HomeMy WebLinkAboutMechanicalGENERAL SYMBOLS
O THERMOSTAT
OH HUMIDITY SENSOR
O TEMPERATURE SENSOR
CO CARBON DIOXIDE SENSOR
O* � (INSULATED SUB-BASE)
O* � (WITH GUARD)
TYPE OF SERVICE: S= SUPPLY
R = RETURN
E = EXHAUST
T = TRANSFER
S-1 SCHEDULED
� �� DEVICE NO
AIR QUANTITY
IN CFM
O KEYED NOTE
� INTERFACE, EXISTING TO NEW
X SECTION NUMBER
M-X SHEET WHERE LOCATED
AHU EQUIPMENT DESIGNATION
1 UNIT NUMBER
FSD DAMPER TYPE DESIGNATION
1 UNIT NUMBER
# x # EXISTING TO REMAIN
� DUCT SIZE
# x # NEW WORK
DUCT SIZE
x DUCT SIZE, FIRST FIGURE IS SIDE SHOWN
(ACTUAL SIZE INDICATED)
# X#� SPIRAL FLAT-OVAL DUCT SIZE, FIRST FIGURE IS SIDE
SHOWN (ACTUA� SIZE INQICATED)
❑ AP ACCESS PANEL, TOP OR SIDE
�� F�EXIB�E DUCT CONNECTION
R CHANGE OF ELEVATION - RISE (R) OR DROP (D)
_;%� TURNING VANES
� — � EXISTING EQUIPMENT OR DUCTWORK
TO BE REMOVED
M
AUTOMATIC DAMPER
� GRAVITY BACKDRAFT
MANUAL VO�UME QAMPER
FD
FIRE DAMPER
SD
SMOKEDAMPER
F/SD
FIRE/SMOKE DAMPER
F�EXIB�E DUCT
� SUPPLY OR OUTSIDE AIR SECTION UP
� RETURN OR EXHAUST AIR SECTION UP
�x� SUPP�Y OR OUTSIDE AIR DOWN OR AWAY
�.'� RETURN OR EXHAUST AIR DOWN OR AWAY
—► F�OW ARROW DOWNSTREAM OF FAN
F�OW ARROW UPSTREAM OF FAN
SUPP�Y DIFFUSER, REGISTER OR
GRILLE AS SCHEDU�ED
RETURN OR EXHAUST GRI��E
OR REGISTER AS SCHEDU�ED
SLOT DIFFUSER AS SCHEDULED
SIDEWAL� GRIL�E OR REGISTER
AS SCHEDULED
ARROWS INDICATE DIRECTION OF AIR DISCHARGE.
IF NO ARROWS ARE SHOWN ON PLAN, DEFAULT
IS 2-WAY HORIZONTAL FOR SLOT DIFFUSERS,
4-WAY HORIZONTAL FOR SQUARE DIFFUSERS.
1.
2.
3.
4.
5.
6.
7.
8.
PIPING SYMBOLS
CD CONDENSATE DRAIN
CWR CHILLED/HOT WATER RETURN
CWS CHIL�ED/HOT WATER SUPPLY
CWR CHIL�ED WATER RETURN
CWS CHIL�ED WATER SUPPLY
HWR HEATING WATER RETURN
HWS HEATING WATER SUPP�Y
MU MAKE-UP WATER
PCWS PRIMARY CHILLED WATER SUPP�Y
PCWR PRIMARY CHILLED WATER RETURN
G NATURA�GAS
SCW SOFT COLD WATER (DOMESTIC)
F FIRE PROTECTION
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�
�
aw
S
FS pR TS
P
� � �
CHECK VA�VE
GLOBE VALVE
PRESSURE REGULATING
VA�VE
TWO-WAY CONTROL
VALVE
THREE-WAY CONTRO�
VALVE
CALIBRATED
BALANCING VALVE
AUTOMATIC FLOW CONTROL
VALVE
SHUT OFF VA�VE
(REFER TO SPECIFICATIONS}
IN-�INE PUMP
Y STRAINER
1 •
AIRVENT
RELIEF VALVE
PRESSURE TEST VA�VE
PRESSURE REDUCING VALVE
PUMP DISCHARGE VALVE
VALVE IN RISE
FLANGE
THERMOMETER
PRESSURE GAUGE W/COCK
CAP
FLEXIBLE PIPE COUPLING
ELBOW DOWN
ELBOW UP
TEE DOWN
TEE UP
PITCH DOWN IN DIRECTION OF ARROW
PRESSUREiTEMPERATURE TEST PORT
FLOW ARROW
EXISTING TO BE REMOVED
WATER METER
r��,.,i»v_�r� -��y���.Y•x�i•r_�ra����
FLOW OR TEMPERATURE SWITCH
DIFFERENTIAL PRESSURE TRANSMITTER I
EQuIPMENT
DESIGNATION
AHU AIR HANDLING UNIT
AP ACCESS PANEL
AS AIR SEPARATOR
AV AUTOMATIC VENT
B BOI�ER
BCU B�OWER COI� UNIT
BFP BACKFLOW PREVENTER
CH CHI�LER
CAV CONSTANT AIR VOLUME
CC COOLING COIL
CO CLEAN OUT
CUH CABINET UNIT HEATER
CWP CHILLED WATER PUMP
DPS DIFFERENTIAL PRESSURE SWITCH
DPT DIFFERENTIAL PRESSURE TRANSMITTER
EF EXHAUSTFAN
ET EXPANSION TANK
F FAN
FC FLEXIBLE DUCT CONNECTION
FCU FAN COIL UNIT
FD FIRE DAMPER
FS FLOW SWITCH
FTR FIN-TUBE RADIATION
GV GRAVITY VENTILATOR
HC HEATING COIL
HWP HEATING WATER PUMP
� �ouvER
MD MOTORIZED DAMPER
MV MANUALVENT
OBD OPPOSED BLADE DAMPER
P PUMP
PBD PARAL�E� BLAQE DAMPER
PHC PREHEAT COIL
PRV PRESSURE REDUCING VALVE
PS PRESSURE SWITCH
RH RE�IEF HOOD
RHC TERMINAL REHEAT COIL
RP RADIANT PANEL
SM SHEET METALSLEEVE
ST STEAM TRAP
TCV TEMPERATURE CONTRO� VALVE
TD TRANSFER DUCT
UH UNIT HEATER
VAV VARIABLE AIR VOLUME BOX
VD MANUAL VOLUME DAMPER
THESE PLANS ARE DIAGRAMMATIC IN NATURE. THE CONTRACTOR SHALL BE PREPARED TO MAKE
SOME ALTERATIONS TO THE EXACT LOCATION OF DUCTWORK, PIPING AND EQUIPMENT FROM THE
LOCATION INDICATED ON THESE DRAWINGS TO FIT ACTUAL JOB CONDITIONS.
ALL ELBOWS, FITTINGS, ETC., IN PIPING AND DUCTWORK REQUIRED TO CLEAR ALL JOB OBSTRUCTIONS
ARE NOT NECESSARILY INDICATED. AL� NECESSARY TRANSITIONS, FITTINGS AND OFFSETS ARE
REQUIRED WHETHER SHOWN OR NOT.
BECAUSE OF THE LIMITED SPACE AVAILABLE TO INSTALL ALL OF THE MECHANICAL WORK,
COORDINATION BETWEEN THE VARIOUS TRADES IS OF THE UTMOST IMPORTANCE.
THE CONTRACTOR SHA�L COORDINATE STAGING AND SCHEDU�ING WITH THE OWNER'S
REPRESENTATIVE.
EXISTING CONDITIONS ARE BASED ON INFORMATION OBTAINED FROM PREVIOUS CONSTRUCTION
DOCUMENTS AND INFORMAL FIELD OBSERVATION AND SHALL NOT BE CONSTITUTED AS "AS BUILT."
THE CONTRACTOR SHALL FIELD-VERIFY EXISTING CONDITIONS BEFORE THE ONSET OF CONSTRUCTION.
QEMO�ISH A�L PIPING, DUCTWORK EQUIPMENT, ETC., SHOWN TO BE REMOVED, IN ITS ENTIRETY,
INCLUDING ALL HANGERS AND SUPPORTS.
WHERE CONTRACTOR IS REQUIRED TO CONCEA� NEW WORK, REMOVE OR MODIFY EXISTING
CONSTRUCTION OR EQUIPMENT, OR ATTACH TO EXISTING CONSTRUCTION, THE CONTRACTOR SHA��
REPAIR OR REPLACE EXISTING CONSTRUCTION AND MATERIALS TO MATCH CONDITIONS AT THE ONSET
OF CONSTRUCTION. IT IS THE CONTRACTOR'S RESPONSIBILITY TO REMOVE AND REP�ACE EXISTING
CEI�INGS AND WA��S REQUIRED FOR INSTALLATION OF MECHANICA� SYSTEMS.
THE OWNER SHA�� MAINTAIN A�L SA�VAGE RIGHTS OF EQUIPMENT AND MATERIA�S REMOVED. ALL
EQUIPMENT AND MATERIALS NOT C�AIMED BY THE OWNER SHAL� BE REMOVED FROM THE
PREMISES BY THIS CONTRACTOR.
GENERAL
ABBREVIATIONS
AFF ABOVE FINISHED FLOOR
AI ANALOG SIGNA� INPUT
AO ANALOG SIGNA� OUTPUT
APD AIR PRESSURE DROP
ARCH ARCHITECTURE/ARCHITECT
BDD BACK DRAFT DAMPER
BFC BELOW FINISHED CEILING
BHP BRAKE HORSEPOWER
BI BINARY SIGNAL INPUT
BO BINARY SIGNAL OUTPUT
BTU BRITISH THERMAL UNIT
BTUH BRITISH THERMAL UNITS PER HOUR
CAP CAPACITY
CAV CONSTANT AIR VO�UME
CFM CUBIC FEET PER MINUTE
CI CAST IRON
CV CONTROLVALVE
DB DRY BULB
DBA A-WEIGHTED DECIBE�S
DEG DEGREES
DIA DIAMETER
DIM DIMENSION
DISCH QISCHARGE
DN DOWN
DTL DETAI�
DWG(S) DRAWING(S}
EA EXHAUST AIR OR EACH (PER CONTEXT)
EAT ENTERING AIR TEMPERATURE
EFF EFFICIENCY
EQ EQUAL
ESP EXTERNAL STATIC PRESSURE
EWB ENTERING AIR WET BU�B TEMPERATURE
EWT ENTERING WATER TEMPERATURE
EXIST, EX EXISTING
EXH EXHAUST
DEG F DEGREES FAHRENHEIT
F FAHRENHEIT
FIN FINISHED
FLR F�OOR
FPF FINS PER FOOT
FPM FEET PER MINUTE
FT FEET
FT-HD HEAD IN FEET
GA GAUGE
GAL GA�LONS
GALV GALVANIZED
GC GENERALCONTRACTOR
GPM GALLONS PER MINUTE
HD HEAD
HP HORSEPOWER
HR HOUR
HVAC HEATING, VENTILATING
& AIR CONDITIONING
HW HOT WATER
HZ HERTZ
IN INCHIINCHES
ISP INTERNA� STATIC PRESSURE
9. PROVIDE VENTS AT A�L PIPING HIGH POINTS, AND QRAINS AT AL� PIPING �OW POINTS, REGARDLESS OF WHETHER SHOWN OR
N OT.
10. THE CONTRACTOR SHALL VERIFY ALL REFRIGERANT PIPE SIZING AND ROUTINGS WITH THE EQUIPMENT MANUFACTURER. THE
CONTRACTOR SHA�L A�SO PROVIDE ALL REQUIRED REFRIGERANT ACCESSORIES AS RECOMMENDED BY THE EQUIPMENT
MANUFACTURER FOR COMPLETE AND FU�LY FUNCTIONA� SYSTEMS.
11. DO NOT SCALE THE LOCATION OF HVAC CEILING ELEMENTS, SUCH AS AIR INLETS AND OUTLETS, FROM THE M-SERIES
DRAWINGS. SEE ARCHITECTURAL REFLECTED CEILING PLANS FOR EXACT HVAC CEILING ELEMENT LOCATIONS. REFLECTED
CEI�ING P�ANS GOVERN THE LOCATION OF DIFFUSERS, REGISTERS, AND GRIL�ES. M-SERIES DRAWINGS GOVERN TYPE,
STYLE, AND SIZE OF DIFFUSERS, REGISTERS, AND GRILLES.
12. ALL DUCTWORK SHA�L COMP�Y WITH "HVAC DUCT CONSTRUCTION STANDARDS - METAL AND F�EXIBLE," 3RD EQITION, SMACNA
2005, EXCEPT WHERE MORE RESTRICTIVE REQUIREMENTS ARE SPECIFIED. ANY PLAN REFERENCES TO "SMACNA FIGURE ---"
REFERS TO THIS STANDARD. SEE SPECIFICATIONS FOR SCHEDULE OF DUCT PRESSURE CLASS AND SEAL CLASS.
13. ALL LINED DUCTWORK SIZES SHOWN ON PLANS ARE OUTSIDE SHEET METAL DIMENSIONS.
14. ALL EXISTING TEMPERATURE CONTROLS THAT ARE BEING DEMOLISHED OR DISABLED AS WORK OF THIS CONTRACT SHALL
BE COMPLETELY REMOVED FROM BUILDING, INC�UDING ALL CONNECTED WIRING AND CONDUIT.
15. THE CONTRACTOR SHAL� CONNECT THE NEW HVAC SYSTEM TO THE OWNER'S EXISTING BUI�DING CONTROL SYSTEM. REFER TO THE
SPECIFICATIONS FOR ADDITIONAL REQUIREMENTS.
16. PROVIDE DUCT ACCESS PANELS OR DUCT ACCESS DOORS AT THE FOLLOWING LOCATIONS, WHETHER SHOWN OR
NOT: DOWNSTREAM OF ALL FIRE DAMPERS, AT ALL LOUVER PLENUMS AND ELSEWHERE AS SHOWN.
GENERAL
ABBREVIATIONS
KW KILOWATTS
�AT �EAVING AIR TEMPERATURE
�B(S} POUND(S)
LF �INEAR FEET
LRA LOCKED ROTOR AMPS
�WT �EAVING WATER TEMPERATURE
MAN MANUA�
MAX MAXIMUM
MBH THOUSANDS BRITISH THERMAL UNITS PER HOUR
MERV MINIMUM EFFICIENCY REPORTING VA�UE (ASHRAE 52.2)
MFR MANUFACTURER
MIN MINIMUM OR MINUTE (PER CONTEXT)
NC NORMALLY CLOSED OR NOISE CRITERIA (PER CONTEXT)
NO NORMALLY OPEN OR NUMBER (PER CONTEXT)
NIC NOT IN CONTRACT
NOM NOMINAL
NPSH NET POSITIVE SUCTION HEAD
NTS NOT TO SCALE
OA OUTSIDE AIR
OC ON CENTER
OD OUTSIDE DIAMETER
PD PRESSURE DROP
PH PHASE
PRV PRESSURE REGU�ATING VA�VE
PSI POUNDS PER SQUARE INCH
PSIA PSI ABSOLUTE
PSIG POUNDS PER SQUARE INCH GAUGE
QTY QUANTITY
RA RETURN AIR
RAD RADIATED
RH RELATIVE HUMIQITY
RLA RUNNING LOAD AMPS
RPM REVOLUTIONS PER MINUTE
SA SUPP�Y AIR
SENS SENSIBLE
SF SQUAREFOOT
SH SENSIBLE HEAT
SP STATIC PRESSURE
SPD STATIC PRESSURE DIFFERENTIAL
SPT STATIC PRESSURE TRANSMITTER
SQ SQUARE
TC TEMPERATURE CONTROL
TDH TOTAL DYNAMIC HEAD
TEMP TEMPERATURE
T&P TEMPERATURE AND PRESSURE
TSP TOTAL STATIC PRESSURE
TYP TYPICAL
V VOLTS
VD VOLUME DAMPER (MANUAL}
VFQ VARIABLE FREQUENCY DRIVE
W WATT OR WIDTH (PER CONTEXT}
W/ WITH
WB WET BULB
WC WATER COLUMN
WG WATER GAUGE
WIO WITHOUT
WPD WATER PRESSURE DIFFERENTIAL
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SCOPE DRAWINGS:
Theae dmwi�gs indicate the ganem� scope of the project '
in tertns of architectuml deaign concept. the dimensions of ',
the buiiding, the major archftectumi elements and the type '
of atructuml, mechonicai and eiectricoi systema. '
fie dmwings do not nacassarity indicote or describe all '
work requircd for full performonce and compktion of the
requirements of the Contract.
