HomeMy WebLinkAboutFile Documents.427 Rio Grande Pl.0016.2019 (70).ACBKMechanical, Electrical & Energy Consultants
Denver
7600 East Orchard Rd Suite 250-S
Greenwood Village, CO 80111-2539
303.796.6000
Billings
175 North 27th Street, Suite 1312
Billings, MT 59101-2048
406.545.6420
Cheyenne
500 West 18th Street, Suite 200
Cheyenne, WY 82001-4368
307.459.6100
Salt Lake City
4760 S. Highland Drive, Suite 106
Salt Lake City, UT 84115
801.360.7024
Helena
P.O. Box 9643
Helena, MT 59604
406.438.1467
Bogota, Colombia
Calle 40B # 8-68 Edificio Torre San Marcos, 501
Bogota D.C. 110231 Colombia
+57.1.485.0689
7600 East Orchard Road, Suite
250-S Greenwood Village, CO
80111-2518 303.796.6000
www.mkkeng.com
CONSULTING ENGINEERS, INC.
MECHANICAL/ELECTRICAL EQUIPMENT SCHEDULE
CONTROLS (NOTE B. BELOW) REFERENCES THE "CONTROLS" COLUMN OF THE EQUIPMENT SCHEDULES.
NOTES:
A. SEE SPECIFICATIONS DIVISION 26 "ELECTRICAL EQUIPMENT AND WIRING FOR MECHANICAL DIVISION"
FOR FURTHER INFORMATION.
B. CONTROLS: (1) FROM LIGHT SWITCH (2) SEPARATE WALL SWITCH (3) SWITCH WITH PILOT LIGHT (4)
RUNS CONTINUOUSLY (5) INTERLOCK TO RUN WITH OTHER EQUIPMENT (6) CONTROLLED BY DIVISION
23 (7) CYCLE FROM REMOTE THERMOSTAT (8) INTERGRAL TO UNIT (9) FIRE ALARM (10) OTHER; SEE
REMARKS * CARRIES FULL CURRENT. WIRING DONE BY DIVISION 26 FOR CONTROL. SEE
SPECIFICATIONS. ALSO SEE "TEMPERATURE CONTROL" SPECIFICATIONS.
C. MAGNETIC STARTERS TO HAVE MAINTAINED CONTACT UNLESS NOTED. ALL STARTERS BY
MECHANICAL UNLESS NOTED TO BE BY ELECTRICAL.
D. MOTORS 1/2 HP AND LESS TO BE 1750 RPM, 115/60/1, MOTORS 3/4 HP AND ABOVE TO BE AS NOTED IN
SCHEDULES.
E. THREE PHASE STARTERS ON MOTORS 5 HP OR GREATER TO HAVE PHASE MONITOR CONTROL RELAY,
SEE SPECIFICATION.
M
1.5"
CO
CO2
NO2
IAQ
APS
PDS
EPO
SD
FM
S
PS
H
T
T
T
T A
T
T S
T
I
AI
G
N
SMR
SOW
OST
ST
GW
SAN
V
NG # PSIG
NP
T
180
CA
FOV
FOR
FOS
RS
RL
RD
D
CP
CHS
CHR
CR
CS
HWR
HWS
CWR
CWS
SMS
S
P
F.A.
F
FS
A
1
1"
X
S
FS
S
SIZE ACFM
TYPE
SIZE
CFM
F
D
C
ABBREVIATIONS
CONTROLS LEGEND
PROJECT INFORMATION
GENERAL NOTES (FOR ALL MECHANICAL DRAWINGS)MECHANICAL LEGEND
REF
T
2-WAY VALVES
2 POSITION 3-WAY &
2-WAY VALVES
MODULATING 3-WAY &
LOW TEMPERATURE
DUCT SMOKE DETECTOR
DAMPER ACTUATOR
TEMPERATURE CONTROL
END SWITCH
EMERGENCY PULL SWITCH
REFRIGERENT DETECTOR
FLOW SWITCH
DETECTION THERMOSTAT
EMER
ES
FS
SWITCHS
DA
GAUGE
LT
2P
M
2P
M
OUTPUT SYMBOL
BINARY INPUT OR
XXX
XXX
OUTPUT SYMBOL
ANALOG INPUT OR
CURRENT TRANSFORMER
DIFFERENTIAL PRESSURE
XXX
XXX
DP
CT
HI LOW
SENSOR
MAIN AIR
CONTROL AIR PIPING
CONTROL WIRING
BUTTERFLY
BUTTERFLY
2-WAY
VALVE
BFV
VALVE
3-WAY
STARTER
MOTOR
BFV
COIL
FILTER
FAN
M
PUMP
FLOW
SENSOR/CONTROLLER
DUCT AVERAGING TEMPERATURE
ROOM THERMOSTAT/TEMP SENSOR
WATER TEMPERATURE SENSOR
SENSOR/CONTROLLED
WATER DIFFERENTIAL PRESSURE
CARBON DIOXIDE SENSOR
CARBON MONOXIDE SENSOR
SNOW/ICE SENSOR
HUMIDISTAT/HUMIDITY SENSOR
BUILDING STATIC
PRESSURE SENSOR
PRESSURE SENSOR
DUCT STATIC
BSD
T
HI
LO
WITH WELL
LO
DSP
PS
LU
HI
HI
LO
T
T
SENSOR
H
REMOTE BULB
DAMPER (T.C.)
(SYMBOLS LOCATED IN TC SCHEMATICS)
WORK STATION
OPERATORS TERMINAL
COMPUTER UNITCPU
MONITOR
MOD MODEM
PRINTER
LAP TOP
HAND HELD
PROJECT LOCATION: ASPEN, COLORADO
PROJECT ALTITUDE: 7743 FEET ABOVE SEA LEVEL
SUMMER DESIGN TEMPERATURE: 86°F DRY BULB, 61°F WET BULB (ASHRAE 0.4% DESIGN)
WINTER DESIGN TEMPERATURE: -15°F DRY BULB, 0%RH (ASHRAE 99.6%)
SUMMER ROOM DESIGN TEMP: 75°F DRY BULB - NO HUMIDITY REQUIREMENT
WINTER ROOM DESIGN TEMP: 70°F DRY BULB - NO HUMIDITY REQUIREMENT
SUMMER ROOM SETBACK TEMP: 90°F DRY BULB - NO HUMIDITY REQUIREMENT (ASHRAE 90.1)
WINTER ROOM SETBACK TEMP: 55°F DRY BULB - NO HUMIDITY REQUIREMENT (ASHRAE 90.1)
1. IT IS THE RESPONSIBILITY OF THE CONTRACTOR TO REVIEW THE ENTIRE PROJECT
CONSTRUCTION DOCUMENT PACKAGE, PRIOR TO BID, AND BECOME FAMILIAR WITH THE
EXTENT OF THE WORK AND COORDINATION REQUIRED. NO EXTRAS WILL BE ALLOWED
FOR ALTERATIONS OF A FORESEEABLE NATURE REQUIRED TO ACHIEVE THE END RESULT
AS INDICATED BY CONTRACT DOCUMENTS.
2. CONTRACTOR IS TO PROVIDE COMPLETE CONNECTIONS TO ALL EQUIPMENT.
3. ALL CUTTING, PATCHING AND CORE DRILLING FOR THE INSTALLATION OF NEW
EQUIPMENT, DUCTS, HANGERS, ETC. SHALL BE HELD TO A MINIMUM AND BE
ACCOMPLISHED IN A CAREFUL MANNER.
4. CONTRACTOR TO COORDINATE THE LOCATION OF ALL DUCTWORK, CEILING DEVICES,
GRILLES, REGISTERS AND DIFFUSERS WITH REFLECTED CEILING PLAN AND STRUCTURE
PRIOR TO BEGINNING WORK.
5. DUCT DIMENSIONS GIVEN ARE OUTSIDE SHEET METAL DIMENSIONS.
6. MECHANICAL DRAWINGS ARE DIAGRAMMATIC AND DO NOT NECESSARILY INDICATE
EVERY REQUIRED OFFSET, FITTING, ETC. DRAWINGS ARE NOT TO BE SCALED FOR
DIMENSIONS. TAKE ALL DIMENSIONS FROM ARCHITECTURAL DRAWINGS, CERTIFIED
EQUIPMENT DRAWINGS AND FROM THE STRUCTURE ITSELF BEFORE FABRICATING ANY
WORK, VERIFY ALL SPACE REQUIREMENTS COORDINATING WITH OTHER TRADES, AND
INSTALL THE SYSTEMS IN THE SPACE PROVIDED WITHOUT EXTRA CHARGES TO THE
OWNER.
7. THE OWNER AND ENGINEER ARE NOT RESPONSIBLE FOR THE CONTRACTOR'S SAFETY
PRECAUTIONS OR TO MEANS, METHODS, TECHNIQUES, CONSTRUCTION SEQUENCES, OR
PROCEDURES REQUIRED TO PERFORM HIS WORK.
8. ALL WORK SHALL BE INSTALLED IN ACCORDANCE WITH ALL APPLICABLE STATE CODES,
LOCAL CODES AND OWNER'S STANDARDS INDICATED BY THE CONSTRUCTION
DOCUMENTS.
9. ALL EXTERIOR WALL AND ROOF PENETRATIONS SHALL BE SEALED WATERPROOF.
10. ALL MECHANICAL WORK UNDER THIS CONTRACT IS TO FIVE (5) FEET OUTSIDE THE
BUILDING.
11. XX-## REFERS TO EQUIPMENT DESIGNATION. SEE SPECIFICATIONS AND EQUIPMENT
SCHEDULES FOR FURTHER INFORMATION IN REFERENCE TO THAT DESIGNATED PIECE OF
EQUIPMENT.
AFF ABOVE FINISHED FLOOR
AFG ABOVE FINISHED GRADE
ALT ALTITUDE
BHP BRAKE HORSEPOWER
BTU BRITISH THERMAL UNIT
C COMMON PORT
CFM CUBIC FEET PER MINUTE
SCFM CFM, STANDARD CONDITIONS
CU FT CUBIC FEET
CU IN CUBIC INCH
Cv COEFFICIENT, VALVE FLOW
dB DECIBEL
DB DRY BULB
DCW DOMESTIC COLD WATER
DEG OR ° DEGREE
DHW DOMESTIC HOT WATER
DIA DIAMETER
DN DOWN
(E) EXISTING
EAT ENTERING AIR TEMP.
EFF EFFICIENCY
ELEV ELEVATION
ESP EXTERNAL STATIC PRESSURE
EWT ENTERING WATER TEMP.
EXH EXHAUST
F FAHRENHEIT
FLA FULL LOAD AMPS
FPM FEET PER MINUTE
FPS FEET PER SECOND
FT FOOT, FEET, FEET WATER COLUMN
FU FIXTURE UNITS
GA GAUGE
GAL GALLONS
GPH GALLONS PER HOUR
GPM GALLONS PER MINUTE
HD HEAD
HG MERCURY
HGT HEIGHT
HORZ HORIZONTAL
HP HORSEPOWER
HR HOUR(S)
HWC HOT WATER CIRCULATING (DOMESTIC)
HZ HERTZ
ID INSIDE DIAMETER
IE INVERT ELEVATION
IJS IN JOIST SPACE
IN INCHES
IN W.C. INCHES IN INCHES WATER COLUMN
KW KILOWATT
KWH KILOWATT HOUR
LAT LEAVING AIR TEMPERATURE
LBS OR # POUNDS
LF LINEAR FEET
LRA LOCKED ROTOR AMPS
LWT LEAVING WATER TEMPERATURE
MAX MAXIMUM
MBH BTU PER HOUR (THOUSAND)
MCA MINIMUM CIRCUIT AMPS
MIN MINIMUM
N/A NOT APPLICABLE
N.C. NORMALLY CLOSED
N.O. NORMALLY OPEN
NC NOISE CRITERIA
NIC NOT IN CONTRACT
NO OR # NUMBER
NTS NOT TO SCALE
OA OUTSIDE AIR
OD OUTSIDE DIAMETER
% PERCENT
PH OR ∅ PHASE (ELECTRICAL)
PPM PARTS PER MILLION
PRESS PRESSURE
PSF POUNDS PER SQUARE FOOT
PSI POUNDS PER SQUARE INCH
PSIA PSI ABSOLUTE
PSIG PSI GAUGE
RA RETURN AIR
RECIRC RECIRCULATE
RH RELATIVE HUMIDITY
RLA RUNNING LOAD AMPS
RPM REVOLUTIONS PER MINUTE
SA SUPPLY AIR
SENS SENSIBLE
SL SEA LEVEL
SP STATIC PRESSURE
SPEC SPECIFICATION
SQ SQUARE
STD STANDARD
TD TEMPERATURE DIFFERENCE
TEMP TEMPERATURE
THRU THROUGH
TJO THROUGH JOIST OPENINGS
TONS TONS OF REFRIGERATION
TSP TOTAL STATIC PRESSURE
TSTAT THERMOSTAT
TYP TYPICAL
V VOLT
VAV VARIABLE AIR VOLUME
VEL VELOCITY
VERT VERTICAL
VOL VOLUME
W WATT
WB WET-BULB
WPD WATER PRESSURE DROP
WT WEIGHT
W/SETPOINT ADJUSTMENT
W/TEMP INDICATION
W/TEMP AND ADJUSTMENT
W/STAINLESS STEEL COVER
SUBSCRIPTS:
W/LOCKING GUARD
S -
A -
I -
AI -
G -
VARIABLE FREQUENCY DRIVEVFD
AIR FLOW MEASURING
FL
O
W
STATION
NITROGEN DIOXIDE SENSOR
CO
CO2
NO2
ICE
FLOW METERFLOW
EMERGENCY POWER OFF SWITCHEPO
FLEXIBLE PIPE CONNECTOR (STAINLESS STEEL BRAIDED)
EXISTING FIRE SPRINKLER
EXISTING FIRE SPRINKLER TO BE REMOVED
EXISTING FIRE SPRINKLER TO BE RELOCATED
FLEXIBLE EQUIPMENT CONNECTOR (RUBBER DOUBLE BELLOWS)
SHUT-OFF VALVE W/TAMPER SWITCH
FIRE DEPARTMENT CONNECTION-WALL TYPE
NEW FIRE SPRINKLER
O.S. & Y VALVE
FIRE PROTECTION
PIPE GUIDE
FLOW SWITCH
HORN/STROBE FIRE ALARM
FIRE PIPE
PIPE EXPANSION JOINT
PIPE ANCHOR
PIPE UNION
PIPE CAP
CHILLED WATER RETURN
HEATING WATER RETURN
HEATING WATER SUPPLY
CHILLED WATER SUPPLY
CONDENSER WATER SUPPLY
CONDENSER WATER RETURN
DUAL TEMPERATURE RETURN
SHUT OFF VALVE IN RISER
DRAIN VALVE W/ HOSE END
CONDENSATE PUMP DISCHARGE
PLUG OR BALANCING SHUT-OFF VALVE IN RISER
DUAL TEMPERATURE SUPPLY
FLOW CONTROL VALVE W/ CHECK
STRAINER W/ BLOW-OFF VALVE & HOSE END
N.O. VALVE W/ LOCKING COVER
SAFETY OR RELIEF VALVE
PRESSURE REDUCING VALVE
PRESSURE - TEMP. TAP
TEMPERATURE CONTROL VALVE, 3-WAY
TEMPERATURE CONTROL VALVE, 2-WAY
PRESSURE GAUGE W/ PIG TAIL & COCK
THERMOMETER
MANUAL AIR VENT
VALVES & SPECIALTIES
CHECK VALVE
REFRIGERANT LIQUID
SHUT-OFF VALVE
GLOBE VALVE
FLOW INDICATOR
FUEL OIL SUPPLY
FUEL OIL VENT
FUEL OIL RETURN
REFRIGERANT SUCTION
DRAIN PIPE
PIPING
CALIBRATED BALANCING SHUT-OFF VALVE.
PREMANUFACTURED PIPE EXPANSION LOOP. REQUIRED
EXPANSION COMPENSATION LISTED. PROVIDE GUIDES &
ANCHORS AS RECOMMENDED BY MANUFACTURER.
PRESSURE INDEPENDENT 2-WAY CONTROL VALVE
PRESSURE INDEPENDENT AUTOMATIC BALANCING VALVE
AUTOMATIC AIR VENT
REFRIGERANT DISCHARGE
DOMESTIC HOT WATER ( TEMP. SHOWN )
STORM DRAIN/ BUILDING STORM SEWER PIPE
(1) SHEET NO. WHERE SHOWN.
SECTION CUT: (A) SECTION I.D.
POINT OF PIPE CONNECTION NEW TO EXISTING
POINT OF DUCT OR PIPE CONNECTION NEW TO EXISTING
UNDERCUT DOOR, 1".
MISCELLANEOUS
CONTROLS (IN PLAN)
DIFFERENTIAL AIR PRESSURE SENSOR
PRESSURE DIFFERENTIAL SENSOR
CONTROL DAMPER
SMOKE DETECTOR (DUCT)
FLOW METER
SWITCH
PRESSURE SWITCH
HUMIDISTAT/SENSOR
NIGHT THERMOSTAT
THERMOSTAT/TEMP SENSOR
STARTER
FLEXIBLE DUCT
HORIZONTAL CLEANOUT
HVAC DUCTWORK
24/12
BACKDRAFT DAMPER
FLEXIBLE CONNECTION
SUPPLY AIR DUCT DOWN
OA, RA OR EXH DUCT DOWN
UP
VERTICAL CLEANOUT
COMBINATION FIRE / SMOKE DAMPER
OPPOSED BLADE DAMPER ( O.B.D. )
TURNING VANES SHOWN IN 90° ELBOW.
SMOKE DAMPER
FIRE DAMPER
PLUMBING
TEMPERED WATER
NON-POTABLE WATER
OVERFLOW STORM DRAIN PIPE
SAND AND OIL WASTE PIPE
SANITARY WASTE PIPE
GREASE WASTE PIPE
PLUMBING VENT PIPE
COMPRESSED AIR PIPE
DOMESTIC HOT WATER CIRCULATING
DOMESTIC COLD WATER
DOMESTIC HOT WATER
D - DOUBLE WALL CONSTRUCTION
UL - UNLINED DUCTWORK
V - OVAL DUCTWORK
DUCT SIZES ARE OUTSIDE SHEET METAL DIMENSIONS. 1st
NO. IS SIZE OF SURFACE SHOWN. 2nd NO. IS DUCT DEPTH.
LETTERS AFTER DIM. CORRESPOND TO FOLLOWING:
ø - ROUND DUCTWORK
SUPPLY DIFFUSER. ALL DIFFUSERS FOUR-WAY THROW
UNLESS NOTED OR THROWS SHOW IN PLAN. SEE
SCHEDULE FOR TYPE.
RETURN/TRANSFER/EXHAUST AIR TAG. SEE SCHEDULE
FOR TYPE.
SECTION THRU OUTSIDE AIR INTAKE OR
SUPPLY AIR DUCT
SECTION THRU RETURN AIR OR
EXHAUST DUCT
CHANGE OF ELEVATION UP (UP) DOWN (DN) IN
DIRECTION OF AIR FLOW
REFERENCE DESIGNATION FOR PLUMBING ISOMETRIC
SNOWMELT SUPPLY
SNOWMELT RETURN
PIPE DOWN
PIPE UP
PLUG VALVE.
BALL VALVE
TEMP SENSOR W/STAINLESS STEEL COVER
TEMP SENSOR W/SETPOINT ADJUSTMENT
TEMP SENSOR W/TEMP INDICATION
TEMP SENSOR W/SET POINT ADJUSTMENT
AND TEMP INDICATION
THERMOSTAT/TEMP SENSOR WITH LOCKING GUARD
CARBON DIOXIDE SENSOR
CARBON MONOXIDE SENSOR
NITROGEN DIOXIDE SENSOR
24x24 TYPE J RETURN AIR GRILLE
W/SOUND BOOT. SHADING INDICATES
OPEN END.24x12 TYPE J RETURN AIR GRILLE
W/SOUND BOOT. SHADING INDICATES
OPEN END.
24x24 TYPE J RETURN AIR GRILLE
24x12 TYPE J RETURN AIR GRILLE
OR
EMERGENCY POWER OFF SWITCH
+##'-##"SPOT ELEVATION TAG. TAG INDICATES BOTTOM OF
DIFFUSER OR EQUIPMENT ABOVE FINISHED FLOOR.
INDOOR AIR QUALITY SENSOR
NATURAL GAS, PRESSURE AS IDENTIFIED
SNOWMELT SNOW/ICE SENSOR
POINT OF DUCT OR PIPE DISCONNECTION
CHARLES
CUNNIFFE
ARCHITECTS
COPYRIGHT CHARLES CUNNIFFE ARCHITECTSC
SHEET NO.
JOB NO.
2/
6
/
2
0
1
8
4
:
4
8
:
1
6
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M0.01
2016.01.0223
MECHANICAL,
PLUMBING,
FIRE
PROTECTION
COVER SHEET
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ISSUE: DATE:
50% DD 10/30/17
100% DD 12/12/17
PERMIT 02/07/18
03/16/2019
TRASH
108
MENS
102
ELEC
106
ELEVATOR
000
TD
104
JANITOR
105
LOBBY
101
WOMENS
103
STAIR
S001
VEST
107
S
S
SZ-3
3/4" SMR
3/4" SMS
3/4" SMR
3/4" SMS
3/4" SMS
3/4" SMR
SZ-2 S
S
S
708
S
S
CHARLES
CUNNIFFE
ARCHITECTS
COPYRIGHT CHARLES CUNNIFFE ARCHITECTSC
SHEET NO.
