIEF AIRDUCT.REPLACEDAMAGEDINSULATION.
EX. 60x30 OA.REPLACE DAMAGEDINSULATION.
EX. 36x30 SA.REPLACE DAMAGEDINSULATION.
EX. DISCONNECT
EX. 4" CHS/CHR AND 2"HWS/HWR. REPLACEDAMAGED INSULATION.
EX. 4" CHS/CHR AND 2"HWS/HWR. REPLACEDAMAGED INSULATION.
EX. 4" CHS/CHR AND 2"HWS/HWR. REPLACEDAMAGED INSULATION.
EX. 4" CHS/CHR AND 2"HWS/HWR. REPLACEDAMAGED INSULATION.
P-10
P-9
2
2
4" Ø HWS
EX. 4" Ø HWR
4" Ø HWR4" Ø HWS
2
2
VFD
P-4
P-3
1
1
EX. 4" Ø HWS
3
3
SAMUEL TUCKER ES -HVAC REPLACEMENT
901
Dul
aney
Val
ley
Roa
d, S
uite
301
Pho
ne: 4
10-4
94-1
111
Tow
son,
MD
212
04
Fax
: 410
-494
-111
2
KIB
AR
TCO
NSUL
TING
ENGI
NEER
S
CONSTRUCTIONDOCUMENT
SUBMISSION10/28/2020
435 FERDINAND DAY DR.
ALEXANDRIA, VA 22304
NEW WORK - MECHANICAL ROOM 171 - MECHANICALSCALE: 1/4" = 1'-0"
GENERAL NOTES DRAWING NOTES
EXISTING BOILERS. REPLACE PIPEHEADER, PIPES, AND INSULATION TOPUMPS. REFER TO DETAIL FOR MOREINFORMATION.
EXISTING CONCRETE HOUSEKEEPINGPAD. EXTEND HOUSEKEEPING PAD TOACCOMMODATE NEW EQUIPMENT.REFER TO DETAILS FOR MOREINFORMATION.
PROVIDE DRAIN PAIN FOR ALL PIPINGABOVE VFD.
PROVIDE PVC JACKET ON ALL PIPEINSULATION.
EXTEND EXISTING HOUSEKEEPING PADS TOACCOMMODATE NEW EQUIPMENT.
REPLACE ALL DAMAGE AND RUSTEDDUCTWORK.
REPLACE ALL DAMAGED INSULATION.
11:
2:
3:
4:
KEY PLANNO SCALE
MECH ROOM
MECH ROOM
MECH ROOM
2
3
AHU-1
EX. 36x24 DUCTUP TO GRAVITYRELIEF HOOD
EX. 36x24 DUCTUP TO GRAVITYRELIEF HOOD
EX. 30" Ø SA
EX. 36x18 SA DN
42x10 RA DN
CONTINUATIONTO GYM
EX. 30" Ø SA
EX. 10" Ø SA DN
AHU-2
AHU-3
RF-3
NEW WORK - PENTHOUSE - MECHANICALSCALE 1/4" = 1'-0"
NEW WORK - PENTHOUSE - HYDRONICSCALE 1/4" = 1'-0"
EX. 2 1/2" CHS /CHR. 2" HWS /HWR.
1 1/2" CHS / CHR,1" HWS / HWR
EX. 2" CHS / CHR.1" HWS / HWR.
2 1/2" CHS / CHR,2" HWS / HWR
EX. 2 1/2" CHS/CHR.2" HWS/HWR.
AHU-2
AHU-3
OALOUVER
EX. 30x24 OA
30X18 OA
EX. 24X12 OA
EX. 36x24 RA
EX. 30x18 RA
EX. 20X16 OA
EX. 30x12 DUCTUP TO GRAVITYRELIEF HOOD
36X20 OA
EX. 36x14 OA
66x14 RA DN
EX. 30x20 OA
42x10 RA DNEX. 6" CHS / CHR. 4"HWS / HWR.
2 1/2" CHS /CHR, 1 1/2"HWS / HWR
P-7
P-8
36x14 OA
CHR CHSHS HR
CHRCHS
HSHR
CHR
CHS
HSHR
EX. RETURNFAN
EX. RETURNFAN
7
7
7
7
7
7
7
77
1" CD
1" CD
1" CD
AHU-1
P-6
6
6
62
3
5
5
4
3
3
5
1
1
1
1
1
1
1
36x18 SA DN
EX. 24x12 SA DN
24x12 SA
EX. 30X12 OA
60x10 RA DN
1
60x10 RA
36x24 RA
SD 30x18 RA
SD
SD
SD
SD
20x16 RASD
SAMUEL TUCKER ES -HVAC REPLACEMENT
901
Dul
aney
Val
ley
Roa
d, S
uite
301
Pho
ne: 4
10-4
94-1
111
Tow
son,
MD
212
04
Fax
: 410
-494
-111
2
KIB
AR
TCO
NSUL
TING
ENGI
NEER
S
CONSTRUCTIONDOCUMENT
SUBMISSION10/28/2020
435 FERDINAND DAY DR.
ALEXANDRIA, VA 22304
KEY PLANNO SCALE
PENTHOUSE
GENERAL NOTES
DRAWING NOTES
TRANSITION DUCT TO FULL SIZE OFUNIT CONNECTION. PROVIDE FLEXDUCT FITTING AT UNIT CONNECTION.
TEMPORARILY RX. 82x64 OA LOUVERW/ 3' INSULATED INTAKE PLENUM TOACCOMMODATE THE INSTALLATIONOF NEW WORK.
REPLACE PIPE HEADER, VALVING, ANDFREEZE PROTECTION PUMP. REFER TODETAILS FOR MORE INFORMATION.
EX. BUTTERFLY VALVES AT FLOOR.
EX. FLOOR DRAIN.
EX. ACCESS PANEL.
EX. CONCRETE HOUSEKEEPING PAD.EXTEND TO ACCOMMODATE NEWEQUIPMENT.
1
2
3
4
5
PROVIDE PVC JACKET ON ALL PIPE INSULATION.
EXTEND EXISTING HOUSEKEEPING PADS TOACCOMMODATE NEW EQUIPMENT.
REPLACE ALL DAMAGE AND RUSTED DUCTWORK.
REPLACE ALL DAMAGED INSULATION.
1:
2:
3:
4:
6
7
EX. LOUVEREDPENTHOUSE
EX. LOUVEREDPENTHOUSE
EX. LOUVEREDPENTHOUSE
EX. LOUVEREDPENTHOUSE
EX. INTAKE ANDEXHAUST FLUES
EX. RTU-1
EX. 5" CHS/CHR DN
6" CHS / CHR
1
VFD
EX. RTU
EX. RTU
4
4
4
4
4
4
4
4
4
5
EF-5
EF-2
ACCU-1
MAU-1
EF-3
EF-8
EF-7
CH-1
EF-11
EF-1
SAMUEL TUCKER ES -HVAC REPLACEMENT
901
Dul
aney
Val
ley
Roa
d, S
uite
301
Pho
ne: 4
10-4
94-1
111
Tow
son,
MD
212
04
Fax
: 410
-494
-111
2
KIB
AR
TCO
NSUL
TING
ENGI
NEER
S
CONSTRUCTIONDOCUMENT
SUBMISSION10/28/2020
435 FERDINAND DAY DR.
ALEXANDRIA, VA 22304
NEW WORK - ROOF PLAN - MECHANICALSCALE: 1/16" = 1'-0"
DRAWING NOTES
LOCATE CHILLER ON EXISTING STRUCTURAL PLATFORM. MODIFYEXISTING STEEL STRUCTURE TO ACCOMMODATE AIR-COOLEDCHILLER SUPPORT POINTS. REMOVE EXISTING PAINT FROMSTEEL STRUCTURE AND REFINISH ENTIRE STEEL STRUCTUREWITH GALVANIZED PAINT.
SIZE AND ROUTE PER REFRIGERANT MANUFACTURERRECOMMENDATION.
MOUNT VFD TO EXISTING RTU-1. REPLACE CONTROLLER ANDALL SENSORS TO OPERATE AS VAV RTU. REFER TO SEQUENCESFOR MORE INFORMATION.
PROVIDE MANUFACTURER REQUIRE CLEARANCE.
PROVIDE HEAT TRACE AND ALUMINUM JACKET WITHINSULATION ALONG ROOFTOP PIPE ROUTING.
PROVIDE ACCU SUPPORT. REFER TO DETAILS FOR MOREINFORMATION.
1
KEY PLANNO SCALE
AREA OF WORK
2
2
3
3
4
5
6
6
GENERAL CONTROL SEQUENCES AND SAFETIES
COMPRESSOR
INDOOR UNIT
DDC
BAS
BACNET DIRECT DIGITAL CONTROLLERBY EQUIPMENT MANUFACTURER
BUILDING AUTOMATION SYSTEMINTEGRATION TO SYSTEM CONTROLLER
T BAS CONTROLLED THERMOSTATS
SPLIT SYSTEM POINTS LISTPOINT TYPE UNITS TREND ALARM
SYSTEM COMMAND B0 OFF/ON X
SYSTEM STATUS BI OFF/ON X
SYSTEM ERROR CODE AI ERROR CODE X X
GENERAL ALARM BI NORMAL/ALARM X
ROOM TEMPERATURE AI DEGREE F X X
PROVIDE ALL SOFTWARE POINTS TO ACCOMPLISH SEQUENCE OF OPERATION.
DUCTLESS SPLIT SYSTEMS - SEQUENCE OF OPERATIONS
1. All controls provided by the equipment manufacturer. Thermostat by the unit manufacturershall maintain space temperature setpoint. BAS shall monitor/control points indicated inpoints list via manufacturer provided BACNET interface.
2. The unit shall operate via manufacturer provide control sequence to maintain occupiedtemperature setpoint.
3. The following list includes majority of monitoring / control points. However, this list is notall inclusive. Refer to sequence of operation for additional I/O summary requirements.
4. If for any reason fan status does not match commanded value, an alarm will be generated.
GLOBAL AND MISCELLANEOUS POINTS LISTPOINT ABBREVIATION TYPE UNITS TREND ALARM READ/WRITE PROVIDER
BAS UPS BI NORMAL/ALARM X READ BAS
EMERGENCY GENERATOR AI AMPERAGE X READ BAS
EMERGENCY GENERATOR STATUS BI NORMAL/ALARM X READ BAS
TRANSFER SWITCH BI NORMAL/EMERG X READ BAS
FIRE ALARM CONTROL PANEL BI NORMAL/ALARM X READ ELEC
MANUAL HVAC EMERGENCY SHUTDOWN BI ENABLE/DISABLE X READ ELEC
OUTSIDE AIR TEMPERATURE AI DEG F. X READ BAS
OUTSIDE AIR HUMIDITY AI % RH. READ BAS
OUTSIDE AIR ENTHALPY SOFTWARE BTU/LB. X READ BAS
LEGEND: BAS = CONTROL CONTRACTOR, MFR = EQUIPMENT MANUFACTURER, MECH = MECHANICAL CONTRACTOR, ELEC = ELECTRICAL CONTRACTOR, EX = EXISTING
PROVIDE ALL SOFTWARE POINTS TO ACCOMPLISH SEQUENCE OF OPERATION.
SCHEDULING AND ZONES
1. Provide scheduling as instructed by the owner. The program shall monitor the controlledequipment statuses, where indicated as such on the points lists, to verify that theenable/disable status matches the command. When a status does not match a commandan alarm shall be generated.
OPTIMIZED START
1. Optimized start programs shall be accomplished by monitoring outdoor temperature,individual or zone space temperatures, and historical data of building recovery time. Theprogram shall automatically evaluate the thermal inertia of the building and the capacity ofthe HVAC system. At the start of the occupied schedule the program shall determine theminimum time of HVAC system operation need to satisfy the space set point requirementsand either increase or decrease start time based on indoor and outdoor conditions. Eachpiece of equipment shall start individually in response to its space or zone temperature andas indicated on the points list.