On the basis of the gerreral scope irKlicoted or described,'
the trade contractors shail fumish ali items required for the '
proper execution and completion of the work. '
REVISIONS:
ISSUE DATE DRAWN BY CHECKED BY
04/14/15 N.O. G.M
DRAWING TITLE:
�ECNA�ic�
SY�BO�S �C
ABBR�� AT ONS
DRAWING NUMBER
PROJECT NUMBER
12071
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Scale: 1/8"-1'-0"
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FR�M ABO�
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BASEMENT MECHANICAL DEMOLITION PLAN CHURCH- ALTERNATE
BASEMENT MECHANICAL DEMOLITION PLAN- PLC
Scale: 1/8"-1'-0"
Scale: 1/8"-1'-0"
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SCOPE DRAWINGS:
These dmwings iM'Hwte the genemi scope of the proJect
in terme of architectuml deaign concept, the dimenaiona of
the buiiding, the ma]or architectuml elements and the typa
of atructural, mechanica� and e�ecGical systems.
The dmwings do not mcassarily indicate or describe all
work required for full performonce and comp�etion of the
requirements of the Contract.
On the basis of the general acope indicated or deacribed,
the trade contractors ahall fumish all �tema required for the
proper execuUon ond compietron of the work.
REVISIONS:
ISSUE DATE DRAWN BY CHECKED BY
04/14/15 N.O. G.M
DRAWING TIT�E:
�1 EC� AN CA�
DE�l0�IT10�
P�AN
CERTIFIED BY:
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DRAWING NUMBER
PROJECT NUMBER
120�1
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SCOPE DRAWINGS:
Theae dmwi�gs indicate the ganem� scope of the project '
in tertns of architectuml deaign concept. the dimensions of ',
the buiiding, the major archftectumi elements and the type '
of atructuml, mechonicai and eiectricoi systema. '
fie dmwings do not nacassarity indicote or describe all '
work requircd for full performonce and compktion of the
requirements of the Contract. '
On the basis of the gerreral scope irKlicoted or described,'
the trade contractors shail fumish ali items required for the '
proper execution and completion of the work. '
REVISIONS:
ISSUE DATE DRAWN BY CHECKED BY
04/14/15 N.O. G.M
DRAWING TITLE:
FIRS� F�OOR
f� ECH A� I CA�
D��O� � ON
P�A�
DRAWING NUMBER
PROJECT NUMBER
12071
SHEET KEYED NOTES•
0 RETURN GRILL R-3 TOP 1' 2" AFF 14 X 3 1/2" DUCT UP
IN WALL AND STUBBED OUT ABOVE CEILING.
2� 4" DIAMETER VENT FROM DRYER UP IN WALL THROUGH ROOF.
TERMINATE 2 FEET ABQVE ROOF WITH WEATHER CAP.
3� DOUBLE WALL.
�4 REMOVE SECTION OF EXISTING ROOF AND ROOF INSULATION.
NEATLY CUT OPENING IN EXISTING DECK. MQUNT ROOF
CURB LEVEL AND FLASH INTO EXISTING ROOF.
� DUCTWORK SHALL BE LOCATED WITHIN WEBBING OF STEEL
TRUSSES. FIELD VERIFY EXACT LOCATION.
; ••; . � _ � _►
5caie: i��s �= r-u .
PARTIAL FIRST FLOOR SHEET METAL PLAN
Scale: 1/8"= 1'-0"
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SCOPE DRAWINGS:
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of atructurol, mecbanicai and electrroai systema.
Tha drawings do not necossarity indicate or describe all
work required for full parfomw�ce and compktion of the
requirements of the Contract.
On the bas�a of the generul scope indfcated or described,
the trade contractors shall fumish ail �tems required for the
proper execuGon and compleGon of the wo�ic.
REVISIONS:
ISSUE DATE DRAWN BY CHECKED BY
04/14/15 N.O. G.M
,�C� t l '
F RST ��00�
SH EET M ETA�
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DRAWING NUMBER
PROJECT NUMBER
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the buiiding, the major archftectural elementa and the type
of atructurol, mecbanicai and electrroai systema.
Tha drawings do not necossarity indicate or describe all
work required for full parfomw�ce and compktion of the
requirements of the Contract.
On the bas�a of the generul scope indfcated or described,
the trade contractors shall fumish ail �tems required for the
proper execuGon and compleGon of the wo�ic.
REVISIONS:
ISSUE DATE DRAWN BY CHECKED BY
04/14/15 N.O. G.M
,�C� t l '
FI�S� �LOOR
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BASE BID
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the buiiding, the major archftectural elementa and the type
of atructurol, mecbanicai and electrroai systema.
Tha drawings do not necossarity indicate or describe all
work required for full parfomw�ce and compktion of the
requirements of the Contract.
On the bas�a of the generul scope indfcated or described,
the trade contractors shall fumish ail �tems required for the
proper execuGon and compleGon of the wo�ic.
REVISIONS:
ISSUE DATE DRAWN BY CHECKED BY
04/14/15 N.O. G.M
,�C� t l '
FI�S� �LOOR
PIP NG
P�A�-
A�TERf�ATE
DRAWING NUMBER
PROJECT NUMBER
12071
SHEET KEYED NOTES•
1� PIPING SHALL BE LOCATED WITHIN BULKHEAD,
REFER TO ARCHITECTURAL DRAWINGS.
0 REMOVE AND REINSTALL CEILING AS REQUIRED
FOR NEW PIPING. REINSTALLED CEILING SHAL�
MATCH EXISITING CONDITIONS. FIELD VERIFY
AND SUBMIT PICTURES OF EXISTING CONDITIONS
PRIOR TO WORK.
3� REMOVE PORTIONS OF EXISTING WALL AS
REQUIRED FOR NEW PIPING. PATCH WALL WITH
MATERIAL TO MATCH ADJACENT AREA, TOOTH IN
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of atructurol, mecbanicai and electrroai systema.
Tha drawings do not necossarity indicate or describe all
work required for full parfomw�ce and compktion of the
requirements of the Contract.
On the bas�a of the generul scope indfcated or described,
the trade contractors shall fumish ail �tems required for the
proper execuGon and compleGon of the wo�ic.
REVISIONS:
ISSUE DATE DRAWN BY CHECKED BY
04/14/15 N.O. G.M
,�C� t l '
E �ST ELOOR
PPNG
P�A�-
BASE BID
DRAWING NUMBER
PROJECT NUMBER
12071
SHEET KEYED NOTES•
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REFER TO ARCHITECTURAL DRAWINGS.
2� REMOVE AND REINSTALL CEILING AS REQUIRED
FOR NEW PIPING. REINSTALLED CEILING SHALL
MATCH EXISITING CONDITIONS. FIELD VERIFY
AND SUBMIT PICTURES OF EXISTING CONDITIONS
PRIOR TO WORK.
3� REMOVE PORTIONS OF EXISTING WALL AS
REQUIRED FOR NEW PIPING. PATCH WALL WITH
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Tha drawings do not necossarity indicate or describe all
work required for full parfomw�ce and compktion of the
requirements of the Contract.
On the bas�a of the generul scope indfcated or described,
the trade contractors shall fumish ail �tems required for the
proper execuGon and compleGon of the wo�ic.
REVISIONS:
ISSUE DATE DRAWN BY CHECKED BY
04/14/15 N.O. G.M
,�C� t l '
E �ST ELOOR
PPNG
P�A�-
A�TERNATE
DRAWING NUMBER
PROJECT NUMBER
12071
3 MECHANICAL SECTI4N
Scale: 1/4" = 1'-0"
SNEET KEYED NOTES;
� PROVIDE DOUBLE WALL INSULATED SHEET
METAL BLANK OFF OVER BOTTOM
2'6" OF LOUVER
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SCOPE DRAWINGS:
Thesa drewings indcate tha genemi scopa of tha pro�oct
in terma of orchkecturoi dasgn concept, the dimena�o�s ot
the building, the mojor architecturol elemente ond the type
of structumi, mechanical and alectrical systams.
The drawings do rwt necessorily in�cete or describe all
work roquired for full performance and completion of the
requirementa of the Controc�t.
On the basis of the genemi scope indicated or deacribed,
the trode contractora ahall fumiah oll items required for the
proper execution and completion of the work.
REVISIONS:
ISSUE DATE DRAWN BY CHECKED BY
04/14/15 N.O. G.M
DRAWING TIT�E:
E��ARGED
�1 ECH AN I CA�
P�AN
DRAWING NUMBER
PROJECT NUMBER
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in terma of orchkecturoi dasgn concept, the dimena�o�s ot
the building, the mojor architecturol elemente ond the type
of structumi, mechanical and alectrical systams.
The drawings do rwt necessorily in�cete or describe all
work roquired for full performance and completion of the
requirementa of the Controc�t.
On the basis of the genemi scope indicated or deacribed,
the trode contractora ahall fumiah oll items required for the
proper execution and completion of the work.
REVISIONS:
ISSUE DATE DRAWN BY CHECKED BY
04/14/15 N.O. G.M
DRAWING TIT�E:
EN�ARGED
M EC� AN CA�
P�AN-
BASE B D
DRAWING NUMBER
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Thesa drewings indcate tha genemi scopa of tha pro�oct
in terma of orchkecturoi dasgn concept, the dimena�o�s ot
the building, the mojor architecturol elemente ond the type
of structumi, mechanical and alectrical systams.
The drawings do rwt necessorily in�cete or describe all
work roquired for full performance and completion of the
requirementa of the Controc�t.
On the basis of the genemi scope indicated or deacribed,
the trode contractora ahall fumiah oll items required for the
proper execution and completion of the work.
REVISIONS:
ISSUE DATE DRAWN BY CHECKED BY
04/14/15 N.O. G.M
DRAWING TIT�E:
EN�ARGED
M EC� AN CA�
P�AN-
A�TE��ATE
DRAWING NUMBER
PROJECT NUMBER
12071
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BLOWER COIL UNIT (BCU-1) POINTS LIST
INPUTS OUTPUTS ALARM REPORTS
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COO�-T WA�K IN COO�ER TEMPERATURE (FUTURE) • • • •
DOM-T DOMESTIC HOT WATER TEMPERATURE • • • •
DWP-ALM DOMESTIC HOT WATER PUMP ALARM • • •
DWP-S DOMESTIC HOT WATER PUMP STATUS • • •
DWP-SS DOMESTIC HOT WATER PUMP START/STOP •
F-PD FILTER PRESSURE DROP • • •
FREEZ-T REACH IN FREEZER TEMPERATURE (FUTURE) • • • •
HW-VLV HOT WATER VALVE OPEN/CLOSE • •
HW-V�V-P HOT WATER VALVE POSITION • •
RA-T RETURN AIR TEMPERATURE • • • •
SA-T SUPPLY AIR TEMPERATURE • • • •
SF-ALM SUPPLY FAN ALARM • • •
SF-S SUPP�Y FAN STATUS • • •
SF-SS SUPP�Y FAN START/STOP •
AIR HANDLING UNIT (AHU-1) POINTS LIST
INPUTS OUTPUTS ALARM REPORTS
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B-D BYPASS DAMPER OPEN/C�OSE • • •
B-DP BYPASS DAMPER POSITION • •
BLD-P BUILDING PRESSURE • • • •
CC-T COO�ING COIL DISCMARGE TEMPERATURE • • • •
CW-V�V CHIL�ED WATER VAI.VE OPEN/C�OSE • •
F-D FACE DAMPER OPEN/CLOSE • • •
F-DP FACE DAMPER POSITION • •
F-PD FI�TER PRESSURE DROP • • •
NW-VLV NEATING WATER VA�VE OPENlC�OSE • •
HW-V�V-P HEATING WATER VA�VE POSITION • •
KEF-X-S KITCHEN EXHAUST FAN STATUS • •
MA-T MIXED AIR TEMPERATURE • • • •
OA-D OUTSIDE AIR DAMPER OPEN/CLOSE • • •
OA-DP OUTSIDE AIR DAMPER POSITION • •
OA-F OUTSIDE AIRF�OW • •
RA-D RETURN AIR DAMPER OPEN/CLOSE •
RA-DP RETURN AIR DAMPER POSITION • • • •
RA-H RETURN AIR HUMIDITY • • • •
RA-T RETURN AIR TEMPERATURE • • • •
SA-HS-ALM SUPPLY AIR NIGN STATIC A�ARM • • •
SA-SP DISCHARGE AIR DUCT STATIG PRESSURE • • • •
SA-T SUPPLY AIR TEMPERATURE • • • •
SF-ALM SUPPLY FAN VFD ALARM • • •
SF-S SUPPLY FAN STATUS • • • • •
SF-SPD SUPPLY FAN VFD SPEED •
SF-SS SUPPLY FAN STARTISTOP •
TEMP-LL FREEZESTAT • • •
RP-VLV RADIANT PANEL VALVE OPEN/CLOSE • •
RP-V�V-P RADIANT PANEL VA�VE POSITION • •
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EXHAUSTFAN
EXNAUST FAN (EF-1) CONTROLS DIAGRAM
EXHAUST FAN (EF-1) POINTS LIST
INPUTS OUTPUTS ALARM REPORTS
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EF-1-S EXHAUST FAN STATUS • • •
EF-1-SS EXHAUST FAN START/STOP •
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the building, the moJor arch�tacturot alements and tha type
of structuml, mechanical and electricai systems.
The drawinqa do not necesaorily indicate or describe all
work required for full performance ond completion of the
requirements of the ConGnc�t.
On the bosis of the genemi scope indicoted or described.
the tmde contractors shall fumish aii items required for the
proper execution and completion of the work.