JOB NO.
2/
6
/
2
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1
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4
:
4
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M1.01
2016.01.0223
MECHANICAL
MAIN LEVEL
SITE PLAN
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1/8" = 1'-0"1 MECHANICAL MAIN LEVEL SITE PLAN
GENERAL NOTES
A. REFER TO SNOW MELT DETAILS ON SHEET M7.02.
ISSUE: DATE:
50% DD 10/30/17
100% DD 12/12/17
PERMIT 02/07/18
03/16/2019
411 sf
146 sf
113 sf
137 sf
952 sf
RD
RD
RD
RD
RD
RD
RD
RD
RD
RD
RD
RD
MEETING ROOM
309
MEETING ROOM
310
ELEVATOR
000
JANITOR
305
MENS
302
WOMENS
303
ELEC
306
TD
304
SZ-4
SZ-5
2" SMS
2" SMR
SZ-2
3" SMR
3" SMS
3/4" SMR
3/4" SMS
S
S
S
S
S
CHARLES
CUNNIFFE
ARCHITECTS
COPYRIGHT CHARLES CUNNIFFE ARCHITECTSC
SHEET NO.
JOB NO.
2/
6
/
2
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1
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4
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4
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2016.01.0223
MECHANICAL
UPPER LEVEL
SITE PLAN
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1/8" = 1'-0"1 MECHANICAL UPPER LEVEL SITE PLAN
GENERAL NOTES
A. REFER TO SNOW MELT DETAILS ON SHEET M7.02.
ISSUE: DATE:
50% DD 10/30/17
100% DD 12/12/17
PERMIT 02/07/18
03/16/2019
2,931 sf
T
M
M
T
11
STORAGE
002
C
C
D
D
E
E
F
F
40/28
M5.01
1
24
"
S
T
CUH-1
GENERATOR
M5.01
2
SL-4
SL
-3
FSFS
FS
FS FS
SL-5
(FUTURE)
SL-6
(FUTURE)
VAV-1
40
/
1
8
100
3"ø
703
28/32
3"
S
M
R
3"
S
M
S
3"
H
W
R
3"
H
W
S
40
/
2
8
800
MECHANICAL
005
DATA CENTER
004
VESTIBULE
001
STORAGE
006
SL-1
SL-2
6"
C
R
6"
C
S
3" HWR3" HWS
2 1/2" CR
2 1/2" CS
DC-1
DC-2
DC-3
DC-4
2" CR
2" CS
TC PANEL
3/4" D
1" D
3/4" D
2" HWR
2" HWS
105
704
105
FS
707
14/14
FS
UH-4
3/4" HWS
3/4" HWR
FS
106
SD
SD
EP
O
GENERATOR
007
UH-5
FS
48
/
3
2
UH-3
3/4" HWR
3/4" HWS
3/4" HWS
3/4" HWR
UH-1
3/4" HWR
3/4" HWS
1" HWR
1" HWS
12
12
13
13
G
G
H
H
I
I
J
J
AA
AA
BB
BB
CC
CC
DD
DD
EE
2 2
P8 P8
P7 P7
P6 P6
P5 P5
K
K
P6.2 P6.2
15
15
ELECTRICAL
003
ELEVATOR
000
PUMP ROOM
008
VAV-5
4"ø
66
/
3
6
54
/
2
8
60/28 UP.62/36 UP.
FS
FS
34/54 UP.
54/30 UP.
CHARLES
CUNNIFFE
ARCHITECTS
COPYRIGHT CHARLES CUNNIFFE ARCHITECTSC
SHEET NO.
JOB NO.
2/
6
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2016.01.0223
MECHANICAL
BASEMENT
LEVEL PLAN
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1/8" = 1'-0"1 MECHANICAL BASEMENT LEVEL PLAN
FLAG NOTES (THIS SHEET)
100 THE GENERATOR ENGINE EXHAUST WILL BE ROUTED TO THE EXTERIOR OF THE BUILDING USING
FACTORY BUILT STAINLESS STEEL DOUBLE WALL POSITIVE PRESSURE PIPING SYSTEM WITH 316
STAINLESS STEEL INTERNAL WALL MATERIAL, WITH 4” OF CERAMIC FIBER INSULATION AND WITH AN
ALUMINUM OUTER WALL (SELKIRK IPS-C4 OR EQUIVALENT) FOR OPERATING TEMPERATURES TO
1,400ºF. PROVIDE THE GENERATOR ENGINE EXHAUST PIPE WITH ALL REQUIRED ACCESSORIES
INCLUDING BUT NOT LIMITED TO: EXIT CONE WITH FLIP TOP, VENTILATED THIMBLE, VERTICAL/WALL
SUPPORTS, EXPANSION JOINTS, MANIFOLD TEES/DRAINS, FLANGE ADAPTORS AND FLEXIBLE
CONNECTORS. AUTOMATIC BYPASS DAMPERS WILL BE PROVIDED ON THE DISCHARGE SIDE OF
THE ENGINE RADIATOR EXHAUST TO PROVIDE SUPPLEMENTAL HEAT TO THE SPACE DURING
WINTER OPERATION. THE SPACE WILL ALSO BE PROVIDED WITH A HOT WATER UNIT HEATER. ALL
GENERATOR EXHAUST DUCTWORK MUST BE IN A 2 HOUR ENCLOSURE ALL THE WAY TO
TERMINATION.
105 PROVIDE CHASE FOR SUPPLY AIR AND RETURN AIR DUCTWORK . PROVIDE SEPARATE CHASE FOR
EXHAUST. ALL DUCTS TO PENETRATE CHASE IN THE HORIZONTAL POSITION TO ALLOW F/S
DAMPERS TO BE INSTALLED IN A VERTICAL POSITION.
106 12/12 FIRE SMOKE DAMPER IN CEILING TO TRANSFER AIR FROM SPACE TO RETURN AIR PLENUM.
703 CONTRACTOR SHALL PROVIDE 400 CFM COOLING ONLY VAV BOX FOR ELECTRICAL ROOM.
PROVIDE FSD IN SUPPLY DUCTWORK.
704 PROVIDE BACNET GATEWAY FOR EACH IN ROW COOLER AND INTERFACE AVAILABLE BAS POINTS
FROM IN ROW COOLERS.
707 PROVIDE SEPARATE 2-HOUR CHASE/ENCLOSURE FOR GENERATOR EXHAUST FLUE FROM
GENERATOR ROOM TO FLUE TERMINATION.
800 EPO SWITCH TO INTERRUPT POWER TO AL BOILERS. COORDINATE WITH ELECTRICAL AND BOILER
CONTROL SYSTEM. PROVIDE AT ALL EXITS FROM BOILER ROOM.
ISSUE: DATE:
50% DD 10/30/17
100% DD 12/12/17
PERMIT 02/07/18
03/16/2019
Provide through
penetration firestop
details for all
penetrations of fire
rated assemblies.
Support ducts evey
10' and at each
change of direction
per IMC 603.10.
Seal duct seams with welds, gaskets, mastics or UL 181 listed tape or liquid sealants per IMC 603.9.
M
T
T
T
T
T T
T
M
M
11
C
C
D
D
E
E
33
F
F
10"ø
10"ø12
/
1
2
10/14
TRASH
108
MENS
102
32
/
2
2
24/16
1 1/4" HWR
1 1/4" HWS
1 1/4" HWR
CUH-4
CUH-2
CUH-3
CUH-5
UH-2 FS
3/4" HWS
FPVAV-2
FS
ELEC
106
ELEVATOR
000TD
104
JANITOR
105
LOBBY
101
WOMENS
103
STAIR
S001
VEST
107
FS
6/6
FPVAV-1
VAV-2
75
6x6I
38/26
800
16x12 I
16/12
EF-1
3"ø
3/4" HWR
3/4" HWR
3/4" HWS
3/4" HWS
3/4" HWR
DC-5
1 1/4" HWS
1 1/2" HWR
1 1/2" HWS
1 1/4" HWR
1 1/4" HWS
707
1
1
/
4
"
H
W
R
1
1
/
4
"
H
W
S
FS106
SD
SD
24/24
3" SMR UP & DN.
3" SMS UP & DN.
1 1/2" HWS UP & DN.
1 1/2" HWR UP & DN.
62/36 UP AND DN.
SL-9
12
12
13
13
G
G
H
H
I
I
J
J
AA
AA
BB
BB
CC
CC
DD
DD
EE
EE
2 2
P8 P8
P7 P7
P6 P6
P6.2 P6.2
15
2-114L
150
2-114 F
210
1-48 L
210
1-48L
60/28 UP AND DN.
24
/
1
6
FS
FS
FS
6"ø
12/8
100
12x8 D
1" U.C.
210
10"ø K
290
12"øK12"ø
10"ø 14/14
500
14x14S
28/20
28/20
24/24
30/54 UP AND DN.
100
12x8 S
100
12x8 S
FS
CHARLES
CUNNIFFE
ARCHITECTS
COPYRIGHT CHARLES CUNNIFFE ARCHITECTSC
SHEET NO.
JOB NO.
2/
6
/
2
0
1
8
4
:
4
8
:
2
3
P
M
M2.02
2016.01.0223
MECHANICAL
MAIN LEVEL
PLAN
AS
P
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A
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AS
P
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C
O
1/8" = 1'-0"1 MECHANICAL MAIN LEVEL PLAN
FLAG NOTES (THIS SHEET)
106 12/12 FIRE SMOKE DAMPER IN CEILING TO TRANSFER AIR FROM SPACE TO RETURN AIR PLENUM.
707 PROVIDE SEPARATE 2-HOUR CHASE/ENCLOSURE FOR GENERATOR EXHAUST FLUE FROM
GENERATOR ROOM TO FLUE TERMINATION.
ISSUE: DATE:
50% DD 10/30/17
100% DD 12/12/17
PERMIT 02/07/18
03/16/2019
M
T
T
T
TT
M
M
11
C
C
D
D
E
E
33
F
F
10"ø
12/12 6/6
10/14
FPVAV-3
24/16
1 1/4" HWS
1 1/4" HWR
1
1
/
4
"
H
W
S
1
1
/
4
"
H
W
R
CUH-6
CUH-7
1 1/4" HWR
1 1/4" HWS
3/4" HWR
3/4" HWS
FS
32/22
10"ø
ELEC
206
WOMENS
203
MENS
202
ELEVATOR
000
JANITOR
205
TD
204
STAIR
S001
75
6x6I
VAV-3
FPVAV-4
3"
SM
S
3" S
MR
2" SMR
2" SMS
3"ø
3/4" HWS
3/4" HWR
3/4" HWR
3/4" HWS
38/26
OFFICE
209
DC-6
1" D
1 1/2" HWR
1 1/2" HWS
1 1/4" HWS
1 1/4" HWR
707
FS
106
2" SMS UP.
2" SMR UP.
SD
SD
12
12
13
13
G
G
H
H
I
I
J
J
AA
AA
BB
BB
CC
CC
DD
DD
EE
EE
2 2
P8 P8
P7 P7
P6 P6
K
K
P6.2 P6.2
15
FS
210
1-48 L 210
1-48L
290
12"øK
500
14x14 S
210
10"ø K
1" U.C.
SL-11
FS
6"ø
12/8
100
12x8 D
60/28 UP AND DN.
62/36 UP AND DN.
FS
FS
24
/
1
6
14/14
12"ø
10"ø
30/54 DN.
24/24
24/24
28/20
28/20
FS
FS100
12x8 S
100
12x8 S
CHARLES
CUNNIFFE
ARCHITECTS
COPYRIGHT CHARLES CUNNIFFE ARCHITECTSC
SHEET NO.
JOB NO.
2/
6
/
2
0
1
8
4
:
4
8
:
2
6
P
M
M2.03
2016.01.0223
MECHANICAL
MIDDLE LEVEL
PLAN
AS
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1/8" = 1'-0"1 MECHANICAL MIDDLE LEVEL PLAN
FLAG NOTES (THIS SHEET)
106 12/12 FIRE SMOKE DAMPER IN CEILING TO TRANSFER AIR FROM SPACE TO RETURN AIR PLENUM.
707 PROVIDE SEPARATE 2-HOUR CHASE/ENCLOSURE FOR GENERATOR EXHAUST FLUE FROM
GENERATOR ROOM TO FLUE TERMINATION.
ISSUE: DATE:
50% DD 10/30/17
100% DD 12/12/17
PERMIT 02/07/18
03/16/2019
RD
RD
RD
RD
RD
RD
RD
RD
RD
RD
RD
T
T
T
T
TT
M
T
CO2
CO2
CO2
11
C
C
D
D
E
E
33
F
F
MEETING ROOM
309
MEETING ROOM
310
TD
304
ELEVATOR
000
JANITOR
305
MENS
302
WOMENS
303
ELEC
306
32/16
FPVAV-5
VAV-4
32
/
1
6
10"ø
75
6x6I6/6
12
/
1
2
14/14
18/18 UP.
1 1/4" HWR
1 1/4" HWS
FPVAV-6
CUH-8CUH-9
1 1/4" HWR
1 1/4" HWS
CUH-9
704
12/10
EF-3
400
12x10I
3"ø
3/4" HWS
3/4" HWR
3/4" HWS
3/4" HWR
3/4" HWR
3/4" HWS
OFFICE
308
LOBBY
301
VEST
307
DC-7
2" HWS
2" HWR
707
106 FS
SDSL-10
12
12
13
13
G
G
H
H
I
I
J
J
AA
AA
BB
BB
CC
CC
DD
DD
EE
EE
2 2
P8 P8
P7 P7
P6 P6
K
K
P6.2 P6.2
15
2-114L
150
2-114F
210
1-48 L
210
1-48L
10"ø
36/36
2-94 L
150
2-94 F
CUH-10
32
/
1
6
FSFS
100
12x8 D
6"ø
12/8
60/28 DN.
62/36 DN.
FS
210
10"ø K
12"ø
10"ø
14/14
500
14x14S
290
12"ø K
1" U.C.
100
12x8 S
100
12x8 S
FS
CHARLES
CUNNIFFE
ARCHITECTS
COPYRIGHT CHARLES CUNNIFFE ARCHITECTSC
SHEET NO.
JOB NO.
2/
6
/
2
0
1
8
4
:
4
8
:
2
8
P
M
M2.04
2016.01.0223
MECHANICAL
UPPER LEVEL
PLAN
AS
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C
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1/8" = 1'-0"1 MECHANICAL UPPER LEVEL PLAN
FLAG NOTES (THIS SHEET)
106 12/12 FIRE SMOKE DAMPER IN CEILING TO TRANSFER AIR FROM SPACE TO RETURN AIR PLENUM.
704 PROVIDE BACNET GATEWAY FOR EACH IN ROW COOLER AND INTERFACE AVAILABLE BAS POINTS
FROM IN ROW COOLERS.
707 PROVIDE SEPARATE 2-HOUR CHASE/ENCLOSURE FOR GENERATOR EXHAUST FLUE FROM
GENERATOR ROOM TO FLUE TERMINATION.
ISSUE: DATE:
50% DD 10/30/17
100% DD 12/12/17
PERMIT 02/07/18
03/16/2019
T
T
T
M
M
AHU-1
701
34/110
3/4" SMS
3/4" SMR
B-1
B-2
B-3
BT-1
ET-2
AS-2
HWP-3
CPF-2
HWP-4
WWHP-1 WWHP-2
WWHP-3
AS-3
SMP-1
GF-2
ET-3
BP-1
BP-2
BP-3
3
M5.01
UH-1
705
VFD
VFD
CHEMICAL TREATMENT
1" D
1" D
201
201
1" D
201
CP-2
CP-1
30
/
6
0
SZ-1
706
HWP-1
HWP-2
3" HWS
3" HWR
3" SMS
3" SMR
3" SMR
3" SMS 3" SMS
6" CS
6" CR
48/32
48/32
14/14
EPO
800
66/36
EF-2
800
16x12 I
SL-8
SL-7
16/12
GWP-1 GWP-2
UH-3
6" CR
6" CS
CWP-1
HX-1
HX-2
CWP-2
GF-1ET-1
AS-1
6" CR
6" CS
VFD,
TYP.
CHEMICAL POT FEEDER
900
M
16
/
1
2
Level 1
99' - 6"
T.O. SLAB @ MAIN LEVEL
100' - 0"
T.O. SLAB @ LOWER LEVEL
83' - 10"
AA
T.O. LVL B1 - EXISTING GARAGE
89' - 5"
T.O. SLAB @ MAIN
LEVEL
100' - 0"
T.O. SLAB @
BASEMENT
88' - 11"
T.O. LVL B1
69'-5"
T.O. LVL 1 - RIO GRANDE
79'-5 1/4"
T.O. SLAB - ACRA - DATUM 100
80'-0"
T.O. SLAB @ MAIN LEVEL
7885' - 0"
T.O. SLAB @ BASEMENT
7873' - 11"
AHU-1
AA
CHARLES
CUNNIFFE
ARCHITECTS
COPYRIGHT CHARLES CUNNIFFE ARCHITECTSC
SHEET NO.
JOB NO.
2/
6
/
2
0
1
8
4
:
4
8
:
3
1
P
M
M5.01
2016.01.0223
MECHANICAL
SECTIONS/DETAIL
PLANS
AS
P
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1/4" = 1'-0"1 ENLARGED PLAN MECHANICAL ROOM
1/4" = 1'-0"2
ENLARGED PLAN PUMPS BASEMENT
LEVEL PLAN
1/4" = 1'-0"3 AHU Section
FLAG NOTES (THIS SHEET)
201 CONTRACTOR TO PIPE DRAIN TO NEAREST ERD.
701 PROVIDE CARBON FILTERS FOR ALL RECIRCULATING AIR UNITS.
705 6" CONCRETE HOUSEKEEPING PAD, TYPICAL.
706 CONTRACTOR SHALL PROVIDE CONDENSATE PUMP FOR CONDENSATE DRAIN LINE.
800 EPO SWITCH TO INTERRUPT POWER TO AL BOILERS. COORDINATE WITH ELECTRICAL AND BOILER
CONTROL SYSTEM. PROVIDE AT ALL EXITS FROM BOILER ROOM.
900 REFER TO PIPING SCHEMATIC FOR PIPING DETAILS IN THIS AREA.
ISSUE: DATE:
50% DD 10/30/17
100% DD 12/12/17
PERMIT 02/07/18
03/16/2019
S
HWR
HWS
HWSHWS
HWS
HWRHWR
PS
SS
SMS
SMR
HWR NP
CS
CR
CS
CR
CS
CR
CS
CR
CS
CR
CS
CR
S
S
S
CONDENSER WATER, HOT WATER, SNOWMELT WATER
SCHEMATIC - CITY HALL BASEMENT MECHANICAL ROOM
CONDENSER WATER, GEOTHERMAL WATER
SCHEMATIC - PARKING GARAGE LOWER LEVEL MECHANICAL ROOM
BP-3
FUTURE BOILER
CIRC. PUMP
3"3"
GEO SUPPLY
GEO RETURN
BT-1
ET-2
HWS/HWR OUT TO VAV TERMINALS
AND SUPPLEMENTAL HEATERS.
PROVIDE 3-WAY VALVES AT END OF
BRANCHES FOR MINIMUM FLOW.
DPT
TO RIVER & HALLAM LAKE
M
GWP-1,2
REDUNDANT VERTICAL TURBINE PUMPS.
SEE SCHEDULE FOR CAPACITY AND
DETAIL DRAWING ON M#. PROVIDE VFDS
FOR FLOW CONTROL.
WWHP-1 WWHP-2
CONCRETE SUMP BASIN
APPROX. 15'-0" L x 8'-0" W x 12'-0" H.
5'-0" NORMAL WATER LEVEL
CS/CR TO
DATA ROOM
SYSTEM
B-3
FUTURE
BACK-UP ELEC.
BOILER.
CWP-1,2
CONDENSER WATER PUMPS,
VFD CONTROL. SEE SCHEDULE
FOR CAPACITY AND DETAIL
DRAWING ON M#.
HWS/R WATER TO
WATER HEAT PUMP. SEE
SCHEDULE FOR
CAPACITY AND DETAIL
DRAWING ON M#.
HWP-3,4
SECONDARY HEATING WATER
PUMPS.
VFD CONTROL. SEE SCHEDULE FOR
CAPACITY AND DETAIL DRAWING ON
M#.
BUFFER TANK. SEE
SCHEDULE FOR
CAPACITY AND DETAIL
DRAWING ON M#.
HWP-1 HWP-2
AS-2
RELIEF FAN WITH VFD
CONTROL TO BUILDING
STATIC PRESSURE
SUPPLY FAN WITH
VFD CONTROL TO
DUCT STATIC
PRESSURE
M
AUTO DRAIN
DOWN VALVE
GARAGE LEVEL B2 (F.F. ELEV. 7857.94)
NEW BLDG, BASEMENT (CONTINUED)
NEW BLDG, BASEMENT (F.F.
ELEV. APPROX. 7864+/-1.0)
PER EXISTING DRAWINGS (1989):
EXISTING 24" DRAIN
INVERT ELEV. 7851.30
SLOPES 0.2% TO DISCHARGE,
MODIFY PIPE TO ACCOMMODATE
NEW SUMP BASIN
FOUNDATION DRAIN INLETS, TYP
EXISTING FOUNDATION DRAIN INLET,
RECONFIGURE FOR DRAINAGE INTO
NEW SUMP BASIN. FIELD VERIFY
COUNT, SIZE AND ROUTING.