TIMED PROGRAMMED COMMANDS
1. The TPC program shall reduce the heating space temperature set point and raise thecooling space temperature set point during unoccupied hours. The software shall limit theamount of setback during periods of extremely cold weather to facilitate morning warm-upand prevent freeze-ups. Setback shall initially be set with the scale of 55°F indoors atoutdoor air temperatures of 50°F and warmer and 60°F indoors at 25°F or colder outdoorair temperatures. Set-up temperature shall be 85°F. Systems not capable of mechanicalcooling shall not perform night set-up.
2. Provide software to reduce the HVAC thermal load during warm-up or cool-down cyclesprior to the occupancy of the building. Heating-only units shall not perform cool-down.
3. Only RTU's that are controlled by space temperature sensor and are capable ofre-circulating air shall perform TPC.
SPACE TEMPERATURE AND HUMIDITY SETPOINTS
1. All space temperature sensors and thermostats shall have occupied heating set points of72°F and occupied cooling set points of 75°F unless noted otherwise.
2. All space temperature sensors and thermostats shall have unoccupied heating set points of62°F and unoccupied cooling set points of 85°F unless noted otherwise.
3. Space sensor local adjustment limitation. Software shall limit local set point adjustment to±2°F offset from the programmed set points (initially 72°F heating/75°F cooling).Programmed set point and actual set point due to local adjustment shall be displayed in allrelative trends and graphics.
OVERRIDE PROGRAMS
1. Touch screen: A touch screen graphic for manual override of all scheduled start/stop zonesshall be located in the operations office, coordinate location with owner. Override programshall to start any desired zone's equipment by touch screen. The program shall permitoperator selection of zones and shall enable all related equipment for that particular zone.The program shall index the selected zone to an "ON" mode in a minimum of one-hourincrements for a period of up to six hours in the override condition. Once overridden, thezone equipment shall operate in the occupied mode, including exhaust fan interlocks.
2. Timed override feature shall allow an operator to temporarily change the state ofscheduled equipment. an override command shall be selectable to apply to an individualunit, all units assigned to a given master schedule, or to all units in a building. Timedoverride shall terminate at the end of an operator selectable time, or at the end of thescheduled occupied/unoccupied period, whichever comes first. A password level that doesnot allow assignment of master schedules shall allow a timed override feature.
3. Provide equipment override programs for all RTUS. Program shall allow operator tooverride RTU "OFF" command to enable individual units for operation without overridingzone command. Duration of override shall be for 3 hours. Intent is to allow RTUS to runfor maintenance servicing without requiring other equipment in the zone to operate aswould be required if the zone were overridden on.
4. Override shall be possible for analog or time clock values for a given period of time, until a
given time or permanently. Overrides may be cleared at the keyboard or throughprogrammable user functions.
5. Keyed Emergency Fan Shutdown: Key switch at building entrance near fire alarmannunciator shall shutdown all RTUS and AHUS.
SAFETIES
1. All equipment and/or systems safeties and/or overrides such as freeze, fire, and smokedetection shall override bas as necessary to execute their functions without relying on bassoftware. High limit/low limit control shall be by BAS for equipment under BAS occupiedcycle temperature control and by electric devices in all other case. All safety controls shallbe wired independent of the motor starters HOA switches.
2. Provide automatic reset freezestat for equipment capable of introducing outdoor air. Upondetection of a freeze condition, the system shall de-energize and all control dampers andvalves shall revert to their closed positions.
3. Smoke Detection: Smoke detectors shall be proved for all air handling equipment over2000 CFM or as indicated on the control diagrams or floor plans. Upon detection of smokethe associated air handling unit shall shutdown and all dampers shall close, and the firealarm panel shall be alerted.
4. Condensate Pan Overflow Switch (all indoor equipment above ceiling): Switches furnishedby ATC contractor shall disable all heat pump or air conditioning units.
SCHEDULING
1. Operating schedules shall be adjustable via a graphic utility. Scheduling feature shallinclude multiple seven-day master and regular schedules, plus holiday and special eventschedules. A yearly calendar feature shall allow assignment of holidays and automaticreset of system real time clocks for transitions between daylight savings time and standardtime. Schedules shall reside in building controllers, not on the system server. Each type ofschedule shall have start time and stop time. Normal conventions shall be that "stop","unoccupied", or "off" shall place the controlled building/zone/equipment in the unoccupiedmode; "start", "occupied", or "on" shall place the controlled building/zone/equipment in
the occupied mode. default of the schedule shall be "off" (stop, unocc); operator entriesshall be required to schedule equipment "on" (start, occ). equipment shall be assigned tozone schedules. Each and all zones shall controllable by any of the five types of schedulesin any combination and the schedules shall operate concurrently.
Schedule types:a. Master Schedule: Provide a repeatable 7-day master schedule. All zones assigned to
the master schedule shall respond to the daily on/off entered in that schedule. Eachday schedule shall be able to have multiple on/off times. This schedule is construed asthat which controls the building on a regular, daily basis. Each building shall beprovided with 10-month and 12-month master schedules.
b. Regular Schedule: Provide repeatable 7-day regular schedules for each zone. Each dayof the schedule shall function with multiple on/off times. Regular schedules shall beused to provide "on" times in addition to those scheduled in the master schedule.
c. Holiday Schedule: Holiday schedules shall temporarily modify the master and regularschedules. it shall be possible to schedule holidays a year in advance. Holidays shall beentered by date; master and regular schedules shall respond to the holiday schedulefor the date entered.
d. Special Schedule: Special schedules supersede all other schedules. Special schedulesare single event schedules entered by time and date. Single event schedule shall beable to be entered up to one year in advance of the event. A minimum of 12 singleevent schedules per year per zone shall be provided. (the cessation of the single eventschedule shall be inherent once the date and time have passed).
ALARM CONDITIONS
1. When the BAS has generated an alarm, the designated on call person shall receive a textmessage with the alarm condition. The alarm conditions that generate a text message shallbe adjustable by the person on call.
SINGLE DUCT VARIABLE AIR VOLUME BOX WITH HEATING WATER REHEAT - SEQUENCE OF OPERATIONSVAV-THTG-O
VAV-O
VAV-AF
ZN-TGEN-A ZN-CO2
BAS POINTS LISTTYPE POINT POINT ABBREVIATION UNITS TREND ALARM READ/WRITE PROVIDER
AI PRIMARY AIRFLOW VAV-AF CFM X READ MFR
AO PRIMARY AIR DAMPER OUTPUT VAV-O % X READ/WRITE MFR
AO HEATING WATER VALVE OUTPUT HTG-O % X READ/WRITE MFR
AI SUPPLY AIR TEMPERATURE SA-T DEG F X READ MFR
BI GENERAL ALARM GEN-A ALARM/NORMAL X READ MFR
AI ZONE AIR TEMPERATURE ZN-T DEG F X X READ BAS
AI ZONE AIR CARBON DIOXIDE ZN-CO2 PPM CO2 X X READ BAS
PROVIDE ALL SOFTWARE POINTS TO ACCOMPLISH SEQUENCE OF OPERATION.
LEGEND: BAS = CONTROL CONTRACTOR, MFR = EQUIPMENT MANUFACTURER, MECH = MECHANICAL CONTRACTOR, ELEC = ELECTRICAL CONTRACTOR, EX = EXISTING
A. General:1. The building automation system (BAS) shall be capable of
indexing the VAV box to the occupied mode per a time of dayschedule or operator override.
2. The VAV manufacturer shall provide a stand alone BACnetcertified direct digital controller for factory mounting. Coordinateinterface/interlock requirements with the BAS manufacturer andcontrol diagram.
B. Occupied Mode:1. When the Zone Air Temperature rises above the cooling setpoint
of 75°F (adj.), the Primary Air Damper shall modulate opentoward the maximum amount of primary air as scheduled to thezone.
2. When the Zone Air Temperature drops below the heatingtemperature setpoint of 70°F (adj.), the Primary Air Damper shallmodulate to heating CFM and the Heating Water Valve shallmodulate to maintain Zone Air Temperature.
3. When the Zone Air Temperature is between the heating andcooling setpoints, the Primary Air Damper shall modulate to theminimum airflow set point. The Heating Water Valve shall close.
4. Demand Control Ventilation (DCV):a. When the Zone CO2 rises above 1000ppm (adj.), the
Primary Air Damper shall modulate open toward themaximum amount of primary air as scheduled to the zone.
b. On a continued rise in Zone CO2, the associated AHU shallmodulate the outdoor air damper open.
c. Upon the Zone CO2 rising above 1200 ppm (adj.), and alarmshall be annunciated at the BAS.
C. Unoccupied Mode:1. During the unoccupied mode, the primary air damper shall close
to its minimum open position.2. Night Setup: When the Zone Air Temperature rises above the
unoccupied cooling setpoint of 85°F (adj.), the Primary AirDamper shall open to provide the maximum amount of primaryair as scheduled to the zone. The associated primary air handlingunit (AHU) shall be indexed to the occupied mode until the ZoneAir Temperature is satisfied.
3. Night Setback: When the Zone Air Temperature drops below theheating setpoint of 60°F (adj.), the Primary Air Damper shallopen to provide the heating cfm. The associated primary airhandling unit (AHU) shall be indexed to the occupied mode andthe Heating Water Valve shall modulate to maintain Zone AirTemperature.
D. Miscellaneous1. The BAS shall monitor the Zone Air Temperature, Zone CO2,
Supply Air Temperature and Primary Airflow of the VAV.2. The Primary Air Damper shall be closed to the minimum position
whenever the associated RTU is de-energized or in alarm.3. If the box is in alarm, the Primary Air Damper shall close, the
Heating Water Valve shall be closed, and the box shall beremoved from all polling.
EXHAUST AIR
SCALE: NONECONTROL DIAGRAM
BYPASS AIR
EXHAUSTFAN (TYP)
EXHAUST AIR
SCALE: NONECONTROL DIAGRAM
M
MEAD-O
BAD-O
SPESP-DP
VFD
EAF-FEAF-SEAF-C
EAF-SEAF-C
BAS POINTS LISTPOINT ABBREVIATION UNITS TREND ALARM READ/WRITE PROVIDER
BO SUPPLY FAN COMMAND SAF-C OFF/ON READ/WRITE BAS
BI SUPPLY FAN STATUS SAF-S OFF/ON X READ BAS
BO EXHAUST FAN COMMAND EAF-C OFF/ON READ/WRITE BAS
BI EXHAUST FAN STATUS EAF-S OFF/ON X READ BAS
AO EXHAUST AIR DAMPER OUTPUT RAD-O % X READ/WRITE MFR
AO BY-PASS AIR DAMPER OUTPUT RAD-O % X READ/WRITE MFR
BO EXHAUST AIR DAMPER COMMAND EAD-O OPEN/CLOSE READ/WRITE MFR
AO EXHAUST FAN SPEED EAF-F Hz X READ/WRITE MFR.
AI ZONE AIR TEMPERATURE ZN-T DEG F X X READ BAS
LEGEND: BAS = CONTROL CONTRACTOR, MFR = EQUIPMENT MANUFACTURER, MECH = MECHANICAL CONTRACTOR, ELEC = ELECTRICAL CONTRACTOR
PROVIDE ALL SOFTWARE POINTS TO ACCOMPLISH SEQUENCE OF OPERATION.
TZN-T
EXHAUST FANS - SEQUENCE OF OPERATIONS
SEQUENCE OF OPERATIONS:
EF-2, EF-3, EF-7, and RF-1,RF-2,RF-3 shall operate on an occupied/unoccupied schedule and interlocked withassociated AHUs/RTUs. If the fan status does not match the commanded value, an alarm will be generated.