REVISIONS:
ISSUE DATE DRAWN BY CHECKED BY
04/14/15 N.O. G.M
DRAWING TIT�E:
TE�PE�ATURE
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SA-T SUPPLY AIR TEMPERATURE • • • •
SPC-C SPACE CARBON DIQXIDE SENSOR • • •
SPC-H SPACE HUMIDITY SENSOR • • •
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BLR-2-ALM BQILER ALARM • • •
BLR-2-T BOILER HEATING WATER SUPPLY TEMPERATURE • • • •
B�R-ALM BOILER SYSTEM A�ARM • • •
BLR-SS BOILER SYSTEM STARTISTOP •
BLR-STP BOILER SYSTEM SET POINT •
HWP-1-ALM PUMP VFD ALARM • • •
HWP-1-S PUMP STATUS • • • • •
HWP-1-SPD PUMP SPEED •
HWP-1-SS PUMP START/STOP •
HWP-2-ALM PUMP VFD ALARM •
HWP-2-S PUMP STATUS • • • •
HWP-2-SPQ PUMP SPEEQ •
HWP-2-SS PUMP START/STOP •
HWR-T HEATING WATER RETURN TEMPERATURE • • • •
HWS-T HEATING WATER SUPPLY TEMPERATURE • • • •
HWS1R DP HEATING WATER SUPPLY/RETURN DIFFERENTIAL PRESSURE • •
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SCOPE DRAWINGS:
Thase drawings indicata the ganomi scope of tha projoct
in terma of arch�tecturol dasign concept, the dimensions of
the buildinq, the major archRecturol elements and the type
of structural, mechanicai and electricai systems.
The dmwings do rwt neceasorily indicate or describe all
work requirod for fuli perfortnance and compietion of the
requiremente of the Cor�troct.
On the basis of the ganaml acope indlcated or deacribed,
the trade controctors shall fumiah all itema required for the
proper execuYron and completion of the work.
REVISIONS:
ISSUE DATE DRAWN BY CHECKED BY
04/14/15 N.O. G.M
DRAWING TITLE:
TEMPERAT�RE
CONTRO�
DIAGRAMS
DRAWING NUMBER
PROJECT NUMBER
12071
SEQUENCE OF OPERATION
CNI�LED WATER SYSTEM
1. THE CHILLED WATER SYSTEM SHALL BE CONTROLLED BY A DDC CONTROLLER THAT WILL OPERATE IN A STANDALONE
MODE SHOULD COMMUNICATION WITH THE BAS BE �OST. THE CONTRO��ER SHALL UTILIZE BACNET PROTOCOL FOR
COMMUNICATION TO THE BAS.
2. THE DDC CONTRO� PANEL SHALL BE FURNISHED WITH AN OVERRIDE FUNCTION ON THE LCD TO MANUALLY ENABLE
THE CNI�LED WATER SYSTEM.
3. THE CHILLED WATER SYSTEM SHA�� BE ENAB�ED WHEN ANY AREA OF THE BUILDING IS OCCUPIED, AND THE OUTSIDE
AIR TEMPERATURE IS ABOVE 5� DEG. F. ADJ. . THE LEAD SECONDARY PUMP CWP-3 OR 4 VFD SHA�L START AND
� )
SLOW�Y RAMP UP TO MAINTAIN SYSTEM PRESSURE, THE �EAD PRIMARY PUMP CWP-1 OR 2 SHAL� START. ONCE FLOW
IS PROVEN BY THE CHILLER FLOW SWITCH THE CHI��ER SHALL BE A�LOWED TO START. �EAD / �AG PUMP DESIGNATION
SHALL BE ROTATED ON A MONTHLY BASIS.
4. MODU�ATE THE SECONDARY CHILLED WATER PUMP VFD'S TO MAINTAW SYSTEM DIFFERENTIA� PRESSURE SETPOINT AS
MEASURED BY THE DIFFERENTIA� PRESSURES TRANSMITTERS, SETPOINT SHA�L BE DETERMINED BY TNE TESTING AND
BALANCING CONTRACTOR. THE LOWEST DIFFERENTIAL PRESSURE SHALL BE USED AS THE CONTRO� VA�UE FOR THE
CONTROL AGAINST SETPOINT. SEE THE PROJECT DRAWWGS FOR QUANTITY AND �OCATIONS OF DPT'S. WHEN THE
SIGNAL TO THE LEAD SECONDARY PUMP VFD HAS EXCEEDED 55 HZ FOR 10 MINUTES, THE �EAD PUMP SIGNA� SHA�L BE
REDUCED TO 40 HZ AND THE LAG PUMP SHA�� BE STARTED. ONCE OPERATION HAS BEEN CONFIRMED, BOTH VFDS WI�L
BE ALLOWED TO MODULATE TO MAINTAIN THE DIFFERENTIAL PRESSURE. IF BOTH PUMPS ARE OPERATING AT LESS THAN
30 HZ FOR 30 MINUTES, THE LAG PUMP SNA�L BE DISABLED.
5. PRIMARY PUMP STATUES SHA�� BE MONITORED BY A CURRENT RE�AY. SHOU�D PUMP STATUS NOT BE CONFIRMED WITHIN
2 MINUTES AFTER THE COMMAND TO START, INITIATE AN A�ARM AND START THE LAG PUMP.
6. SECONDARY PUMP STATUS SHA�L BE MONITORED AT THE VFD THROUGH THE BACNET COMMUNICATION WTERFACE.
SHOULD PUMP STATUS NOT BE CONFIRMED WITHIN 2 MINUTES AFTER THE COMMAND TO START, INITIATE AN ALARM
AND START TNE �AG PUMP.
7. CHIL�ER MANUFACTURER'S CONTRO�S SHAL� MAINTAIN CHILLED WATER SUPP�Y TEMPERATURE OF 44 DEG. F. (ADJ.}.
8. CHIL�ER STATUS SHA�� BE MONITORED BY A HARD WIRED CONTACT. SHOULD CHILLER STATUS NOT BE CONFIRMED WITHIN
5 MINUTES AFTER THE COMMAND TO START INITIATE AN A�ARM.
9. THE EXISTING CHILLER HAS AN EXISTING �ONTA�K COMMUNICATION BOARD; THE BAS SHA�L COMMUNICATE DIRECTLY
WITH THE CHI�LER. PROVIDE GATEWAYS OR ROUTERS AS REQUIRED. CONTRO� FEATURES AND MONITORWG POINTS
DISPLAYED LOCRLLY AT THE CHILLER CONTRO� PANEL SHAL� BE AVAI�ABLE THROUGH THE BAS.
10. WHEN THE CHI�LED WATER SYSTEM IS DISAB�ED TNE SECONDARY PUMPS CWP-3 OR 4 SHAL� SHUT DOWN, THE CHI�LER
SHALL SHUT DOWN IN AN ORDER�Y FASHION, AND THE PRIMARY PUMP CWP-1 OR 2 SHALL REMAIN ON FOR 10 MINUTES (ADJ.).
11. DURWG TNE UNOCCUPIED PERIOD, THE SPACE HUMIDITY SHA�� BE MONITORED. SNOU�D THE HUMIDITY RISE ABOVE THE
SETPOINT 60% RN (ADJ.) THE CHILLED WATER SYSTEM SNA�� BE ENABLED UNTIL SPACE HUMIDITY IS BELOW �0% RH (ADJ.).
12 A°PUMP REQUIRED" CONTACT ON THE CHI��ER PANE� SHALL BE MONITORED AND WHEN CLOSED, PUMP CWP-1 OR 2 SHA�L
BE ENABLED. TNE PUMP SHA�� CONTINUE TO RUN AFTER TNE CHILLED WATER SYSTEM HAS BEEN DISAB�ED UNTI� THE CNI�LER
CONTRO��ER HAS INDICATED THAT CHILLED WATER F�OW IS NO �ONGER REQUIRED. NOTE THAT THE REQUIREMENT FOR PUMP
OPERATION MAY OCCUR AT ANY TIME.
HOT WATER SYSTEM
1.
2.
3.
4.
5.
6.
7
NOT WATER SYSTEM SHA�� BE CONTROLLED BY R DDC CONTRO��ER THAT WILL OPERATE IN A STANDA�ONE MODE SNOU�D
COMMUNICATION WITH THE BAS BE �OST. THE CONTRO��ER SHALL UTILIZE BACNET PROTOCOL FOR COMMUNICATION TO THE
BAS.
DDC CONTROL PANE� SNAL� BE FURNISHED WITH AN OVERRIDE FUNCTION ON TNE �CD TO MANUA��Y ENABLE TNE HOT
WATER SYSTEM.
THE HOT WATER SYSTEM SHALL BE ENABLED WHENEVER THE OUTSIDE AIR TEMPERATURE IS BELOW 65 DEG. F. (ADJ.) OR
WHEN ANY AREA OF THE BUILDING IS OCCUPIED AND THE OUTSIDE AIR TEMPERATURE IS BELOW 80 DEG. F. (ADJ.). TNE LEAD
PUMP {HWP-1 OR 2) VFD SHA�� START AND SLOW�Y RAMP UP TO MAINTAIN THE SYSTEM PRESSURE. �EAD / LAG DESIGNATION
SHALL BE ROTATED ON A MONTHLY BASIS.
A 4-20 MA SIGNA� SHALL BE SENT TO THE BOILER CONTRO� PANEL FOR SETPOINT. THE BOI�ER CONTROL PANEL FURNISHED
BY TNE BOILER MANUFACTURER SHA�� CONTROL THE OPERATION OF THE CONDENSING BOILERS TO MAINTAIN SETPOINT AS
DETERMINED BY THE BAS. THE BOILER CONTRO� PANE� HAS BEEN SPECIFIED TO BE FURNISHED WITH A MODBUS
COMMUNICATION BOARD BY TNE BOI�ER MANUFACTURER. THE BAS MUST BE AB�E TO COMMUNICATE DIRECTLY WITH THE
BOILER CONTROL PANEL, PROVIDE GATEWAYS OR ROUTERS AS REQUIRED. CONTROL FEATURES AND MONITORING POINTS
DISPLAYED LOCALLY AT THE BOI�ER CONTROL PANEL SHAL� BE AVAI�ABLE THROUGH THE BAS.
NOT WATER SUPPLY TEMPERATURE SETPOINT SHALL BE RESET BASED ON TNE FOLLOWING SCHEDULE: AT 20 DEG. F.
OUTSIDE AIR TEMPERATURE, HOT WATER SUPP�Y SETPOINT SHA�� BE 180 DEG. F., AND AT 60 DEG. F. OUTSIDE AIR
TEMPERATURE, HOT WATER SUPP�Y SETPOINT SHA�� BE 120 DEG. F. THE HOT WATER SUPP�Y TEMPERATURE SETPOINT
SHALL BE LINEAR BETWEEN THESE VALUES. ALL PARAMETERS SHA�L BE ADJUSTAB�E FROM THE WQRKSTATION.
MODU�ATE THE HOT WATER PUMP VFD'S TO MAINTAIN SYSTEM DIFFERENTIA� PRESSURE SETPOINT AS MEASURED BY THE
BRANCH DIFFERENTIAL PRESSURE TRANSMITTERS, SETPOINT SHAL� BE DETERMINED BY THE TESTING AND BALANCING
CONTRACTOR. THE �OWEST DIFFERENTIA� PRESSURE SHAL� BE USED AS THE VA�UE FOR CONTROL AGAINST SETPOINT. SEE
THE PROJECT DRAWINGS FOR QUANTITY AND �OCATION OF DPT'S. WHEN THE SIGNA� TO THE LEAD PUMP VFD HAS EXCEEDED
55 HZ FOR 10 MINUTES, THE LEAD PUMP SIGNAL SHAL� BE REDUCED TO 40 HZ AND THE LAG PUMP SNA�L START. ONCE
OPERATION IS CONFIRMED, BOTH VFD'S SHA�� MODULATE TO MAINTAIN DIFFERENTIAL PRESSURE SETPOINT. IF BOTH PUMPS
ARE OPERATING AT �ESS THAN 30 HZ FOR 30 MINUTES THE �AG PUMP SHAL� BE DISAB�ED.
PUMP STATUS SHAL� BE MONITORED AT THE VFD THROUGH THE BACNET COMMUNICATION INTERFACE. SHOULD PUMP
STATUS NOT BE CONFIRMED WITHIN 2 MINUTES AFTER A COMMAND TO START, INITIATE AN A�ARM AND START THE LAG PUMP.
PROPELLER UNIT HEATERS
1. A WA�� MOUNTED THERMOSTAT SHA�L CYC�E THE FAN AND THE TWO-POSITION VALVE TO MAINTAIN SPACE TEMPERATURE
AT SETPOINT OF 68 DEG. F.
RADIANT PANE�S
1. TNE HOT WATER CONTRO� VA�VE POSITION SNA�� MODU�ATE BASED ON THE FO�LOWING SCHEDU�E: AT 20 DEG. F. OUTSIDE
AIR TEMPERATURE, VALVE POSITION SHALL BE FU�� OPEN, AND AT 40 DEG. F. OUTSIDE AIR TEMPERATURE VALVE POSITION
SHALL BE FU�L CLOSED. VALVE POSITION SHA�L BE �INEAR BETWEEN TNESE VALUES. A�L PARAMETERS SHA�L BE
ADJUSTABLE FROM THE WORKSTATION.
DOMESTIC HOT WATER
1. THE NEW DOMESTIC HOT WATER HEATER SHALL OPERATE UNDER ITS OWN FACTORY CONTROLS.
2. PROVIDE A TEMPERATURE SENSOR FOR MONITORING OF DOMESTIC HOT WATER TEMPERATURE. ONE SENSOR SHAL� BE
INSTA��ED IN THE LINE SERVING THE P�UMBWG FIXTURES.
3. THE BAS SNAL� PLACE THE DOMESTIC NOT WATER CIRCULATING PUMP IN EITHER THE OCCUPIED OR UNOCCUPIED MODE
BASED ON THE TIME SCHEDU�WG PROGRAM. IN TNE OCCUPIED MODE THE BAS SHAL� START THE PUMP AND IT SHAL�
OPERATE UNTIL THE SYSTEM IS INDEXED TO TNE UNOCCUPIED MODE. PUMP STATUS SHAL� BE MONITORED BY A CURRENT
RELAY. SHOU�D PUMP STATUS NOT BE CONFIRMED WITHIN 2 MINUTES AFTER A COMMAND TO START, INITIATE AN ALARM.
VARIABLE AIR VOLUME AIR HANDLING UNIT (AHU-1}
1. THE AIR HANDLING UNIT SHAL� HAVE ITS OWN DEDICATED DDC CONTROLLER THAT WILL OPERATE IN A STANDALONE MODE SHOULD
COMMUNICATION WITH THE BAS BE �OST. THE CONTRO��ER SHALL UTILIZE BACNET PROTOCOL FOR COMMUNICATION TO THE BAS.
2. THE DDC CONTRO� PANEL SHA�L BE FURNISHED WITH AN OVERRIDE FUNCTION ON THE LCD TO MANUALLY ENAB�E THE AIR HANDLING UNIT.
3. THE BAS SHALL INDEX THE DDC CONTROLLER TO THE OCCUPIED MODE BASED ON TNE OPTIMUM START / STOP PROGRAM OR TNE TIME
SCHEDULING PROGRAM. THE LEAD SUPP�Y FAN VFD SHAL� START AND SLOW�Y RAMP UP TO MAINTAIN THE DISCHARGE STATIC PRESSURE
SETPOINT.
4. WHEN THE SIGNAL TO THE LEAD SUPP�Y FAN VFD HAS EXCEED 55 HZ FOR 10 MINUTES THE LEAD FAN VFD SIGNAL SHAL� BE REDUCED TO 20 HZ
FOR 2 MINUTES AND THE LAG SUPP�Y FAN SHA�� BE STARTED. ONCE OPERATION HAS BEEN CONFIRMED, BOTH VFD'S SNA�L MODU�ATE TO
MAINTAIN TNE AHU DISCHARGE STATIC PRESSURE SETPOINT. IF BdTH FANS ARE OPERATING AT LESS THAN 30 HZ FOR 30 MINUTES, THE LAG
FAN SHA�� BE DISAB�ED.