FILTER BYPASS
BUCKET STRAINER
W/40 MESH
WF-1 FINE SEDIMENT
WATER FILTER, SEE
SCHEDULE FOR CAPACITY
AND DETAIL ON DRAWING
M#
WATER DIFFERENTIAL PRESSURE
TRANSMITTER FOR HWP-3,4 VFD
CONTROL MOUNT BELOW MAINS
WHERE NOTED ON PLANS SEE
DRAWING M###, MINIMUM OF 2.
CHEM. POT
FEEDER SEE
DETAIL ON
DRAWING M#
TIE IN SYSTEM DISCHARGE
DOWNSTREAM OF NEW BASIS
FOR FLOW TOWARDS HALLAM
LAKE
PROVIDE 4X6' HINGED VAULT DOOR WITH FALL
PROTECTION. COORDINATE DOOR LOCATION
WITH SUMP LADDER.
4" SUMP VENT WITH
AIR ADMITTANCE
VALVE
HX-2HX-1
DOUBLE WALL STAINLESS
STEEL PLATE & FRAME HEAT
EXCHANGERS. SEE SCHEDULE
FOR CAPACITY AND DETAIL
DRAWING ON M#.
ET-1
AS-1
CHEM. POT
FEEDER. SEE
DETAIL ON M#.
EXPANSION TANK. SEE
SCHEDULE FOR CAPACITY AND
DETAIL DRAWING ON M#.
AIR SEPARATOR.
SEE SCHEDULE FOR
CAPACITY AND DETAIL
DRAWING ON M#.
GF-1
GLYCOL FEEDER FOR
CONDENSER WATER LOOP.
MAINTAIN 30% GLYCOL
FOR FREEZE PROTECTION.
WWHP-3
SMP-1
SNOWMELT WATER PUMPS,
VFD CONTROL. SEE SCHEDULE
FOR CAPACITY AND DETAIL
DRAWING ON M#.
ET-3
AS-3
CHEM. POT
FEEDER. SEE
DETAIL ON M#.
EXPANSION TANK. SEE
SCHEDULE FOR CAPACITY AND
DETAIL DRAWING ON M#. (TYP.)
AIR SEPARATOR.
SEE SCHEDULE FOR
CAPACITY AND DETAIL
DRAWING ON M#.
GF-2
GLYCOL FEEDER FOR
SNOWMELT WATER LOOP.
MAINTAIN 50% GLYCOL
FOR FREEZE PROTECTION.
B-2
BACK-UP ELEC.
BOILER.
BP-2
BOILER
CIRC. PUMP
B-1
BACK-UP ELEC.
BOILER.
BP-1
BOILER
CIRC. PUMP
TO SNOWMELT
ZONES, TYP
AHU-1
SUPPLY AIR
DUCTED TO VAV
TERMINALS
E
V
A
P
EXHAUST AIR
DUCTED FROM
RESTROOMS
OUTSIDE AIR
DUCTED FROM
INTAKE AREA
WELL
RELIEF/EXHAUST
AIR DUCTED TO
AREA WELL
BYPASS RETURN AIR
FROM MECHANICAL
ROOM PLENUM
RELIEF AIR FROM
MECHANICAL ROOM
PLENUM
CP-1
CP-2
DPT
DIFFERENTIAL PRESSURE
TRANSMITTER VALVE FOR CWP-1,2 VFD CONTROL
HEATING/COOLING DX COIL
W/ INTEGRAL WATER
SOURCE HEAT PUMP
ECONOMIZER HEATING/
COOLING COIL
EXHAUST
FAN WITH
VFD
CONTROL
ENERGY RECOVERY
WHEEL WITH VFD
CONTROL
FUTURE CONDENSER
WATER LOOP HEAT
REJECTION SYSTEM
BYPASS VALVE
FOR CWP-1,2 FLOW
CONTROL, CV OF ##
EXPANSION TANK. SEE
SCHEDULE FOR CAPACITY AND
DETAIL DRAWING ON M#.
AIR SEPARATOR.
SEE SCHEDULE FOR
CAPACITY AND DETAIL
DRAWING ON M#.
NON-POTABLE
WATER FEED
HWP-1,2
PRIMARY HEATING
WATER PUMPS.
VFD CONTROL. SEE
SCHEDULE FOR
CAPACITY AND DETAIL
DRAWING ON M#.
SMS/R WATER TO
WATER HEAT PUMP. SEE
SCHEDULE FOR
CAPACITY AND DETAIL
DRAWING ON M#.
HWS/R WATER TO
WATER HEAT PUMP. SEE
SCHEDULE FOR
CAPACITY AND DETAIL
DRAWING ON M#.
A
B
A
B
CS/CR TO CITY
HALL BASEMENT
MECHANICAL ROOM
CS/CR FROM SUMP
BASIN IN LOWER
LEVEL OF PARKING
GARAGE CP-1,2
COIL PUMPS.
VFD CONTROL. SEE
SCHEDULE FOR CAPACITY
AND DETAIL DRAWING ON M#.
NO SCALE
NO SCALE
BP-1,2,3
BOILER CIRCULATION PUMPS.
SEE SCHEDULE FOR
CAPACITY AND DETAIL
DRAWING ON M#.
4"
4"
4"
4"
4"
4"
4"
4"
4"
4"
4"
4"
3"
3"
3"
3"
3"
3"
3"3"
3"
3"
4"
4"
3"
3"
3"
3"
4"
4"
3"
3"3"
3"
3"
4"
4"
6"
6"
6"
6"
6"
6"
6"
6"
6"
6"
6"
6"
6"
6"
6"
6"
6"
6"
6"
6"
6"
6"
6"
6"6"
6" 6"
6"
BALANCE TO DIFFERENCE
BETWEEN SNOWMELT
MANIFOLD AND HEAT
PUMP FLOW RATES
RV-1
RV-2
RV-3
3"4"4"
CHARLES
CUNNIFFE
ARCHITECTS
COPYRIGHT CHARLES CUNNIFFE ARCHITECTSC
SHEET NO.
JOB NO.
2/
6
/
2
0
1
8
4
:
4
8
:
3
1
P
M
M6.01
2016.01.0223
MECHANICAL
SCHEMATICS
AS
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C
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ISSUE: DATE:
50% DD 10/30/17
100% DD 12/12/17
PERMIT 02/07/18
03/16/2019
S
~
~
~
~
S
PS
PS
S
LINER, THICKNESS
AS SPECIFIED.
QUADRANT
LOCK ASSEMBLY DUCT WRAP,
THICKNESS AS
SPECIFIED.
SHEETMETAL
DUCTWORK AS
SHOWN ON PLAN.
INSULATED FLEX DUCT, 5 FT
MAX LENGTH. PROVIDE WITH
MANUFACTURER'S EXTERNAL
90 DEG. SUPPORTING FLEX
ELBOW.
WORM DRIVE S.S.
CLAMP (ON INNER
LINER).
**ROUND TWIST-IN OR
LATERAL TAKE-OFF FITTING
W/MANUAL DAMPER,
HANDLE, AND LOCK NUT.
USE DUCT SEALANT
OR GASKETED
FITTING.
DUCTWORK
DOWNSTREAM OF
TERMINAL, TYP.
CEILING DIFFUSER
**FOR DIFFUSERS LOCATED ABOVE
INACCESSIBLE CEILINGS, PROVIDE
A REMOTE BALANCING DAMPER
ACTUATOR.
2-WAY COIL / EQUIPMENT ASSEMBLY
NO SCALE
PROVIDE MINIMUM 5 PIPE DIAMETERS
LENGTH OF STRAIGHT PIPE BETWEEN
CHECK VALVE AND FLOW INDICATOR.
FLEXIBLE EQUIPMENT
CONNECTOR, TYP.
SUCTION DIFFUSER.
TO FLOOR DRAIN.
PROVIDE MINIMUM 5 PIPE
DIAMETERS LENGTH OF
STRAIGHT PIPE PRIOR TO
CHECK VALVE.
ECCENTRIC INCREASER
PRESSURE GAUGE
PUMP
INERTIA BASE
4" CONC. BASE
PROVIDE MINIMUM 2 PIPE
DIAMETERS LENGTH OF
STRAIGHT PIPE BETWEEN
FLOW INDICATOR AND
ISOLATION VALVE.
ISOLATION VALVE,
TYPICAL.
NOTE:
OMIT FLOW INDICATOR WHEN
PUMP IS PROVIDED WITH VFD.
P/T TAP, TYP.
NOTES:
1) VERIFY EXACT PORT CONNECTION
LOCATION WITH MANUFACTURER FOR
PROPER FLOW DIRECTION.
2-WAY PUMPED COIL ASSEMBLY
NO SCALE
CHEMICAL FEEDER DETAIL
NO SCALE
BOILER PIPING DETAIL (HEATING WATER)
NO SCALE
SINGLE SUCTION PUMP ASSEMBLY
NO SCALE
RETURN AIR GRILLE
SOUND BOOT
NO SCALE
45° DUCT TAKE-OFF
NO SCALE
CABINET AND UNIT HEATER
PIPING SCHEMATIC
NO SCALE
3-WAY COIL / EQUIPMENT ASSEMBLY
NO SCALE
AIR CONTROL-EXPANSION TANK & AIR SEPARATOR-W/GLYCOL FEEDER DETAIL
NO SCALE
IN-LINE PUMP DETAIL
NO SCALE
GLYCOL FEEDER
ASSEMBLY - PACKAGED
NO SCALE
AIR CONTROL - EXPANSION TANK & AIR SEPARATOR - DETAIL
NO SCALE
3-WAY PUMPED COIL ASSEMBLY
NO SCALE
MAIN BRANCH
TAKE-OFF
NO SCALE
BUFFER TANK & DECOUPLING TANK DETAIL
NO SCALE
ROUND DUCT TAKE-OFF FITTINGS
NO SCALE
TYPICAL DIFFUSER CONNECTION DETAIL
NO SCALE
INERTIA BASE
4" CONC. BASE
FLEXIBLE EQUIPMENT
CONNECTOR, TYP
SUCTION DIFFUSER
TO FLOOR DRAIN
ISOLATION VALVE,
TYPICAL
NOTE:
OMIT FLOW INDICATOR WHEN
PUMP IS PROVIDED WITH VFD.
ECCENTRIC INCREASER
PRESSURE GAUGE
P/T TAP, TYP.
PROVIDE MINIMUM 5 PIPE
DIAMETERS LENGTH OF
STRAIGHT PIPE PRIOR TO
CHECK VALVE.
PROVIDE MINIMUM 2 PIPE
DIAMETERS LENGTH OF
STRAIGHT PIPE BETWEEN
FLOW INDICATOR AND
ISOLATION VALVE.
PROVIDE MINIMUM 5 PIPE DIAMETERS
LENGTH OF STRAIGHT PIPE BETWEEN
CHECK VALVE AND FLOW INDICATOR.
LONG RADIUS ELBOW
FLOW METER
VERTICAL IN-LINE PUMP ASSEMBLY (FLOOR MOUNTED)
NO SCALE
TYP.
15°
1D
15°
2D
1D
AI
R
F
L
O
W
3 DUCT DIA. MIN.
TURNING VANES
AIR FLOW
MANUAL BALANCING
DAMPER, TYP.
SPLIT SHOWN ON
DRAWINGS AS "D2-D1
SPLIT".
3'-0"
1'
-
0
"
NO TURNING VANES.
FIBERGLASS DUCT OR
SHEET METAL BOOT W/ 1"
DUCT LINER. MINIMUM
SIZE = 12x24.
SUSPEND FROM STRUCTURE
USING 2 STRAPS.
RETURN GRILLE
LATERAL TAKE-OFF FITTING
FLEX DUCT
AI
R
F
L
O
W
SPIN-IN FITTING
AI
R
F
L
O
W
FLEX DUCT
LATERAL TAKE-OFF FITTING
W/ MANUAL DAMPER,
HANDLE, & LOCK NUT.
USE GASKETED FITTING. ATTACH
PER MANUFACTURER'S
RECOMMENDATIONS.
WORM DRIVE S.S. CLAMP
(ON INNER LINER)
ROUND TWIST-IN FITTING
W/ MANUAL DAMPER,
HANDLE, & LOCK NUT.
USE DUCT SEALANT OR
GASKETED FITTING.
WORM DRIVE S.S. CLAMP
(ON INNER LINER).
DELETE MANUAL DAMPER WHEN
UPSTREAM OF VAV BOX.
W
45°
SEAL AIRTIGHT AROUND
ENTIRE TAKE-OFF.
MANUAL VOLUME
DAMPER.
1/4 OF "W" OR 6"
MINIMUM.
P/T PORT
CONTROL VALVE
AIR VENT
COIL
2" AND SMALLER
2-1/2" AND LARGER
SUPPLY
FLEX EQUIP CONN
STRAINER
24" FLEX HOSE
CALIBRATED BALANCING
VALVE W/INT P/T
PIPE PACKAGE PROVIDED WITH CNTRL VALVE,
PROVIDE REDUCERS AT CNTRL VALVE CONNECTION.
CWS/R: FAIL CLOSED TO PORT A
HWS/R: FAIL OPEN TO PORT A
CS/R: FAIL OPEN TO PORT A
AAB AABRETURNRETURN
SUPPLY
COIL
CALIBRATED BALANCING
VALVE W/INT. P/T
PIPE PACKAGE PROVIDED WITH CNTRL VALVE,
PROVIDE REDUCERS AT CNTRL VALVE CONNECTION.
A
B
AB A
B
AB
CWS/R: FAIL CLOSED TO PORT A
HWS/R: FAIL OPEN TO PORT A
CS/R: FAIL OPEN TO PORT A
COIL
2-1/2" AND LARGER
2" AND SMALLER
RETURN
24" FLEX HOSE
SUPPLY
COIL
FLEX EQUIP CONN
STRAINER
SUPPLY
CONTROL VALVE
RETURN
P/T PORT
AIR VENT
AIR VENT, PIPE
1/2" TO FLOOR
DRAIN, TYPICAL.
PIPE TO FLOOR
DRAIN.
DRAIN VALVE W/ HOSE
CONNECTION.
FLOOR
3/4" FROM GLYCOL FEEDER
PRESSURE GAUGE W/ GAUGE
COCK.
EXPANSION TANK.
4" CONC. PAD. (HORIZONTAL
TANKS SHALL BE
SUSPENDED FROM
STRUCTURE)
AIR SEPARATOR
OMIT VALVE WHEN
VENT PROVIDED
WITH SEPARATOR
INSERT TEE FOR PARALLEL TANK
CONNECTION
ANTI-THERMOSYPHON
LOOP, 12" MIN DROP.
N.O. VALVE W/LOCKING
COVER, TYP
CONNECT TO SIDE OF MAIN
FROM BOILER/CHILLER
TO PUMP
LOW PRESSURE SENSOR,
CONNECT TO BAS
PRESSURE RELIEF
VALVE (VALVE ON
BOILER/HTX IN HW
SYSTEM)
QUICK FILL PORT
AIR CONNECTION
3/4"
N.C.
RELIEF VALVE, PIPE DISCHARGE FULL
SIZE TO DRAIN OR TO GLYCOL FEEDER
TANK WHEN ONE IS PRESENT IN THE
SYSTEM.
RETURN
FROM
SYSTEM.
1" DRAIN PIPED TO
FLOOR DRAIN.
RETURN
SUPPLY
RETURN
SUPPLY
CONTROL
VALVE.
ROUTE DRAIN PIPE TO
FLOOR DRAIN.
TO PUMP DISCHARGE.
POT FEEDER
ASSEMBLY.
PLUG OR BALL
VALVES, TYP.
TO PUMP SUCTION.
TOP OF FEEDER NOT OVER 3
FT. ABOVE FLOOR.
3/4"
3/4"
FLOOR
SUPPORT
FROM
FLOOR.
PRESSURE GAUGE
PIPE TO
FLOOR DRAIN.
P/T PORT
CONTROL VALVE
AIR VENT
COIL
AB
B
A
5 PIPE DIAMS.
PR
I
M
A
R
Y
S
U
P
P
L
Y
PR
I
M
A
R
Y
R
E
T
U
R
N
SECONDARY RETURN
SECONDARY SUPPLY
CWS/R: FAIL CLOSED
HWS/R: FAIL OPEN
SUPPORT FROM FLOOR
OMIT COIL ISOLATION
VALVES IF DIST. < 25'
PRI/SEC PIPING BRIDLE
STRAINER
FLEX EQUIP CONN
AIR VENT, PIPE
1/2" TO FLOOR
DRAIN, TYPICAL.
PIPE TO FLOOR
DRAIN.
DRAIN VALVE W/ HOSE
CONNECTION.
FLOOR
N.C.
WATER FEEDER ASSEMBLY; SET SO
PRESSURE GAUGE READS __ PSIG.
FROM NP SUPPLY DOWNSTREAM OF
BACKFLOW PREVENTOR, CLOSE
FEED VALVE ONCE SYSTEM IS FULL.
PRESSURE GAUGE W/ GAUGE
COCK.
EXPANSION TANK.
4" CONC. PAD. (HORIZONTAL
TANKS SHALL BE
SUSPENDED FROM
STRUCTURE)
AIR SEPARATOR
OMIT VALVE WHEN
VENT PROVIDED
WITH SEPARATOR
INSERT TEE FOR PARALLEL TANK
CONNECTION
ANTI-THERMOSYPHON
LOOP, 12" MIN DROP.
N.O. VALVE W/LOCKING
COVER, TYP
CONNECT TO SIDE OF MAIN
FROM BOILER/CHILLER
TO PUMP
LOW PRESSURE SENSOR,
CONNECT TO BAS
PRESSURE RELIEF
VALVE (VALVE ON
BOILER/HTX IN HW
SYSTEM)
QUICK FILL MANUAL BYPASS, 3/4"
AIR CONNECTION
N.C.
3/4"
FLOOR
4" CONC. PAD.
GLYCOL FEEDER
COMPLETE WITH
TANK, PUMP,
CONTROLS,
PRESSURE
REGULATOR,
ACCUMULATOR TANK,
AIR PURGE.
FULL SIZE
DISCHARGE FROM
SYSTEM RELIEF
VALVE.
FLEXIBLE CONNECTOR
FIELD SET ISOLATION VALVE
AND CHECK VALVE
SYSTEM FILL
PRESS.
CS/R ## PSIG
SMS/R ## PSIG
P/T PORT, TYP.
SECONDARY SIDEPRIMARY SIDE
DRAIN VALVE WITH
HOSE
CONNECTION, TYP.
THERMOMETER, TYP.
FLANGE, TYP.
ISOLATION VALVE, TYP.
AIR VENT, TYP.
PRIMARY / SECONDARY
DECOUPLING BUFFER TANK
P/T PORT
CONTROL VALVE
AIR VENT
COILFLEX EQUIP CONN
STRAINER
AAB
SUPPORT FROM FLOOR
CWS/R: FAIL CLOSED
HWS/R: FAIL OPEN
SUPPLY TO SYSTEM.
HOUSEKEEPING PAD.
FLOOR.
PRESSURE GAUGE
CALIBRATED BALANCING SHUT-OFF VALVE
CALIBRATED
BALANCING
SHUT-OFF
VALVE
CHARLES
CUNNIFFE
ARCHITECTS
COPYRIGHT CHARLES CUNNIFFE ARCHITECTSC
SHEET NO.
JOB NO.
2/
6
/
2
0
1
8
4
:
4
8
:
3
2
P
M
M7.01
2016.01.0223
MECHANICAL
DETAILS
AS
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42
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ISSUE: DATE:
50% DD 10/30/17
100% DD 12/12/17
PERMIT 02/07/18
03/16/2019
S
S S
P/T PORT, TYP.
HOT SIDECOLD SIDE
DRAIN VALVE WITH HOSE
CONNECTION, TYP.
THERMOMETER, TYP.
STRAINER, TYP.
FLANGE, TYP.
ISOLATION VALVE, TYP.
PRESSURE GAUGE, TYP.
BALANCING VALVE, TYP.
3-WAY CONTROL VALVE,
TYP.
RELIEF VALVE
ISOLATION VALVE
STRAINER
BALANCING VALVE
CONTROL VALVE, PROVIDE BYPASS
LEG WITH BALANCING VALVE WHEN
3-WAY VALVE IS NOTED
MANIFOLD TEMPERATURE
VISUAL FLOW METER
PEX CONNECTION
UPONOR TRUFLOW MANIFOLD OR EQUIVALENT
MANIFOLD ENCLOSURE
MANIFOLD MANUAL AIR VENT
DRAIN W/HOSE THREAD
LOOP ISOLATION VALVE
LOOP BALANCE VALVE
GENERAL NOTES:
1) MANIFOLD SHALL BE LOCATED AS CLOSE TO SNOWMELT AS
POSSIBLE; IDEALLY LOCATE MANIFOLD ON EXTERIOR SIDE OF
WATERPROOFING. PROVIDE LINK SEAL ON SUPPLY PIPES AS THEY
PASS THROUGH WATERPROOFING. AVOID ROUTING PEX THROUGH
WATERPROOFING.
2) PROVIDE MANIFOLD LOOP COUNT AS NEEDED FOR ZONE LOOP
COUNT.
3) PROVIDE WITH MANUFACTURER'S MOUNTING BRACKETS
CONNECTED TO SUPPORTING STRUCTURE
4) INTERIOR MANIFOLD ENCLOSURE: ENCLOSURE SHALL BE METAL
WITH ACCESS DOOR.