EF-5 shall be interlocked with the associated kiln. manufacturer supplied contacts shall energize a control relay toenergize the exhaust fan during operation. When kiln is de-energized the exhaust fan shall continue to run for 60minutes via a control relay with adjustable timer.
EF-1, EF-11 shall be controlled via a wall mounted cooling only thermostat. Fan shall be commanded on when thespace temperature is above 85°F. The fan shall be interlocked to its associated motor operated damper on the outsideair intake louver. During failure/alarm of fan or associated unit heater fan shall be disabled and motor operateddamper shall be closed.
EF-8 shall be interlocked with kitchen make-up air unit. Refer to kitchen make-up air unit sequence of operations foradditional information.
BUILDING AUTOMATION SYSTEMBAS
SEQUENCE OF OPERATION
BAS POINTS LIST (MAU-1/EF-8)POINT ABBREVIATION TYPE UNITS TREND ALARM READ/WRITE PROVIDER
SUPPLY FAN COMMAND SAF-C BO OFF/ON READ/WRITE BAS
SUPPLY FAN STATUS SAF-S BI OFF/ON X READ BAS
SUPPLY AIR TEMPERATURE SA-T AI DEG F X X READ MFR
OUTSIDE AIR DAMPER COMMAND OAD-O BO OPEN/CLOSE READ/WRITE MFR
HEATING OUTPUT HTG-O BO % READ/WRITE MFR
SUPPLY AIR SMOKE DETECTOR SSMK-A BI ALARM/NORMAL X READ BAS
LEGEND: BAS = CONTROL CONTRACTOR, MFR = EQUIPMENT MANUFACTURER, MECH = MECHANICAL CONTRACTOR, ELEC = ELECTRICALCONTRACTOR
PROVIDE ALL SOFTWARE POINTS TO ACCOMPLISH SEQUENCE OF OPERATION.
T
HTG-O
SA-T
MUA
M
SAF-C
OAD-O
SSMK-A
OUTSIDEAIR
SAF-SSD
A. GENERAL
1. KITCHEN MAKE-UP AIR UNIT SHALL BE INTERLOCKED WITH EF-8. THE BUILDING AUTOMATION SYSTEM WILL PROVIDEMONITORING AND OVERRIDE CAPABILITIES.
2. WHEN THE KITCHEN GREASE EXHAUST FAN HAS BEEN COMMANDED ON BY EITHER THE KITCHEN CONTROL PANEL OR THEBAS, THE MAKE-UP AIR UNIT SHALL BE COMMANDED ON. THE MAKE-UP AIR UNIT SHALL RUN CONTINUOUSLY UNTIL THEKITCHEN EXHAUST FAN HAS BEEN COMMANDED OFF.
3. IF THE SUPPLY FAN STATUS DOES NOT MATCH THE COMMAND STATUS AN ALARM SHALL BE GENERATED.
4. UPON DETECTION OF SMOKE, THE SUPPLY FAN SHALL BE COMMANDED OFF, FURNACE COMMANDED OFF, AND OUTSIDE AIRDAMPER CLOSED. AN ALARM SHALL BE GENERATED.
MAKE-UP AIR UNIT - SEQUENCE OF OPERATIONS
SAMUEL TUCKER ES -HVAC REPLACEMENT
901
Dul
aney
Val
ley
Roa
d, S
uite
301
Pho
ne: 4
10-4
94-1
111
Tow
son,
MD
212
04
Fax
: 410
-494
-111
2
KIB
AR
TCO
NSUL
TING
ENGI
NEER
S
CONSTRUCTIONDOCUMENT
SUBMISSION10/28/2020
435 FERDINAND DAY DR.
ALEXANDRIA, VA 22304
VARIABLE AIR VOLUME, DIRECT EXPANSION COOLING, HOT GAS REHEAT, GAS HEATING, ROOFTOP UNITWITH EXHAUST FAN - SEQUENCE OF OPERATIONS
A.General
1. The building automation system (BAS) shall be capable of energizing andde-energizing the Rooftop Unit (RTU) per a time of day schedule or operatoroverride.
B. Unoccupied Mode
1. When the RTU is in the unoccupied mode and the zone temperature is withinthe acceptable temperature ranges the following shall occur:a. The supply and exhaust fans shall be off,
b. OA damper shall be closed, return air damper shall be fully open,
c. The DX cooling shall be de-energized.
2. Night Setup (NSU): When zone temperature rises above the zone unoccupiedcooling temperature setpoint of 85°F (adjustable), the RTU shall be energized.The supply fan shall energize and modulate to its maximum speed. The OAdamper shall remain closed. The return air damper shall be fully open. Thecompressors shall modulate to maintain the zone air temperature setpoint.The gas heat shall be disabled.a. Economizer: The RTU shall be allowed to utilize economizer (Refer to
economizer section for sequence of operation).
b. The unit shall be de-energized when the zone temperature falls below thezone unoccupied cooling temperature setpoint minus a temperaturedifferential of 2°F (adj.).
3. Night Set-Back (NSB): When the zone temperature falls below the zoneunoccupied heating temperature of 55°F (adj.), the RTU shall be energized.The supply fan shall energize and modulate to its maximum speed. The OAdamper shall remain closed. The return air damper shall be fully open. Thegas heat shall be enabled and modulate to maintain the zone air temperaturesetpoint. The compressors shall remain de-energized. The unit shall bede-energized when the zone temperature rises above the zone unoccupiedheating temperature setpoint plus a temperature differential of 2°F (adj.).
C.Morning Mode
1. Morning Warm-Up (MWU) or Cool-Down (MCD) shall be energized one hour(adj.) prior to the start of occupied mode per the normal occupancy schedule.
2. MWU: The supply fan shall energize and modulate to its maximum speed.The OA damper shall remain closed. The return air damper shall be fully open.The gas heat shall be enable and modulate to maintain the zone temperaturesetpoint of 70°F (adj.). The compressors shall remain de-energized. Uponreaching setpoint, the RTU shall operate in occupied mode when the zonetemperature is within 2°F (adj.) of setpoint.
3. MCD: The supply fan shall energize and modulate to its maximum speed. TheOA damper shall remain closed. The return air damper shall be fully open.The compressors shall modulate to maintain the zone temperature setpoint(75°F, adj.). The heating water valve shall be closed. Upon reaching setpoint,the RTU shall operates in occupied mode when the zone temperature is within2°F of setpoint.
D.Occupied Mode
1. Generala. RTU shall be in occupied mode automatically based on an occupancy
schedule programmed into the BAS or manually through an operatoroverride.
b. The supply fan and exhaust fan shall operate continuously. The exhaust fanshall operate continuously and modulate to maintain zone differentialpressure. The DX cooling output, gas heat, and dampers shall modulate insequence to maintain the discharge air temperature and return humiditysetpoints.
c. The OA damper shall be opened at or above the minimum position as set bythe balancer. On a rise in CO2, the outside air damper shall modulate opento maintain zone CO2 setpoint.
3. Fan Operationa. Each fan status shall be monitored by the BAS. If the status does not
match with the commanded value, an alarm shall be generated.
b. The supply fan speed shall modulate to maintain the supply air staticpressure setpoint.
c. The exhaust fan speed shall modulate to maintain the building pressuresetpoint (adj.) to be determined by the balancer.
4. Discharge air temperature controla. The discharge air temperature shall be 52°F (adjustable).
b. When the DAT is below the DAT setpoint, the gas heating shall modulate tomaintain the DAT setpoint. The DX compressors shall be de-energized.
c. When the DAT rises above the DAT setpoint, the DX cooling shall energizeand the gas heating valve shall be closed.
d. If OA conditions and the RA humidity are within the required ranges,economizer shall be energized. Refer to the economizer sequence for moreinformation.
E. Economizer Control
1. The economizer mode shall be energized if cooling is required and the outsideair enthalpy is less than the return air enthalpy. When the outside air enthalpyis greater than the return air enthalpy then the economizer mode shall bede-energized.
2. The OA damper shall modulate the airflow between the minimum position andthe full open position to maintain the Zone Temperature setpoint. The returndamper shall modulate opposite the OA damper.
3. When economizer is initially energized the mechanical cooling shall becommanded off. If the Zone Temperature continues to rise and the OA damperis 100% open, then the mechanical cooling shall be commanded on and workin sequence with the economizer cycle as long as OA conditions are within therequired ranges.
F. Safeties1. When the HOA switch is pushed to “off”, the unit shall be shut down, the
supply and exhaust fans shall be de-energized, the outside air damper shall beclosed, and the return dampers shall be open.
2. The supply and exhaust fans shall be shut down whenever any associated lowlimit sensor trips at 38°F. The low limit sensor shall require a manual reset.An alarm shall be annunciated at the BAS.
3. Whenever a supply, or exhaust fan status does not match the commandedvalue, an alarm shall be annunciated at the BAS. If any fan fails all other fansfor the associated unit shall be commanded off and the OA damper closed. Thealarm shall remain until manually cleared.
4. Smoke detectors shall shut down the associated unit. The supply and exhaustfans shall be de-energized, the OA damper shall be closed. An alarm shall beannunciated at the BAS.
5. All safeties shall be hardwired.
BAS POINTS LISTTYPE POINT POINT ABBREVIATION UNITS TREND ALARM READ/WRITE PROVIDER
AI OUTSIDE AIR TEMPERATURE (GLOBAL) OA-T DEG F X READ BAS
AI OUTSIDE AIR HUMIDITY (GLOBAL) OA-H %RH X READ BAS
AI ZONE AIR TEMPERATURE ZN-T DEG F X X READ BAS
AI ZONE AIR HUMIDITY ZN-H % RH X X READ BAS
AI MIXED AIR TEMPERATURE MA-T DEG F X READ MFR
AI COOLING COIL DISCHARGE TEMPERATURE CCD-T DEG F X READ MFR
AI SUPPLY AIR TEMPERATURE SA-T DEG F X READ MFR
AI ZONE DIFFERENTIAL PRESSURE ZN-DP IN H2O X READ BAS
AI RETURN AIR TEMPERATURE RA-T DEG F X READ MFR
AI RETURN AIR HUMIDITY RA-H %RH X READ MFR
AO EXHAUST AIR DAMPER OUTPUT EAD-O % X READ/WRITE MFR
AO OUTSIDE AIR DAMPER OUTPUT OAD-O % X READ/WRITE MFR
AO RETURN AIR DAMPER OUTPUT RAD-O % X READ/WRITE MFR
AO EXHAUST FAN SPEED EAF-F Hz X READ/WRITE MFR
AO SUPPLY FAN SPEED SAF-F Hz X READ/WRITE MFR
AO GAS HEATING OUTPUT HTG-O % X READ/WRITE MFR
AO COOLING OUTPUT CLG-O % READ/WRITE MFR
AO HOT GAS REHEAT OUTPUT HGR-O % READ/WRITE MFR
BI SUPPLY FAN STATUS SAF-S ON/OFF X X READ MFR
BI EXHAUST FAN STATUS EAF-S ON/OFF X X READ MFR
BI SUPPLY AIR SMOKE DETECTOR SSMK-A ALARM/NORMAL X READ MFR
BI RETURN AIR SMOKE DETECTOR RSMK-A ALARM/NORMAL X READ MFR
BI DIRTY FILTER STATUS DFLT-S ALARM/NORMAL X READ MFR
BI LOW LIMIT SWITCH STATUS LL-A ALARM/NORMAL X READ MFR
BI HIGH STATIC PRESSURE ALARM HSP-A ALARM/NORMAL X READ MFR
BI COMPRESSOR ALARM COMP-A ALARM/NORMAL X READ MFR
BO SUPPLY FAN COMMAND SAF-C ON/OFF READ/WRITE MFR
BO EXHAUST FAN COMMAND EAF-C ON/OFF READ/WRITE MFR
BO COOLING COMMAND CLG-C ON/OFF READ/WRITE MFR
AI OUTSIDE AIR FLOW RATE OA-AF CFM READ BAS
PROVIDE ALL SOFTWARE POINTS TO ACCOMPLISH SEQUENCE OF OPERATION.