5. SUPP�Y FAN STATUS SHA�L BE MONITORED AT THE VFD THROUGH THE BACNET COMMUNICATION WTERFACE. SHOULD FAN STATUS NOT BE
CONFIRMED WITHIN 2 MINUTES AFTER A COMMAND TO START, INITIATE AN A�ARM AND START THE LAG FAN. LEAD / LAG DESIGNATION SHAL�
BE ROTATED ON A MONTHLY BASIS.
6. ONCE SUPPLY FAN OPERATION IS CONFIRMED, THE OUTSIDE AIR DAMPERS SHAL� OPEN. MODULATE THE QUTSIDE AIR AND RETURN AIR
DAMPERS TO MAINTAIN THE MINIMUM CFM SETPOINT AS MEASURED BY THE OUTSIDE AIRF�OW MEASURING STATION.
7. IF THE OUTSIDE AIR ENTHALPY IS BE�OW THE RETURN AIR ENTHALPY, THE AHU SHAL� BE INDEXED TO ECONOMIZER MODE. THE OUTSIDE AIR
DAMPER AND RETURN AIR DAMPER SHALL MODU�ATE TO MAINTAIN THE DISCHARGE SETPOINT. IF THE MIXED AIR TEMPERATURE GOES BELOW
THE MIXED AIR MINIMUM SETPOINT OF 45 DEG. F. (ADJ.) THE DAMPERS SHA�L MODULATE TO MAWTAIN THE MINIMUM OUTSIDE AIR CFM.
8. THE CO2 IN THE SPACE SHALL BE MONITORED AND THE OUTSIDE AIR CFM MODULATED TO MAINTAIN A SETPOINT OF 1000 PPM (ADJ.). IF THE CO2
IN TNE SPACE EXCEEDS 2000 PPM (ADJ.) FOR 30 MINUTES (ADJ.) AN A�ARM SHAL� BE INITIATED. THE A�LOWABLE OUTSIDE AIR CFM RANGE SNA�L
BE: MINIMUM CFM 2600 AND MAXIMUM CFM OF 9600.
9. THE STATUS OF THE KITCHEN HOOD FANS (QUANTITY OF 7) SHAL� BE MONITORED FOR OPERATION BY A CURRENT RELAY. THE MINIMUM
OUTSIDE AIR CFM SHA�� BE WCREASED AUTOMATICALLY BASED ON THE DESIGN AIRFLOW OF THE ASSOCIATED EXHAUST FAN OPERATING TO A
MAXIMUM OF 9600 CFM.
10. THE SPACE PRESSURE SHALL BE MONITORED. IF THE SPACE PRESSURE DROPS BE�OW +0.05° (ADJ.) FOR 30 MINUTES (ADJ.) AN ALARM
SHALL BE INITIATED AND THE OUTSIDE AIR SETPOINT SHALL MODULATE TO A MAXIMUM OF 9000 CFM TO MAINTAIN +0.05" (ADJ.) SPACE
PRESSURE.
11. MODU�ATE TNE COOLING COIL VALVE, HEATING C01� VA�VE, AND FACE AND BYPASS DAMPERS IN SEQUENCE TO MAINTAIN DISCHARGE AIR
SETPOINT. IN THE COO�ING MODE, THE FACE AND BYPASS DAMPERS SHA�� BE FU�LY OPEN TO THE C01� AND THE COOLING COIL VALVE SHAL�
MODU�ATE.
12. IF THE OUTSIDE AIR TEMPERATURE IS BE�OW 40 DEG. F. THE HEATWG COIL VALVE SHAL� BE COMMANDED TO 50% OPEN AND THE FACE
AND BYPASS DAMPERS SHALL MODULATE TO MAINTAIN DISCHARGE AIR SETPOINT. IF THE FACE AND BYPASS DAMPERS HAVE BEEN FUL�Y
OPEN TO THE C01� FOR 10 MINUTES AND DISCHARGE TEMPERATURE IS BE�OW SETPOINT MODU�ATE TNE HEATWG COIL VALVE TO MAINTAIN
SETPOINT, VA�VE SHALL NOT MODU�ATE �OWER THAN 50%. IF THE VALVE HAS BEEN AT 50% FOR 5 MINUTES THE BYPASS DAMPERS SHA�L
MODU�ATE TO MAINTAIN DISCHARGE TEMPERATURE SETPOINT. ALL PARAMETERS SHALL BE ADJUSTABLE FROM THE WORKSTATION.
13. �OW LIMIT TNERMOSTAT SHALL SHUT DOWN TNE AHU SYSTEM THROUGH A NARDWIRED INTER�OCK SHOU�D ANY 1' �ENGTH OF THE
ELEMENT FA�� BE�OW THE THERMOSTAT SETPOINT (38 DEG. F.). THE DDC CONTRO�LER SHAL� MONITOR THE STATUS OF TNE �OW LIMIT
THERMOSTAT AND UPON ACTIVATION, C�OSE THE OUTSIDE AIR DAMPERS, OPEN THE RETURN AIR DAMPERS AND OPEN THE REHEAT VALVE.
WHEN THE TEMPERATURE RISES BY 12 DEG. F., THE LOW �IMIT THERMOSTAT SHA�� RESET AND THE DDC CONTRO�LER SHAL� INITIATE A
NORMAL START-UP SEQUENCE. THIS WI�� BE ALLOWED TO OCCUR TNREE TIMES BEFORE THE UNIT OPERATION IS LOCKED OUT REQUIRING AN
OPERATOR RESET. AN A�ARM AT THE WORKSTATION SHAL� THEN BE ANNUNCIATED.
14. A HIGH STATIC PRESSURE �IMIT SWITCH SHAL� STOP TNE FANS THROUGH A HARDWIRED INTERLOCK WHEN THE DISCHARGE PRESSURE
EXCEEDS 5.0" W.C. THE DDC CONTROLLER SHA�� WITIATE AN A�ARM UPON ACTIVATION. THE UNIT WIL� BE LOCKED OUT REQUIRING AN
OPERATOR RESET.
15. SMOKE DETECTORS IN THE SUPPLY AND RETURN DUCTS SHALL STOP THE FANS THROUGH A HARDWIRED INTERLOCK WHEN SMOKE IS
DETECTED BY EITHER DETECTOR. THE DDC CONTRO�LER SHAL� INITIATE AN ALARM UPON ACTIVATION.
16. THE BAS SHALL MONITOR THE DAMPER POSITION OF A�� VV TERMINA� UNITS SERVED BY AN INDIVIDUAL AIR HANDLWG UNIT. IF A�L BUT 5%
OF THE VAV'S HAVE A DAMPER POSITION THAT IS LESS THAN 75%, THE DISCHARGE STATIC PRESSURE SETPOINT SHALL BE
AUTOMATICA��Y ADJUSTED DOWN BY 0.2° EVERY 10 MINUTES UNTIL A MINIMUM OF 1.0: (ADJ.) IS REACNED. IF MORE THAN 10% (ADJ.) OF THE
VAV'S HAVE A DAMPER POSITION GREATER THAT 95% OPEN, THE SETPOINT SHA�L BE WCREASED BY 0.2° EVERY 10 MINUTES UNTI� A
MAXIMUM OF 2.5" (ADJ.) IS REACHED. IF THE DISCHARGE STATIC SETPOWT REMAINS AT MAXIMUM FOR 240 MINUTES (ADJ.) AN ALARM SHA�L BE
INITIATED.
17. THE BAS SHALL MONITOR THE COO�ING OUTPUT PERCENTAGE OF A�L VAV TERMINALS SERVED BY AN INDIVIDUAL AIR HANDLING UNIT. TNE ANU
DISCHARGE AIR TEMPERATURE RESET SHA�� BE BASED ON THE TOTAL NUMBER OF ASSOCIATED VAV'S CALLING FOR COO�ING. A VAV WITH A
COOLING OUTPUT PERCENTAGE ABOVE 80% SHALL BE CONSIDERED A VAV CALLING FOR COOLING. WHEN THE TOTAL NUMBER OF VAV'S
CA��ING FOR COOLING IS GREATER THAN 15% THE DISCHARGE SETPOINT SHAL� BE RESET DOWN 1.0 DEG. F. EVERY TEN MINUTES UNTI� THE
NUMBER OF VAV'S CA��WG FOR COOLING IS LESS THAN 15% OR THE MINIMUM RESET TEMPERATURE OF 55 DEG. F. IS ACHIEVED. IF THE NUMBER
OF VAV'S CALLING FOR COO�ING IS BE�OW 5% THE DISCHARGE SET POINT SNA�L BE RESET UPWARD BY 1.0 DEG. F. EVERY TEN MINUTES UNTIL
THE MAXIMUM TEMPERATURE IS ACHIEVED. IF THE TOTAL NUMBER OF VAV'S CAL�ING FOR COOLWG IS BETWEEN 5% AND 15% THE SETPOINT
SHALL REMAIN CONSTANT UNTI� THE NUMBER OF VAV'S CAL�ING FOR COOLING EXCEEDS ONE OF THE TWO �IMITS. TNE UPPER VA�UE OF THE
RESET SCNEDU�E SHA�� BE RESET BASED ON THE OUTSIDE AIR TEMPERATURE. WHEN TNE OUTSIDE AIR TEMPERATURE IS AT OR ABOVE 70
DEG. F. THE MAXIMUM DISCNARGE AIR TEMPERATURE SHALL BE 62 DEG. F. WHEN THE OUTSIDE AIR TEMPERATURE IS AT OR BE�OW 30 DEG. F.,
THE MAXIMUM DISCHARGE AIR TEMPERATURE SHA�� BE 70 DEG. F. THE MAXIMUM DISCHARGE AIR SETPOINT SHA�L VARY BETWEEN 62 DEG. F.
AND 70 DEG. F. AS TNE OUTSIDE AIR TEMPERATURE VARIES BETWEEN 30 DEG. F. AND 7Q DEG. F. TNE MAXIMUM DISCHARGE AIR TEMPERATURE
SETPOINT SHALL BE LINEAR BETWEEN THESE VALUES. IF DEHUMIDIFICATION IS INITIATED, THE RESET SHALL BE DISABLED AND THE DISCHARGE
TEMPERATURE SETPOINT SHAL� BE 55 DEG. F. ALL PARAMETERS SHA�L BE ADJUSTAB�E FROM THE WORKSTATION.
18. DIFFERENTIAL PRESSURE TRANSDUCER SHA�� BE INSTA�LED ACROSS THE FI�TER BANK TO MONITOR FI�TER PRESSURE DROP. AN A�ARM
SHALL BE GENERATED IF EITHER A HIGH OR LOW LIMIT SETPOINT IS EXCEEDED WHEN THE FAN IS OPERATING. SETPOINTS SHAL� BE
DETERMINED BY THE TESTING RND BALANCING CONTRACTOR.
19. WHEN THE BAS INDEXES TNE AHU CONTRO�LER TO THE UNOCCUPIED MODE, THE DDC CONTRO��ER SHALL SHUT DOWN THE FANS, CLOSE THE
OUTSIDE AIR DAMPERS, OPEN THE RETURN AIR DAMPERS, CLOSE THE COO�ING COIL VALVE AND CLOSE THE HEATING COIL VALVE. WHEN THE
OUTSIDE AIR TEMPERATURE IS BELOW 35 DEG. F., MODU�ATE THE HEATING C01� VA�VE TO MAWTAIN A 75 DEG. F. (ADJ.) CABINET
TEMPERATURE. THE AIR HANDLING UNIT SHALL BE CYC�ED ALONG WITH THE ASSOCIATED VAV TERMINAL UNITS TO MAINTAIN SPACE
TEMPERATURE OF 60 DEG. F. (ADJ.}, THE OUTSIDE AIR DAMPERS SHA�L REMAIN C�OSED AND THE NEATING COIL VA�VE SHALL MODULATE TO
MAINTAIN DISCHARGE AIR SETPOINT OF 80 DEG. F. (ADJ.).
20. IF THE SPACE HUMIDITY EXCEEDS THE SETPOINT OF 60% RH (ADJ.) THE BAS SHAL� INDEX THE VAV TERMINA�S TO THE OCCUPIED MODE AND
SIGNAL THE AHU TO START (IF UNOCCUPIED) AND INITIATE A DEHUMIDIFICATION SEQUENCE. THE CHIL�ED WATER VA�VE SHA�L MODU�ATE TO
MAINTAIN THE DISCHARGE AIR SETPOINT OF 55 DEG. F. (ADJ.}. WNEN THE HUMIDITY FAL�S BE�OW 50% (ADJ.} TNE UNIT WIL� BE RELEASED TO ITS
NORMAL OPERATION.
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1. PROVIDE TEMPERATURE SENSORS IN THE FREEZERS {QTY. 2) AND TNE COO�ER FOR MONITORWG AND A�ARM PURPOSES.
SETPOINTS SHALL BE DETERMINED BY TNE OWNER.
BLOWER COIL UNIT (BCU-1)
1. THE BLOWER COIL UNIT SHALL HAVE ITS OWN DEDICATED DDC CONTROLLER THAT WILL OPERATE IN A STANDALONE MODE
SHOULD COMMUNICATION WITH THE BAS BE LOST. THE CONTROL�ER SHA�L UTI�IZE BACNET PROTOCOL FOR
COMMUNICATION TO THE BAS.
2. THE DDC CONTROL PANE� SHAL� BE FURNISHED WITH AN OVERRIDE FUNCTION ON THE �CD TO MANUA��Y ENABLE TNE AIR
HAND�ING UNIT.
3. THE BAS SHA�� ENAB�E THE B�OWER C01� UNIT WHEN THE OUTSIDE AIR TEMPERATURE IS 38 DEG. F(ADJ.) OR BELOW. THE
SUPP�Y FAN SHA�� START AND RUN UNIT THE OUTSIDE AIR TEMPERATURE IS ABOVE 38 DEG. F. (ADJ.).
4. SUPP�Y FAN STATUS SHA�L BE MONITORED BY A CURRENT RELAY. SHOU�D FAN STATUS NOT BE CONFIRMED WITHIN 2
MINUTES AFTER A CQMMAND TO START, INITIATE AN ALARM.
5. ONCE SUPPLY FAN OPERATION IS CONFIRMED, MODULATE THE HEATING C01� VA�VE TO MAINTAIN DISCHARGE TEMPERATURE
SETPOINT OF 70 DEG. (ADJ.).
6. A DIFFERENTIA� PRESSURE TRANSDUCER SHALL BE INSTAL�ED ACROSS THE FILTER BANK TO MONITOR FILTER PRESSURE
DROP. AN ALARM SHA�� BE GENERATED IF EITHER A HIGH OR �OW LIMIT SETPOINT IS EXCEEDED WHEN THE FAN IS
OPERATING. SETPOINTS SHALL BE DETERMINED BY THE TESTING AND BALANCWG CONTRACTOR.
VARIAB�E AIR VO�UME TERMINA� UNITS
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2.
3.
4.
5.