5) EXTERIOR MANIFOLD ENCLOSURE - LANDSCAPED AREA:
ENCLOSURE SHALL BE PLASTIC OR POLYMER RATED FOR
LANDSCAPE INSTALLATION W REMOVABLE LID. PROVIDE ADEQUATE
DRAINAGE. COVER SHALL BE LABELED "SNOWMELT" WITH ZONE #
LISTED.
6) EXTERIOR MANIFOLD ENCLOSURE - PAVED AREA: ENCLOSURE
SHALL BE CONCRETE OR POLYMER RATED FOR TRAFFIC LOADING
WITH REMOVABLE LID. PROVIDE ADEQUATE DRAINAGE. COVER
SHALL BE LABELED "SNOWMELT" WITH ZONE # LISTED.
7) FIELD COORDINATE FINAL MANIFOLD LOCATION WITH ARCHITECT
AND LANDSCAPE PLANS; UPDATE SNOWMELT SUBMITTAL DRAWINGS
AS REQUIRED.
SNOWMELT - MANIFOLD DETAIL
P/T PORT, TYP.
LOAD SIDESOURCE SIDE
DRAIN VALVE WITH HOSE
CONNECTION, TYP.
THERMOMETER, TYP.
STRAINER, TYP.
FLANGE, TYP.
ISOLATION VALVE, TYP.
PRESSURE GAUGE, TYP.
BALANCING VALVE, TYP.
CONTROL VALVE, TYP.
RELIEF VALVE
FLEXIBLE EQUIPMENT
CONNECTOR, TYP.
AIR VENT, TYP.
NOTES:
1. REFER TO ARCH. DWG #
FOR STAIR DIMENSIONS.
2. TRANSITION 3/4" POLY-
BUTYLENE TO 3/4" TYPE
"L" COPPER AT ALL
STAIRS & LANDINGS.
3. REFER TO SHEET M FOR
STAIR TYPE 1,2, 3
LOCATIONS.
1-1/4"MORTAR AT
STAIR & LANDING.
3" SANDSTONE AT STAIR &
LANDING.
3/4" COPPER AT STAIRS &
LANDINGS.
3/4" POLYBUTYLENE HEAT
PIPE.
3"
STAIR #2
= 4 1/2"
STAIR #1 & 3
= 3 1/2"
9" O.C. TYP. FOR
ALL LANDINGS &
WALKS.
4
1
/
2
"
4
1
/
2
"
1 1/4"
2 1/2" MAX
18"
1/2" THICK ARMAFLEX INSULATION WIRE MESH
SNOWMELT TUBING
FOR LOCATION.
SEE STRUCTURAL DRAWINGS
EXPANSION JOINT TYP.
3" OVER OVER TOP OF THE TUBING
UNLESS OTHERWISE NOTED.CONCRETE SLAB
WATERPROOF
MEMBRANE
2" HIGH DENSITY RIGID
FOAM R10 INSULATION
STRUCTURAL
SLAB
2" INSULATION (R10 MIN)
1" EDGE INSULATION
BASE MATERIAL
SAND OR SETTING BED
PAVERS
WIRSBO FOAM STAPLE
WIRSBO TUBING
STRUCTURAL
WATERPROOF
MEMBRANE WIRE MESH
THE SUSPENDED TUBING
SUSPENDED
CONCRETE
3" COVER OVER TOP OF
WIRE TIE
SLAB
2" HIGH DENSITY FOAM
R10 INSULATION
UNLESS OTHERWISE NOTED
SNOWMELT TUBING
CIRCUIT SETTER
SMR
SMS
NOTES:
1) MAINTAIN CLEARANCE
FOR PLATE REMOVAL.
2) VERIFY EXACT PORT
CONNECTION LOCATION
WITH MANUFACTURER
FOR PROPER FLOW
DIRECTION.
PLATE & FRAME HEAT EXCHANGER PIPING DETAIL
NO SCALE
NO SCALE
NOTES:
1) MAINTAIN CLEARANCE
FOR UNIT MAINTENANCE
ACCESS
2) VERIFY EXACT PORT
CONNECTION LOCATION
WITH MANUFACTURER
3) PROVIDE CONTROL
VALVES WHERE LISTED.
4) PROVIDE CIRCULATION
PUMPS WHERE LISTED.
WATER TO WATER HEAT PUMP PIPING DETAIL
NO SCALE
SNOWMELT CONNECTION STAIR TO WALKNO SCALE
SNOWMELT - EXPANSION JOINTNO SCALE SNOWMELT - PAVERS OVER SAND BEDNO SCALE
SNOWMELT - TOPPING SLAB ON SLABNO SCALE
24/24
24/24
30/54
30/54
24/24
24/24
40/28
FS
FS
FS
FS
FS
24/1624/16
24/1624/16
54/34
54/34
34/32
FS
FS
FS
FS
FS
18/18
16/16
FS
6/6
14/14
12/12
FS
FS
FS
12/12
10/14
6/6
14/14
12/12
10/14
6/6
14/14
14/14
32/16
62/36
32/22
62/36
32/22
62/36
66/36
32/16
FS
FS
FS
FS
FS
36/36
38/26
38/26
54/28
60/28
28/26
28/26
60/28
60/28
28/36
FS
FS
FS
FS
FS
FS
CHARLES
CUNNIFFE
ARCHITECTS
COPYRIGHT CHARLES CUNNIFFE ARCHITECTSC
SHEET NO.
JOB NO.
2/
6
/
2
0
1
8
4
:
4
8
:
3
3
P
M
M7.02
2016.01.0223
MECHANICAL
DETAILS
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42
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NO SCALE5
EAST DUCT SHAFT RETURN
AIR RISER DIAGRAM
NO SCALE4
EAST DUCT SHAFT SUPPLY
AIR RISER DIAGRAM
NO SCALE3
EXHAUST AIR DUCT RISER
DIAGRAM
NO SCALE2
WEST DUCT SHAFT SUPPLY
AIR RISER DIAGRAM
NO SCALE1
WEST DUCT SHAFT RETURN
AIR RISER DIAGRAM
MAIN LEVEL
MIDDLE LEVEL
MAIN LEVEL
MIDDLE LEVEL
MAIN LEVEL
MIDDLE LEVEL
UPPER LEVEL
MAIN LEVEL
MIDDLE LEVEL
UPPER LEVEL
MAIN LEVEL
MIDDLE LEVEL
UPPER LEVEL
ISSUE: DATE:
50% DD 10/30/17
100% DD 12/12/17
PERMIT 02/07/18
03/16/2019
Ducts must be
contained in FR shaft
enclosures.
FAN SCHEDULE
ITEM TYPE AREA CFM ESP DRIVE SONES MOTOR DATA OP WT MANUFACTURER CONTROLS
SERVED INWC TYPE BHP H.P. RPM V-PH STRTR LBS & MODEL NO.
EF-1 INLINE TRASH ROOM 800 0.25 DIRECT 10.1 - 1/6 1725 120-1 MAG-HOA 65 COOK 10CV17D DDC
EF-2 INLINE PUMP ROOM 800 0.10 DIRECT 13.9 - 1/6 1725 120-1 MAG-HOA 76 COOK 12D17 DDC
EF-3 INLINE KITCHEN 400 0.25 DIRECT 11.0 - 1/2 1725 120-1 MAG-HOA 155 COOK 90QMX DDC
NOTES:
1. PROVIDE INTEGRAL FUSED DISCONNECT SWITCH, BACKDRAFT DAMPER, VIBRATION ISOLATORS, AND FLEX CONNECTIONS ON INLET AND OUTLET.
MARK TYPE
AREA
SERVED
PRIMARY AIRFLOW FAN MOTOR DATA HEATING COIL CAPACITY
DUCT
INLET
SIZE
IN
UNIT
SIZE
FILTER
MANUFACTURER
& MODEL NO.NOTES CONTROLS
COOLING
HTG
CFM
FAN
CFM
ESP
INWC HP V-PH TYPE
CAP.
MBH EAT °F LAT °F
HEATING WATER
SIZE RATINGMAX MIN
EWT °F LWT °F
NOTE-2 GPM WPD
FT GLY %RUNOUT
SIZECFM CFM
FPVAV-1 PARALLEL MAIN LEVEL OFFICES 1800 570 570 1800 1 1 120-1 ECM 61 62 90 130 110 6 10 -1 16 50 1 IN MERV 7 PRICE FDV5
1,2,3 DDC
FPVAV-2 PARALLEL MAIN LEVEL OFFICES 1800 570 570 1800 1 1 120-1 ECM 61 62 90 130 110 6 10 - 1 16 50 1 IN MERV 7 PRICE FDV5
1,2,3 DDC
FPVAV-3 PARALLEL MIDDLE LEVEL OFFICES 1800 570 570 1800 1 1 120-1 ECM 61 62 90 130 110 6 10 - 1 16 50 1 IN MERV 7 PRICE FDV5
1,2,3 DDC
FPVAV-4 PARALLEL MIDDLE LEVEL OFFICES 1800 570 570 1800 1 1 120-1 ECM 61 62 90 130 110 6 10 -1 16 50 1 IN MERV 7 PRICE FDV5
1,2,3 DDC
FPVAV-5 PARALLEL UPPER LEVEL OFFICES 1800 570 570 1800 1 1 120-1 ECM 61 62 90 130 110 6 10 - 1 16 50 1 IN MERV 7 PRICE FDV5
1,2,3 DDC
FPVAV-6 PARALLEL UPPER LEVEL OFFICES 1800 570 570 1800 1 1 120-1 ECM 61 62 90 130 110 6 10 - 1 16 50 1 IN MERV 7 PRICE FDV5
1,2,3 DDC
NOTES:1) THE NOTED LWT IS A DESIRED TARGET ONLY AND AS SUCH DURING ACTUAL COIL SUBMITTAL THIS VALUE CAN VARY WITHIN A +/- 10 °F RANGE OF THE LISTED VALUE
2) UNIT SHALL BE PROVIDED WITH COMBINED SINGLE POINT POWER AND NON-FUSED DISCONNECT FOR FAN AND CONTROLS
3) TWO ROW HIGH CAPACITY COIL ON DISCHARGE
FAN POWERED VAV CONTROL BOX SCHEDULE
ITEM SERVICE CFM MAX. S.P. VELOCITY MIN. FREE SIZE MANUFACTURER & NOTES
DROP FPM AREA WIDTH HEIGHT MODEL #
IN.SQ.FT.IN. IN.
SL-1 AHU-1 INTAKE 35,000 0.03 1000 35.00 168 60 GREENHECK ESD-435 1
SL-2 AHU-1 RELIEF
20,000 0.15 1000 20.00 120 48 GREENHECK ESD-435 1
SL-3 GENERATOR INTAKE
7,000 0.03 500 14.00 84 48 GREENHECK ESD-435 1
SL-4 GENERATOR HEAT REJECTION
7,000 0.15 800 8.75 60 42 GREENHECK ESD-435 1
SL-5 FUTURE INTAKE
7,000 0.17 700 10.00 60 42 GREENHECK ESD-435 1
SL-6 FUTURE RELIEF 8,750 0.03 1000 8.75 60 42 GREENHECK ESD-435 1
SL-7 PUMP ROOM INTAKE 800 0.03 700 1.14 24 12 GREENHECK ESD-435 1
SL-8 PUMP ROOM EXHAUST 800 0.03 1000 0.80 16 12 GREENHECK ESD-435 1
SL-9 TRASH ROOM 800 0.17 1000 0.80 16 12 GREENHECK ESD-435 1
SL-10 KITCHEN 400 0.03 1000 0.40 12 12 GREENHECK ESD-435 1
SL-11 GARAGE EXHAUST
40,250 0.03 1000 40.25 92 126 GREENHECK ESD-435 1
NOTES:1. PROVIDE WITH 1/2" x 1/2" BIRDSCREEN ON INSIDE FACE AND EXTENDED SILL, ANODIZED FINISH, COLOR AS SELECTED BY ARCHITECT
STATIONARY LOUVER SCHEDULE
UNIT / CABINET HEATER SCHEDULE
ITEM TYPE SERVICE MBH HEATING WATER AIR MOTOR DATA PIPE DIMENSIONS MANUFACTURER &NOTES CONTROLS
EWT LWT %GPM WPD CFM EAT LAT NO. HP V-PH FLA SIZE W D H MODEL #
°F °F GLY FT F F MOTORS IN IN IN IN
CUH-1 VERT. SLOPE TOP STAIR 15.1 130 120 30 3.0 1.5 420 60 105 1 1/4 120-1 1.12 3/4 50.2 10 24 ZEHNDER RITTLING
RWI-310 1, 2, 3 DDC
CUH-2 RECESSED CEILING MENS 102 19.5 130 110 30 1.9 3.5 560 60 100 1 1/4 120-1 160.00 3/4 31 27 10 ENVIRO-TEC HLP30
1, 2, 6 DDC
CUH-3 RECESSED CEILING WOMENS 103 19.5 130 110 30 1.9 3.5 560 60 100 1 1/4 120-1 160.00 3/4 31 27 10 ENVIRO-TEC HLP30 1, 2, 6 DDC
CUH-4 VERT. RECESSED STAIR 15.1 130 120 30 3.0 1.5 420 60 105 1 1/4 120-1 1.12 3/4 50.2 10 24
ZEHNDER RITTLING
RFRWI-350 1, 2, 5 DDC
CUH-5 RECESSED CEILING VESTIBULE 107 19.5 130 110 30 1.9 3.5 560 60 100 1 1/4 120-1 160.00 3/4 31 27 10 ENVIRO-TEC HLP30
1, 2, 6 DDC
CUH-6 RECESSED CEILING MENS 202 19.5 130 110 30 1.9 3.5 560 60 100 1 1/4 120-1 160.00 3/4 31 27 10 ENVIRO-TEC HLP30
1, 2, 6 DDC
CUH-7 RECESSED CEILING WOMENS 203 19.5 130 110 30 1.9 3.5 560 60 100 1 1/4 120-1 160.00 3/4 31 27 10 ENVIRO-TEC HLP30
1, 2, 6 DDC
CUH-8 RECESSED CEILING MENS 302 19.5 130 110 30 1.9 3.5 560 60 100 1 1/4 120-1 160.00 3/4 31 27 10 ENVIRO-TEC HLP30
1, 2, 6 DDC
CUH-9 RECESSED CEILING WOMENS 303 19.5 130 110 30 1.9 3.5 560 60 100 1 1/4 120-1 160.00 3/4 31 27 10 ENVIRO-TEC HLP30
1, 2, 6 DDC
CUH-10 RECESSED CEILING VESTIBULE307 19.5 130 110 30 1.9 3.5 560 60 100 1 1/4 120-1 160.00 3/4 31 27 10 ENVIRO-TEC HLP30 1, 2, 6 DDC
CUH-10 RECESSED CEILING ELEVATOR VEST. 19.5 130 110 30 1.9 3.5 560 60 100 1 1/4 120-1 160.00 3/4 31 27 10 ENVIRO-TEC HLP30 1, 2, 6 DDC
UH-1 HORIZONTAL MECH 130.0 130 120 30 2.5 0.2 730 60 76 1 1/15 120-1 0.72 3/4 19.8 12.3 19
ZEHNDER RITTLING
RH-47 2 DDC
UH-2 HORIZONTAL TRASH 108 130.0 130 120 30 2.5 0.2 730 60 76 1 1/15 120-1 0.72 3/4 19.8 12.3 19
ZEHNDER RITTLING
RH-47 2 DDC
UH-3 HORIZONTAL MECH 130.0 130 120 30 2.5 0.2 730 60 76 1 1/15 120-1 0.72 3/4 19.8 12.3 19 ZEHNDER RITTLING
RH-47 2 DDC
UH-4 HORIZONTAL STORAGE 006 130.0 130 120 30 2.5 0.2 730 60 76 1 1/15 120-1 0.72 3/4 19.8 12.3 19
ZEHNDER RITTLING
RH-47 2 DDC
UH-5 HORIZONTAL STORAGE 006 130.0 130 120 30 2.5 0.2 730 60 76 1 1/15 120-1 0.72 3/4 19.8 12.3 19
ZEHNDER RITTLING
RH-47 2 DDC
NOTES:1. HIGH CAPACITY TWO ROW COIL, 2. PROVIDE UNIT DISCONNECT, 3. INVERTED FLOW - TOP INLET, FRONT TOE SPACE DISCHARGE, 4. BOTTOM INLET, HORIZONTAL DUCT DISCHARGE
5. INVERTED FLOW RECESSED UNIT, FRONT TOP INLET, FRONT BOTTOM DISCHARGE, 6. FRONT TOP BAR GRILLE OUTLET, FRONT TOE SPACE INLET.
MARK ZONE
AIR FLOW HEATING COIL CAPACITY DUCT
INLET
SIZE
IN
MANUFACTURER
& MODEL NO.NOTES CONTROLSMAX
CLG
CFM
MIN
CFM
MAX
HTG
CFM
CAP.
MBH EAT °F LAT °F
HTG WATER
EWT °F LWT °F
NOTE 2 GPM WPD
FT GLY %RUNOUT
SIZE
VAV-1 ELEC 006 400 100 - - - - - - - - - -6 KRUEGER LMHS 1 DDC
VAV-2 ELEC 106 400 100 - - - - - - - - - - 6 KRUEGER LMHS 1 DDC
VAV-3 ELEC 206 400 100 - - - - - - - - - - 6 KRUEGER LMHS 1 DDC
VAV-4 ELEC 306 400 100 - - - - - - - - - - 6 KRUEGER LMHS 1 DDC
VAV-5 STORAGE 106 400 180 - - - - - - - - - - 4 KRUEGER LMHS 1 DDC
NOTES:1) VAV BOX IS COOLING ONLY. NO COIL TO BE PROVIDED.
VAV CONTROL BOX SCHEDULE
EQUIP
TAG TYPE FA SIZE IN.
MOUNTING
TYPE
DAMPER
REQUIRED MATERIAL MANUFACTURER &
MODEL NO.PLAN INFO SPECIFIC NOTES
D SUPPLY REGISTER --- --- YES STL/ALUM KRUEGER AF880 NECK / CFM 2
F ARCHITECTURAL LINEAR SLOT DIFFUSER SEE PLANS --- YES ALUMINUM TITUS FL #SLOTS-LENGTH / CFM
5, 7
K RETURN GRILLE --- --- SEE NOTES STEEL KRUEGER S80H NECK / CFM*
2, 3
L ARCHITECTURAL LINEAR SLOT RETURN/EXHAUST SEE PLANS --- NO ALUMINUM KRUEGER DFRH #SLOTS-LENGTH / CFM*
3, 7, 9
S TRANSFER GRILLE --- --- SEE NOTES STEEL KRUEGER S80H NECK / CFM*
2, 3
GENERAL NOTES:
1. SEE PLANS FOR NECK SIZE
2. ALL GRDs REQUIRING DAMPERS SHALL BE EQUIPPED WITH A REMOTE BALANCING DAMPER THAT IS ADJUSTABLE THROUGH THE GRD FACE OR
ANOTHER APPROVED LOCATION UNLESS SUPPLIED FROM AN ACCESSIBLE TAKE-OFF WITH LOCKING DAMPER.
3. VERIFY GRD FINISH AND CLG/WALL/SILL/FLOOR MOUNTING TYPE WITH ARCHITECT FOR EACH APPLICATION PRIOR TO ORDERING.
4. PROVIDE 4-WAY THROW FOR DIFFUSERS UNLESS OTHERW ISE SHOWN ON PLANS.
5. PROVIDE MANUFACTURERS ROUND TO RECTANGULAR ADAPTIVE COLLAR FOR DIFFUSERS AND GRILLES AS REQUIRED, MATCH DUCT SIZE AND TYPE
6. MATERIAL SHALL BE STEEL UNLESS OTHERWISE INDICATED OR SPECIFIED. MATERIAL SHALL BE SUITABLE FOR INSTALLED ENVIRONMENT. FOR WET
LOCATIONS SUCH AS LOCKER ROOMS, RESTROOMS, SHOW ER ROOMS, KITCHENS, POOL ROOMS, ETC....PROVIDE ALUMINUM.
* WHERE CFM IS INDICATED ON PLANS FOR RETURN AND TRANSFERS, BALANCE TO AIRFLOW INDICATED.
SPECIFIC NOTES:
1. FOR THE INLET (NECK) SIZE CALLED FOR ON THE PLAN PROVIDE THE FOLLOWING BACKPAN SIZES: 6" (9x9"), 8" (9x9"), 10" (12x12"), 12" (15x15")
2. PROVIDE SMALLEST FACE AVAILABLE FOR NECK LISTED IN PLANS
3. PROVIDE DAMPER FOR A DUCTED RETURN/TRANSFER AIR SYSTEM THAT REQUIRES AIR BALANCE AT RETURN/TRANSFER OPENINGS AS INDICATED BY
AIRFLOW (CFMs) ON DRAWINGS.
4. AS IDENTIFIED ON THE PLANS PROVIDE 12"x24" FACE FOR 10"x22" NECKS, PROVIDE 24"x24" FACE FOR 22"x22" NECKS
5. PROVIDE THE MANUFACTURERS INSULATED SUPPLY PLENUM OVER THE ACTIVE SECTIONS OF THE DIFFUSER UNLESS NOTED OTHERWISE ON THE PLAN. PROVIDE
DUCT TRANSITIONS TO ACCOMMODATE ANY PLENUM WITH OVAL DUCT CONNECTIONS. WHERE REQUIRED PROVIDE BLANK-OFF ON NON-ACTIVE SECTIONS.