LEGEND: BAS = CONTROL CONTRACTOR, MFR = EQUIPMENT MANUFACTURER, MECH = MECHANICAL CONTRACTOR, ELEC = ELECTRICAL CONTRACTOR, EX = EXISTING
DFLT-S
OA-T OA-H
ZN-T ZN-H
MA-T SA-T
ZN-DP
RA-T RA-H RSMK-AEAD-O
OAD-O RAD-O
EAF-FEAF-SEAF-C
SAF-FSAF-SSAF-C
HTG-OHGR-OCLG-O
SSMK-ALL-ACCD-T
CLG-C
COMP-A
COMP-A RSMK-A SSMK-A HSP-ASAFETY CIRCUIT
LL-A
HSP-A
AFMSOA-AF
CHILLED WATER PUMPS - SEQUENCE OF OPERATIONS
The pumps shall be energized by the BAS and shall run continuously during theoccupied cooling mode and shall de-energize during the unoccupied mode. BASshall first start the lead pump and if the lead starts and then fails or fails to start,then the lag pump will automatically start. A system differential pressure switchshall be used to prove flow. An alarm shall sound at the BAS if either pump fails.Chilled water supply temperature shall be reset from the BAS. Normal supplytemperature shall be 44°F.
HOT WATER BOILERS - SEQUENCE OF OPERATIONS
The boilers shall be energized by the BAS. The boilers shall operate in sequenceunder control of a header control system furnished by the ATC contractor. Hotwater supply temperature shall be reset from the BAS. Normal supply temperatureshall be 140°F.
HOT WATER PUMPS - SEQUENCE OF OPERATIONS
The pumps shall be energized by the BAS. BAS shall first start the lead pump and ifthe lead starts and then fails or fails to start, then the lag pump will automaticallystart. A system differential pressure switch shall be used to prove flow. An alarm shallsound at the BAS if either pump fails.
AHU-1 (GYM), AHU-2 (STAGE), AND AHU-3 (CAFETERIA) CV - SEQUENCE OF OPERATIONS
Air handling unit fan and return air fan shall be energized by the building automationsystem (BAS) and shall run continuously during occupied mode and shall de-energizeduring unoccupied mode except when activated by the night set-back control.Occupied/Unoccupied/Night set-back modes shall be as programmed from the BAS.
When AHU fan is started and return air temperature is 65°F or above, min. OAdamper D-1 shall open to maintain a maximum 750 PPM concetration of CO2 (adj.0-2000) as sensed by the carbon dioxide sensor and RA damper D-2 shall close inproportion. Minimum oa damper shall have a minimum setting of 500 CFM for AHU-1,200 CFM for AHU-2, and 1400 CFM for AHU-3. Thermostat T-1 (acting thru low limitT-3) shall maintain programmed room temperature by modulation of preheat valveV-1 and chilled water valve V-2 in sequence. Preheat valve shall never be openedconcurrently with the cooling coil valve. Each preheat coil circulation pump shall beenergized by the BAS when the outisde air temperature is 50°F and below.
A differential enthalpy controller shall activate an economizer cycle when enthalpy of
OA is lower than enthalpy of RA. During economizer cycle: chilled water valve V-2shall close. Room thermostat shall modulate maximum OA damper D-3, with RAdamper D-2 modulating in to D-3. Low limit thermostat T-2 shall override economizercycle and return max OA and RA dampers to normal positions if mixed airtemperature is 45°F or lower.
Differential duct static pressure control DPC-1, located in RA fan outlet, shallmodulate relief air damper D-4 to maintain constant duct static pressure.
System shall include smoke detectors and freeze protection.
During Unoccupied Mode, the night thermostat shall cycle supply and return fans tomaintain minimum room temperatures as programmed from the BAS. The OAdampers shall remain closed during Unoccupied cycle.
FREEZE PROTECTION (TYP FOR AHU-1, AHU-2, AHU-3, AHU-4, AHU-5) - SEQUENCE OF OPERATIONS
Each preheat coil circulating pump shall be energized by the BAS when the OA tempatureis 50°F and below.
Freeze protection thermostat located on entering air side of chilled water coil shall overridecontrol of preheat coil valve V-1 to open valve when temperature entering chilled water coilis 40°F and shall stop the supply fan and close all OA dampers at 35°F.
SAMUEL TUCKER ES -HVAC REPLACEMENT
901
Dul
aney
Val
ley
Roa
d, S
uite
301
Pho
ne: 4
10-4
94-1
111
Tow
son,
MD
212
04
Fax
: 410
-494
-111
2
KIB
AR
TCO
NSUL
TING
ENGI
NEER
S
CONSTRUCTIONDOCUMENT
SUBMISSION10/28/2020
435 FERDINAND DAY DR.
ALEXANDRIA, VA 22304
NOTES:
1. ALL PIPING SUPPORT SYSTEM COMPONENTS SHALL HAVE ANON-CORROSIVE METAL FINISH, GALV-KROM OR EQUAL.
2. ALL COPPER PIPING SHALL BE PROTECTED FROM CONTACT WITHDISSIMILAR METALS.
3. PROVIDE BLOCKING TO AVOID, CRUSHING OF INSULATION.
STRUCTURE ABOVE
ANCHOR TO STRUCTURE ABOVE
INSULATED PIPE WITHSHEET METAL SHIELD 12"LONG ALL AROUND
U-BOLT OR INTERLOCKING STRAP
BARE PIPE (TYP.)
GALVANIZED "C"CHANNEL OR STEELANGLE (GAUGE AS REQ'D)
WASHER & NUT
BLANK END CAP
ALL THREAD ROD
COUPLING AS REQUIRED
STRUCTURALJOIST/BEAM (TYPICAL)
CLAMP ROD TOTOP CORD OFJOIST/BEAM
H2
H3
PLUGGED CLEAN-
TO STORM WATER ORFLOOR DRAIN, REFERTO DRAWINGS
PITCHED DOWN TOWARD DRAIN
PLUGGED CLEAN-OUT TEE
DRAIN SHALL BE AT LEAST THE SAMESIZE AS THE NIPPLE ON THE DRAIN PAN
HVAC UNITCONDENSATECONNECTION
PIPE SIZING CHART
EQUIPMENT TONNAGE REQ'D PIPE SIZE
UP TO 20 TONS 3/4"
OVER 20 TONS TO 40 TONS 1"
OVER 40 TONS TO 90 TONS 1 1/4"
OVER 90 TONS TO 125 TONS 1 1/2"
OVER 125 TONS TO 250 TONS 2"
NOTES:
1. FOR DRAW THRU TRAPS: "H1" = FAN INLET PRESSURE PLUS 1 INCH, "H2" = H1/2.
2. FOR BLOW THRU TRAPS: "H1" = 1 INCH, "H2" = FAN OUTLET PRESSURE PLUS 1/2 INCH.
3. H3 EQUAL TO 1 INCH.
H1
DETAIL - TYPICAL CONDENSATE DRAIN TRAPSCALE: NONE
DETAIL - TRAPEZE PIPE SUPPORTSCALE: NONE
CLEAN OUT
A200
SIDE TAP
DETAIL - TYPICAL CEILING DIFFUSER /FLEXIBLE DUCT CONNECTIONSSCALE: NONE
NOTES:
1. REFER TO AIR DEVICE SCHEDULE FOR TYPE OF DISCHARGES.
2. REFER TO ARCHITECTURAL DRAWINGS FOR CEILING TYPES.
3. WHEN BRANCH DUCT LENGTHS EXCEED 5'-0", UTILIZE HARD DUCT,SAME SIZEAS FLEXIBLE DUCT OR AS INDICATED ON PLANS.
4. MAXIMUM FLEXIBLE DUCT SAG SHALL NOT EXCEED 1/2" PER LINEAR FOOT.
5. FLEXIBLE DUCT ELBOW SUPPORTS SHALL BE ATTACHED TO FLEXIBLE DUCTSUTILIZING MANUFACTURER RECOMMENDED DRAW BANDS.
AIR DEVICE SCHEDULE REFERENCE SYMBOL
CUBIC FEET PER MINUTE OF AIR (CFM)
OPPOSED BLADE DAMPER
CEILING DIFFUSER, REFER TOFLOOR PLANS FOR LOCATIONS ANDAIR DEVICE SCHEDULE FOR SIZES
FLEXIBLE DUCT 5'-0" MAXIMUM LENGTH, USEAS REQUIRED FOR DIFFUSER ALIGNMENT,REFER TO AIR DEVICE SCHEDULE FOR SIZE
VOLUME DAMPER
ROUND SPIN-IN OR SQUARE TOROUND DUCT FITTING (SIDE, TOPBOTTOM CONNECTION)
PROVIDE INSULATION ONDIFFUSER AND TAPE AIR TIGHT
PROVIDE INSULATIONON DIFFUSER ANDTAPE AIR TIGHT
FLEXIBLE DUCT ELBOW SUPPORT. REFER TO
AND FOR VARIATIONS.A B
A CEILING DIFFUSER CONNECTION
SUSPEND FROM STRUCTUREWITH TIE
STRUCTUREABOVE
RIGID DUCT,SPIN-IN
FLEXIBLE DUCTELBOW SUPPORT
5'-0" MAX.LENGTH
CEILING DIFFUSER
1 X DIAMETER,MINIMUM
SCALE: NONE
HVAC DUCT OREQUIPMENT
ROUND SPIN-IN OR SQUARE TOROUND DUCT FITTING (SIDE, TOP,OR BOTTOM CONNECTION)
FLEXIBLE DUCT
FLEXIBLE DUCTFLEXIBLE DUCTELBOW SUPPORT
B FLEXIBLE DUCT CONNECTION TO DUCT BRANCHSCALE: NONE
NOTE: INSTALL FLEXIBLE DUCT ELBOW SUPPORTS AT ALL DIFFUSERS.
NOTE: INSTALL FLEXIBLE DUCT ELBOW SUPPORTS AT ALL FLEXIBLE DUCT 90° BENDS.