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7
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THE VAV TERMINA� UNITS SNA�� EACH BE CONTROLLED BY R DEDICATED APPLICATION SPECIFIC VAV CONTROL�ER, WHICH
INCORPORATES THE BACNET PROTOCO� FOR COMMUNICATION TO THE BAS. THE VAV CONTROL�ER WITH DIFFERENTIAL
PRESSURE SENSOR AND DAMPER MOTOR SNALL BE FURNISHED TO THE TERMINAL UNIT MANUFACTURER FOR FACTORY
MOUNTING. ANY RE�AYS THAT ARE REQUIRED SHA�L BE FURNISHED AND INSTA�LED BY THE T.C.C.
INDIVIDUAL ZONE SETPOINT AND CONTROL LOGIC SHALL RESIDE AT THE ZONE LEVEL, AND NOT BE DEPENDENT UPON THE
BAS FOR CONTRO�. ZONE TEMPERATURE SENSOR SHAL� INC�UDE A TIMED OVERRIDE BUTTON, A CANCE� BUTTON,
SETPOINT ADJUSTMENT, AND LCD DISPLAY. WHEN THE OVERRIDE BUTTON IS PRESSED, THE TERMINAL UNIT AND
ASSOCIATED AHU AND HYDRONIC SYSTEMS SHA�� BE INDEX TO OCCUPIED MODE FOR AN ADJUSTABLE TIME PERIOD. IF TNE
CANCEL BUTTON IS PUSHED BEFORE THE TIMED OVERRIDE PERIOD HAS EXPIRED, THE SYSTEM SHA�L REVERT BACK TO
THE UNOCCUPIED MODE. ROOM SETPOINT SHAL� BE LIMITED IN SOFTWARE.
THE DDC VAV CONTRO��ER SHALL AUTOMATICA��Y RECALIBRATE ITS AIR FLOW SENSWG AND AIR VA�VE POSITION
FEEDBACK SYSTEMS ON A SCHEDU�ED WEEK�Y BASIS.
THE BAS SHA�L PLACE THE VAV CONTROL�ER W EITHER THE OCCUPIED OR UNOCCUPIED MODE BASED ON OPTIMUM
START-STOP PROGRAM OR TIME-SCHEDULING PROGRAM. EACH VAV CONTROLLER SHA�� REQUIRE A DEDICATED TIME
SCHEDU�E. THE OPERATOR SHALL BE ABLE TO GROUP VAV CONTROLLERS WITH SIMI�AR SCHEDU�ES.
IN THE OCCUPIED MODE, AS SPACE TEMPERATURE RISES ABOVE THE COOLWG SETPOINT OF 75 DEG. F. (ADJ.), THE AIR
DAMPER SHALL MODU�ATE TO ITS MAXIMUM CFM. IF THE AIR DAMPER REMAINS OPEN GREATER TNAN 95% FOR 240 MINUTES
(ADJ.} AN A�ARM SHALL BE INITIATED. AS THE SPACE TEMPERATURE FALLS BELOW THE COO�ING SETPOINT, THE AIR
DAMPER SHA�� MODU�ATE TO ITS MINIMUM COO�ING CFM. BEFORE HEATING IS INITIATED, THE VAV CONTRO�LER ENTERS
AN ADJUSTABLE NO-LOAD DEADBAND. AS THE SPACE TEMPERATURE CONTINUES TO FA�L, THE HOT WATER HEATING VALVE
SHALL MODULATE TO MAINTAIN HEATING SETPOINT OF 70 DEG. F. (ADJ.) AND THE AIR DAMPER SHAL� MODULATE TO ITS
MINIMUM HEATING CFM.
IN THE DEHUMIDIFICATION MODE THE MINIMUM CFM SHA�L BE AUTOMATICALLY INDEXED TO THE SCHEDU�ED MINIMUM CFM
OR 50% OF SCHEDU�ED DESIGN AIRF�OW, WHICHEVER IS GREATER. THE TERMINAL UNIT SHA�L MAWTAIN THE COO�ING
SETPOINT.
IN OCCUPIED MODE THE OCCUPANCY SENSOR {SPECIFIED IN DIVISION 26) SHALL SEND AN OCCUPIED / UNOCCUPIED SIGNAL
TO THE BAS. UPON RECEIVING AN UNOCCUPIED SIGNA� FROM TNE OCCUPANCY SENSOR, THE ASSOCIATED VAV
CONTROLLER SHAL� OVERRIDE ITS CURRENT SCHEDULE AND BE PLACED IN A BYPASS MODE. UPON RECEIVING AN
OCCUPIED SIGNAL FROM THE OCCUPANCY SENSOR, THE ASSOCIATED VAV CONTROL�ER SHA�L REVERT BACK TO ITS
PROGRAMMED SCHEDU�E. IN BYPASS MODE, THE VAV TERMINAL UNIT SHALL OPERATE PER THE OCCUPIED SEQUENCE
WITH THE FO��OWING EXCEPTIONS: COO�ING SETPOINT SHAL� BE 3 DEG. F. (ADJ.) ABOVE THE OCCUPIED COOLING
SETPOINT, HEATING SETPOINT SHALL BE 3 DEG. F. (ADJ.) BELOW THE OCCUPIED HEATWG SETPOINT, AND THE MINIMUM
COOLING AIR DAMPER POSITION SHALL BE 0% (ADJ.). TNE SEQUENCE SHAL� BE INDIVIDUALLY SELECTABLE (SEQUENCE MAY
BE TURNED ON OR OFF) ON A ROOM BY ROOM BASIS.
PROVIDE SPACE CO2 SENSORS AS SHOWN ON THE PLANS. THE CO2 IN THE SPRCE SHAL� BE MONITORED, AND TNE
MINIMUM CFM MODULATES TO MAINTAIN A SETPOINT OF 1,000 PPM (ADJ.). REFER TO TERMINA� REHEAT UNIT SCHEDULE
FOR MINIMUM AND MAXIMUM CFM �IMITS.
IN THE UNOCCUPIED MODE, PRIMARY AIR DAMPER SHALL FUL�Y C�OSE. AS THE SPACE TEMPERATURE FA�LS TO THE
UNOCCUPIED HEATING SETPOINT OF 60 DEG F. (ADJ.), THE AIR HANDLING UNIT SHAL� START. THE VAV TERMINAL PRIMARY
AIR DAMPER SHALL OPEN TO ITS MINIMUM HEATING CFM AND THE NEATING C01� VA�VE SHALL MODULATE TO MAINTAIN
SPACE TEMPERATURE UNOCCUPIED SETPOINT.
EXHAUSTFANS
1. CONTROL STRATEGIES FOR EACN EXHAUST FAN ARE DESIGNATED ON THE EXHAUST FAN SCHEDULE. EXHAUST FANS NOT
SHOWN TO HAVE BAS CONTROL SHALL BE WIRED AND CONTROLLED BY THE DIVISION 26 CONTRACTOR.
2. WHERE SHOWN ON THE SCHEDULE, THE BAS SHA�� CYC�E THE EXHAUST FANS BASED ON THE TIME-SCHEDULING PROGRAM
ASSOCIATED WITH TNE ZONE SERVED. FAN STATUS SHALL BE MONITORED BY A CURRENT RELAY. SHOULD FAN STATUS NOT
BE CONFIRMED WITHW 2 MINUTES AFTER A COMMAND TO START, INITIATE AN A�ARM.
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1. A WALL MOUNTED THERMOSTAT SHALL CYCLE THE FAN AND THE TWO-POSITION VALVE TO MAINTAIN SPACE TEMPERATURE
AT SETPOINT OF 68 DEG. F.
OPTIMAL STRRT
4.
WHEN THE AHU RND VAV CONTRO�LERS ARE IN THE UNOCCUPIED MODE THE BAS SHAL� USE TNE OUTSIDE AIR
TEMPERATURE, THE AVERAGE OCCUPIED SPACE TEMPERATURE SETPOINTS AND HISTORICAL WARM UP AND COOL DOWN
DATA TRACKED BY THE BAS TO ESTIMATE THE TIME TO WARM OR C00� THE ZONE FROM THE UNOCCUPIED SPACE
TEMPERATURE SETPOINT TO TNE OCCUPIED SPACE TEMPERATURE SETPOINT.
THE BAS SNALL INDEX THE AHU CONTROLLER, TNE ASSOCIATED VAV CONTROLLERS AND THE HYDRONIC
SYSTEMS TO EITHER A WARM UP OR COOLED DOWN MODE BASED ON THE ESTIMATE TIME.
IN THE WARM UP MODE EACH VAV AIR DAMPER SHALL MODULATE TO ITS MINIMUM HEATING CFM AND
EACH VAV HOT WATER VALVE SNA�� OPEN TO 100% (ADJ.) UNTIL OCCUPIED SPACE TEMPERATURE SETPOINT IS MET FOR THE
SPACE SERVED BY THE VAV TERMINAL UNIT. THE AIR HANDLING UNIT SUPPLY FAN VFD'S SHAL� START AND S�OW�Y RAMP UP
TO MAINTAIN THE DISCHARGE STATIC PRESSURE SETPOINT OF 2.0° (ADJ.). THE RETURN AIR DAMPERS SHALL BE 100% OPEN
AND THE OUTSIDE DAMPERS SHA�� REMAIN CLOSED. MODU�ATE THE HEATWG COIL VALVE TO MAINTAIN DISCHARGE AIR
SETPOINT OF 80 DEGREES F. (ADJ.). THE HOT WATER SYSTEM SHA�L BE ENAB�ED; HOT WATER TEMPERATURE SETPOINT
SHA�� BE 180 DEGREES F. (ADJ.). IF 50% (ADJ.) OF THE VAV TERMINAL UNIT SPACE OCCUPIED MODE SETPOINTS ARE MET
PRIOR TO THE OCCUPIED MODE, TNE HOT WATER SYSTEM SHA�L REVERSE TO ITS OCCUPIED SEQUENCE AND THE AIR
HANDLING UNIT DISCHARGE AIR SETPOINT SHA�L RESET TO 65 DEGREES F(ADJ.} UNTIL THE SCHEDULED OCCUPANCY MODE.
EACH VAV UNIT SHALL REVERT TO ITS OCCUPIED SEQUENCE WHEN THE SPACE IT SERVES REACHES IT OCCUPIED
TEMPERATURE SETPOINT.
W THE C00� DOWN MODE EACH VAV AIR DAMPER SHA�L MODULATE TO ITS MAXIMUM CFM AND EACH VAV HOT WATER VALVE
SHA�� CLOSE UNTIL OCCUPIED SPACE TEMPERATURE SETPOINT IS MET FOR THE SPACE SERVED BY THE VAV TERMINAL UNIT.
THE AIR HAND�ING UNIT SUPP�Y FAN VFD'S SHA�� START AND S�OW�Y RAMP UP TO MAINTAIN THE DISCHARGE STATIC
PRESSURE SETPOINT OF 2.0" (ADJ.). THE RETURN AIR DAMPERS SHA�L BE 100% OPEN AND THE OUTSIDE AIR DAMPERS SHALL
REMAIN C�OSED. MODULATE THE COO�ING C01� VA�VE TO MAINTAIN DISCHARGE AIR SETPOINT OF 55 DEGREES F. (ADJ.}.
THE CHI��ED WATER SYSTEM SHALL BE ENABLED; CHILLED WATER TEMPERATURE SETPOINT SHAL� BE 44 DEGREES F. (ADJ.).
IF 75% (ADJ.) OF THE VAV TERMINAL UNIT SPACE OCCUPIED MODE SETPOINTS ARE MET PRIOR TO THE OCCUPIED MODE THE
CHI�LED WATER SYSTEM, THE AIR HAND�ING UNIT AND ASSOCIATED VAV UNITS SHALL REVERT TO THEIR OCCUPIED
SEQUENCE WITH THE EXCEPTION THAT THE OUTSIDE AIR DAMPERS SHALL REMAIN CLOSED AND THE RETURN AIR DAMPERS
SHAL� REMAIN 100% OPEN UNTIL THE SCHEDULED OCCUPIED MODE.
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SCOPE DRAWINGS:
These drawings indicate the generai scope of the project
in terms of architectural design concept, the dimensions of
the building, the major architectuml elements and the type
of structuml, mechonicoi cnd a�actricci systema.
The dmwings do not necessarily indicate or describe ail
work required for full perfortnonce and comp�etion of the
roquirements of the Controc�
On the basis of the general scope indicated or described,
the trode contractors ahall fumiah ali items requlred for the
proper ex�utton and compietion of the work.
C' •l
ISSUE DATE DRAWN BY CHECKED BY
04/14/15 N.O. G.M
DRAWING TITLE:
SEQ� EN CE
OF OPERAT ON
DRAWING NUMBER
PROJECT NUMBER
120�1
� REMOVABLE CAP
HOT WATER / CNILLED NOT WATER / CHILLED WATER RETURN
WATER SUPPLY AUTOMATIC FLOW CONTROL VALVE
HOT WATER SUPP�Y
SEE NOTE 1
HOT WATER RETURN
2-WAY CONTRO� VALVE � SHUTOFF VALVE, SEE SPEC ❑1 REMOVABLE CAP PIPE FULL SIZE OF
SEE NOTE 1 FOR TYPE (TYP) AIR HANDLING UNIT
DRAIN CONNECTION
MANUAL AIR VENT (TYP)
REDUCER AUTOMATIC F�OW
(TYP.) CC?NTRO� VALVE MANUAL AIR
� UNION (TYP) VENT PROVIDE FLANGE q. F�OW 2
SHUTOFF VALVE, SEE � ❑
SPEC FOR TYPE (TYP.) M OR UNION AT
EACH CONNECTION .�_
STRAINER WITH BLOWDOWN ( � I M (TYP)
STRAINER WITH BLOWDOWN i
VA�VE, NIPPLE, & CAP ( � i /, PROVIDE FLANGE OR VAVLE, NIPPLE, AND CAP. ---"'� BOTTOM OF UNIT
UNION AT EACH � BASE RAIL
� / CONNECTION (TYP) ( � � �i � 3
( \�/ �� //
UNION UF FLANGE (TYP) I AIR I
SEE "HYDRONIC PIPING" ( � � FLOW 3-WAY CONTROL VA�VE ( � AIR F�OW
SPEG FOR TYPE �,� COIL � � � ��
� PRESSURE AND TEMPERATURE � i COI�
(,� � //� TEST PLUG (TYP). (/ i I i 4" HOUSEKEEPING PAD
PRESSURE AND �� �,� � � ��
TEMPERATURE � � � i
TEST P�UGS NOTE:
(TYP) REDUCER � LOCATE TRAPS SO AS TO BE ACCESSIB�E FOR CLEANWG.
OFFSET (TYP)
PIPING TO NOTES: �2 DRAW-TNRU: SUBTRACT SGNEDU�ED E.S.P. FROM T.S.P. THEN ADD
CLEAR COIL 1. BRANCH PIPES SNA�L TAP THE BOTTOM OF THE MAINS. 1". BLOW-THRU: 1"
NOTES: PU�L SPACE
1. BRANCH PIPES SNA�L TAP THE BOTTOM OF THE MAINS. ❑3 DRAW-THRU: 1/2 OF NOTE 2 DIMENSION BUT NOT �ESS THAN 2"
B�OW-THRU: SGHEDULED E.S.P. THEN ADD 1".
�4 ROUTE TO NEAREST SANITARY (F�QOR) DRAIN.
SLOPE AT 1i4" PER FOOT.