6. PROVIDE 3/4" SLOT WIDTH.
7. PROVIDE 1" SLOT WIDTH.
8. PROVIDE BACKPAN WHERE CONNECTED TO DUCT OR SOUND BOOT; WHERE NOT DUCT OR SOUND BOOT IS PRESENT PROVIDE PERFORATED PANEL ONLY.
GRILLES, REGISTERS, & DIFFUSERS SCHEDULE
CHARLES
CUNNIFFE
ARCHITECTS
COPYRIGHT CHARLES CUNNIFFE ARCHITECTSC
SHEET NO.
JOB NO.
2/
6
/
2
0
1
8
4
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4
8
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3
3
P
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M8.01
2016.01.0223
MECHANICAL
SCHEDULES
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ISSUE: DATE:
50% DD 10/30/17
100% DD 12/12/17
PERMIT 02/07/18
03/16/2019
Air handlers operating in excess of 2,000 CFM
must have smoke detectors in the return air
system per IMC 606.
GLYCOL FEEDER SCHEDULE
ITEM SERVICE
TANK
CAPACITY
GAL.
% PROP.
GLYCOL
FILL
PRESS.
PSI
V-Ø OP. WT.
LBS.MANUFACTURER & MODEL NO. NOTES CONTROLS
GF-1 CONDENSER 55 30 22 115-1 400 AXIOM INDUSTRIES SF100 ALL DDC
GF-2 SNOWMELT 17 50 22 115-1 400 AXIOM INDUSTRIES MF300 ALL DDC
GENERAL NOTES:
1) USE PROPYLENE GLYCOL, SOLUTION CONCENTRATION AS INDICATED.
2) CONTRACTOR SHALL FIELD VERIFY FILL PRESSURE AND RELIEF VALVE PRESSURE SETTING WITH ALL COMPONENTS INCLUDING
TOP OF SYSTEM AIR VENTS TO ENSURE PROPER SYSTEM OPERATION.
3) UNIT SHALL BE CONTROLLED THROUGH ITS INTERNAL CONTROLS, DDC TO MONITOR ALARMS.
ELECTRIC BOILER SCHEDULE (HOT WATER)
ITEM SERVICE TYPE
CAPACITY STEPS
E.W.T.
°F
L.W.T.
°F
PROP.
GLYCOL
%
DESIGN
FLOW
GPM
MIN.
FLOW
GPM
MAX
PRESS.
DROP FT
WC
BOLER
RELIEF
PRESS
PSI
ELECTRICAL DIMENSIONS
OP. WT.
LBS.MANUFACTURER & MODEL NO. NOTES CONTROLS
MBH KW
QTY KW
V-PH FLA
W D H
(EACH)IN. IN. IN.
B-1 HEATING ELECTRIC 768 225 8 28.1 45 75 30 51 25 5.0 50 208-3 624.5 32 36 61 1100 LATTNER S-225HW-2083
2,3 DDC
B-2 HEATING ELECTRIC 768 225 8 28.1 45 75 30 51 25 5.0 50 208-3 624.5 32 36 61 1100 LATTNER S-225HW-2083
2,3 DDC
B-3 HEATING ELECTRIC 768 225 8 28.1 45 75 30 51 25 5.0 50 208-3 624.5 32 36 61 1100 LATTNER S-225HW-2083 1 DDC
GENERAL NOTES (APPLY TO ALL PRODUCT):
1) BOILER IS INTENDED FOR FUTURE INSTALLATION, AND SHOULD NOT BE INCLUDED IN BASE BID SCOPE. SUPPLY AND RETURN PIPING SHALL BE STUBBED OUT, VALVED, AND CAPPED PER DRAWINGS.
2) CONTROLS: DDC = DIRECT DIGITAL CONTROLS BY 23 0900, BMS = BOILER MANAGEMENT SYSTEM PROVIDED BY BOILER MANUFACTURER, OTHER = SEE NOTES
3) INSTALL BOILER AND PIPING TO BOILER PER SELECTED MANUFACTURERS WRITTTEN INSTRUCTIONS
PUMP SCHEDULE
ITEM TYPE SERVICE GPM
PROP.
GLY.
%
TOTAL
HEAD FT.
W.C.
EFF
%
IMP.
DIA.
(IN)
MOTOR DATA
OP. WT.
LBS.MANUFACTURER & MODEL NO.NOTES CONTROLS
HP BHP RPM V-PH STRTR
GWP-1,2 VERT. TURBINE GROUND WATER 420 0 75 73 6.28 15 10.4 1750 208-3 VFD AURORA 10EM-SS DDC
CWP-1,2 BASE MT'D CONDENSER WATER 840 30 85 82 10.19 25 20.34 1750 208-3 VFD 725 AURORA 3800 - 4x5x11 DDC
HWP-1,2 INLINE HEATING WATER PRIMARY 150 0 60 69 7.81 5 3.28 1750 208-3 VFD 215 AURORA 380 - 3x3x9A DDC
HWP-3,4 INLINE HEATING WATER SECONDARY 130 0 60 58 8.69 5 3.41 1750 208-3 VFD 200 AURORA 380 - 2x2x9A DDC
SMP-1 INLINE SNOWMELT PRIMARY 150 50 80 66 8.75 7 1/2 4.87 1750 208-3 VFD 225 AURORA 380 - 2.5x2.5x9 DDC
BP-1,2,3 INLINE BOILER PRIMARY 55 30 55 50 7.50 2 1.6 1750 208-3 VFD 160 AURORA 380 - 1.5x1.5x9B DDC
CP-1 INLINE WATER SOURCE DX COIL 250 30 45 72 7.25 5 4.09 1750 208-3 VFD 215 AURORA 380 - 3x3x9B DDC
CP-2 INLINE FUTURE CONDENSER WATER 130 30 45 66 6.94 3 2.32 1750 208-3 VFD 205 AURORA 380 - 3x3x9A DDC
GENERAL NOTES:
1) CONTROLS: DDC = DIRECT DIGITAL CONTROLS BY 23 0900, INT = INTEGRAL, INTRL = INTER LOCKED WITH OTHER EQUIPMENT (SEE NOTES)
SPECIFIC NOTES:
AIR/DIRT SEPARATOR SCHEDULE
ITEM DEVICE-TYPE SERVICE
UNIT
PIPE
SIZE IN.
SEPERATOR PROCESS DESIGN FLOW
GPM
MAX PRESS.
DROP FT WC
DIMENSIONS
OP. WT. LBS. MANUFACTURER & MODEL NOTESW (FLANGE TO
FLANGE) IN.HT. IN.
AS-1 AIR AND DIRT SEPARATOR CONDENSER 8 FULL FLOW COALESCING 750 3 33.6 51.8 686 SPIROTHERM VDN800 1
AS-2 AIR AND DIRT SEPARATOR HEATING WATER 3 FULL FLOW COALESCING 130 3 20.2 31.4 202 SPIROTHERM VDN300 1
AS-3 AIR AND DIRT SEPARATOR SNOWMELT 4 FULL FLOW COALESCING 150 3 20.6 31.4 240 SPIROTHERM VDN2400 1
GENERAL NOTES:
1) BASIS OF DESIGN USES COALESCING SEPARATOR PROCESS; ANY TANGENTIAL ALTERNATES WOULD NEED TO BE SIZED AT 2 FPS MAX VELOCITY.
2) CONTRACTOR SHALL PROVIDE ECCENTRIC TRANSITIONS AT UNIT CONNECTION AS REQUIRED.
SPECIFIC NOTES:
1) PROVIDE AIR/DIRT SEPARATOR WITH REMOVABLE LOWER HEAD TO FACILITATE CLEANING. PROVIDE WITH SOLENOID VALVE FOR AUTOMATED PURGING; CONTROLLED VIA DDC SYSTEM ON ADJUSTABLE TIME INTERVAL.
EXPANSION TANK SCHEDULE
ITEM SERVICE MIN. TANK BRANCH %FILL DIAMETER OP MANUFACTURER &
ACCEPTANCE PIPE SIZE GLYCOL PRESS.
(IN)WGT MODEL
VOL GAL IN LBS
ET-1 CONDENSER WATER 21.5 3/4 30% 21.3 20 503 B&G B-130LA
ET-2 HEATING WATER 79.4 1 0% 30.0 24 1629.6 B&G B-500
ET-3 SNOWMELT 43.4 1 50%30.0 24 1067.2 B&G B-300
NOTES:
HEAT EXCHANGER SCHEDULE (PLATE AND FRAME WATER TO WATER)
ITEM TYPE SERVICE
CAP.COLD SIDE (CONDENSER LOOP) HOT SIDE (GROUNDWATER)MAX. WIDTH HEIGHT OP
PLATE
MATERIAL
MANUFACTURER
& MODEL NO.NOTESMBH EWT LWT P.G. GPM WPD EWT LWT P.G. GPM WPD LENGTH IN IN WGT
°F °F % FT °F °F % FT IN LBS
HX-1,2 FLAT PLATE GROUNDWATER COND. LOOP 860 39.0 45.0 30 304.0 11.1 48.0 43.0 0 344 11.3 40 20.5 92.5 4500 DOUBLE WALL 316 SS BELL & GOSSETT GPX-P64 DW 2
NOTES: 1. HOT SIDE FLUID IS GROUND WATER. HEAT EXCHANGER SHALL BE CONSTRUCTED OF MATERIALS APPROPRIATE FOR USE WITH FLUID.
2. PROVIDE FRAME LARGE ENOUGH TO ACCOMMODATE 25% ADDITIONAL PLATES.
WATER-TO-WATER HEAT PUMP SCHEDULE
ITEM SERVICE SOURCE SIDE LOAD SIDE EFFICIENCY ELECTRICAL OP DIMENSIONS MANUFACTURER NOTES CON-
HEATING CAPACITY HEATING CAPACITY
@ CONDITIONS WGT L W H & MODEL NO.TROLS
CAP.EWT LWT P.G. FLOW WPD CAP.EWT LWT P.G. FLOW WPD KW COP V-PH FLA MCA MOCP LBS IN IN IN
MBH °F °F %GPM FT MBH °F °F %GPM FT
WWHP-1,2 HEATING 536.0 45.0 37.9 30%150.0 12.8 745.0 120.0 129.9 0%150.0 12.7 71.8 3.00 208-3 249 280 400 2305 55.5 34 65.1 CLIMATEMASTER TMW 840 ALL DDC
WWHP-3 SNOWMELT 536.0 45.0 37.9 30% 150.0 12.8 721.0 100.0 129.6 50% 150.0 12.7 71.0 3.00 208-3 249 280 400 2305 55.5 34 65.1 CLIMATEMASTER TMW 840 ALL DDC
NOTES:
WATER FILTRATION SCHEDULE
ITEM SERVICE
FLOW
(GPM)
98%
FILTER
MICRONS
PRESS.
DROP
(PSI)
OP. WT.
LBS.MANUFACTURER & MODEL NO. NOTES CONTROLS
WF-1 GROUND WATER 350 74 7 900 LAKOS HTX-0285 ALL DDC
GENERAL NOTES:
1) PROVIDE AUTOMATIC ELECTRIC BALL VALVE FOR PURGE.
BUFFER TANK SCHEDULE
ITEM SERVICE TANK NUMBER PIPE PROP. OPERATING DIAMETER INSULATION OP MANUFACTURER &
VOLUME OF PORTS IN/OUT GLYCOL PRESSURE
(IN)THICKNESS WGT MODEL
(GAL) (IN)%(PSIG) (IN)LBS
BT-1 HEATING WATER 200 4 4 / 4 0%50 40 1.5 2504 AMTROL HWBT200-4
NOTES:
SNOWMELT SCHEDULE
SNOWMELT AREA AREA BTUH TOTAL BTUH ESTIMATED LOOPS ACTIVE LOOP TOTAL LOOP FLOW PER TOTAL GPM TOTAL GLYCOL
ZONE FT. SQ.SQ./FT.AT 6" O.C.LENTGH (FT.) LENTGH (FT.)LOOP HEAD %
(GPM)FT. W.C.
SZ-1 953 SIDEWALK/MAIN ENTRY 157 149,240 9 953 973 7.0 63.0 -50
SZ-2 1,565 STAIRS/PLAZA 175 273,875 14 783 803 5.7 79.8 -50
SZ-3 412 SIDEWALK 157
64,684 4 165 185 1.2 4.8 - 50
SZ-4 1,400 PLAZA 157
219,240 13 280 300 2.0 26.0 - 50
SZ-5 160 PLAZA 157
25,120 2 36 56 0.3 0.5 - 50
SZ-6 300 AREA WELL 157 46,980 3 100 120 0.7 2.2 -50
NOTES: 1. EACH ZONE TO HAVE SLAB TEMPERATURE/MOISTURE SENSOR AND CONTROL VALVES SO AS ZONES CLEAR THEY CAN SHUT OFF HEAT WHEEL SCHEDULE
ITEM SENSIBLE WHEEL NOTES:
HEATING CAPACITY COOLING CAPACITY
OUTSIDE/SUPPLY AIR EXHAUST AIR OUTSIDE/SUPPLY AIR EXHAUST AIR
EDB LDB LWB EDB EWB DESIGN EDB/EWB LDB LWB EDB EWB
CFM OF OF OF CFM OF OF CONDITION CFM OF OF OF CFM OF OF
AHU-1 10,500 -15 50 35 24500 70 50 DB CASE
10,500 83.9/54.7 77 53.3
24,500 75.0 56.0
1,2
NOTES:
1. HEAT WHEEL TO BE PROVIDED IN THE ASSOCIATED AHU AND NOT AS A SEPARATE UNIT.
2. HEAT WHEEL SHALL MEET SCHEDULED HEATING PERFORMANCE WITHOUT THE USE OF SUPPLEMENTAL HEAT OR DEFROST CONTROL.
AIR HANDLING UNIT SCHEDULE CONTINUED
ITEM SERVICE ECONIMIZER COIL DATA HEAT PUMP COIL DATA (FUTURE) CONDENSER WATER COOLING COIL DATA UNIT ELEC REQ.DIMENSIONS OP MANUFACTURER NOTES CON-
HEATING
DATA
CAP. EAT LAT GPM PIPE EWT LWT GLYC MAX dP
HEATING DATA
CAP. EAT LAT GPM PIPE EWT LWT GLYC MAX dP CAP. EAT LAT GPM PIPE EWT LWT GLYC MAX dP MCA MOCP FLA W L H WGT & MODEL NO.TROLS
MBH °F °F SIZE °F °F % WATER AIR MBH °F °F SIZE °F °F % WATER AIR MBH °F °F SIZE °F °F % WATER AIR
(IN) (IN) (IN)LBS
@ ALT (IN)FT IN
@ ALT (IN)FT IN
@ ALT (IN)FT IN
AHU-1 ASPEN CITY OFFICES
113 64.0 67
23 2
75 85
30 5.0 0.5
227 64.0 70
243 4.0
45 41
30 5.5 0.5 1250 77.0 85 250 4 85 75 30 5.0 0.5 521.0 600.0 500.0 126.0 453.0 132.0
32,500 ANNEXAIR ALL DDCCOOLING
DAtA 113 75.7 72 50 60 COOLING DATA 896 76.0 52 75 85
NOTES:
PROVIDE SPACE FOR FUTURE CHARCOAL FITRATION.
AIR HANDLING UNIT SCHEDULE
ITEM SERVICE SUPPLY AIR FAN DATA RETURN FAN DATA CONSTANT VOLUME TOILET EXHAUST FAN DATA (FUTURE) INDIRECT EXHAUST AIR EVAPORATIVE COOLER - COOLING
CAPACITY
CLG MIN. MAX. HTG FAN ESP TSP MOTOR DATA CFM FAN ESP TSP MOTOR DATA CFM FAN ESP TSP MOTOR DATA EAT EAT LAT LAT EVAP MEDIA MAX
CFM OSA OSA CFM TYPE IN. WC IN. WC NOM. HP BHP QTY V-PH STRTR TYPE IN. WC IN. WC NOM. HP BHP QTY V-PH STRTR TYPE IN. WC IN. WC NOM. HP BHP QTY V-PH STRTR DESIGN DB WB DB WB EFF WIDTH APD
CFM CFM
@ ALT @ ALT RPM @ ALT @ ALT RPM @ ALT @ ALT RPM CONDITION °F °F °F °F % IN IN
AHU-1 ASPEN CITY OFFICES 35,000 9,400 10,500 35,000 PLENUM 2.0 5.6 1800 20 15.5 4 208-3 VFD 22,000 PLENUM 2.0 4.7 1200 30 24.3 2 208-3 VFD 2,500 DIRECT
DRIVE 1.0 1.4 1800 2 1.5 1 208-3 VFD DB 77.0 53.0 60.0 55.0 75.0 12.0 0.50
NOTES:
1. SEE HEAT WHEEL SCHEDULE FOR INFORMATION ON INTEGRAL HEAT WHEEL. PROVIDE FUTURE CONDENSER COIL AND EVAP COOLER DOWNSTREAM OF HEAT WHEEL IN EXHAUST AIR STREAM. FUTURE SECTION SHALL BE CONNECTED TO FUTURE PUMP CP-3 (257 GPM @ 35' OF HEAD).
CHARLES
CUNNIFFE
ARCHITECTS
COPYRIGHT CHARLES CUNNIFFE ARCHITECTSC
SHEET NO.
JOB NO.
2/
6
/
2
0
1
8
4
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4
8
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3
3
P
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M8.02
2016.01.0223
MECHANICAL
SCHEDULES
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ISSUE: DATE:
50% DD 10/30/17
100% DD 12/12/17
PERMIT 02/07/18
03/16/2019
HVAC PIPING INSULATION SCHEDULE
SYSTEM INSULATION TYPE
FLUID
TEMPERATURE
RANGE
PIPE SIZES
SPECIFIC NOTES
CONDENSER WATER FLEXIBLE ELASTOMETRIC OR GLASS FIBER
PREFORMED PIPE INSULATION
40 TO 60 DEG F 1/2" 1/2" 1" 1" 1"
< 40 DEG F 1/2" 1" 1" 1" 1-1/2"
GEOTHERMAL-WATER PIPING GLASS FIBER OR FLEXIBLE ELASTOMETRIC
PREFORMED PIPE INSULATION 20 TO 120 DEG F 1-1/2" 1-1/2" 1-1/2" 1-1/2" 1-1/2" 4
HEATING HOT WATER AND
SNOWMELT
GLASS FIBER OR MINERAL FIBER PREFORMED
PIPE INSULATION
> 350 DEG F 4-1/2" 5" 5" 5" 5"
251 TO 350 DEG F 3" 4" 4-1/2" 4-1/2" 4-1/2"
201 TO 250 DEG F 2-1/2" 2-1/2" 2-1/2"3" 3"
141 TO 200 DEG F 1-1/2" 1-1/2" 2" 2" 2"
< 140 DEG F 1" 1" 1-1/2" 1-1/2" 1-1/2"
141 TO 200 DEG F 1-1/2" 1-1/2" 2" 2" 2"
105 TO 140 DEG F 1" 1" 1-1/2" 1-1/2" 1-1/2"
REFRIGERANT PIPING FLEXIBLE ELASTOMETRIC 40 TO 60 DEG F 1/2" 1/2"1" 1" 1"
< 40 DEG F 1/2" 1" 1" 1" 1-1/2"
GENERAL NOTES:
1) FOR PIPING EXPOSED TO THE OUTSIDE AMBIENT CONDITIONS OR PIPING PROVIDED WITH HEAT TRACE, INCREASE THICKNESS OF INSULATION BY 1/2".
2) FOR PIPING EXPOSED TO THE OUTSIDE AMBIENT CONDITIONS PROVIDE PROTECTIVE JACKET (SEE SPECIFICATIONS).
3) ALL INSULATION EXPOSED TO UV CONDITIONS SHALL BE PROTECTED IN ACCORDANCE WITH THE MANUFACTURER'S WRITTEN INSTRUCTIONS.
SPECIFIC NOTES:
1) CONDENSER WATER INSULATION ONLY REQUIRED FOR SYSTEMS THAT OPERATE A WATER SIDE "FREE COOLING" ECONOMIZER THAT OPERATES
BELOW 60 DEG F, REVIEW SEQUENCE OF OPERATION. FOR STANDARD CONDENSER WATER SYSTEMS THAT ONLY OPERATE BETWEEN 61 AND
104 DEG F; INSULATION IS NOT REQUIRED.
2) FOR REFRIGERANT SYSTEMS USING FLEXIBLE TUBING, PROVIDE FLEXIBLE ELASTOMERIC INSULATION.
3) PROVIDE PIPE INSULATION WICKING SYSTEM ON ALL EXISTING SYTEMS THAT ARE OPERATIONAL DURING INSTALLATION.
4) DIRECT BURIED GEOTHERMAL PIPING SHALL NOT BE INSULATED.
5) FINAL INSULATION THICKNESSES FOR REFRIGERANT PIPING SHALL BE PER THE MANUFACTURER'S WRITTEN INSTRUCTIONS.