CEILING
PROVIDEDRAW BAND
PROVIDE DRAW BAND
DETAIL - TYPICAL SINGLE AND DOUBLE LINE DUCTWORKSCALE: NONE
FLEXIBLE DUCTTAKE-OFF
(WITHIN 6'-0" TRUNK)
TYPICAL SPLIT
DIFFUSER OR REGISTERTAPOFF & TRANSITION
SINGLE LINE DOUBLE LINE DOUBLE LINE
DOUBLE LINE
SINGLE LINE
SINGLE LINE
SINGLE LINESINGLE LINESINGLE LINE
DOUBLE LINEDOUBLE LINEDOUBLE LINE
EXHAUST
SUPPLY
d
TYPICAL TAPOFF & TRANSITIONFROM SIDE OF DUCT
OUTLET LOCATED ATEND OF RUN
DIFFUSER
6'-0" MAX.FLEXIBLE DUCT
SUPPLY AIRDIFFUSER 6" MIN. AIR
CUSHION
DOUBLE THICKTURNING VANES
REGISTER ORDIFFUSER
REGISTER ORDIFFUSER
DUCTTRANSISTION
DUCTTRANSISTION
SUPPLY AIRDIFFUSER
6'-0" MAX. LENGTHFLEXIBLE DUCT
SUPPLY AIRDUCT
SPIN-IN FITTING W/VOLUME DAMPER
6" MIN. AIRDAMPER
CUSHION HEADSSUPPLY ONLY
CEILING
OUTLET
AIR FLOW
AIR FLOWAIR FLOW
ROUNDSUPPLY DUCT
SQUARE TO ROUNDOR ROUND SPIN-INFITTING
SQUARE /RECTANGULARDUCT
SQUARE /RECTANGULAR DUCT
DOUBLE LINE
DETAIL - TYPICAL BRANCH DUCTWORKSCALE: NONE
45°
L
VOLUME DAMPER
ELBOW WITH DOUBLETHICKNESS TURNINGVANES
STANDARD RECTANGULARBOOT WITH RECTANGULARTO ROUND TRANSITION
VOLUME DAMPER(TYPICAL)
BELL MOUTH CONNECTIONWHERE HEIGHT OF MAINDUCT PERMITS
STANDARD RECTANGULARDUCT BRANCH TAKE-OFF
(BRANCH FLOW LESS THAN 25% OF MAIN FLOW)
STANDARD RECTANGULAR BRANCHTAKE-OFF
L = 1/ 4 W OR4" MINIMUM
WVOLUMEDAMPER
AIRFLOW
AIRFLOW
AIRFLOW
ALTERNATE RECTANGULAR TO ROUNDDUCT BRANCH CONNECTIONS
(BRANCH FLOW LESS THAN 25% OF MAIN FLOW)
BRANCHYVD
Y
W MAIN
15° MAXIMUM BOTH SIDES
45° RECTANGULARTO ROUND BOOTCONNECTION
90° RECTANGULARTO ROUND BOOTCONNECTION
45°
DETAIL - TYPICAL ROUND DUCT FITTINGSSCALE: NONE
FABRICATED FLAT OVAL, ROUND FITTINGS AND ELBOWS - 9" DIA. AND LARGER
5 GORE90° ELBOW
3 GORE60° ELBOW
3 GORE45° ELBOW
2 GORE30° ELBOW
REDUCING 5 GORE90° ELBOW
REDUCING 3 GORE45° ELBOW
3 GORE HEEL TAP 45° CONICAL LATERALREDUCING 45°
CONICAL LATERAL Y BRANCH 90°REDUCING
Y BRANCH 90°
DIE - STAMPED ELBOW - 8" DIA. AND LESS90° ELBOW 60° ELBOW 45° ELBOW 30° ELBOW
CONCENTRICREDUCER
AIR FLOW(TYP.)
LoLOSS TEE LoLOSS90° CROSS
LoLOSSREDUCING TEE
LoLOSS 90°REDUCING CROSS
ECCENTRICREDUCER
NOTES:
1. REFER TO SPECIFICATIONS FOR ADDITIONAL PIPE SUPPORT TYPES ANDREQUIREMENTS.
2. REFER TO STRUCTURAL DRAWINGS FOR ADDITIONAL PIPE SUPPORT DETAILS,INSTALLATION AND REQUIREMENTS.
3. COORDINATE POINT LOADS WITH PROJECT STRUCTURAL ENGINEER.4. REFER TO SPECIFICATIONS FOR INSULATION TYPES.
DETAIL - PIPE HANGER SUPPORTSCALE: NONE
SECURE TO STRUCTURE INACCORDANCE WITHSTRUCTURAL SPECIFICATIONS
ADJUST HEIGHT AFTER INSTALLATION
CLEVIS HANGER
ALL THREAD ROD SIZE PERPROJECT SPECIFICATIONS
16 GAUGE GALVANIZEDSHEET METAL INSULATIONSHIELD
PIPE INSULATIONWITH SUPPORT BLOCKING
PIPE
SEALING AND ANCHORING COLLAR
CENTER PIPE IN SLEEVE
STANDARD WEIGHT STEELPIPE POURED IN PLACE
COAT EXTERIOR SURFACEWITH TAR COMPOUND
PACK W/ MINERAL WOOL& CAULK ALL AROUND
SAW CUT AND GROUT WHERE SLEEVEIS TO BE INSTALLED GROUT SHALLBE ASTM C270 TYPE M, COLOR SHALLBE AS DIRECTED BY ARCHITECT
NOTES:
1. PROVIDE WEATHER TIGHT PIPE SLEEVES AT ALL WALL PENETRATIONS.
2. REFER TO ARCHITECTURAL DRAWINGS FOR WALL CONSTRUCTIONS.
DETAIL - TYPICAL PIPE SLEEVE THRU EXTERIOR WALLSCALE: NONE
UNION
OUT TEE
SLOPED PAN
4. CONDENSATE TRAP SHALL HAVE DRAINING CAPABILITY.
DETAIL - TYPICAL BASE MOUNTED END SUCTION PUMPSCALE: NONE
BASE MOUNTED PUMPFINISHED FLOOR
4" HIGH CONCRETEHOUSEKEEPING PAD,EXTEND PAD 4" BEYONDPUMP ON ALL 4 SIDES
MOTOR
REDUCER (IF REQUIRED)
PRESSURE GAUGE W/ NEEDLEVALVE AND SNUBBER (TYP. OF 4)
THERMOMETER (TYP.)
MULTI-PURPOSE VALVE
FLOW METER FITTING (REFERTO SPECIFICATIONS FOR TYPE)
PUMP DISCHARGE PUMP SUCTION
SPRING TYPE VIBRATION ISOLATORWITH THRUST RESTRAINTS (TYP.)
DRAIN VALVE WITHHOSE END CONNECTION
PIPE PUMP BASE DRAINFULL SIZE TO NEARESTFLOOR DRAIN
ADJUSTABLE PIPELEG SUPPORT
SUCTION DIFFUSERWITH SCREEN
FLEXIBLE PIPECONNECTION (TYP.)
STRAINER W/ HOSE END DRAIN(NOTE: IF STRAINER ISPROVIDED ON BOILER ROOMPIPING PRIOR TO PUMP - THISVALVE MAY BE DELETED)
BUTTERFLY VALVEW/ MEMORY STOP
DIFFERENTIAL PRESSURESWITCH
STRUCTURE ABOVE
ANCHOR TO STRUCTUREABOVE (TYP.)
FILL PUMP BASE WITHNON-SHRINK GROUT
VIBRATION ISOLATOR -REFER TO SPECIFICATIONFOR TYPE (TYP.)
DP SWITCH
BUTTERFLY VALVE W/MEMORY STOPSUITABLE FOR DEADEND SERVICE ASSPECIFIED (TYP.)
AGA APPROVEDGAS COCK (TYP.)
EX 4"EX 4"
FULL SIZE DIRTLEG (TYP.)
COMBINATIONBALANCINGAND SHUT-OFFVALVE (TYP.)
FLEXIBLE PIPECONNECTION (TYP.)
TWO-WAYCONTROLVALVE (TYP.)
CHECKVALVE (TYP.)
UNION (TYP.)
HS
HR
PRESSURE GAUGEW/ NEEDLE VALVEAND SNUBBER (TYP.)
EX BOILER
DETAIL - EXISTING BOILER CONNECTIONSCALE: NONE SAMUEL TUCKER ES -
HVAC REPLACEMENT
901
Dul
aney
Val
ley
Roa
d, S
uite
301
Pho
ne: 4
10-4
94-1
111
Tow
son,
MD
212
04
Fax
: 410
-494
-111
2
KIB
AR
TCO
NSUL
TING
ENGI
NEER
S
CONSTRUCTIONDOCUMENT
SUBMISSION10/28/2020
435 FERDINAND DAY DR.
ALEXANDRIA, VA 22304
DETAIL - TYPICAL RETURN / EXHAUST AIR DUCT DEVICE CONNECTIONSCALE: NONE
NOTE:
1. RETURN DUCT PERTINENT TO DUCTED RETURN SYSTEM(S) ONLY.
OR
DUCTWORK, SIZESPER FLOOR PLAN
MANUAL VOLUMEDAMPER WITHMEMORY STOP
2" MIN.
DUCTWORK PERFLOOR PLAN
DUCT WIDTH 4"LARGER THANDUCT CONNECTION
2" MIN. (THREE SIDES)
AIR DEVICE ASSCHEDULED
VOLUME DAMPERWITH MEMORY STOP
DUCT SIZESPER AIRDEVICE NECK
DETAIL - TYPICAL LOW PRESSURE BALANCING / VOLUMEDAMPER (DUCTS UP TO 12" HIGH)SCALE: NONE
NOTE:
1. FOR DUCTS UP TO 12" HIGH.
DAMPER REGULATOR-WITH LOCKING TYPEINDICATOR QUADRANT
3/8" SQUARE ROD WITHWASHER AT EACH END
20 GA DAMPER EDGEHEMMED 1/2" AS SHOWN
DAMPER ROD CLIP
PROVIDE BEARINGSAT BOTH ENDS(GRIND ROD ROUND)
DUCT
PROVIDE FOR EACH DAMPEREND 4"x4"x20 GAUGESUPPORTS RIVETED TO DUCT
20 GAUGE OFFSET QUADRANTMOUNTING BRACKET ONINSULATED DUCT ONLY
NOTE:
1. FOR DUCTS OVER 29" WIDE AND/OR OVER 12" HIGH.
20 GAUGE OFFSETQUADRANT MOUNTINGBRACKET ONINSULATED DUCT ONLY
20 GAUGE OPPOSED ACTIONDAMPERS - EDGES HEMMED 1/2" ASSHOWN (MAX. BLADE HEIGHT 12")
OPPOSED ACTIONLINKAGE ASSEMBLY
DAMPER ROD CLIP
PROVIDE BEARINGSAT BOTH ENDS(GRIND ROD ROUND)
3/8" SQUARE ROD WITHWASHER AT EACH END.
DUCT
PROVIDE FOR EACH DAMPEREND 4"x4"x 20 GAUGESUPPORTS RIVETED TO DUCT
DAMPER REGULATOR - WITHLOCKING TYPE INDICATORQUADRANT, ONE REGULATORFOR EACH TWO BLADES
MAX. 60"SEE NOTE 3 OVER 60"GALV. HANGERTHREADEDHANGER ROD
HANGERSTRAP
UNISTRUT ORANGLE IRON
1"
NOTES:
1. ON DUCTS OVER 48" WIDE, BOTTOM SHALL BE BRACED BY ANGLE, FOR CROSS SECTIONAREAS MORE THAN 8 SQ FT, DUCTS SHALL BE BRACED BY ANGLES ON ALL FOUR SIDES.