HEATING / COOLING COIL, AHl1-1 HEATING COI� 3-WAY CONTROL VA�VE DETAIL
1 2-WAY CONTROL VALVE DETAIL 2 Scale: NTS 3 CONDENSATE DRAIN TRAP DETAIL
Scale: NTS Scale: NTS
SUPPORT FROM TOP ---
CHORD OF JOISTS DISCHARGE PIPE
MANUA� � BUTTERFLY VALVE, (TYP)
AIR VENT AUTQMATIC FLOW CONTRO� W/ 3/8" QS STEE� RODS
� VALVE � �
STRAINER WITH BLOWDOWN CA�IBRATING BA�ANCING VALVE
VALVE, NIPPLE, AND CAP. 2-WAY CONTROL
2-WAY VALVE SUCTION PIPE WAFER CHECK VA�VE
CONTROL VA�VE
PRESSURE AND TEMPERATURE �1� UNION FLEXIBLE GONNECTION PRESSURE GAGE W/
TEST PLUGS (TYP.) � SHUT OFF VALVE, SEE (TYP). REFER TO TRUMPET VA�VE
SPEC FOR TYPE (TYP.) MANUAL AIR VENT CABINET HEATER ACTIV�EILENGOTN R QUIRED / BALL VALVE, (TYP)
UNION FOR SYSTEM PIPE SIZE.
(TYP.) � M SNUTOFF VALVE, SEE CONCENTRIC
SPEC FOR TYPE (TYP.} REDUCER (WHERE
/�� � - —III—� -�- — —►— NWR � REQUIRED) ADJUST, GROUTAND
ADJUSTABLE C—� I HWS —� A�IGN PUMP PER
DISCHARGE ���� ��� D FFUSOER MFR'S RECOMMENDATIONS
�OUVERS
/� � r DRAI N VALVE WITH er �
3i4" HOSE END GEI�ING Gj� '� SNUTOFF VALVE 3/4° B�QWDOWN VALVE,
PRESSURE AND y NIPP�E, AND GAP
� i% TEMPERATURE STRAINER WITH BLOWDOWN PUMP SHA�L BE BO�TED
VA�VE, NIPP�E, AND CAP ADJUSTABLE �� DIREGTLY TO CONCRETE
TEST PLUG , ,
FOOT SUPPORT - - - . , . • ' -0 _ rroe - _ , _ a , . HOUSEKEEPING PAD.
+d _ . "`� g.a a � �a
AUTOMATIC FLOW F�OOR
CONTRO� VA�VE 4" HOUSEKEEPING PAD
4 IJNIT HEATER DETAIL
Scale: NTS
5 HORIZONTAL RECESSED CABINET 11NIT HEATER DETAIL 6 BASE MOUNTED END SUCTION PUMP DETAIL
Scale: NTS Scale: NTS
CHASE PIPES IN WA�L
OFFSET TO AVOID LINTEL
„ , ��
(�, ��, � � WALL-SEE HIGH PRESSURE VO�UME DAMPER
��� ����� ARCHITECTURAL DRAWINGS
AIR DUCT-SEE (TYPICA�)
, ��'y�
PLAN FOR SIZE
LINTEL �� ,�' �� OVER�AP AL� LOW
��� ���� FOUR SIDES AIR VALVE HOT WATER COIL
, PRESSURE
��; � � � AIR DUCT
�� � BLOCK COURSE �INE TRANSITION TO DIFFU�ER-
AS REQUIRED SEE P�AN
��\ � 5P� FOR SIZE
� � PROVIDE SHUTOFF VALVES, STRAINER, 2-2AY CONTRO� VA�VEM,
AUTOMATIC F�OW CONTROL VALVE, UNIONS & TEST PLUGS LINED
DISCHARGE
�,� PLENUM
,
' �'� CABINET HEATER F�EXIB�E
\( DUGT
��l
%� UNION ���
�� CONTROL
�; � BOX REFER TO 2-WAY �
� Rq. CONTROL VALVE
F�OOR �%
DETAIL
�\\ ;� u
�� ����� ��� � MIN, 8��
�� ��
VERTICA� RECESSED CABINET UNIT HEATER DETAIL $ VAV AIR TERMINAL UNIT DETAIL
7 Scale: NTS
Scale: NTS
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SCOPE DRAWINGS:
Theae drawinga indicate the general acope of the project
in terms of archkecturai design concept, the dimensions of
the building, the maJor urchitectuml eiementa and the type
of atructuroi, mechonkol ond electrlcol systema
The dmwings do not neceasan°ty irdicate or deacn°be all
work required for fuli performance and completion of the
requirements of the Contract.
On the bas�s of the generol scope indicoted or described,
the trade conWctors sholl fumish ail itema required for tha
proper execution ond completion of the work.
REVISIONS:
ISSUE DATE DRAWN BY CHECKED BY
04/14/15 N.O. G.M
DRAWING TITLE:
f� EC� A� I CA�
DETAI�S
DRAWING NUMBER
PROJECT NUMBER
120�1
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SCOPE DRAWINGS:
Theae drawings indicate the general acope of tha project
in tertns of architecturai design concept, the dimensions of
the buitdiry, the major orch�tecturol etements cnd the type
of structurol, mechanical and electrical systems.
The drawings do not necessarily indicate or d�cribe all
work required for fuil perfortrwnce cnd compiet°wn of the
requirementa of the Contmct
On the boafa of the ge�erai scope indicoted or described,
the trade controctors sholl fumish oll items required for the
proper execution and compktion of the work.
REVISIONS:
ISSUE DATE DRAWN BY CHECKED BY
04/14/15 N.O. G.M
DRAWING TIT�E:
� ECN AN CA�
DETA �S
DRAWING NUMBER
PROJECT NUMBER
12071
AIR HANDLING �NIT SCNED��E
SUPP�Y FAN NOT WATER C01� CHI�LED WATER COIL FILTERS SOUND POWER DISCNARGE
MINIMUM STATIC MAX MAX MAX PD CAPACITY (MBH) MAX EAT �AT MAX PD MID-�IFE OCTAVE BAND {NZ) E�ECTRICA�
PLAN MANUFACTURER MODE� TYPE OA TOTA� PRESSURE MOTOR FINS NOTES
MARK WHEEL CAPACITY FACE EAT LAT WATER EWT FACE WATERFLOW EWT
(CFM) AIRFLOW TYPE QUANTITY DRIVE SIZE SPEED HP o 0 o ROWS PER (GPM) (°F� F�IJID ROWS FINS PER FOOT
(CFM) TSP ESP (RPM) (MBH) VEL ( F) ( F) F�OW (GPM) ( F) FOOT AIR WATER VEL AIR DESIGN APD
IN WC IN WC (IN) (FPM) IN WC FT TOTA� SENS (FPM) DB (°F} WB (°F) DB (°F) WB (°F) �N WC� WATER (FT) TYPE {IN WC 63 125 250 500 1000 2000 4000 8000
t � � � � � � � � � VOLTS PHASE
AHU-1 TRANE PCC 35 DRAW-THRU VARIES 16,800 4.48 2.00 PLENUM 2 DIRECT 25 1800 2@10 1038 515 23 $0 52 1$0 2 89 0.14 1.11 9$1 631 501 85.2 70 51.2 51.1 177 44 25% PROP $ 154 1.26 13.8 MERV 8 0.6 $0 83 $7 $4 82 79 78 74 460 3 (1) (2) (3)
NOTES:
(1) PROVIDE BACKDRAFT DAMPERS ON SUPPLY FAN IN�ET.
(2) PROVIDE WITH INVERTER-READY OR INVERTER-DUTY MQTOR FOR VARIAB�E SPEED OPERATION.
(3) PROVIDE VARIAB�E FREQUENCY DRIVE FOR EACH SUPP�Y FAN.
AIR TERMINA� IJNIT SCHEDU�E
PRIMARY AIRFLOW (CFM} HOT WATER HEATING COIL
DESIGN INLET MAX NC LEVEL @ MAX
PLAN STATIC DOWNSTREAM
MANUFACTURER MODE� TYPE SERVICE UNIT SIZE M� CFM NOTES
MARK MAX MAX PRESSURE (IN SP (IN WG) CAPACITY EAT LRT EWT FLOW MAX APD
COOLIN� ��N HEATING W�� ROWS WPd
(MBH) (F) (F) (F) (GPM) (FT WC) ��N WG)
DISCHARGE RADIATED
VAV-1 PRICE SDV5 SINGLE DUCT, PRESSURE INDEPENDENT AHU-1 24 x 16 3250 1185 /200 1600 1.5 0.3 64.0 55 91 180 1.5 2 0.61 0.38 27 31 (1)
VAV-2 PRICE SDV5 SINGLE DUCT, PRESSURE INDEPENDENT AHU-1 24 x 96 3250 1185 /200 1600 1.5 0.3 64.0 55 99 180 1.5 2 0.61 0.38 27 31 (1}
VAV-3 PRICE SDV5 SINGLE DUCT, PRESSURE INDEPENDENT AHU-1 24 x 16 3250 1185 /200 1600 1.5 0.3 64.0 55 91 180 1.5 2 0.61 0.38 27 31 (1)
VAV -4 PRICE SDV5 SINGLE DUCT, PRESSURE INDEPENDENT AHU-1 9 860 235 485 1.5 0.3 24.6 55 100 180 1.0 2 0.33 0.38 21 25 -
VAV-5 PRICE SDV5 SINGLE DUCT, PRESSURE INDEPENDENT AHU-1 9 860 235 485 1.5 0.3 24.6 55 100 180 1.0 2 0.33 0.38 21 25 -
VAV -6 PRICE SDV5 SINGLE DUCT, PRESSURE INDEPENDENT AHU-1 9 860 235 485 1.5 0.3 24.6 55 100 180 1.0 2 0.33 0.38 21 25 -
VAV-7 PRICE SDV5 SINGLE DUCT, PRESSURE INDEPENDENT AHU-1 9 820 340 715 1.5 0.3 35.9 55 100 180 2.0 2 1.01 �.35 21 24 -
VAV-8 PRICE SDV5 SINGLE DUCT, PRESSURE INDEPENDENT AHU-1 9 710 250 620 1.5 0.3 35.5 55 106 1$0 2.5 2 1.45 0.27 21 22 -
VAV -9 PRICE SDV5 SINGLE DUCT, PRESSURE INDEPENDENT AHU-1 9 7�0 170 170 1.5 0.3 8.6 55 101 180 1.0 1 0.19 0.15 23 25 -
VAV-10 PRICE SDV5 SINGLE DUCT, PRESSURE INDEPENDENT AHU-1 7 560 135 425 1.5 0.3 22.7 55 103 180 1.5 2 0.49 Q.35 25 25 -
VAV-11 PRICE SDV5 SINGLE DUCT, PRESSURE INDEPENDENT AHU-1 12 1275 305 40Q 1.5 0.3 25.0 55 111 180 1.0 2 Q.41 0.44 20 20 -
VAV-12 PRICE SDV5 SINGLE DUCT, PRESSURE INDEPENDENT AHU-1 10 900 285 355 1.5 0.3 13.8 55 89 180 1.5 1 0.37 0.20 22 22 -
VAV-13 PRICE SDV5 51NGLE DUCT, PRESSURE INDEPENDENT AHU-1 4 100 50 85 1.5 0.3 5.0 55 108 180 1.5 1 0.85 0.01 20 20 -
VAV-14 PRICE SDV5 51NGLE DUCT, PRESSURE INDEPENDENT AHU-1 5 250 65 140 1.5 0.3 7.1 55 101 180 1.0 1 0.45 0.0$ 28 24 -
VAV-15 PRICE SDV5 51NGLE DUCT, PRESSURE INDEPENDENT AHU-1 5 175 40 50 1.5 0.3 3.2 55 113 180 0.5 1 0.15 0.03 21 20 -
VAV-16 PRICE SDV5 SINGLE DUCT, PRESSURE INDEPENDENT AHU-1 5 185 40 90 1.5 0.3 5.0 55 105 180 1.0 1 0.45 0.04 22 20 -
VAV-17 PRICE SDV5 SINGLE DUCT, PRESSURE INDEPENDENT AHU-1 5 185 40 90 1.5 0.3 5.0 55 105 180 1.0. 1 0.45 0.04 22 20 -
VAV-18 PRICE SDV5 SINGLE DUCT, PRESSURE INDEPENDENT AHU-1 5 185 40 90 1.5 0.3 5A 55 105 180 1.0 1 0.45 0.04 22 20 -
VAV-19 PRICE SDV5 SINGLE DUCT, PRESSURE INDEPENDENT AHU-1 6 350 60 145 1.5 0.3 7.3 55 100 180 1.0 1 0.45 0.14 23 21 -
VAV-20 PRICE SDV5 SINGLE DUCT, PRESSURE INDEPENDENT AHU-1 9 740 170 175 1.5 0.3 8.8 55 100 180 1.0 1 0.19 0.14 23 24 -
VAV-21 PRICE SDV5 SINGLE DUCT, PRESSURE INDEPENDENT AHU-1 6 300 60 90 1.5 0.3 5.0 55 105 180 1.0 1 0.45 0.09 20 20 -
VAV-22 PRICE SDV5 SINGLE DUCT, PRESSURE INDEPENDENT AHU-1 6 300 60 90 1.5 0.3 5A 55 105 180 1.0 1 0.45 0.09 20 20 -
VAV-23 PRICE SDV5 SINGLE DUCT, PRESSURE INDEPENDENT AHU-1 12 1300 305 700 1.5 0.3 39.2 55 105 180 1.5 2 0.78 0.52 20 20 -
VAV-24 PRICE SDV5 SINGLE DUCT, PRESSURE INDEPENDENT AHU-1 12 1200 305 700 1.5 0.3 43.0 55 110 180 2A 2 1.24 0.46 20 20 -
NOTES:
(1) MINIMUM AIR CFM CONTROLLED BY CARBON DIOXIDE SENSOR MINIMUM
AND MAXIMUM LIMITS AS INDICATED. REFER TO SEQl1ENCE OF OPERATION.
BOI�ER SCHEDU�E
CAPACITY (MBH) WATER TEMP gURNER
DESIGN MAX MIN (F}
PLAN WATER WATER WATER NATURAL GAS E�ECTRICAL DATA
MARK MANUFACTURER MODEL TYPE �OCATION SERVICE MIN DESIGN F�OW PD F�OW NOTES
GROSS INPUT OU PUT EFF (% AT (GPM} (FT) (GPM) SUPP�Y PRESS RANGE
FULL FIRE) GFH (IN WC}
VO�TS PHSE
B-1 AERCO BMK 2500 HOT WATER, CONDENSWG MECHANICA� ROOM HEATING HOT WATER 2500 2175 87 200 6.0 25 180 2500 7 460 3 (1)(2)
B-2 AERCO BMK 2500 HOT WATER, CONDENSING MECHANICA� ROOM HEATING HOT WATER 2500 2175 87 200 6.0 25 180 2500 7 460 3 (1)(2)
NOTES:
(1) PROVIDE WITH F�UE CONDENSATE DRAIN TRAP.
(2) PROVIDE WITH CONDESATE NEUTRALIZING KIT.