<1" 1" TO <1-1/2" 1-1/2" TO <4" 4" TO <8" 8" AND LARGER
1, 3
1, 3
2, 5
2, 5
DUCTWORK INSULATION (WRAP & LINER) SCHEDULE
SYSTEM LOCATION
SERVICE
NOTE 1
EXPOSED CONCEALED
MINIMUM R-VALUE SPECIFIC NOTES
RECTANGULAR ROUND / OVAL RECTANGULAR ROUND / OVAL
SUPPLY AIR INDOOR
MAIN 1-1/2" LINER 1-1/2" LINER 1-1/2" LINER 1-1/2" LINER R-6
MAIN TO
TERMINAL 1-1/2" LINER --- 1-1/2" LINER 2" WRAP R-6
TERMINAL TO
GRD 1-1/2" LINER --- 1-1/2" LINER 2" WRAP R-6
RETURN AIR INDOOR
MAIN 1" LINER 1" LINER 1" LINER 1" LINER R-4
BRANCH 1" LINER --- 1" LINER 1-1/2" WRAP R-4
OUTSIDE AIR - TEMPERED INDOOR
MAIN 1" LINER 1" LINER 1" LINER 1" LINER ---2
BRANCH 1" LINER --- 1" LINER 1-1/2" WRAP ---2
OUTSIDE AIR INDOOR
MAIN 4" WRAP 4" WRAP 4" WRAP 4" WRAP R-12
BRANCH 4" WRAP 4" WRAP 4" WRAP 4" WRAP R-12
EXHAUST AIR INDOOR
MAIN --- --- --- --- ---
2, 5
BRANCH --- --- --- --- ---
2, 5
EXHAUST AIR TO ENERGY
RECOVERY INDOOR
MAIN 1-1/2" LINER 1-1/2" LINER 1-1/2" LINER 1-1/2" LINER R-6 3
BRANCH 1-1/2" LINER --- 1-1/2" LINER 2" WRAP R-6 3
GENERAL NOTES:
1) MINIMUM R-VALUE BASED ON 2015 IECC REQUIREMENTS.
2) DUCT SIZES SHOWN ARE OUTSIDE SHEET METAL DIMENSIONS. LINER, WHERE USED, HAS ALREADY BEEN FACTORED INTO THE DUCT SIZE TO ACCOMMODATE
PROPER FREE AREA.
3) THE INSULATION THICKNESS GIVEN MEETS OR EXCEEDS THE REQUIRED R-VALUE FOR THE BASIS OF DESIGN (JOHNS MANVILLE). INSTALLED PRODUCT SHALL
MEET OR EXCEED THE LISTED R-VALUE; INSULATION THICKNESS AND CORRESPONDING DUCT SIZE (FOR LINER) SHALL BE INCREASED FOR ALTERNATES THAT
CANNOT MEET THIS THICKNESS TO PERFORMANCE CONDITION.
4) R-VALUES FOR WRAP SHALL BE SHOWN USING THEIR INSTALLED CONDITION RATING AS NOTED ON THE MANUFACTURER'S SPECIFICATION SHEET.
5) JACKET (PVC OR METAL) SHALL BE INSTALLED AS REQUIRED BY THE SPECIFICATIONS.
6) FLEXIBLE DUCT SHALL BE AS NOTED IN THE "AIR DUCT ACCESSORIES" SPECIFICATION.
7) DUCT WRAP IS ALLOWED TO BE BLANKET OR BOARD; CONTRACTOR OPTION.
8) MULTIPLE LAYERS OF WRAP OR LINER TO ACHIEVE TOTAL R-VALUE ARE ACCEPTABLE IF INSTALLED PER MANUFACTURER'S INSTRUCTIONS.
SPECIFIC NOTES:
1) FIELD CONSTRUCTED PLENUMS SHALL MATCH THE REQUIREMENTS OF MAIN DUCTS UNLESS SPECIFICALLY NOTED OTHERWISE.
2) INSULATION PROVIDED FOR ACOUSTICS OR OTHER PERFORMANCE CRITERIA, NO ENERGY CODE REQUIREMENT
3) WHERE EXHAUST TO THE ENERGY RECOVERY IS COMING FROM A MOIST ENVIRONMENT (LOCKER, SHOWER, DISHWASHER, LAUNDRY, ETC.) WRAP SHALL
BE PROVIDED IN LIEU OF LINER BACK TO MAIN OR FOR 25'; WHICHEVER DISTANCE IS GREATER.
4) TYPE 1 KITCHEN EXHAUST SHALL BE PROVIDED WITH 2-HOUR FIRE RATED BLANKET (ASTM E-2336 LISTED) FOR FIELD BUILT DUCT OR FACTORY FABRICATED
DOUBLE WALL DUCT SYSTEM (UL 2221 LISTED) WITH INTEGRAL INSULATION. THICKNESS AS REQUIRED TO ACHIEVE THE FIRE RATING; THICKNESS SHOWN
IN SCHEDULE FOR REFERENCE ONLY.
5) EXHAUST SYSTEMS SHALL BE PROVIDED WITH 1" WRAP INSULATION BETWEEN SYSTEM BACKDRAFT DAMPER AND PENETRATION OF BUILDING EXTERIOR
OR ALL DUCT WITHIN 20' OF BUILDING EXTERIOR PENETRATION WHICHEVER IS LESS TO PREVENT CONDENSATION.
6) WRAP USED EXTERIOR TO THE BUILDING SHALL BE PROTECTED USING FIELD APPLIED METAL JACKETS.
DEFINITIONS:
EXPOSED DUCT: DUCT THAT IS EXPOSED TO VIEW IN OCCUPIED OR UNOCCUPIED SPACES THAT ARE CONDITIONED.
CONCEALED DUCT: DUCT THAT IS CONCEALED IN CHASES, SHAFTS, CEILING PLENUMS OR OTHER ASSEMBLY WITHIN THE INSULATED BUILDING ENVELOPE.
MAIN DUCT: DUCT FROM THE AIR HANDLING UNIT TO FINAL TERMINAL TAKEOFF.
MAIN TO TERMINAL DUCT: THIS IS A BRANCH DUCT; TYPICALLY THE DUCT FROM THE MAIN TAKEOFF TO THE TERMINAL (VAV BOX OR EQUIVALENT).
TERMINAL TO GRD DUCT: THIS IS A BRANCH DUCT DOWNSTREAM OF THE TERMINAL (VAV BOX, HEAT PUMP, FAN COIL OR EQUIVALENT).
OUTSIDE AIR TEMPERED: TEMPERED OUTSIDE AIR IS AIR THAT IS HEATED OR COOLED TO WITHIN 10 DEG F OF THE SPACE/SURROUNDING TEMPERATURE.
INDOOR: DUCT LOCATIONS WITHIN THE INSULATED BUILDING ENVELOPE.
OUTDOOR: DUCT LOCATIONS OUTSIDE OF THE INSULATED BUILDING ENVELOPE (ON GRADE, ROOF, EXTERIOR SOFFIT, EXTERIOR CHASE, ATTIC, CRAWLSPACE, ETC.).
CHARLES
CUNNIFFE
ARCHITECTS
COPYRIGHT CHARLES CUNNIFFE ARCHITECTSC
SHEET NO.
JOB NO.
2/
6
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M8.03
2016.01.0223
MECHANICAL
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50% DD 10/30/17
100% DD 12/12/17
PERMIT 02/07/18
03/16/2019
CHILLED WATER IN-ROW COOLING UNIT SCHEDULE
ITEM SERVICE CDU IN-ROW COOLING CAPACITY ELECTRICAL MANUFACTURER NOTES CONTROLS
CFM FAN FAN ESP EWT LWT GPM SENS EAT GLYC WT PD TOTAL OP DIMENSIONS & MODEL NO.
@ TYPE QTY IN F F MBH F %FT HD FAN MCA MOCP V-PH WGT W L H
S.L.WC @ S.L.DB/WB MAX HP LBS (IN) (IN) (IN)
DC-1 ASPEN CITY OFFICES CDU-1
2,200 BI DIRECT DRIVE 6 0.50 65 75 10.0 40.9 95 / 68 30 14.0 0.9 25 40 208-1 200 12 42 79 APC ACRD200 1 - 8 DDC
DC-2 ASPEN CITY OFFICES CDU-1
2,200 BI DIRECT DRIVE 6 0.50 65 75 10.0 40..9 95 / 68 30 14.0 0.9 25 40 208-1 200 12 42 79 APC ACRD200 1 - 8 DDC
DC-3 ASPEN CITY OFFICES CDU-1
2,200 BI DIRECT DRIVE 6 0.50 65 75 10.0 40.9 95 / 68 30 14.0 0.9 25 40 208-1 200 12 42 79 APC ACRD200 1 - 8 DDC
DC-4 ASPEN CITY OFFICES CDU-1
2,200 BI DIRECT DRIVE 6 0.50 65 75 10.0 40.9 95 / 68 30 14.0 0.9 25 40 208-1 200 12 42 79 APC ACRD200 1 - 8 DDC
DC-5 ASPEN CITY OFFICES NA
2,200 BI DIRECT DRIVE 6 0.50 65 75 10.0 40.9 95 / 68 30 14.0 0.9 25 40 208-1 200 12 42 79 APC ACRD200 1 - 8 DDC
DC-6 ASPEN CITY OFFICES NA
2,200 BI DIRECT DRIVE 6 0.50 65 75 10.0 40.9 95 / 68 30 14.0 0.9 25 40 208-1 200 12 42 79 APC ACRD200 1 - 8 DDC
DC-7 ASPEN CITY OFFICES NA
2,200 BI DIRECT DRIVE 6 0.50 65 75 10.0 40.9 95 / 68 30 14.0 0.9 25 40 208-1 200 12 42 79 APC ACRD200 1 - 8 DDC
NOTES:1. PROVIDE WITH MANUFACTURER'S DUAL POWER FEEDS FOR BACK-UP POWER SUPPLY. PROVIDE DUAL FUSED DISCONNECT SWITCHES WITH REVERSING STARTER AND TWO PNEUMATIC TIMERS TO DELAY SWITCH BETWEEN POWER
SUPPLIES. AUTO SWITCH BACK TO POWER SUPPLY #1. PROVIDE TWO NEMA L5-20P POWER CORDS.
2. PROVIDE WITH 2-WAY CONTROL VALVE, SNMP AND MODBUS INTERFACE AND MERV 8 FILTER.
3. PROVIDE WITH LEAK DETECTION ROPE SENSOR.
4. PROVIDE WATER DISTRIBUTION UNIT CDU-1. ONE CDU CAN SERVE UP TO 12 IN-ROW COOLING UNITS.
5. PROVIDE WITH MANUFACTURER'S CONDENSATE PUMP POWERED FROM IN-ROW COOLER.
6. PROVIDE WITH MANUFACTURER'S PEX-AL-PEX (PEX) PIPING IN LENGTHS REQUIRED SO THERE ARE NO PEX JOINTS BELOW THE RAISED FLOOR FROM THE IN-ROW COOLER CONNECTION TO THE CDU CONNECTION.
7. PROVIDE WITH MANUFACTURER'S PEX PIPING CONNECTORS, PEX TO CU ADAPTORS, PIPING INSULATION AND PEX PIPING SUPPORTS.
8. PROVIDE WITH MANUFACTURER'S START-UP
OCCUPANT OCCUPANT BREATHING TABLE 6-2 ZONE TOTAL SUPPLY SYSTEM
OUTDOOR AREA DENSITY OVER-VENTILATION ZONE AIR AIR TO ZONE AT ZONE VENTILATION MINIMUM MINIMUM
UNIT FLOOR ROOM ROOM NAME ZONE TYPE AREA AIRFLOW OUTDOOR PEOPLE OCCUPANT PERCENTAGE OUTDOOR DISTRIBUTION CONDITION VENTILATION EFFICIENCY PERCENTAGE OUTSIDE AIRFLOW
NUMBER SQ FT RATE AIRFLOW RATE PER 1000 QUANTITY AIRFLOW RATE EFFECTIVENESS ANALYZED EFFICIENCY NOTE 2 AIRFLOW AT AT UNIT
CFM/PER CFM/SQ FT SQ FT CFM (Ez)CFM - NOTE 1 (Evz) (Ev)UNIT NOTE 3
AHU-1 1 Corridor Corridors 0 0.0 0.06 0 0 30% 0 1.0 0 1.24 0.81 - -
2 Storage Storage rooms 0 0.0 0.12 0 0 30% 0 1.0 0 1.24 0.81 - -
3 Data Center
Electrical equipment rooms 0 0.0 0.06 0 0 30% 0 1.0 0 1.24 0.81 - -
5 Electrical
Electrical equipment rooms 0 0.0 0.06 0 0 30% 0 1.0 0 1.24 0.81 - -
6 Storage Storage rooms 0 0.0 0.16 0 0 30%0 1.0 0 1.24 0.81 - -
101A Lobby Main entry lobbies 4264 6.5 0.08 10 58 30% 710 1.0 4400 1.08 0.81 - -
101B Lobby Main entry lobbies 6847 6.5 0.08 10 92 30% 1132 1.0 7000 1.08 0.81 - -
102 Men Corridors 214 0.0 0.08 0 0 30%17 1.0 100 1.08 0.81 - -
103 Womens Corridors 213 0.0 0.08 0 0 30%17 1.0 100 1.08 0.81 - -
106 Electrical
Electrical equipment rooms 43 0.0 0.08 0 0 30% 3 1.0 400 1.24 0.81 - -
201A Lobby Main entry lobbies 5706 6.5 0.08 10 72 30% 913 1.0 6000 1.09 0.81 - -
201B Lobby Main entry lobbies 6217 6.5 0.08 10 78 30% 992 1.0 6200 1.08 0.81 - -
202 Men Corridors 213 0.0 0.08 0 0 30%17 1.0 100 1.08 0.81 - -
203 Womens Corridors 214 0.0 0.08 0 0 30% 17 1.0 100 1.08 0.81 - -
206 Elec
Electrical equipment rooms 43 0.0 0.08 0 0 30% 3 1.0 400 1.24 0.81 - -
207 Corridor Corridors 240 0.0 0.08 0 0 30% 19 1.0 300 1.18 0.81 - -
301 Lobby Main entry lobbies 768 6.5 0.08 10 35 30% 287 1.0 800 0.88 0.81 - -
302 Mens Corridors 213 0.0 0.08 0 0 30% 17 1.0 100 1.08 0.81 - -
303 Womens Corridors 214 0.0 0.08 0 0 30%17 1.0 100 1.08 0.81 - -
306 Elec
Electrical equipment rooms 38 0.0 0.08 0 0 30% 3 1.0 400 1.24 0.81 - -
308 Office
Office space 909 6.5 0.08 5 30 30% 266 1.0 1000 0.98 0.81 - -
309 Meeting Room Conference/meeting 2543 6.5 0.08 50 150 30% 1173 1.0 3000 0.85 0.81 - -
310 Meeting Room Conference/meeting 798 6.5 0.08 50 60 30% 452 1.0 1050 0.81 0.81 - -
301A Staircase Corridors 415 0.0 0.08 0 0 30%32 1.0 1000 1.21 0.81 - -
311 Kitchen Break rooms 262 6.5 0.08 25 10 30% 85 1.0 400 1.03 0.81 - -
AHU-1 TOTALS 32950 -0.81 30% 9871
SPECIFIC NOTES:
1.TOTAL SUPPLY AIR AT CONDITION ANALYZED USES THE MAXIMUM AIRFLOW PROVIDED TO THE ZONE DURING THE HEATING OR COOLING MODE, WHICHEVER IS BEING ANALYZED.
2.AS DETERMINED USING THE ASHRAE 62.1-2010 "62 MZ Calc" SPREADSHEET. SYSTEM VENTILATION EFFICIENCY IS EQUAL TO THE LOWEST ZONE VENTILATION EFFICIENCY OF ALL ROOMS SERVED BY THE UNIT.Unit Outside Airflow Balance Setpoint [cfm]10500
3.SEE UNIT EQUIPMENT SCHEDULE FOR ACTUAL OUTSIDE AIR SETPOINT FOR BALANCING; WHICH WILL MEET OR EXCEED THE MINIMUM REQUIREMENT NOTED HEREIN.
ASHRAE STANDARD 62.1-2013 / IMC 2015 VENTILATION RATE PROCEDURE CALCULATIONS
Unit Meets ASHRAE 62.1 Requirements Yes
CHARLES
CUNNIFFE
ARCHITECTS
COPYRIGHT CHARLES CUNNIFFE ARCHITECTSC
SHEET NO.
JOB NO.
2/
6
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2
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M8.04
2016.01.0223
MECHANICAL
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50% DD 10/30/17
100% DD 12/12/17
PERMIT 02/07/18
03/16/2019
S
H
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.5313
CT
CT
T
AI-
SPT
SEQUENCE OF OPERATION:
GENERAL:
ALARMS SHALL BE AS NOTED WITHIN THE SEQUENCE OF OPERATION AND THE CONTROL
SYSTEM DATA POINT MATRIX.
OCCUPIED/UNOCCUPIED CYCLE:
THE DDC SYSTEM SHALL MONITOR THE SPACE TEMPERATURES OF THE ROOM.
THE STAND ALONE IN ROW COOLING UNIT LOCATED WITHIN THE ROOM SHALL OPERATE
THROUGH IT'S INTERNAL CONTROLS.
NOTE - PROVIDE IN EACH SPACE SERVED BY A SPLIT DX SYSTEM
LOCATED IN I.T. ROOM
FIELD VERIFY QUANTITIES
CONTROL SYSTEM DATA POINT MATRIX
POINT NAME TYPE ALARM
NOTE 2
GRAPHIC
NOTE 3NOTE 1
TREND NOTES
SPT - ZONE SPACE TEMP AI 60/85 5 MIN 4
NOTES: 1) NOT ALL VIRTUAL POINTS ARE SHOWN. PROVIDE ALL POINTS REQUIRED FOR SOFTWARE OPERATION.
2) AV (ANALOG VIRTUAL) & BV (BINARY VIRTUAL)
3) POINT SHALL BE DISPLAYED ON THE NOTED SYSTEM GRAPHIC
4) LOCKOUT ALARM WHEN UNIT IS DE-ENERGIZED. PROVIDE 15-MINUTE STARTUP DELAY PRIOR TO ENABLING ALARM.
---
NOTE 5
5) OI (ON INDICATION), TREND SHALL NOTE TIME OF BINARY POINT CHANGE
1. THE CONTROLS CONTRACTOR SHALL WORK WITH THE CITY OF ASPEN TO PROVIDE THE DESIRED
CONNECTIONS INTO REMOTE LOCATIONS FOR OFFSITE MONITORING.
2. THE CONTROLS CONTRACTOR SHALL WORK WITH THE CITY OF ASPEN TO PROVIDE THE DESIRED
ACCESS LOCATIONS (WORKSTATIONS, WEB INTERFACE, MOBILE DEVICES AND REMOTE LOCATIONS).
3. THE CONTROLS CONTRACTOR SHALL WORK WITH THE CITY OF ASPEN TO PROVIDE THE DESIRED
REMOTE ALERTS (TEXTS, EMAILS, APPs). COORDINATE SPECIFICALLY WHAT SHALL BE CRITICAL ALARMS
VS. NOTIFICATION ALARMS.
4. THE CONTROLS CONTRACTOR SHALL WORK WITH THE CITY OF ASPEN AND THE BUILDING OWNER TO
PROVIDE MOBILE INTERFACE (IPAD OR EQUIVALENT) SYSTEM.
5. THE OPEN PROTOCOL INTERFACE TO THE UNITS, BACNET OR OTHER, SHALL BE USED ALONG WITH
ADDITIONAL DIRECT POINT CONNECTIONS TO PROVIDE THE DESIGN INTENT. THE CONTROLS
CONTRACTOR SHALL PROVIDE ANY NECESSARY GATEWAYS FOR COMMUNICATION WITH THE BACNET,
LONWORKS AND MODBUS INTERFACES THAT ARE PROVIDED WITH THE UNIT.
6. FULL SYSTEM TRENDING AND OUTPUT REPORTING WILL BE PROVIDED AS SPECIFIED.
7. PROVIDE BAS INTERFACE INTO ALL ENERGY METERS (GAS, ELECTRIC-LIGHTS, ELECTRIC-PLUG,
ELECTRIC-HVAC, ELECTRIC-OTHER, ELECTRIC-PV GENERATION, WATER, ETC...). COORDINATE WITH
METER SUBMITTAL FOR PROPER SIGNAL; RECORD USE WITHIN BAS.
8. METER DATA SHALL BE TRACKED AND RECORDED FOR USE AT BOTH THE OPERATORS WORKSTATION
(WHERE EVER THEY MAY BE LOGGED IN) AND AT THE PUBLIC DISPLAY WITHIN THE LOBBY.
9. THE CONTROL DRAWING AND SEQUENCE OF OPERATIONS DEPICTED SHOWS THE DESIGN INTENT OF
THESE SYSTEMS. MANY OF THESE CONTROL POINTS ALONG WITH UNIT SAFETIES MAY BE PROVIDED
WITH THE PACKAGED SYSTEM CONTROLS. THE CONTROLS CONTRACTOR SHALL COORDINATE WITH
THE SELECTED UNIT MANUFACTURERS TO ENSURE THAT THE DESIGN INTENT IS ACHIEVED.
10. THE CONTROLS CONTRACTOR SHALL PROVIDE ALL ADDITIONAL SENSORS, DAMPERS, ACTUATORS,
CONTROLLERS, WIRING, ETC... AS REQUIRED TO ACHIEVE THE DESIGN INTENT. CLOSE COORDINATION
WITH THE SELECTED UNIT MANUFACTURERS SHALL BE REQUIRED.