2. CUTTING AND PATCHING SHALL BE LIMITED TO A MINIMUM AS REQUIRED FOR PROPERINSTALLATION.
3. SUPPORTS SHALL BE SPACED AND SIZED AS PER SMACNA.
4. REFER TO ARCHITECTURAL DRAWINGS FOR THE EXACT CONSTRUCTIONS OF THESTRUCTURES ABOVE SUPPORTING DUCTS.
NOTES:
1. REFER TO ARCHITECTURAL DRAWINGS FOR EXACT ROOF CONSTRUCTION ANDTYPE.
ROOFPOLYCARBONATEBASE-ADHERE TO ROOF
STAINLESS STEELTHREADED RODS,WASHERS, NUTS ETC
LUBRICATED ROLLERSUPPORT-GALVANIZEDCONSTRUCTION
DETAIL - TYPICAL DUCTHANGER SUPPORTSCALE: NONE
DETAIL - TYPICAL LOW PRESSURE BALANCING / VOLUMEDAMPER (DUCTS OVER 29" WIDE AND/OR 12" HIGH)SCALE: NONE
DETAIL - TYPICAL CONDENSATE / REFRIGERANT / PIPESUPPORT ON ROOFSCALE: NONE
DETAIL - TYPICAL DUCT ROOF PENETRATIONSCALE: NONE
ROOF (REFER TO ARCHITECTURALAND STRUCTURAL DRAWINGS FORROOFING AND STRUCTURE DETAILS)
SUPPLY AIR/ RETURN AIR/ EXHAUST AIRDUCTWORK, REFER TO FLOOR PLANS FOR SIZES 1" THICK INTERNAL SOUND
LINING - AS INDICATED ON THECONTRACT DRAWINGS - NOTREQUIRED AT EXHAUST DUCTS
FURNISH & INSTALL WEATHERPROOF DUCT INSULATION (ONSUPPLY AND RETURN DUCTWORKONLY) PER SPECIFICATIONS
INSULATED ROOF CURB
SECURE DUCT TO CURBWITH STAINLESS STEELSHEET METAL SCREWS
DUCTWORK SHALL BESEALED TO FLASHING
TERMINATESLEEVE FLUSHWITH FINISHEDWALL SURFACES
SEAL OR CAULK SLEEVES THRU FIREWALLS IN A SMOKE TIGHT MANNER
PIPE AND INSULATION TO BE CENTERED INSLEEVE - DO NOT SUPPORT PIPE FROM SLEEVE
CONCEALED PIPING
PROVIDE FIRE RATED SLEEVE SYSTEM IN FIRERATED PARTITIONS (PER SPECIFICATIONS)
STANDARD WEIGHT STEEL PIPE SLEEVE OF SIZETO PASS PIPE AND INSULATION
FINISHED ESCUTCHEON PLATE - MOUNT FLUSH AGAINSTWALL AND OF SIZE TO COMPLETELY COVER OPENING
FINISHED WALL SURFACE (REFERTO ARCHITECTURAL DRAWINGSFOR WALL CONSTRUCTION
PIPING EXPOSED TO VIEW
NOTES:
1. PROVIDE PIPE SLEEVES AT ALL WALL PENETRATIONS.
2. REFER TO ARCHITECTURAL DRAWINGS FOR EXACT WALL CONSTRUCTIONS.
DETAIL - TYPICAL PIPE SLEEVE THRU INTERIOR WALLSCALE: NONE
1/2" MAX(TYP)
NOTES:
1. AT FIRE RATED PARTITIONS, ADD ADDITIONAL LAYER OF FIRE RESISTANT INSULATION AROUNDPENETRATION SO AS TO FILL CAVITY.
2. DUCT AND PIPE PENETRATIONS THRU CORRIDOR WALLS ABOVE THE CEILING ARE TO BE FIRE STOPPEDAROUND THE PENETRATION.
3. REFER TO ARCHITECTURAL DRAWINGS FOR WALL TYPES.
DETAIL - TYPICAL DUCT WALL PENETRATIONSCALE: NONE
STEEL FRAME OF ANGLE 1 14" x 114" x 18" AROUND DUCT PERIMETER
DUCT PENETRATIONSHOWN IS WHEREFIRE DAMPER IS NOTREQUIRED BY CODE.
PARTITION
DUCT
DETAIL - TYPICAL PIPE SUPPORT ON ROOFSCALE: NONE
NOTES:
1. CURB SHALL BE PREFABRICATED. MANUFACTURER SHALL BE THE PATE COMPANY OR ASAPPROVED EQUAL.
2. PROVIDE CROSS BRACING AND/OR INTERMEDIATE FRAMING MEMBERS AS REQUIRED.
SCREW
COUNTER FLASHING
SHEET METAL SCREW
WOOD NAILER
BASE SECTION
RAISED CANT
HEIGHT ASREQUIRED
SUPPORT ANGLE
FASTENER (TYP.)
CANT
ROOFSYSTEM
PIPE ANGLE SUPPORT
PIPE CLEVIS HANGER
PIPE
CLAMP
NEOPRENE PAD
REMOVABLECOUNTERFLASHING
14" TOPOF CURB
ROOFING UNDERANOTHER DIVISION
BLOCKING AS REQUIRED
2x4 PRETREATEDWOOD NAILER
3x3x1/4" HOTDIPPED GALVANIZEDSTEEL (TYPICAL)
DETAIL - TYPICAL CONCRETE HOUSEKEEPINGPAD ON EXISTING FLOOR SLABSCALE: NONE
ROUGH-IN EXISTINGSLAB SURFACE. APPLYEPOXY BONDING AGENT.
2"
CONCRETEHOUSEKEEPING PAD
4" LARGER THANEQUIPMENT ON ALL SIDES
1 1/2"4" MIN.
FINISHEDFLOOR
3/4" CHAMFER (TYP.)
2" ALL SIDES6x6 - W2.9 x W2.9 WWF
NOTES:
1. PROVIDE REBAR IN SIZES, QUANTITIES, AND CONFIGURATIONSAS RECOMMENDED BY THE STRUCTURAL ENGINEER. DETAIL - TYPICAL CONDENSING UNIT SUPPORT ON ROOF
SCALE: NONE
HEAT PUMP /CONDENSING UNIT
ANTI-VIBRATION PAD
3"x3" BASE
SHEET METAL COVERWITH RECEIVER FORCOUNTER-FLASHING
HIGH-DOMED, CAPPED,GASKETED FASTENERS
REMOVABLE SHEET METALCOUNTER-FLASHING
FLASHING MEMBRANE(ADHERE TO CURB)
SEALANT
WOOD CURBAND NAILERS
ROOF (REFER TO ARCHITECTURALAND STRUCTURAL DRAWINGS FORROOFING AND STRUCTURE DETAILS)
10" NOMINALFLASHING HEIGHT
REFRIGERANT PIPING DOWNTHROUGH PIPE CURB; SIZEDAS PER MANUFACTURER'SRECOMMENDATIONS.
CONDENSING/HEAT PUMPUNIT MOUNTED ONNEOPRENE PADS.
REFRIGERANT PIPINGTHROUGH PIPE CURB
OUTDOOR UNIT MOUNTED ONKINDORF-TYPE FRAMING
TURN DOWN AND SECURE TOSIDES OF ROOF CURB
WOOD BLOCKINGROOFING
ROOF ASSEMBLYBATT INSULATION
2x4 METAL STUD SUPPORTFRAMING (16" O/C) WITHINSULATION.
REFRIGERANT PIPING DNTO INDOOR UNIT
3/4" FIRE RATEDPLYWOOD
FLASHING
ROOF CURB
SCALE: NONE
DETAIL - ROOF MOUNTED CONDENSING UNIT INSTALLATION
SAMUEL TUCKER ES -HVAC REPLACEMENT
901
Dul
aney
Val
ley
Roa
d, S
uite
301
Pho
ne: 4
10-4
94-1
111
Tow
son,
MD
212
04
Fax
: 410
-494
-111
2
KIB
AR
TCO
NSUL
TING
ENGI
NEER
S
CONSTRUCTIONDOCUMENT
SUBMISSION10/28/2020
435 FERDINAND DAY DR.
ALEXANDRIA, VA 22304
MEDIUM PRESSURESUPPLY AIR DUCT
VARIABLE AIR VOLUME BOX
RE-HEAT COIL, REFER TO SCHEDULEFOR ADDITIONAL INFORMATION
1" DUCT ACOUSTICAL SOUND LINING,MINIMUM 5'-0" LONG AFTER BOX
VOLUME DAMPER (TYP.)V.A.V. BOX CONTROLLER - MAINTAIN NECREQUIRED CLEARANCE FOR SERVICE ACCESS
LOW PRESSURE DUCT / TO DIFFUSER
SPIN-IN FITTING/SQUARE TOROUND FITTINGOR SQUARE/RECTANGULARDUCTSUPPLY AIR DUCT, REFER TO FLOOR PLANS FOR SIZES
4-0" MIN./5'-0" MAX OFSTRAIGHT DUCT FULL SIZEOF V.A.V. BOX INLET
4'-0" MIN. BEFORE TAKE OFF OR ELBLOW
TRANSITIONTO V.A.V.BOX OPENING
DETAIL - TYPICAL VARIABLE AIR VOLUME BOX DUCT ASSEMBLYSCALE: NONE
AIR
FLOW
DETAIL - TYPICAL AHU CHILLED WATER COIL PIPINGDIAGRAM WITH THREE-WAY CONTROL VALVESCALE: NONE
CHS
CHR
COIL
THERMOMETER (TYP.)
PRESSURE GAGE W/NEEDLE VALVE ANDSNUBBER (TYP.)
3/4" HOSE ENDDRAIN VALVE W/CAP AND CHAIN
LOCATE UNION TOFACILITATE COIL REMOVAL
PRESSURE /TEMPERATUREPLUG (TYP.)
MANUAL AIR VENT
UNION (TYP.)
COMBINATION BALANCINGAND SHUT-OFF VALVE (TYP.)
STRAINER W/ HOSEEND DRAIN VALVE,W/ CAP AND CHAIN
REFER TO PLANS FOR PIPE SIZE
FLOW METER FITTING -VENTURI WITH PRESSUREAND TEMPERATURE PORTS
3-WAY VALVE (A.T.C)
NOTES:
1. REFER TO AHU SCHEDULE OR FLOOR PLANS FOR BRANCH PIPE SIZES.
2. PROVIDE DIE-ELECTRIC FITTING AT ALL COIL PIPING CONNECTIONS.
BUTTERFLY VALVEW/ MEMORY STOPS
V.T.HS
HR
HS
HR
AIRFLOW
DETAIL - TYPICAL AHU FREEZE PROTECTION / HEATING COILPIPING DIAGRAM WITH TWO-WAY CONTROL VALVE (ONE PUMP)SCALE: NONE
NOTES:
1. REFER TO AHU SCHEDULE OR FLOOR PLANS FOR COIL BRANCH PIPE SIZES.
2. PROVIDE DIE-ELECTRIC FITTING AT ALL COIL PIPING CONNECTIONS.
3. REFER TO PUMP SCHEDULE FOR PUMP CAPACITIES / CHARACTERISTICS.
BUTTERFLY VALVE W/MEMORY STOP (TYP.)
PRESSURE / TEMPERATURE PLUG (TYP.)
FLEXIBLE PIPE CONNECTION (TYP.)
FREEZE PROTECTION PUMP
COMBINATION BALANCINGAND SHUT-OFF VALVE (TYP.)
VENTURI FLOW METER WITHPRESSURE AND TEMPERATURE PORTS
UNION (TYP.)
3-WAY CONTROL VALVE
CHECK VALVE (TYP.)
MANUAL AIR VENT (TYP.)
THERMOMETER (TYP.)
PRESSURE GAGE W/ NEEDLEVALVE AND SNUBBER (TYP.)
BALL VALVE (TYP.)
3/4" HOSE END DRAIN VALVEW/ CAP AND CHAIN (TYP.)
STRAINER W/ HOSE END DRAINVALVE, W/ CAP AND CHAIN
V.T.
DETAIL - TYPICAL ROOF PIPE SUPPORT FOR REFRIGERANT PIPINGSCALE: NONE
SIDE VIEWEND VIEW
PIPE INSULATION
ROOF DECK (TYP.)