FAN SCFIEDIJLE
MAX FAN MOTOR ELECTRICA� DATA
PLAN �ANUFACTURER MODEL TYPE SERVICE DRIVE AIRFLOW ESP SPEED SPEED SONES HP BACKDRAFT NOTES
MARK (CFM) (IN WC) (RPM) {RPM) DAMPER SIZE (IN)
VOLTS PHASE
EF-1 GREENCHECK GB-141 CENTRIFUGAL EXHAUST FAN BELT 800 0.25 687 1725 4.8 4 115 1 16 x 16 (1)
EF-2 GREENCHECK G-065-G CENTRIFUGAL EXHAUST FAN DIRECT 125 0.13 1122 1300 2.1 60 115 1 8 x 8
EF-3 GREENCHECK G-065-� CENTRIFUGA� EXHAUST FAN DIRECT 125 Q.13 1122 1300 2.1 sp 115 1 8 x 8
NOTES:
(1) START / STOP BY BAS
PROPE�LER U�IT HEATER SCFIEDIJ�E
UNIT FAN HOT WATER C01� E�ECTRICA� DATA
PLAN MANUFACTURER MODEL TYPE ARRANGEMENT WATER MAX NOTES
MARK AIR FLOW MOTOR CAPACITY EAT F�OW E� WPD VOLTS PHASE
(CFM) HP (MBH) �°F) (�,PM) ��F� (FT)
UH-1 TRANE UHS6072 HOT WATER HORIZONTAL 1100 Zo 52 60 5.5 180 Q.25 115 1 -
NOTES:
BLOWER COIL UNIT SCHEDU�E
NEATING DATA ELECTRCIAL DATA NOTES
PLAN EXT SP TSP �p��
MARK �ANUFACTURER MODEL CFM (IN WC) (IN WC) CAP EAT LAT EWT LWT FLOW WPD AREA HP vo�rs PHasE
(MBH} (°F) (°F} (°F) (°F) (GPM) (FT) (SQ FT)
BCU-1 TRANE BCHD054 1500 0.50 0.69 65 30 70 180 160 3.0 0.16 3.9 2 460 3
NOTES:
�
AIR DEVICE SCHEDULE
MAX NOISE �AX CFM AT MIN THROW (FT)
P�FlN MARK MANUFACTURER MODE� TYPE LOCATION NECK SIZE FACE SIZE MATERIA� FINISH MAX TPD (IN WC) LEVEL (NC) LISTED AT 50 FPM NOTES
CONDITIONS
S-1 ANEMOSTAT EP� SQUARE CEILING 6 24 X 24 STEEL WHITE 0.05 20 160 7 (3)
S-2 ANEMOSTAT EP� SQUARE CEILING 8 24 X 24 STEEL WHITE 0.06 20 280 11 (3)
S-3 ANEMOSTAT EP� SQUARE CEILING 10 24 X 24 STEEL WHITE 0.07 22 435 14 (3)
S-4 ANEMOSTAT EP�-D SQUARE CEILING 12 24 X 24 STEEL WHITE 0.06 24 630 18 (3}(4)
S-5 ANEMOSTAT EP� SQUARE CEILING 5 24 X 24 STEEL WHITE 0.09 23 110 7 (3)
S-6 ANEMOSTAT S2H0 �OWERED FACE DUCT 16 x 8 18 x10 STEEL WHITE 0.02 20 500 40 (�)
R-1 ANEMOSTAT S3VD �OUVERED FACE CEILING 24 X 24 24 X 24 STEEL WHITE 0.1 30 1200 - (3)
R-2 ANEMOSTAT S3VD �OUVERED FACE CEI�ING 1 WALL 12 X 12 12 X 12 STEEL WHITE 0.1 30 350 - (3)
R-3 ANEMOSTAT S3VD �OUVERED FACE WA�� 14 X 6 14 X 6 STEEL (2) 0.1 30 185 - (3)
E-1 ANEMOSTAT S3VOD �OUVERED FACE CEILING 8 X 8 8 X 8 STEEL WHITE 0.1 30 125 - (1){3)
E-2 ANEMOSTAT S3VOD �OUVERED FACE CEILING 10 X 10 10 X 10 STEEL WHITE 0.1 30 225 - (1)(3)
E-3 ANEMOSTAT S3VOD �OUVERED FACE CEILING 12 X 12 12 X 12 STEEL WHITE 0.1 30 320 - (1)(3)
NOTES:
(1) PROVIDE WITH INTEGRAL BALANCING DAMPER.
(2) CUSTOM COLOR SELECTED BY ARCHITECT AT LATER DATE.
(3) COORDINATE BORDER FRAME WITH ARCHITECTURAL PLANS.
(4) 2-WAY AIR DISTRIBUTION
PU�P SCHEDULE
WATER MIN EFF �OTOR E�ECTRICA� DATA
P�AN MARK MANUFACTURER MODEL TYPE SERVICE FLOW HEAD (FT} �o�o� SPEED HP NOTES
(GPM) (RPM)
VO�TS PHASE
CWP-1 BEL� & GOSSETT e-1510-4AD BASE-MOUNTED. END SUCTION PRIMARY CHILLED WATER 480 30 82 1750 5 460 3 -
CWP-2 BEL� & GOSSETT e-1510-4AD BASE-MOUNTED. END SUCTION PRIMARY CHILLED WATER 480 30 82 1750 5 460 3 (5}
CWP-3 BEL� & GOSSETT e-1510-3GB BASE-MOUNTED. END SUCTION SECONDARY CHILLED WATER 240 108 65 1750 15 460 3 (1) (2} (3)
CWP-4 BELL & GOSSETT e-1510-3GB BASE-MOUNTED. END SUCTION SECONDARY CHILLED WATER 240 108 65 1750 15 460 3 (1 }(2) (3)
HWP-1 BEL� & GOSSETT e-1510-3EB BASE-MOUNTED. END SUCTION HOT WATER 200 100 63 1750 15 460 3 (1) (2} (4)
HWP-2 BEL� & GOSSETT e-1510-3EB BASE-MOUNTED. END SUCTION HOT WATER 200 100 63 1750 15 460 3 (1 }(2} (4)
NOTES:
(1) PROVIDE VARIAB�E FREQUENCY DRIVE
(2) PROVIDE WITH INVERTER-READY OR INVERTER-DUTY MOTOR FOR VARIAB�E SPEED OPERATION.
(3) PUMP CWP-3 AND CWP-4 OPERATE IN PARA��EL.
(4) PUMP HWP-1 AND HWP-2 OPERATE IN PARA��EL.
(5) STANDBY
CABINET IJNIT NEATER SCHEDULE
UNIT FAN HOT WATER COIL E�ECTRICA� DATA
PLAN MANUFACTURER MODEL TYPE ARRANGEMENT WATER NOTES
MARK AIR FLOW ESP CAPACITY EAT FI.OW EWT (°F7 MAX WPD (FT) VO�TS PHASE
(CFM) (IN WC) (MBH) i�F) (GPM)
CH-1 TRANE FFH8040 HOT WATER VERTICA� RECESSED 380 0 24 70 1.5 180 2.7 115 1 (1)
CH-2 TRANE FFE6040 HOT WATER HOftIZONTA� RECESSED 380 0 24 7� 1.5 180 2.7 115 1 (2)
CH-3 TRANE FFEB040 HOT WATER HORIZONTA� RECESSED 380 0 24 70 1.5 180 2.7 115 1 (2)
CH-4 TRANE FFH8040 HOT WATER VERTICAL RECESSED 380 0 24 70 1.5 180 2.7 115 1 (1)
CH-5 TRANE FFE6040 HOTWATER HORIZONTA� RECESSED 380 0 24 70 L5 180 2.7 115 1 (1}
NOTES:
(1) OUT�ET FRONT STAMPED LOUVER, INLET FRONT STAMPED LOUVER.
(2) OUT�ET BOTTOM STAMPED LOUVER, IN�ET BOTTOM STAMPED LOUVER.
RADIANT PANEL SCHEDULE
HOT WATER
PLAN NO.OF WIDTH LENGTH CAPACITY FLOW
MARK MANUFACTURER MODEL MEAN TEMP. BTUH/FOOT TUBES (INCHES) (FT) (BTU) (GPM) NOTES
EWT TD
��F) ��F)
RP-1 AIRTEX HEF-2 175 226 2 12 14 3164 0.5 180 10
RP-2 AIRTEX HEF-2 175 226 2 12 14 3164 0.5 1$0 1d
RP-3 AIRTEX HEF-2 175 226 2 12 14 3164 0.5 1$0 10
RP-4 AIRTEX HEF-2 175 226 2 12 14 3164 0.5 180 10
RP-5 AIRTEX HEF-2 175 226 2 12 14 3164 0.5 180 10
RP-6 AIRTEX HEF-2 175 226 2 12 14 3164 0.5 180 10
NOTES:
RE�IEF FIOOD SCHEDU�E
P�AN MARK MANUFACTURER MODE� TYPE AREA RATIO CFM THROAT SIZE S.P. IN WC NOTES
RH-1 GREENCHECK FABRANOOD RE�IEF 1 T01 5350 42 x 42 OA5 (� )
RH-2 GREENCHECK FABRAHOOD RELIEF 1 T01 5350 42x42 0.05 (�)
RN-3 GREENCHECK FABRANOOD RE�IEF 1 T01 5350 42 x 42 OA5 (� )
NOTES:
(1) PROVIDE BAROMETRIC RELIEF DAMPER SET TO OPEN AT 0.05 W.C. ROOM PRESSURE.
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SCOPE DRAWINGS:
These dmwings ind'Hwte the genem� scope of the proJect
wt
in terme of architectuml deaign concept, the dimenaiona of
the buiiding, the major architectuml elements and the typa
of atructural, mechanicai and e�ecGical systems.
The dmwings do not mcessarily indicate or describe all
work required for full performonce and comp�etion of the
requirements of the Contract.
On the basis of the general acope indicated or deacribed,
the trade contractors ahall fumish all itema required for the
proper execuUon ond compietron of the work.
REVISIONS:
ISSUE DATE DRAWN BY CHECKED BY
04/14/15 R.K. G.M.
DRAWING TIT�E:
M ECH A� CA�
SC�EDU�ES
DRAWING NUMBER
PROJECT NUMBER
120�1
4
4"-
�
�
�,
4"�
c�.>
��4"
, � �,.,�
-»Tr������eu�����r�v.�r�-i�y11!ly!l.�r��-»
CHILLED WATER TO
TERN9INAL UNITS TO REMAIN
4"
C�
4„
-IKUU(.�H �XI� I IN(.�
REMAIN
NDERGROUND PIPING
0 REMAIN
4"
'CWS -------
CWR -------
3„
-CWR
-CWS
AIR
HANDLING
UNIT
AHU-A1
TO REMAIN
: •
s
:
. , ,
CAP�
I------
4"
CAP
.�
.sE
rsE
� ' '• �
..
�ANDLING UNIT
,
3"
-CWR
-CWS
. .�
•�' • C �:�' !�' �
CHILLED WATER DEMOLITION SCHEMATIC
m
_
1 1 �2„
� DIFFERENTIAL
PRESSURE AIR HANDLING EXISITING
TRANSMITTER UNIT AHU-A1 BLOWER
� COIL UNIT
( p TO REMAIN
(70 GPM) BCU-A2
2„ � (19 GPM)
CAP FOR��� CWS � CWS OO O
FUTURE I 4"
E-D4--- ---------CWR---►-------�-----CWR----►---
4"
-�---- -�1------� -
r---- cws
4» � cwR
�`I
�� 4" _
5 �
U U
�4"
,.,.,,, � r,
m
EXISTING
CHILLED WATER TO
TERMINAL UNIT
�TING
)ERGROUND
'NG �4„
PIPING
�
�4"
- � CWR
�� 4>,
SHEET KEYED NOTES•
� PRIOR TO REMOVING PUMP, MEASURE FLOW,
SUBMIT RESULTS TO ENGINEER FOR REVIEW.
2� SET BALANCING VALVE FLOW RATE TO MATCH
REMOVED PUMP.
3� REBALANCE COOLING COIL TO INDICATED VALVES.
4„
1 1 �2,>
EXISITING
BLOWER
COIL UNIT
BCU-A3
(19 GPM)
O
1 1 /2"
EXISITING
BLOWER
COIL UNIT
BCU-A1
(20 GPM)
O
CHILLED WATER SCHEMATIC
Scale: NTS
Scale: NTS
CWR
CWS
4„
1 1 /2" � 1 �2„
EXISITING EXISITING
COIL UNIT BLOWER
BCU-A6 COIL UNIT
{20 GPM) BCU-A5
(19 GPM)
� �
4
REMOVE PIPING � PIPING THROUGH
TNROUGH EXISITNG i EXISITNG FLOOR
FLOOR � TO REMAIN REMOVE
� PUMP
AIR SEPERATOR
� 6" TO REMAIN PCWP-1
i
i ,--,
I6" r--L ^_ � --, 6»
� �-' _�
i
� MAKE UP 6" L--i :�- 6"
� 2„ WATER ��'
i TO REMAIN REMOVE
� PUMP
i PCWP-2
4" i
� �
i 6" 2„ � , � „
i
i
i EXPANSION EXPANSION
� GLYCOL TANK TO TANK TO
� MAKEUP REMAIN REMAIN
� SYSTEM
� TO REN9AIN
i 6"
i CWR
i
i CWS
� 6" 6"
� 6 �-1-�
�-----------PCWS-�------------,
; REMOVE ��-`'� ���'� REMOVE
� PUMP ��"; (�"; PUMP
� i SCWP-1 i ///'''���i��' SCWP-2
� T �6„� i 6,>
�4"
i
i
6" '
CNILLER CWR 6 6"
CN-1 TO
REMAIN CWS
3 >,
4"
EXISITING
AIR HANDLING � �
UNIT
AHU-2 XISTING PIPING TNROUGH
(70 GPM) EXISTING MEZZANINE FLOOR
0
CWR� 6"
CWS
cws 2"
6"
4"
�►
EXISTING PIPING
THROUGH EXISITNG
FLOOR
6" XISTING
AIR 6"T
SEPARATOR \
� EXISTING 6„
MAKE UP
�2" WATER
„ � 6„
rK 2"
EXISTIN EXISTINC
GLYCOL EXPANSION
MAKE UP TANK
SYSTEM
' CWS�—
6"
� v�
UU
S
6"
EXISTING CWR
CNILLER
CH-1 CWS
EXISTING
BLOWER
COIL UNIT
BCU-A4
(zo cP�)
0
�
�
U
1' 1"
XISTING
EXPANSIdN
TANK
,. „
CWR
6"
4"-�
PUMP
CWP-3
W/VFD
4"
�„
� 6„
6"
4"
PUMP
CWP-4
W/VFD
4"
_
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SCOPE DRAWINGS:
Theae drawings indicate the general scope of the project
in tertns of arcKdectural dpign concept, the dimensions of
the buiiding, the major arcbitectuml elements and the type
of structural, mechonicoi ond e�ectricol systems.
The dmwings do not necessarily indiccte or describe all
work required for full parformonce and compktion of the
requiroments of the Contract.
On the basis of the general scope tnd'�cated or described,
the trade contmctora ahall fumfah all ftama required for the
proper executron ond compietaon of the work.