11. THE CONTROLS CONTRACTOR SHALL COORDINATE CLOSELY WITH THE ELECTRICAL CONTRACTOR TO
ENSURE ALL BUILDING AUTOMATION SYSTEMS CONTINUE TO RUN ON POWER FAILURE. ALL
CONTROLLERS SHALL BE PROVIDED WITH LOCAL U.P.S. SYSTEMS TO ENSURE CONTINUED OPERATION
UNTIL GENERATOR POWER IS PROVIDED (OR NORMAL POWER IS RESTORED).
12. THE CONTROLS CONTRACTOR SHALL COORDINATE CLOSELY WITH THE ELECTRICAL CONTRACTOR TO
ENSURE PROPER STATUS INTERFACE WITH THE GENERATOR, ATS, ETC... TO MONITOR BUILDING POWER
STATUS.
13. THE CONTROLS CONTRACTOR SHALL COORDINATE WITH THE ELECTRICAL CONTRACTOR TO PROVIDE
GENERAL CONTROL NOTES:
ADDITIONAL 120v ELECTRICAL CIRCUITS AS REQUIRED FOR THEIR SCOPE OF WORK.
GENERAL
STANDALONE SYSTEM CONTROLLER AND SYSTEM CONTROLS (SUMP WATER LEVEL
SENSORS) TO BE PROVIDED W/SYSTEM.
ALARMS / SETPOINTS
THE FOLLOWING ALARM POINTS SHALL BE AVAILABLE AT THE DDC FRONT END AND
REMOTE LOCATION VIA A DIRECT CONTROL POINT:
1. PUMP 1 ON/OFF STATUS
2. HIGH WATER ALARM
SEQUENCE
THE PUMP SHALL STAGE AS REQUIRED BY THE MANUFACTURER'S SEQUENCE OF
OPERATION.
NO SCALE
CT
ELEVATOR SUMP PUMP SYSTEM
TYPICAL OF 2
SEQUENCE OF OPERATION:
GENERAL:
ALARMS SHALL BE AS NOTED WITHIN THE SEQUENCE OF OPERATION AND THE CONTROL SYSTEM DATA POINT MATRIX.
SETPOINTS:
HEATING SETPOINT: 70 DEG. F (ADJ.)
UNOCCUPIED HEATING SETPOINT: 55 DEG. F (ADJ.)
OCCUPIED CYCLE:
ON SENSING A NEED FOR HEAT THE FAN SHALL ENERGIZE AND THE HEATING HOT WATER CONTROL VALVE BE MODULATED AS
REQUIRED TO SATISFY THE SPACE HEATING SET POINT.
UNOCCUPIED CYCLE:
THE FAN SHALL BE OFF DURING THE UNOCCUPIED MODE. THE DDC SYSTEM SHALL CYCLE THE FAN AND MODULATE THE HEATING
VALVE TO MAINTAIN THE UNOCCUPIED SPACE HEATING SET POINT.
LVL SENSOR
ELEVATOR SUMP PUMP CONTROL
DRAWING AND SEQUENCE OF OPERATION
NO SCALE
M
HVLV
AO-
HW
S
HW
R
AI-
SPT
T
3-WAY
HEATING
AO-
HVLV
M HW
S
HW
R
3-WAY VALVE OPTION
RETURN
AIR
CONTROL SYSTEM DATA POINT MATRIX
POINT NAME TYPE ALARM
NOTE 2
GRAPHIC
NOTE 3NOTE 1
TREND NOTES
SPT - ZONE SPACE TEMP AI 55 5 MIN 4
NOTES: 1) NOT ALL VIRTUAL POINTS ARE SHOWN. PROVIDE ALL POINTS REQUIRED FOR SOFTWARE OPERATION.
2) AV (ANALOG VIRTUAL) & BV (BINARY VIRTUAL)
3) POINT SHALL BE DISPLAYED ON THE NOTED SYSTEM GRAPHIC
4) LOCKOUT ALARM WHEN UNIT IS DE-ENERGIZED. PROVIDE 15-MINUTE STARTUP DELAY PRIOR TO ENABLING ALARM.
---
NOTE 5
5) OI (ON INDICATION), TREND SHALL NOTE TIME OF BINARY POINT CHANGE
OCCUPIED SPACE TEMP SETPOINT HEATING BV --- --- --- ---
UNOCCUPIED SPACE TEMP SETPOINT HEATING BV --- --- --- ---
HVLV - HEATING WATER VALVE AO --- 5 MIN ------
FSS - FAN START/STOP BO --- OI ------
FST - FAN STATUS BI FAIL OI ------
FAN MOTOR RUN TIME AV 800 --- --- FOR FILTER REMINDER IF EQUIPPED
CT
CONTROL DRAWING AND SEQUENCE OF OPERATION
HOT WATER CABINET/UNIT HEATER TERMINAL - MODULATING VALVE
AIR
SUPPLY
BO-BI-
FSSFST
BI
HWAL
BO
PST
CT
BO-
HPSSHPST
BI-
T
AI-
DWRT
SEQUENCE
THE RECIRC PUMP SHALL OPERATE DURING OCCUPIED HOURS ONLY AND IT SHALL
CYCLE TO MAINTAIN A DOMESTIC HOT WATER RETURN TEMPERATURE OF 5 DEG F
(ADJ) BELOW WATER HEATER SETPOINT.
NO SCALE
DOMESTIC HOT WATER RECIRCULATION
DRAWING AND SEQUENCE OF OPERATION
CONTAMINANT RELATIVE TO AMBIENT
DCV POINT, NOTE 1
NOTES
CARBON DIOXIDE 5 PPM ---
NOTES: 1) LEVEL LISTED IS THE POINT ABOVE AMBIENT WHEN DCV SHALL BE STARTED, WHERE INDICATED
2) LEVEL LISTED IS THE POINT ABOVE AMBIENT WHEN AN ALARM SHALL BE GENERATED
3) MEASURED BY CENTRAL SAMPLING AIR QUALITY SYSTEM
ALARM
NOTE 2NOTE 3
9 PPM
4) ALL POINTS ADJUSTABLE
AIR QUALITY MONITORING SYSTEM
1. THE BUILDING SHALL BE PROVIDED WITH INDOOR AIR QUALITY SENSORS.
2. THIS SYSTEM SHALL MONITOR CARBON DIOXIDE AS NOTED BELOW.
3. MONITORED ZONES: SEE PLANS FOR CO2 SENSOR LOCATIONS; SEE AHU CONTROL DRAWING FOR
OTHER LOCATIONS.
4. THE SYSTEM SHALL BE TIED INTO THE BAS FOR CONTROL FOR IMPLEMENTATION OF THE DEMAND
CONTROLLED VENTILATION SYSTEM.
5. AVERAGES, MAX AND MIN SHALL BE TRENDED; READY FOR DISPLAY.
6. PROVIDE AMBIENT SENSOR LOCATION FOR DCV REFERENCE.
AI-
SPT
T
EXHAUST
AIR
SEQUENCE OF OPERATION:
GENERAL:
ALARMS SHALL BE AS NOTED WITHIN THE SEQUENCE OF OPERATION AND THE
CONTROL SYSTEM DATA POINT MATRIX.
SETPOINTS:
COOLING SETPOINT: 80 DEG. F (ADJ.)
OCCUPIED/UNOCCUPIED CYCLE:
ON SENSING A NEED FOR COOLING THE FAN SHALL ENERGIZE AND RUN AS
REQUIRED TO SATISFY THE SPACE COOLING SET POINT.
POINT NAME TYPE ALARM
NOTE 2
GRAPHIC
NOTE 3NOTE 1
TREND NOTES
SPT - ZONE SPACE TEMP AI 85 5 MIN 4
NOTES: 1) NOT ALL VIRTUAL POINTS ARE SHOWN. PROVIDE ALL POINTS REQUIRED FOR SOFTWARE OPERATION.
2) AV (ANALOG VIRTUAL) & BV (BINARY VIRTUAL)
3) POINT SHALL BE DISPLAYED ON THE NOTED SYSTEM GRAPHIC
4) LOCKOUT ALARM WHEN UNIT IS DE-ENERGIZED. PROVIDE 15-MINUTE STARTUP DELAY PRIOR TO ENABLING ALARM.
---
NOTE 5
5) OI (ON INDICATION), TREND SHALL NOTE TIME OF BINARY POINT CHANGE
OCCUPIED SPACE TEMP SETPOINT HEATING BV --- --- --- ---
FSS - FAN START/STOP BO --- OI ------
FST - FAN STATUS BI FAIL OI ------
EXHAUST
AIR
SEQUENCE OF OPERATION:
GENERAL:
ALARMS SHALL BE AS NOTED WITHIN THE SEQUENCE OF OPERATION AND THE
CONTROL SYSTEM DATA POINT MATRIX.
OCCUPIED CYCLE:
THE FAN SHALL ENERGIZE AND RUN CONTINUOUSLY DURING THE OCCUPIED MODE.
UNOCCUPIED CYCLE:
THE FAN SHALL BE OFF DURING THE UNOCCUPIED MODE.
POINT NAME TYPE ALARM
NOTE 2
GRAPHIC
NOTE 3NOTE 1
TREND NOTES
NOTES: 1) NOT ALL VIRTUAL POINTS ARE SHOWN. PROVIDE ALL POINTS REQUIRED FOR SOFTWARE OPERATION.
2) AV (ANALOG VIRTUAL) & BV (BINARY VIRTUAL)
3) POINT SHALL BE DISPLAYED ON THE NOTED SYSTEM GRAPHIC
4) LOCKOUT ALARM WHEN UNIT IS DE-ENERGIZED. PROVIDE 15-MINUTE STARTUP DELAY PRIOR TO ENABLING ALARM.
NOTE 5
5) OI (ON INDICATION), TREND SHALL NOTE TIME OF BINARY POINT CHANGE
FSS - FAN START/STOP BO --- OI ------
FST - FAN STATUS BI FAIL OI ------
EXHAUST FANS:
EF-1
EF-3
EXHAUST
FANS:
EF-2
BI-
FST
BO-
FSS
BI-
FST
BO-
FSS
NO SCALE
SPACE TEMPERATURE MONITOR - IT ROOM
CONTROL DRAWING AND SEQUENCE OF OPERATION
INDOOR AIR QUALITY CONTROL POINTS
NO SCALE
CONTROL SYSTEM DATA POINT MATRIX
NO SCALE
CONTROL SYSTEM DATA POINT MATRIX
EXHAUST FAN (EF-3, EF-4) - SCHEDULE CONTROLLED
CONTROL DRAWING AND SEQUENCE OF OPERATION
EXHAUST FAN (EF-2) - TEMPERATURE CONTROLLED
CONTROL DRAWING AND SEQUENCE OF OPERATION
CHARLES
CUNNIFFE
ARCHITECTS
COPYRIGHT CHARLES CUNNIFFE ARCHITECTSC
SHEET NO.
JOB NO.
2/
6
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2
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M9.01
2016.01.0223
MECHANICAL
CONTROLS
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ISSUE: DATE:
50% DD 10/30/17
100% DD 12/12/17
PERMIT 02/07/18
03/16/2019
PS
T
T
NO SCALE
M
M
T
CR
CS
T
FS
CR
CS
CR
CS
CR
CS
FSFS
T
CS
CR
T
CS
CR
CR
CS
CR
GS
GR
T
CONCRETE SUMP BASIN
CS/CR TO
DATA ROOM
SYSTEM
DRAIN DOWN
VALVE
B
A
CS/CR FROM SUMP
BASIN IN LOWER
LEVEL OF PARKING
GARAGE
NOTES: 1) NOT ALL VIRTUAL POINTS ARE SHOWN. PROVIDE ALL POINTS REQUIRED FOR SOFTWARE OPERATION.
2) AV (ANALOG VIRTUAL) & BV (BINARY VIRTUAL)
3) POINT SHALL BE DISPLAYED ON THE NOTED SYSTEM GRAPHIC
4) LOCKOUT ALARM WHEN UNIT IS DE-ENERGIZED. PROVIDE 15-MINUTE STARTUP DELAY PRIOR TO ENABLING ALARM.
5) OI (ON INDICATION), TREND SHALL NOTE TIME OF BINARY POINT CHANGE
POINT NAME TYPE
AI
ALARM
---
NOTE 2
GRAPHIC
NOTE 3NOTE 1
TREND
5 MIN
NOTES
---
BI OI OI ---
AI 75/55 5 MIN COORD TEMP RANGE WITH MFR
AO --- 5 MIN 4
BI FAIL OI ---
CONDENSER
NOTE 5
BO --- OI MULTIPLE BOILERS
BI FAIL OI MULTIPLE BOILERS
BI FAIL OI 4, MULTIPLE PUMPS
AO --- 5 MIN MULTIPLE PUMPS
AI --- 5 MIN MULTIPLE PUMPS
BO --- OI MULTIPLE PUMPS
AO --- 5 MIN MULTIPLE BOILERS
AI TBD 5 MIN 4, FIELD COORD SETPOINT WITH TAB
OAT - OUTSIDE AIR TEMPERATURE
EPO - EMERGENCY POWER OFF
CDPS - CW DIFFERENTIAL PRESSURE SENSOR
CP1ST - PUMP CP-1 SUPPLY TEMPERATURE
CP1VL - PUMP CP-1 CONTROL VALVE
P#ST - PUMP # STATUS
P#SS - PUMP # START/STOP
P#MOD - PUMP # MODULATE
P#kW - PUMP # kW ENERGY USE
GF1AL - GLYCOL FEEDER 1 ALARM
B#SS - BOILER # START/STOP
B#SWT - BOILER # SUPPLY TEMP SETPOINT
B#AL - BOILER # ALARM
AO --- 5 MIN ---CBPV - CONDENSER PLANT BYPASS VALVE
CONDENSER
CONDENSER
CONDENSER
CONDENSER
CONDENSER
CONDENSER
CONDENSER
CONDENSER
CONDENSER
CONDENSER
CONDENSER
CONDENSER
CONDENSER
DPS
AI
CDPS
N.C.
EPO
CV = ##
AO
CBPV
AI
OAT
BI
EPO
DP
S
AI
DCDPS
LOCATE SENSOR
AT LAST IN-ROW
CP-1
AHU HEAT
PUMP COIL
PUMP
BI
P1ST
BO
P1SS
AO
P1MOD
AI
P1kW
VFD
AI
CP1VL
AI
CP1ST
BI
P2ST
BO
P2SS
AO
P2MOD
AI
P2kW
CP-2
FUTURE HEAT
REJECTION PUMP
VFD
CS/CR TO WSHP-1,
WSHP-2, AND WSHP-3.
SEE SNOWMELT AND
HEATING WATER
CONTROL DIAGRAMS
FOR DETAILS.
BP-3
BOILER
PUMP
BI
P3ST
BO
P3SS
AO
P3MOD
AI
P3kW
VFD
BACKUP
B-3
BO
B3SS
BI
B3AL
AO
B3SWT
ELEC BOILER
BP-2
BOILER
PUMP
BI
P2ST
BO
P2SS
AO
P2MOD
AI
P2kW
VFD
BACKUP
B-2
BO
B2SS
BI
B2AL
AO
B2SWT
ELEC BOILER
BP-1
BOILER
PUMP
BI
P1ST
BO
P1SS
AO
P1MOD
AI
P1kW
VFD
BACKUP
B-1
BO
B1SS
BI
B1AL
AO
B1SWT
ELEC BOILER
AI
CST2
A
B
CWP-1
CONDENSER
DISTRIBUTION
AIR SEPARATOR
VFD
PUMP
GLYCOL FEEDER
GF-1
BI
P1ST
BO
P1SS
AO
P1MOD
AI
P1kW
CWP-2
CONDENSER
DISTRIBUTION
PUMP
BI
GF1AL VFD
BI
P2ST
BO
P2SS
AO
P2MOD
AI
P2kW
CS/CR TO CITY
HALL BASEMENT
MECHANICAL ROOM
CONDENSER TO
HX-1
GEO HEAT EXCHANGER
NO
NC
CS/CR TO
IN-ROW COOLER
CS/CR TO
IN-ROW COOLER
CS/CR TO
IN-ROW COOLER
NO
NC
AI
CRT
AI
CST1
CONDENSER TO
HX-2
GEO HEAT EXCHANGER
NO
NC
AI
GRT
AI
GST
AI
GRP
AO
GRVL
AO
GRM
AO
GSM
VFD
BI
P1ST
BO
P1SS
AO
P1MOD
AI
P1kW
VFD
BI
P2ST
BO
P2SS
AO
P2MOD
AI
P2kW
GWP-1 & GWP-2
GROUND WATER
CIRCULATION
PUMPS
HX1VL
P2SS
HX2VL
P2SS
CS/CR TO AHU
ECONOMIZER COIL
CONDENSER WATER - GEO/ ELEC BOILER PLANT
CONTROL DRAWING AND SEQUENCE OF OPERATION
AI TBD 5 MINDCDPS - DC DIFFERENTIAL PRESSURE SENSOR CONDENSER 4, FIELD COORD SETPOINT WITH TAB
AI --- 5 MIN ---
AI --- 5 MIN ---
GRM - GEO RETURN METER
GSM - GEO SUPPLY METER
CONDENSER
CONDENSER
AI 85/45 5 MIN ---CP1ST - PUMP CP-1 SUPPLY TEMPERATURE CONDENSER
AI 85/35 5 MIN ---
AI 95/35 5 MIN 4
CST1 - CONDENSER SUPPLY TEMPERATURE 1
CRT - CONDENSER RETURN TEMEPRATURE
CONDENSER
CONDENSER
BO --- OI MULTIPLE VALVESHX#VL - HEAT EXCHANGER # BYPASS VALVE CONDENSER
AI 85/35 5 MIN ---
AI 95/35 5 MIN 4
GST - GEO SUPPLY TEMPERATURE
GRT - GEO RETURN TEMEPRATURE
CONDENSER
CONDENSER
AI <1PSI 5 MIN 4GRP - GEO RETURN PRESSURE CONDENSER
BO
GFVL
AO --- 5 MIN ---GRVL - GEO RETURN VALVE CONDENSER
BO --- OI ---GFVL - GEO FILTER VALVE CONDENSER
SEQUENCE OF OPERATION:
GENERAL SECTION:
ALARMS SHALL BE AS NOTED WITHIN THE SEQUENCE OF OPERATION AND THE CONTROL SYSTEM DATA POINT MATRIX.
ALL SET POINTS SHALL BE ADJUSTABLE.
SYSTEM PUMPS, BOILERS AND ALL ASSOCIATED ACCESSORIES ARE TO BE CONTROLLED BY THE DDC SYSTEM EXCEPT
WHERE NOTED BELOW. THE DDC SYSTEM WILL PROVIDE THE BOILERS WITH ALL REQUIRED INPUTS TO INCLUDE BUT
NOT BE LIMITED TO THE FOLLOWING: REQUIRED WATER SUPPLY TEMPERATURE, ENABLE/DISABLE COMMAND.
THE DDC SYSTEM SHALL BE CAPABLE OF MONITORING THE STATUS OF ALL ALARMS INCLUDING THOSE FROM THE
BOILERS. AT A MINIMUM THE DDC WILL PULL THE FOLLOW ING BOILER ALARMS FOR MONITORING AT THE DDC FRONT
END WORKSTATION: GENERAL ALARM LOW WATER, HIGH TEMPERATURE LIMIT, INDIVIDUAL BOILER SUPPLY
TEMPERATURE.
LIFE/UNIT SAFETY SECTION:
A LOW VOLTAGE EMERGENCY POWER OFF (EPO) SHALL BE PROVIDED THAT DISABLES THE HEATING HOT WATER
BOILERS VIA A SOFT SHUTDOWN. EPO(S) TO BE LOCATED PER CODE AT EACH BOILER ROOM EXIT DOOR.
ALL SAFETIES PROVIDED WITH THE BOILER SHALL BE LEFT IN OPERATION AS RECOMMENDED BY THE BOILER
MANUFACTURER.
PRIMARY CONDENSER DISTRIBUTION PUMPING :
THE DDC SYSTEM SHALL START THE PRIMARY CONDENSER WATER DISTRIBUTION PUMP, CWP-1 OR CWP-2, WHEN ANY
SYSTEM VALVE (WWHPS, AHU COILS, INROWS, ETCZ) IS OPEN ON A CALL FOR CONDENSER WATER FROM THE PLANT.
THE DDC SYSTEM SHALL STOP THE PRIMARY CONDENSER WATER DISTRIBUTION PUMP WHEN THERE IS NO LONGER A
CALL FOR CONDENSER WATER FROM ANY SYSTEM VALVE.
THE PUMPS SHALL DUTY CYCLE ON A PRIMARY/STANDBY SEVEN DAY CYCLE. ON PUMP FAILURE AS INDICATED VIA THE
VFD INTERFACE THE STANDBY PUMP SHALL BE STARTED AND AN ALARM SHALL BE DISPLAYED AT THE OPERATOR'S
WORKSTATION.
THE PUMP VFD SHALL MODULATE THE PUMP SPEED TO MAINTAIN A SYSTEM DIFFERENTIAL PRESSURE AT A MINIMUM
OF 10 PSIG (CONTROL CONTRACTOR TO COORDINATE WITH BALANCER TO DETERMINE ACTUAL SET POINT) AT ALL
DIFFERENTIAL PRESSURE TRANSMITTERS.
IN ALL CASES THE PUMP SHALL NOT MODULATE BELOW THE PUMP MANUFACTURER'S MINIMUM REQUIRED FLOW.