STEEL JOISTS
RS/RL PIPING
PROVIDE 1 5/8"W x 12"L CHANNEL STRUTWITH HOT DIPPED GALVANIZED COATING
PROVIDE PIPE STRAP - 1 1/4" WIDEWITH HOT DIPPED GALVANIZED COATING
PIPE STAND8" MINIMUM
STEEL JOISTS
FLASHING
ROOF, REFER TO ARCH.DWGS. FOR EXACTCONSTRUCTION
NOTES:
1. REFER TO ARCHITECTURAL DRAWINGS FOR ROOF TYPES / CONSTRUCTIONS.
2. COORDINATE FLASHING REQUIREMENTS WITH ARCHITECT.
3. COORDINATE ROOF OPENING SIZE AND LOCATION WITH STRUCTURALENGINEER.
4. FOR CAPACITIES OF FANS REFER TO FAN SCHEDULE.
BIRDSCREEN
FLASHING (UNDERANOTHER DIVISION)
ROOF
* GRAVITYBACKDRAFT DAMPER
MOTOR - BELT OR DIRECTDRIVE PER SPECIFICATIONS
CENTRIFUGAL POWERROOF VENTILATOR
FACTORY FURNISHED PREFABRICATEDINSULATED ACOUSTICAL CURB W/BUILT-IN CANT STRIP
REFER TO FLOOR PLANS FORCONTINUATION OF DUCTWORK
1/2" MESH BIRDSCREEN
DETAIL - TYPICAL CENTRIFUGAL ROOF
SCALE: NONE
MOUNTED DOWN-BLAST EXHAUST FAN DETAIL - TYPICAL KITCHEN GREASEHOOD UP-BLAST EXHAUST FANSCALE: NONE
NOTES:
1. INSTALLATION SHALL COMPLY WITH NFPA 96 AND HAVE A UL 762 RATING.
2. COORDINATE FLASHING REQUIREMENTS WITH ARCHITECT.
3. COORDINATE ROOF OPENING SIZE AND LOCATION WITH STRUCTURAL ENGINEER.
4. REFER TO ARCHITECTURAL DRAWINGS FOR ROOF TYPES / CONSTRUCTIONS.
5. FOR CAPACITIES OF FANS REFER TO FAN SCHEDULE.
MOTOR - BELT OR DIRECTDRIVE PER SPECIFICATIONS
WEATHERPROOFDISCONNECT SWITCH
FLEXIBLE WEATHERPROOFELECTRIC CABLE
HINGE
CURB MOUNTEDWEATHERPROOFJUNCTION BOX
SELF FLASHING PREFABRICATEDROOF CURB BY FAN MANUFACTURER
FLASHING
EXHAUST DUCT
GREASE COLLECTORHASP
GREASE CONNECTION TUBE
40" MIN. PER NFPAREQUIREMENTS
VENT TUBE
UP-BLASTEXHAUST FAN
RETAINING CHAIN
ROOF
PROVIDE G2 GREASE GUARD ROOFTOPDEFENSE SYSTEM AS MANUFACTUREDDAWG, ING. GREASE GUARD SYSTEMSHALL EXTEND 48" FROM FAN CURB(MIN.) ON ALL SIDES OR ASRECOMMENDED BY MANUFACTURER.
GREASE DEFLECTING FLASHINGCONSTRUCTED FROM 22 GAUGEGALVANIZED STEEL.
NOTES:
1. CLOSE VALVES TO COIL AND OPEN BY-PASS WHEN FLUSHING THE SYSTEM OR SERVICING THE COIL.
2. COIL CONNECTION LOCATION AND DIRECTION OF PIPING VARY, REFER TO FLOOR PLANS.
3. BRANCH PIPING SERVING VAV BOX RE-HEAT COILS SHALL CONTAIN AT LEAST TWO ELBOWSBETWEEN THE MAIN AND THE COIL TO ALLOW FOR MOVEMENT OF THE MAINS DUE TO THERMALEXPANSION.
4. REFER TO VAV BOX SCHEDULE OR FLOOR PLANS FOR BRANCH PIPE SIZES.
5. PROVIDE DIE-ELECTRIC FITTING AT ALL COIL PIPING CONNECTIONS.
DETAIL - TYPICAL VAV BOX HEATING COIL HEATING WATERPIPING DIAGRAM WITH THREE-WAY CONTROL VALVESCALE: NONE
HS
HR
COIL
FLOW METER FITTING -VENTURI WITH PRESSUREAND TEMPERATURE PORTS
UNION (TYP.)
MANUAL AIR VENT
MANUAL AIR VENT, LOCATEAT HIGH POINT (TYP. OF 2)
COMBINATION BALANCINGAND SHUT-OFF VALVE
3-WAY MODULATING CONTROL VALVE(MAXIMUM 10' PRESSURE DROP)
3/4" HOSE END DRAIN VALVEW/ CAP AND CHAIN (TYP.)
BALL VALVE (TYP.)
BYPASS (NORMALLY CLOSED),OPEN FOR SERVICING ANDSYSTEM FLUSHING
STRAINER W/ HOSE END DRAINVALVE, W/ CAP AND CHAIN
PRESSURE / TEMPERATUREPLUG (TYP.)
NORMALLY CLOSED
NORMALLY OPEN
BYPASS AND BALL VALVE
V.T.
HR
12 "
12" HIGH x 16"x16"STAINLESS STEELREMOVABLE TOP. TOP TOEXTEND 1 1/2" FURTHERTHAN SUPPORT CURB.
BATT INSULATION
STAINLESS STEEL SCREEN
PIPING TO UNIT
SEALANT
"DERBIGUM"FLASHING CARRYUNDER SHEET METAL
ROOFING
1/2" THICKRIGIDINSULATION
EXTENDPENETRATION CAPONE INCH LARGERTHAN CURB SIZE
DETAIL - ROOF PIPE PENETRATIONSCALE: NONE
COMBINATION BALANCINGAND SHUT-OFF VALVE (TYP.)
SAMUEL TUCKER ES -HVAC REPLACEMENT
901
Dul
aney
Val
ley
Roa
d, S
uite
301
Pho
ne: 4
10-4
94-1
111
Tow
son,
MD
212
04
Fax
: 410
-494
-111
2
KIB
AR
TCO
NSUL
TING
ENGI
NEER
S
CONSTRUCTIONDOCUMENT
SUBMISSION10/28/2020
435 FERDINAND DAY DR.
ALEXANDRIA, VA 22304
SOUND ATTENUATOR SCHEDULE
ATTENUATORDESIGNATION UNIT SERVED ATTENUATOR
TYPE
DUCT SIZEDIA x L
(IN)CFM MAX APD
(IN H₂O)
DYNAMIC INSERTION LOSS DB(OCTAVE BAND) GENERATED NOISE DB (OCTAVE BAND) BASIS OF DESIGN
NOTES
1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 MFGR. MODEL
SA-1
RTU-2
CIRCULAR
14Ø x 24 500 0.02
4 6 12 22 46 52 50 22 30 25 20 15 10 10 10 10 PRICE CS 1,2
SA-2 CIRCULAR 4 6 12 22 46 52 50 22 30 25 20 15 10 10 10 10 PRICE CS 1,2
SA-3 CIRCULAR 4 6 12 22 46 52 50 22 30 25 20 15 10 10 10 10 PRICE CS 1,2
SA-4 CIRCULAR 4 6 12 22 46 52 50 22 30 25 20 15 10 10 10 10 PRICE CS 1,2
NOTES:
1: REFER TO SPECIFICATIONS FOR ADDITIONAL INFORMATION AND ACCESSORIES ASSOCIATED WITH SOUND ATTENUATOR.
2: PROVIDE POLYMER FILM BAGGED LINER.
AIR DEVICE SCHEDULETYPE DUTY
CFM RANGE INLET NECKSIZE FACE SIZE MAX N.C.
MAX NECKVELOCITY
(FPM)
BASIS OF DESIGNNOTES
MIN MAX MFGR. MODEL
A SUPPLY 0 530 14"Ø 18"x18" <15 450 PRICE AND 1
NOTES:
1: REFER TO SPECIFICATIONS FOR ADDITIONAL INFORMATION AND ACCESSORIES ASSOCIATED WITH AIR DEVICE.
SPLIT SYSTEM FCU SCHEDULEINDOOR UNIT OUTDOOR UNIT
UNITDESIGNATION UNIT LOCATION
SUPPLY FAN DX COOLING COILHEATPUMPHEAT INDOOR
UNITELECTRICAL
BASIS OF DESIGN UNITDESIGNATION LOCATION UNIT
SEER
TOTAL OUTDOOR UNIT ELECTRICAL WEIGHT(LBS)
BASIS OF DESIGNNOTES
DESIGN CFM TOTALMBH
SENSIBLE MBH MBH
MIN MAX V/∅/HZ MFGR. MODEL MCA M0CP RLA V/∅/HZ MFGR. MODEL
FCU-1 IT ROOM 0 1940 30 26.9 - 208-230/1/60 MITSUBISHI PKA-A30KA7 ACCU-1 ROOF 19.8 19 26 0.40 208-230/1/60 151 MITSUBISHI PUY-A30NHA7 1 THRU 6
NOTES:
1: PROVIDE CONDENSATE DISCHARGE PUMP. 4: PROVIDE LOW AMBIENT OPERATION (0°F).
2: REFER TO SPECIFICATIONS FOR ADDITIONAL INFORMATION, AND ACCESSORIES ASSOCIATED WITH UNIT. 5: INSTALL A TXV METERING DEVICE
3: FACTORY MOUNTED HIGH AND LOW PRESSURE SWITCH WITH A TIME DELAY AND LOCK OUT. 6: FACTORY MOUNTED HARD START KIT ON ALL SINGLE PHASE DX UNITS.
EXHAUST FAN SCHEDULE
FANDESIGNATION AREA SERVED CFM ESP (IN
H₂0)
DRIVE
FAN TYPE HP BHP MOTORRPM
SOUNDLEVEL
(SONES)
ELEC. CHAR.(V/∅/HZ)
BASIS OF DESIGN
ACCESSORIES NOTESBELT (BD) /
DIRECT (DD) MFGR. MODEL
EF-1 EMR 202 150 0.5
DD
R.M.C. 1/15 0.03 1725 5.6 120/1/60
GREENHECK
G-VG A,B,C,D,E,F 1
EF-2 TOILET 2100 0.75 R.M.C. 3/4 0.58 1725 15.4 120/1/60 G-VG A,B,C,D,E,F 1
EF-3 TOILET 2250 0.75 R.M.C. 1 0.54 1200 12.7 208-230/1/60 G-VG A,B,C,D,E,F 1
EF-5 KILN 300 0.5 R.M.C. 1/10 0.07 1725 8.2 120/1/60 G-VG A,B,C,D,E,F 1
EF-7 TOILET 375 0.625 R.M.C. 1/10 0.08 1725 7.9 120/1/60 G-VG A,B,C,D,E,F 1
EF-8 HOOD 2250 1 R.M.C.U. 1 0.8 1725 12.4 208-230/1/60 CUE-VG A,B,C,D,E,F,G 1
EF-11 PENTHOUSE 1500 0.875 R.M.C. 1/2 0.41 1725 13.9 120/1/60 G-VG A,B,C,D,E,F 1
RF-3 AHU-3 5125 0.875 BD U.S. 1.5 1.2 1725 17.8 480/3/60 USF A,B,C,D,E,F 1
ACCESSORIES:
A: DISCONNECT SWITCH D: BIRDSCREEN G: UL 762
B: BACKDRAFT DAMPER E: ALUMINUM CONSTRUCTION
C: PREFAB ROOF CURB F: PROVIDE WITH FAN SPEED CONTROLLER
FAN TYPES:
U.S. = UTILITY SET R.M.C. = ROOF MOUNTED CENTRIFUGAL R.M.C.U. = ROOF MOUNTED CENTRIFUGAL UP BLAST
NOTES:
1: REFER TO SPECIFICATIONS FOR ADDITIONAL INFORMATION, AND ACCESSORIES ASSOCIATED WITH FAN.
AIR COOLED CHILLER SCHEDULE
CHILLERDESIGNATION
(CH-_)CHILLER TYPE REFRIGERANT
TYPE
NOMINALCAPACITY
(TONS)
DESIGNCAPACITY
(TONS)
HYDRONIC CONDENSER COMPRESSORS UNIT TOTAL ELECTRICAL MINIMUM REQUIREDEFFICIENCY
UNITWEIGHT
(LBS)
UNITDIMENSIONS (L
x W x H)
SOUND CRITERIA
BASIS OF DESIGN
NOTESFLUIDTYPE
CHILLEDWATER
GPM
CHILLEDEWT (°F)
CHILLEDLWT (°F)
CHILLEDMAX WPD(FT H₂O)
FOULINGFACTOR
DESIGNAMBIENT
TEMP. (°F)
NUMBEROF
CIRCUITS
FAN R.L.A. (TYP.FOR ALL
CONDENSERFANS)
POWER(KW)
R.L.A (AMPS) (COMPRESSOR LETTER)POWER
(KW)MCA
(AMPS)MOCP
(AMPS)ELEC. CHAR.