REVISIONS:
ISSUE DATE DRAWN BY CHECKED BY
04/14/15 N.O. G. M
DRAWING TIT�E:
CH I ��ED
WATER
PP G
SC� E� ATI C
DRAWING NUMBER
PROJECT NUMBER
120�1
l
F
T
z /n"
W
W
2„
2"
1 1 /4"
HANDLING BLOWER
UNIT COIL UNIT
AHU-A1 BCU-A2 TO
TO REMAIN REMAIN
REMOVE HOT WATER HOT WATER TO TERMINAL
�PUMP O rr�UNITS TQ REMAIN
REMOVE HOT
WATER RETURN SENSOR 4���___��� ----�r4 � � 4"
� `-' t------
>, „ �----HWS---� i 4„
� � -- � �,�L ��� -----� I
--- =
r-----�----�----HWI�---------------------r-- -t---�--HWI�-----��"i 6» 6�9 i `� �_.�REMOVE HOT WATER j
I i� i i � O �
I '� I (� --�--�-HWR�- -r--HWf�-- �--�-----r------�- PUMP 1
--------------------�
„ � �
T �4 REMOVE��J i i � �
� `f� AIR SEPARATOR � 2" � i i REMOVE HOT CABINET HEATER CABINET HEATER
� 3" t 2" � i � � WATER RETURN
� � 6 � � � SENSOR CUH-A3 CUH-A2
i i -�W�� ��3 �;, 1 � TO REMAIN TO REMAIN
� 1» �» MAKE UP Y i
i T t WATER TO 1 � i
i i i REMAIN i ,
i � � �
i i � � „ �
+---- 1---- 1---- � � 4
r---- � r---- � r---- 1 I I �
i i i i I I i i
i I i i I I i i i
i i i i I I �------J i �/�/
i i
i i i i I I i i
� � � REMOVE � � REMOVE � � � HNr
i REMOVE i � i i i i �
i i i ELECTRIC i i ELECTRIC i i �
i BOILER i � g01LER � � BOILER � � �
i B-2 � i i i i EXPANSION � i 3��„
TANK TO
� � � � � � REMAIN � i
i i i i i i „
2 1 �2„
1 1 �4„
. � .
••
: � •
. ,
� 4 � -----------�� r, i NWR
i i i i i i 6„ �
i i i i i i �
�----- � -----� �------r-----� �------r-----�
i_6„ �3�� ;�-3" i i �----------- 4 NWS
�/ c� � � „
�
� � � i REMOVE NOT � CAP
i i i � i 4„
REMOVE �i\ i i i WATER RETURN � PIPING TNROUGH EXISITING
REMOVE �-r� REM�VE �T�l i SENSOR i FLOOR TO BE ABANDONED
PIPING THROUGH
PUMP � " � PUMP � `�' � PUMP � `�' -
i � jEXISTING WALL TO
PHWP-1 \��� PHWP-2 �'-�� PHWP-3 1�� REMOVE HOT i � REMAIN
i i � jWATER SUPPLY SENSOR � �
T T T � �
�-------HWS---►--- -L---------►--- ----�-------+----►-- -HW�--------T--------� � UNDERGROUND
� � � � � i ' UNDERGROUND
PIPING TO REMAIN
6" 6" 6" � REMOVE REMOVE � ' CAP PIPING TO
���� VFD�, PUMP i BE ABANDONED
i ���,--iSNWP _1 HWR --�--------
-t-> � �},..._._....._4,>
4 �--4,>� �_. ! ---- HWS -►-
- -----
, �„ „ „
4„ ��..--� -----� 4 4 CAP 4
REMOVE �_: � REMOVE
REMOVE UNDIERGROUND
VFD PUMP ' PIPING
SHWP-2 '
CONTROL VALV
BY BOILE''
MFG (TYPICAL
BALANCINi
VALVE-200 GPP
(TYPICAL
EXISITING
UNIT HEATER
PUH-A4
(3.2OGPM)
3
BALANCING VALVE
O
)9
- ----- -HWR-�I- ------------------
---� --------
� �4„ � �6>, MAKE IUP • 4„�
4" WATER TO 2» �
�
_
�
��s �� �„ I
�4" 4"
�
�
2" �
�
PUMP HWP-1 � N
W/VFD � _
EXISTING EXPANSIO 4„ �
TANK � 3/4
-� 6,> �
4" �
HWS HWS I
6" AIR 6 S �
SEPARATOR �
SENSOR 4 -� _
4" � � 4„
PUMP HWP-2 �
W/VFD (
� EXISTING
� UNDERGROUND�
I PIPING
4"
�
HWR-
SHEET KEYED NOTES•
0 PRIOR TO REMOVING PUMP, MEASURE FLOW, HWS-
SUBMIT RESULTS TO ENGINEER FOR REVIEW. 4
2� SET BALANCING VALVE FLOW RATE TO MATCH
REMOVED PUMP.
3� REBALANCE HEATING COIL TO INDICATED VALVES.
/4"
�
2"
2„ � � 1 1/4"
1 1 /2"
EXISITING EXISITING
AIR HANDLING BLOWER COIL
UNIT UNIT BCU-A2
AHU-A1 (25 GPM} (g GPM)
l�l O
ISITNG HOT WATER TO
RMINAL UNITS TO REMAIN
EXISTING EXISTING
CABINET CABINET
HEATER CUN-A3 HEATER CUH-A2
(2.5 GPPAIn (2.5 GPM) �
HWS
HWR
4�
REFER TO DRAWING NWR
M211 FOR PIPING
WITHIN NEW ADDITION NWS
EXISTING �
PIPING 4
THROUGH PIPING THROUGH
EXISTING WALL `FLOOR
4�� � �
_� N
�
_
4" PREINSULATED
PIPING BELOW
GRADE
2 1 /2"
2 1 /2"
1 1 /4"
4"
. � .
.•
. , �
.
: ►_►
�
''� 's'
3„
HW
—H W
3„
u 1 1,4» u �
BLQWER BLO
COIL UNIT C01
BCU-A6 TO g��
REMIAIN REN
. . .• e
, ��.
� ' �
1 1 /2"
HOT WATER PIPING DEMOLITION SCHEMATIC
1 1 /4"
EXISITNG
BLOWER COIL
UNIT BCU-A3
(9 GPM)
�
HWR
HWS
2 1 /2"
1 1 /4"
EXISITING
BLOWER
COIL UNIT
BCU-A1
(5 GPM)
�
3„
3 HW
-HW
ci�
NWR
NWS
2 1 /2" �-2„
-HWR�
� ��/4„ � �, � �/4,>
EXISITNG
EXISITNG BLOWER
BLOWER COIL COIL UNIT
UNIT BCU-A6 BCU-A5
(5 GPM) (9 GPM)
� O
PIPING THROUGH EXISTING
MEZZANINE FLOOR
1 1 /2"
. � , .. . .
� ��. 1 �P � . �
HOT WATER PIPING SCHEMATIC
Scale: NTS
n
W
2 1 /2" �-2"
2"
�
�
EXISITING
AIR HANDLING
UNIT
AHU-2
(25 GPM)
�
-HWR�
-HWc �
1 1 /2"
EXISTING
UNIT NEATER
PUH-A3
(3.2 GPM) 3�4„
�
1 1 /2 "�
WF
HW`
EXISTING 3/4"
CABINET HEATER
CUH-A5 (2.5 GPM) O
�--H W R
H W S�/ _
EXISTING 3/4"
CABINET HEATER
CUH-A1(2.5 GPM)
� -- �
EXISTING
UNIT HEATER � 1 /4"
PUH-A1 (3.2 GPM)
�
EXISTING
UNIT NEATER
PUH-AZ (8.7 GPM)
O
EXISITNG
CABINET HEATER
CUH-A4 (2.5 GPM} O
�-1 1 /2"
�� � �2„
EXISTING PIPING
THROUGN EXISITING
FLOOR
_
_ �'
��
0
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J Q �
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SCOPE DRAWINGS:
Theae dmwinga in�cate the generol acope of the proJect
in terma of arch�teeturai design cor�cept, the dimensiona of
the building, the maJor arch�tactural elements and the type
of structural, rt�echanical and electrical systems.
The dmwinga do not necesscrily indicote or describe ali
work required for full performance ond completwn of the
requirements of the Cmdmct.
On the basis of the generai scope in�cated or described,
tha trode contractora atwli furniah oll itama rcquired for the
proper execution arrcl completion of the work.
REVISIONS:
ISSUE DATE DRAWN BY CHECKED BY
04/14/15 N.d. G.M
DRAWING TIT�E:
H 0� WATER
PIPING
SCH EM A� C-
BASE B D
DRAWING NUMBER
PROJECT NUMBER
120�1
3/4„
UNIT HEATER
PUH-A4
TO REMAIN
�
2"
u 2�� u u 1 1/4��
1 1 /2"
AIR BLOWER
HANDLING COIL UNIT
UNIT BCU-A2 TO
AHU-A1 REMAIN
TO REMAIN
REMOVE HOT WATER NOT WATER TO TERMINAL
�PUMP O UNITS TO REMAIN
REMOVE HOT 4»
WATER RETURN SENSOR 4�� � �---- 4"
--
-r = �'
�_�
-H W �---� „
6„ 6„ ; --- � �---� ----2�4
--� » �---t- _
r-----�----�---HWI�r---------------------r- -�---i--NWI'r---- �., i 6,> 6,> � 4 �_.�REMOVE HOT WATER
i i� i i� � i �---PUMP 1O
i � i r� --�-�f-HW� -r--HW�- � -.1-----� -----�-
T �4" REMOVE ��_� i i
� AIR SEPARATOR i 2,> i � � REMOVE HOT
' 3„ i 2„ i i � t ' CABINET HEATER CABINET NEATER
� i � � WATER RETURN
� -Q�---HWI�-�------� 'J �--L---1 J 6 � � � SENSOR CUH-A3 CUH-A2
i � � � � 1 i TO REMAIN TO REMAIN
� � �� »� �� » REMOVE � �
i T r______T �, AND CAP 1 � �
� � i � �L �l MAKE UP � ,
� i i F---� �---� F---� WATER i � „ �
+---- 1---- 1---- � i � i I � � � 4
�---- -� �---- � �---- �i i� i i i � � �
� � � � � �� � � � � � � �
� � � � � � � � �
i I i i i II i i i I i �------J i
i i � � i � L--- � �-- � �---� I i HW�
i i i i i i i i
i i i i i i i � NWR
REMOVE � � REMOVE � � �
i REMOVE i � � i � � �
i i i ELECTRIC i i ELECTRIC i i i
� BOILER i � � i � EXPANSION i �
� i � BOILER � i BOILER i TANK � � 3I4�� CAP
B-2
i I i i i i r
i I i i i i � i I
i I � i �
2 1 /2"
1 1 /4"
. � .
.•
• , �,
.
� u_
i i i i ++ �
i i i i i i s„ � 4-�\ ,, ----------- �'�� ' HWR
i i i i i i � ti�
�-----T----J �------r----J L-----r----J
� /_6„ � ,-3» ! �3" i � HWS
� ----------- 4
�i�� i
��� b� � � � CAP
i i i � REMOVE HOT � 4„
REMOVE �i\ i t i WATER RETURN � PIPING THROUGH EXISITING
REMOVE �-r� REMOVE ��� � SENSOR � PIPING THROUGH
i FLOOR TO BE ABANDONED
PUMP � `0 � PUMP � `b � PUMP � `�' � -
i i jEXISTING WALL TO
PNWP-1 \`'-�� PHWP-2 Z�� PHWP-3 �''�� REMOVE HOT i i REMAIN
� � i jWATER SUPPLY SENSOR � �
T T T � � _
�-------HWS---►--- -L---------►--- ---�-------+----►-- -HW�--------r--------� � UNDERGROUND
� � � � � � UNDERGROUND
6" 6" 6" ��, REMOVE REMOVE i PIPING TQ REMAIN PIPING TO
CAP gE ABANDONED
� � VFD�� PUMP i
� ���.--�SHWP _1 L- HWR --�--------
-t-; � � ............._4„
4„� „ �_. ! -------- HWS -►-
4 � - -----
�------
, � ,� �> »
4„ -'i--� -----� 4 4 CAP 4
REMOVE `- REMOVE UNDERGRO OND
VFD PUMP PIPING
SHWP-2
EXISITING
UNIT NEATER
PUH-A4
(8.OPM)
3
BALANCING VALVE
O
/4"
2„ �2„
2„ � � � � /4„
1 1 �2„
EXISITING EXISITING
AIR HANDLING BLOWER COIL
UNIT UNIT BCU-A2
AHU-A1 (25 GPM) {9 GPM)
n CISITNG HOT WATER TO O
:RMINAL UNITS
4"
� �
_ _
�
� 4"
�
I
�
�
DIFFERENTIAL �
PRESSURE �
TRANSMITTER I
P � 3/4
�
�
I
�
�
cn =
� �
_ �
4" � 4"
� EXISTING
I UNDERGROUND�
� PIPING
�
HWR—I
HWS�
4"
SHEET KEYED NOTES•
0 PRIOR TO REMOVING PUMP, MEASURE FLOW,
SUBMIT RESULTS TO ENGINEER FOR REVIEW.
2� SET BALANCING VALVE FLOW RATE TO MATCH
REMOVED PUMP.
� REBALANCE HEATING COIL TO INDICATED VALVES.
EXISTING EXISTING
CABINET CABINET
HEATER CUH-A3 HEATER CUH-A2
REFER TO DRAWING � �H
M21 1 -A FOR PIPING
WITHIN NEW ADDITION
H
4"
EXISTING T
PIPING �
TNROUGH � PIPING THROUGH
EXISTING WALLI FLOOR
�
�
�
q."� �
_
cra
�
S
4" PREINSULATED
PIPING BELOW
GRADE
2 1/2„
2 1 /2"
1 1 /4"
4��
: •�� �
•
: � •
. �
3„
�
.�
1 1 �4„
BLOWER BLC
COIL UNIT C01
BCU-A6 TO gC�
REMAIN REN
. . � ■-a� ■ � �
� •�'
� : ii_ ►
1 1 /2„
HOT WATER PIPING DEMOLITION SCHEMATIC
1 1 �4„
EXISITNG
BLOWER COIL
UNIT BCU-A3
(9 GPM)
0
HWR
NWS
2 1 /2"
EXISITING
BLOWER
COIL UNIT
BCU-A1
(5 GPM)
O
1 1 /4"
3"
� N
� �
4"
4"
�
T
� �
� �
�
Scale: NTS
3„
-H
�
I
I
i
PIPING THROI;
MEZZANINE FI
1 1�
4" S =
—��--- I --
4„ - -I►- - H W R
NWS
HOT WATER PIPING SCHEMATIC
Scale: NTS
HWR
HWc
3"
2 1 /2" �-2„
HWR—I
2 1 /2"
2"
UNIT HEATER
PUH-A2
TO REMAIN
WR�
SENSOR
ING
_V E
-�
_
_ �'
� � �
0
���
ow°O
a�ao
J Q �
� � �
_ � M
H � . .
�WI—
O I—
�m
� W
'S
SCOPE DRAWINGS:
Theae dmwinga in�cate the generol acope of the proJect
in terma of arch�teeturai design cor�cept, the dimensiona of
the building, the maJor arch�tactural elements and the type
of structural, rt�echanical and electrical systems.
The dmwinga do not necesscrily indicote or describe ali
work required for full performance ond completwn of the
requirements of the Cmdmct.
On the basis of the generai scope in�cated or described,
tha trode contractora atwli furniah oll itema rcquircd for the
proper execution arrcl completion of the work.
REVISIONS:
ISSUE DATE DRAWN BY CHECKED BY
04/14/15 N.O. G.M
DRAWING TIT�E:
H OT WATE�
PIPING
SCN �M ATI C-
A�TE��ATE
DRAWING NUMBER
PROJECT NUMBER
120�1