(V/∅/HZ) IPLV REQUIREDMIN EER
MAXIMUM AHU RADIATED DB (OCTAVEBAND)
A B C D E F 1 2 3 4 5 6 7 8 MFGR. MODEL
CH-1 SCROLL 410A 241 229.8 WATER 560 53.8 44.0 13.4 0.0001 95.0 2 (14) 3.6 269.4 76 76 76 76 76 76 269.4 532 600 480/3/60 16.43 10.24 9688 328x99x88 98 98 98 95 96 90 90 86 DAIKIN AGZ241E 1 THRU 8
NOTES: CHILLER TYPES: DEFINITIONS:
1: REFER TO SPECIFICATIONS FOR ADDITIONAL INFORMATION, ACCESSORIES ASSOCIATED WITH CHILLER, AND FOR CONTROL SEQUENCE. 5: CHILLER COMPRESSORS SHALL BE PROVIDED WITH SOLID STATE STARTER(S). SCREW EER = ENERGY EFFICIENCY RATIO
2: THE CHILLER SOUND PRESSURE SHALL BE EQUAL OR LESS THAN THE SCHEDULED VALUES. 6: PROVIDE INTEGRATION OF CHILLER CONTROLS WITH BAS. RECIPROCATING IPLV = INTEGRATED PART LOAD VALUE
3: DISCONNECT SWITCH FOR UNIT SHALL BE PROVIDED BY DIVISION 26. 7: PROVIDE CHILLER WITH FACTORY FURNISHED CONTROL PANEL. SCROLL NPLV = NON-STANDARD PART LOAD VALUE
4: CHILLER SHALL BE PROVIDED WITH FACTORY FURNISHED / INSTALLED COMPRESSOR SOUND ATTENUATION PACKAGE FOR ALL COMPRESSORS. 8: PROVIDE CHILLER EVAPORATION BARREL RATED TO 0°F.
VARIABLE AIR VOLUME TERMINAL SCHEDULE (w/ HYDRONIC HEATING COIL)
BOXDESIGNATION AREA SERVED
INLETSIZE(IN)
OUTLETSIZE (IN)
PRIMARY AIRCOOLING CFM
RANGES PRIMARYHEATING
(CFM)
PRIMARYAIR
STATICAPD
REHEAT COIL (HOT WATER) BASIS OF DESIGN
NOTES
MIN MAX MAX (INWC)
EATDB(°F)
LATDB(°F)
MBH EWT(°F)
LWT(°F) GPM
BRANCH PIPECONNECTION
SIZE (IN)
MAX WPD(FT H₂0)
MAX. APD(WET) (IN
WC)MFGR. MODEL
VAV-1 HEALTH 6"Ø 12x8 115 250 250 0.64
55 90
9.6
140
113 0.7
3/4"
0.08 0.11
PRICE
SDVQ5 1 THRU 4
VAV-2 WAITING/RECEPTION 8"Ø 12x10 215 450 450 0.54 17.1 119 1.67 0.48 0.21 SDVQ5 1 THRU 4
VAV-3 BOOK STORAGE 6"Ø 12x8 115 250 250 0.64 9.6 113 0.7 0.08 0.11 SDVQ5 1 THRU 4
VAV-4 ADMIN CORRIDOR 6"Ø 12x8 215 250 250 0.64 9.6 113 0.7 0.08 0.11 SDVQ5 1 THRU 4
VAV-5 PRINCIPAL 8"Ø 12x10 215 450 450 0.54 17.1 119 1.67 0.48 0.21 SDVQ5 1 THRU 4
VAV-6 CONFERENCE 8"Ø 12x10 215 450 450 0.54 17.1 119 1.67 0.48 0.21 SDVQ5 1 THRU 4
VAV-7 ASST. PRINCIPAL 6"Ø 12x8 115 250 250 0.64 9.6 113 0.7 0.08 0.11 SDVQ5 1 THRU 4
NOTES: VAV BOX TYPES:
1: REFER TO SPECIFICATIONS FOR ADDITIONAL INFORMATION, AND ACCESSORIES ASSOCIATED WITH EACH VAV BOX. SDB: SINGLE DUCT BOX
2: ALL SUPPLY AIR DUCTWORK ON THE DISCHARGE SIDE SHALL BE SOUND LINED.
3: INSTALL BOXES SO THAT ACTUATORS AND ACCESS AREAS ARE MAINTAINED.
4: D.D.C. CONTROLLERS SHALL BE SHIPPED FOR FACTORY MOUNTING AND PRE-WIRING.
UNITDESIGNATION
HEATING COILS SOUND CRITERIAUNIT TOTALELECTRICAL
PRE-FILTER
FINALFILTER BASIS OF DESIGN
NOTES
HOT WATER HEATING COIL
MAXIMUM AHU RADIATED DB (OCTAVE BAND) MAXIMUM AHU DISCHARGE/INLET DB (OCTAVEBAND)
EATDB(°F)
LATDB(°F)
TOTALMBH
MAX.FACEVEL.
(FPM)
EWT(°F)
LWT(°F) GPM
FINSPERINCH
ROWSBRANCH PIPECONNECTION
SIZE (IN)
MAX.WPD
(FT H₂O)
MAX. APD(WET) (IN
WC)
ELEC. CHAR.(V/∅/HZ) MERV MERV MFGR. MODEL
1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
AHU-1 48 80 271 592 140 105 15.6 12 2 2 1.1 0.30 89 88 75 73 66 57 46 51 99 98 93 94 88 85 80 78 480/3/60 8 8
DAIKIN
CAH012GDAC 1 THRU 5
AHU-2 46 77 75 419 140 119 7.2 12 1 1 1.6 0.14 69 72 59 55 56 46 46 51 79 82 77 76 78 74 73 70 480/3/60 8 8 CAH006GDAC 1 THRU 5
AHU-3 33 81 270 569 140 119 26.0 12 2 2 3.5 0.27 74 76 68 63 60 50 46 51 84 86 86 84 82 78 78 73 480/3/60 8 8 CAH010GDAC 1 THRU 5
NOTES: UNIT TYPE:
1: REFER TO SPECIFICATIONS FOR ADDITIONAL INFORMATION, ACCESSORIES ASSOCIATED WITH UNIT, AND FOR CONTROL SEQUENCE. CAV = CONSTANT AIR VOLUME
2: SUPPORT UNIT ON NEOPRENE VIBRATION PADS, SIZE AND LOCATIONS PER AHU MANUFACTURER'S RECOMMENDATIONS. VAV = VARIABLE AIR VOLUME
3: FAN TYPE: DWDI = DOUBLE WIDTH DOUBLE INLET AIR FOIL, VA = VANE AXIAL, PL = PLENUM AIR FOIL.
4: SUPPLY / RETURN FANS SHALL BE NEMA PREMIUM EFFICIENCY.
5: SUBSTITUTIONS FOR LOWER FAN MOTOR HP SHALL NOT BE ACCEPTABLE.
INDOOR CENTRAL STATION AIR HANDLING UNIT SCHEDULE (w/ CHILLED, HEATING, & PRE-HEAT WATER COILS)
UNITDESIGNATION AREA SERVED
UNITTYPE SUPPLY FAN OUTSIDE AIR CHILLED WATER COOLING COIL
CAV /VAV
DESIGNCFM ESP (IN
H₂O)TSP (IN
H₂0)MOTOR
HPMOTOR
BHPMOTOR
RPMVFD
(YES/NO) MIN CFM MAX CFM ECONOMIZER(YES/NO)
EAT LATTOTALMBH
SENSIBLEMBH
MAX.FACEVEL.
(FPM)
EWT(°F)
LWT(°F) GPM
FINSPERINCH
ROWSBRANCH PIPECONNECTION
SIZE (IN)
MAX.WPD(FT
H₂O)
MAX. APD(WET)
(IN WC)MAX DB (°F) WB (°F) DB (°F) WB (°F)
AHU-1 GYM
CAV
7600 1.00 3.24 7.5 7.12 2863 YES 1380 1380 YES 82 69 54 53 217 136 325 44 54 42.6 12 4 2.5 7.1 0.67
AHU-2 STAGE 2200 1.00 2.20 1.5 1.40 1494 YES 750 750 YES 84 69 53 53 110 73 387 44 54 21.6 10 6 2 7.4 0.50
AHU-3 CAFETERIA 5125 1.00 2.70 5.0 3.78 1131 YES 3180 3180 YES 87 72 55 54 286 177 536 44 54 58.3 11 6 2.5 11.3 0.88
KITCHEN MAKE-UP AIR UNIT SCHEDULEUNIT
DESIGNATION AREA SERVED
SUPPLY FAN UNIT TOTAL ELECTRICALSOUND
(SONES)WEIGHT
(LBS)
BASIS OF DESIGNNOTES
CFM ESP (INH₂O)
DRIVETYPE
MOTORHP BHP MOTOR
RPM MCA MOCP FLA ELEC. CHAR.(V/∅/HZ) MFGR. MODEL
MAU-1 KITCHEN 1125 .76 BELT 1 0.46 1469 14.5 25 11.6 120/1/60 16.3 242 FLOAIRE SA15D 1,2
NOTES:
1: REFER TO SPECIFICATIONS FOR ADDITIONAL INFORMATION AND ACCESSORIES FOR UNIT.
2: PROVIDE SINGLE POINT ELECTRICAL CONNECTION TO MAU.
PUMP SCHEDULEPUMP DESIGNATION SERVICE PUMP TYPE VFD
(YES/NO) GPM FT. OF HEADPUMP MOTOR UNIT
ELECTRICAL BASIS OF DESIGNNOTES
HP BHP RPM V/∅/HZ MFGR. MODEL
P-3 HEATING WATER BASE MOUNTED YES 240 90 10 7.4 1800 480/3/60
B&G
E-1510-2EB 1,2,3
P-4 HEATING WATER BASE MOUNTED YES 240 90 10 7.4 1800 480/3/60 E-1510-2EB 1,2,3
P-6 FREEZE PROTECTION - AHU-1 INLINE YES 16 25 1/6 0.10 3300 120/1/60 PL-36 1,2,3
P-7 FREEZE PROTECTION - AHU-2 INLINE YES 8 25 1/6 0.10 3300 120/1/60 PL-36 1,2,3
P-8 FREEZE PROTECTION - AHU-3 INLINE YES 26 25 2/5 0.33 3250 120/1/60 PL-55 1,2,3
P-9 FREEZE PROTECTION - AHU-4 INLINE YES 30 25 2/5 0.33 3250 120/1/60 PL-55 1,2,3
P-10 FREEZE PROTECTION - AHU-5 INLINE YES 30 25 2/5 0.33 3250 120/1/60 PL-55 1,2,3
NOTES:
1: REFER TO SPECIFICATIONS FOR ADDITIONAL INFORMATION AND ACCESSORIES ASSOCIATED WITH PUMP. 3: PROVIDE PUMP MOTOR SUITABLE FOR VARIABLE SPEED DRIVE OPERATION.
2: PROVIDE PREMIUM EFFICIENCY MOTORS.
SAMUEL TUCKER ES -HVAC REPLACEMENT
901
Dul
aney
Val
ley
Roa
d, S
uite
301
Pho
ne: 4
10-4
94-1
111
Tow
son,
MD
212
04
Fax
: 410
-494
-111
2
KIB
AR
TCO
NSUL
TING
ENGI
NEER
S
CONSTRUCTIONDOCUMENT
SUBMISSION10/28/2020
435 FERDINAND DAY DR.
ALEXANDRIA, VA 22304
Recommended