CONTROL CONTRACTOR AND BALANCING CONTRACTOR TO COORDINATE TO DETERMINE MINIMUM VFD FREQUENCY
REQUIRED TO MAINTAIN MINIMUM FLOW, HOWEVER PUMP SPEED SHALL NOT BE SET BELOW 500 RPM FOR MOTOR
PROTECTION.
ON INITIAL PUMP STARTUP THE CONDENSER PLANT BYPASS VALVE SHALL BE OPEN AND THE PRIMARY PUMP SHALL
RUN AT MINIMUM SPEED. THE BYPASS VALVE SHALL MODULATE TO MAINTAIN DIFFERENTIAL PRESSURE IN THE
SYSTEM. ONCE THE BYPASS VALVE IS FULLY CLOSED (SENDING ALL WATER OUT TO THE SYSTEM) AND THERE IS A
FURTHER NEED FOR SYSTEM FLOW TO MAINTAIN PRESSURE THEN THE PUMP VFD SHALL MODULATE THE PUMP TO
MAINTAIN DIFFERENTIAL PRESSURE. ON A REDUCTION IN DEMAND SUCH THAT THE PRIMARY CONDENSER WATER
DISTRIBUTION PUMP VFD RETURNS TO MINIMUM SPEED, THE CONDENSER WATER SYSTEM BYPASS VALVE SHALL ONCE
AGAIN TAKE CONTROL OF MAINTAINING THE SYSTEM DIFFERENTIAL PRESSURE.
CONDENSER WATER SUPPLY TEMPERATURE SETPOINTS:
THE CONDENSER HEATING SUPPLY WATER TEMPERATURE SETPOINT SHALL BE RESET AS DETERMINED FROM THE
OUTSIDE AIR LINEAR BASED TEMPERATURE RESET SEQUENCE SHOWN BELOW:
OUTSIDE AIR LINEAR RESET:
OUTSIDE AIR TEMPERATURE HEATING SUPPLY WATER TEMPERATURE SETPOINT
0°F 55°F
60°F 45°F
THE CONDENSER COOLING SUPPLY WATER TEMPERATURE SETPOINT SHALL BE SET AT 75°F (ADJ). IF THE CONDENSER
RETURN TEMPERATURE IS GREATER THAN THE CONDENSER SUPPLY TEMPERATURE (INDICATING A NET CALL FOR
COOLING) AND THERE IS A CALL FOR COOLING FROM THE AIR HANDLER ECONOMIZER OR HEAT PUMP COILS, THE
CONDENSER COOLING SUPPLY WATER TEMPERATURE SETPIONT SHALL BE RESET TO 3°F GREATER THAN THE GEO
SUPPLY TEMPERATURE.
HEAT EXCHANGER BYPASS VALVE:
THE HEAT EXCHANGER BYPASS VALVES, HX1VL & HX2VL, SHALL BE POSITIONED TO FLOW THROUGH THE HEAT
EXCHANGER WHEN THE CONDENSER RETURN TEMPERATURE IS LESS THAN THE CONDENSER HEATING SUPPLY WATER
TEMPERATURE SETPOINT AND THE GEO SUPPLY TEMPERATURE IS AT LEAST 3°F GREATER THAN THE CONDENSER
RETURN TEMPERATURE.
THE HEAT EXCHANGER BYPASS VALVES SHALL ALSO BE POSITIONED TO FLOW THROUGH THE HEAT EXCHANGER WHEN
THE CONDENSER RETURN TEMPERATURE IS GREATER THAN THE CONDENSER COOLING SUPPLY WATER
TEMPERATURE SEPOINT AND THE GEO SUPPLY TEMPERATURE IS AT LEAST 3°F LESS THAN THE CONDENSER RETURN
TEMPERATURE.
OTHERWISE, THE HEAT EXCHANGER BYPASS VALVES SHALL BE POSITIONED TO BYPASS FLOW AROUND THE HEAT
EXCHANGER.
GEO DISTRIBUTION PUMPING:
THE DDC SYSTEM SHALL START THE PRIMARY GEO WATER DISTRIBUTION PUMP, GWP-1 OR GWP-2, WHEN THE HEAT
EXCHANGER BYPASS VALVES ARE POSITIONED TO FLOW THROUGH THE HEAT EXCHANGER ON A CALL FOR GEO WATER
HEATING OR COOLING.
THE DDC SYSTEM SHALL STOP GEOTHERMAL WATER DISTRIBUTION PUMP WHEN THERE IS NO LONGER A CALL FOR
GEO WATER FROM THE HEAT EXCHANGERS.
THE PUMPS SHALL DUTY CYCLE ON A PRIMARY/STANDBY SEVEN DAY CYCLE. ON PUMP FAILURE AS INDICATED VIA THE
VFD INTERFACE THE STANDBY PUMP SHALL BE STARTED AND AN ALARM SHALL BE DISPLAYED AT THE OPERATOR'S
WORKSTATION.
THE PUMP VFD SHALL MODULATE THE PUMP SPEED TO MAINTAIN THE CONDENSER WATER COOLING SUPPLY
TEMPERATURE SETPOINT, OR A 3°F APPROACH BETWEEN THE CONDENSER WATER SUPPLY TEMPERATURE, CST1, AND
THE GEO WATER SUPPLY TEMPERATURE WHEN HEATING.
THE GEO RETURN WATER TEMPERATURE SHALL BE LIMITED TO A LOW LIMIT OF 40°F.
IN ALL CASES THE PUMP SHALL NOT MODULATE BELOW THE PUMP MANUFACTURER'S MINIMUM REQUIRED FLOW.
CONTROL CONTRACTOR AND BALANCING CONTRACTOR TO COORDINATE TO DETERMINE MINIMUM VFD FREQUENCY
REQUIRED TO MAINTAIN MINIMUM FLOW, HOWEVER PUMP SPEED SHALL NOT BE SET BELOW 500 RPM FOR MOTOR
PROTECTION.
GEO RETURN WATER VALVE:
ON INITIAL PUMP STARTUP THE GEO WATER RETURN VALVE SHALL BE CLOSED. ONCE THE PRIMARY GEO PUMP HAS
BEEN ENABLED. THE VALVE SHALL MODULATE TO MAINTAIN A PRESSURE IN THE SYSTEM OF 1 PSI. THE VALVE SHALL
CLOSE JUST PRIOR TO DISABLING PUMPS SO AS TO MAINTAIN PRESSURE IN THE SYSTEM AT ALL TIMES.
GEO FILTER DRAIN VALVE:
THE GEO FILTER DRAIN VALVE SHALL CYCLE OPEN AND CLOSED AFTER EVERY 8 HOURS OF GEO PUMP RUNTIME.
VALVE SHALL ONLY OPEN WHEN PUMPS ARE OPERATIONAL.
BOILER CONTROL:
THE BOILER PLANT SHALL BE ENABLED ANY TIME THE CONDENSER WATER SUPPLY TEMPERATURE, CST2, IS BELOW
THE CONDENSER WATER HEATING SUPPLY TEMPERATURE SETPOINT, AND THE PRIMARY CONDENSER WATER PUMPS
ARE ENABLED AND PROVEN FLOW.
THE LEAD BOILER PUMP SHALL BE ENABLED AND THE PUMP VFD SHALL MODULATE THE PUMP SPEED TO MAINTAIN THE
CONDENSER WATER SUPPLY TEMPERATURE, CST2, AT THE CONDENSER WATER HEATING SUPPLY TEMPERATURE
SETPOINT. IN ALL CASES THE PUMP SHALL NOT MODULATE BELOW THE BOILER MANUFACTURER'S MINIMUM REQUIRED
FLOW. CONTROL CONTRACTOR AND BALANCING CONTRACTOR TO COORDINATE TO DETERMINE MINIMUM VFD
FREQUENCY REQUIRED TO MAINTAIN MINIMUM FLOW, HOWEVER PUMP SPEED SHALL NOT BE SET BELOW 500 RPM FOR
MOTOR PROTECTION.
THE LEAD BOILER SHALL BE ENABLED AND GIVEN A SUPPLY TEMPERATURE SETPOINT EQUAL TO 30°F GREATER THAN
THE CONDENSER HEATING SUPPLY WATER TEMPERATURE SETPOINT. THE BOILER PACKAGED BOILER CONTROLLER
SHALL STAGE AND MODULATE THE BOILER UNDER FACTORY CONTROL TO MAINTAIN SETPOINT. THE ON BOARD
CONTROLLER SHALL VERIFY PROOF OF WATER FLOW BEFORE FIRING BOILER. THE SUPPLY WATER TEMPERATURE
SHALL BE LIMITED TO A MAXIMUM OF 100 DEG. F.
ADDITIONAL LAG BOILERS AND PUMPS SHALL BE CYCLED ON AND OFF AS REQUIRED TO MAINTAIN SETPOINT.
THE BOILERS AND PUMPS SHALL DUTY CYCLE ON A LEAD/LAG1/LAG2 SEVEN DAY CYCLE. ON PUMP FAILURE, AS
INDICATED VIA THE VFD INTERFACE, OR ON BOILER FAILURE, AS INDICATED VIA THE BOILER ALARM POINT, THE BAS
SHALL START THE NEXT AVAILABLE BOILER AND ROTATE THE FAILED BOILER OUT OF OPERATION. AN ALARM SHALL BE
DISPLAYED AT THE OPERATOR'S WORKSTATION.
AIR HANDLING UNIT HEAT PUMP COIL:
THE AHU HEAT PUMP COIL PUMP, CP-1, SHALL BE STARTED ON A CALL FOR CONDENSER WATER FROM THE AHU HEAT
PUMP.
THE PUMP VFD SHALL BE SET TO MAINTAIN THE CONDENSER WATER FLOW RATE AT THE DESIGN CONDENSER WATER
FLOW RATE OF THE HEAT PUMP COIL. CONTROL CONTRACTOR AND BALANCING CONTRACTOR TO COORDINATE TO
DETERMINE VFD FREQUENCY REQUIRED TO MAINTAIN FLOW RATE.
THE COIL PUMP CONTROL VALVE SHALL BE 100% OPEN ON A CALL FOR HEATING AND SHALL MODULATE TO MAINTAIN A
MINIMUM COIL SUPPLY WATER TEMPERATURE OF 65°F ON A CALL FOR COOLING.
FUTURE HEAT REJECTION COIL PUMP:
THE HEAT REJECTION COIL PUMP SHALL BE STARTED ANY TIME THE CONDENSER WATER SUPPLY TEMPERATURE,
CST2, IS GREATER THAN THE CONDENSER WATER COOLING SUPPLY TEMPERATURE SETPOINT, AND THE PRIMARY
CONDENSER WATER PUMPS ARE ENABLED AND PROVEN FLOW, AND THE HEAT EXCHANGERS ARE UNAVAILABLE OR
UNABLE TO MEET SETPOINT.
THE PUMP VFD SHALL MODULATE THE PUMP TO MAINTAIN THE CONDENSER WATER SUPPLY TEMPERATURE, CST2, AT
THE CONDENSER WATER COOLING SUPPLY TEMPERATURE SETPOINT. IN ALL CASES THE PUMP SHALL NOT MODULATE
BELOW THE PUMP MANUFACTURER'S MINIMUM REQUIRED FLOW . CONTROL CONTRACTOR AND BALANCING
CONTRACTOR TO COORDINATE TO DETERMINE MINIMUM VFD FREQUENCY REQUIRED TO MAINTAIN MINIMUM FLOW,
HOWEVER PUMP SPEED SHALL NOT BE SET BELOW 500 RPM FOR MOTOR PROTECTION.
CONTROL SYSTEM DATA POINT MATRIX
CHARLES
CUNNIFFE
ARCHITECTS
COPYRIGHT CHARLES CUNNIFFE ARCHITECTSC
SHEET NO.
JOB NO.
2/
6
/
2
0
1
8
4
:
4
8
:
3
4
P
M
M9.02
2016.01.0223
MECHANICAL
CONTROLS
AS
P
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42
5
R
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P
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ISSUE: DATE:
50% DD 10/30/17
100% DD 12/12/17
PERMIT 02/07/18
03/16/2019
HWS
HWS
T
HWR HWR
NO SCALE
T
T
CS
CR
CS
CR
TT T
CONTROL SYSTEM DATA POINT MATRIX
HWP-3
HOT WATER
DISTRIBUTION
AIR SEPARATOR
AI
HWRT
DPS
HI
LO
AI
HWDPS
PROVIDE ONE PER FLOOR
VFD
PUMP
BI
P3ST
BO
P3SS
AO
P3OD
AI
P3kW
HWP-4
HOT WATER
DISTRIBUTION
PUMP
AI
HWST
AI
OAT
VFD
BI
P4ST
BO
P4SS
AO
P4MOD
AI
P4kW
NOTES: 1) NOT ALL VIRTUAL POINTS ARE SHOWN. PROVIDE ALL POINTS REQUIRED FOR SOFTWARE OPERATION.
2) AV (ANALOG VIRTUAL) & BV (BINARY VIRTUAL)
3) POINT SHALL BE DISPLAYED ON THE NOTED SYSTEM GRAPHIC
4) LOCKOUT ALARM WHEN UNIT IS DE-ENERGIZED. PROVIDE 15-MINUTE STARTUP DELAY PRIOR TO ENABLING ALARM.
5) OI (ON INDICATION), TREND SHALL NOTE TIME OF BINARY POINT CHANGE
POINT NAME TYPE
AI
ALARM
---
NOTE 2
GRAPHIC
NOTE 3NOTE 1
TREND
5 MIN
NOTES
---
AI 10°<SPT 5 MIN 4
AI --- 10 MIN ---
BOILER PLANT
NOTE 5
BI FAIL OI 4, MULTIPLE PUMPS
AO --- 5 MIN MULTIPLE PUMPS
AI --- 5 MIN MULTIPLE PUMPS
BO --- OI MULTIPLE PUMPS
AI TBD 5 MIN 4, FIELD COORD QUANTITY & ALARM
OAT - OUTSIDE AIR TEMPERATURE
HWDPS - DIFFERENTIAL PRESSURE SENSOR
HWST - HOT WATER SUPPLY TEMPERATURE
HWRT - HOT WATER RETURN TEMPERATURE
P#ST - PUMP # STATUS
P#SS - PUMP # START/STOP
P#MOD - PUMP # MODULATE
P#kW - PUMP # kW ENERGY USE
BOILER PLANT
BOILER PLANT
BOILER PLANT
BOILER PLANT
BOILER PLANT
BOILER PLANT
BOILER PLANT
HEATING HOT WATER - HEAT PUMP PLANT
CONTROL DRAWING AND SEQUENCE OF OPERATION
WATER TO WATER
WWHP-2
BO
HP2SS
BI
HP2AL
AO
HP2T
HEAT PUMP
BO
HP2CV
BT-1
BT-1
BUFFER
TANK
WATER TO WATER
WWHP-1
BO
HP1SS
BI
HP1AL
AO
HP1T
HEAT PUMP
BO
HP1CV
VFD
BI
P2ST
BO
P2SS
AO
P2OD
AI
P2kW
VFD
BI
P1ST
BO
P1SS
AO
P1OD
AI
P1kW
AI
HPRT
AI
HPST
AI 10°<SPT 5 MIN 4
AI --- 10 MIN ---
HPST - HEAT PUMP SUPPLY TEMPERATURE
HPRT - HEAT PUMP RETURN TEMPERATURE
BOILER PLANT
BOILER PLANT
BO --- OI MULTIPLE UNITS
BI FAIL OI MULTIPLE UNITS
AO --- 5 MIN MULTIPLE UNITS
HP#SS - HEAT PUMP # START/STOP
HP#T - HEAT PUMP # SUPPLY TEMP SETPOINT
HP#AL - HEAT PUMP # ALARM
SNOWMELT
SNOWMELT
SNOWMELT
BO --- OI MULTIPLE UNITSHP#CV - HEAT PUMP # CONDENSER WATER VALVE SNOWMELT
AI
BTT
AI 10°<SPT 5 MIN 4BTT - BUFFER TANK TEMPERATURE BOILER PLANT
SEQUENCE OF OPERATION:
GENERAL SECTION:
ALARMS SHALL BE AS NOTED WITHIN THE SEQUENCE OF OPERATION AND THE CONTROL SYSTEM DATA POINT MATRIX. ALL
SET POINTS SHALL BE ADJUSTABLE.
SYSTEM PUMPS HEAT PUMP, AND ALL ASSOCIATED ACCESSORIES ARE TO BE CONTROLLED BY THE DDC SYSTEM EXCEPT
WHERE NOTED BELOW. THE DDC SYSTEM WILL PROVIDE THE HEAT PUMP WITH ALL REQUIRED INPUTS TO INCLUDE BUT NOT
LIMITED TO THE FOLLOWING: REQUIRED WATER SUPPLY TEMPERATURE & ENABLE/DISABLE COMMAND.
THE DDC SYSTEM SHALL BE CAPABLE OF MONITORING THE STATUS OF ALL ALARMS INCLUDING THOSE FROM THE HEAT
PUMP. AT A MINIMUM THE DDC WILL PULL THE FOLLOWING HEAT PUMP ALARMS FOR MONITORING AT THE DDC FRONT END
WORKSTATION: GENERAL ALARM.
LIFE/UNIT SAFETY SECTION:
ALL SAFETIES PROVIDED WITH THE HEAT PUMP SHALL BE LEFT IN OPERATION AS RECOMMENDED BY THE MANUFACTURER.
SYSTEM PUMPING - SECONDARY/STANDBY:
THE DDC SYSTEM SHALL START THE SECONDARY HEATING WATER DISTRIBUTION PUMP (HWP-3 OR HWP-4) WHEN BOTH OF
THE FOLLOWING CONDITIONS ARE PRESENT:
1. THE OUTSIDE AIR TEMPERATURE IS LESS THAN 65 DEG. F.
2. AND ANY SYSTEM VALVE (FPVAVS, VAVS, CUHS, ETCZ) IS OPEN ON A CALL FOR HEAT FROM THE ASSOCIATED UNIT.
THE DDC SYSTEM SHALL STOP THE PRIMARY HEATING WATER DISTRIBUTION PUMP WHEN EITHER OF THE ABOVE IS NO
LONGER TRUE.
THE PUMPS SHALL DUTY CYCLE ON A PRIMARY/STANDBY SEVEN DAY CYCLE. ON PUMP FAILURE AS INDICATED VIA THE VFD
INTERFACE THE STANDBY PUMP SHALL BE STARTED AND AN ALARM SHALL BE DISPLAYED AT THE OPERATOR'S
WORKSTATION.
THE SECONDARY HEATING WATER DISTRIBUTION PUMP VFD SHALL MODULATE THE PUMP TO MAINTAIN A SYSTEM
DIFFERENTIAL PRESSURE AT A MINIMUM OF 5 PSIG (CONTROL CONTRACTOR TO COORDINATE WITH BALANCER TO DETERMINE
ACTUAL SET POINT) AT ALL DIFFERENTIAL PRESSURE TRANSMITTERS.
THE DIFFERENTIAL PRESSURE SET POINT SHALL BE RESET DOWN SUCH THAT THE WORST CASE VALVE IS OPEN 90%.
IN ALL CASES THE SECONDARY HEATING WATER DISTRIBUTION PUMP SHALL NOT MODULATE BELOW THE PUMP
MANUFACTURER'S MINIMUM REQUIRED FLOW. CONTROL CONTRACTOR AND BALANCING CONTRACTOR TO COORDINATE TO
DETERMINE MINIMUM VFD FREQUENCY REQUIRED TO MAINTAIN MINIMUM FLOW, HOWEVER PUMP SPEED SHALL NOT BE SET
BELOW 500 RPM FOR MOTOR PROTECTION.
HEAT PUMP AND PRIMARY PUMP:
THE HEAT PUMPS AND PRIMARY PUMPS SHALL BE CONTROLLED AS INDICATED BELOW, ANY TIME THE HEATING WATER
DISTRIBUTION PUMPS ARE ONLINE. THE PRIMARY PUMPS AND HEAT PUMPS SHALL BE DISABLED ANYTIME THE SECONDARY
HEATING WATER DISTRIBUTION PUMP IS OFFLINE.
THE DDC SYSTEM SHALL PROVIDE THE HEAT PUMPS WITH THE REQUIRED SUPPLY WATER TEMPERATURE AS DETERMINED
FROM THE OUTSIDE AIR LINEAR BASED TEMPERATURE RESET SEQUENCE SHOWN BELOW:
OUTSIDE AIR LINEAR RESET:
OUTSIDE AIR TEMPERATURE SUPPLY WATER TEMPERATURE SET POINT
20°F 130°F
65°F 110°F
THE SUPPLY WATER TEMPERATURE SHALL BE LIMITED TO A MAXIMUM OF 130°F.
THE LEAD PRIMARY PUMP SHALL BE STARTED AND THE VFD SHALL MODULATE THE PUMP TO MAINTAIN THE DESIGN FLOW
RATE INDICATED IN THE EQUIPMENT SCHEDULE (CONTROL CONTRACTOR TO COORDINATE WITH BALANCER TO DETERMINE
ACTUAL SET POINT) .
THE LEAD HEAT PUMP SOURCE CONTROL VALVE SHALL OPEN. THE LEAD HEAT PUMP SHALL BE ENABLED, AFTER PROOF OF
PRIMARY CONDENSER PUMP OPERATION AND PRIMARY HEATING WATER PUMP OPERATION. THE LEAD HEAT PUMP SHALL BE
GIVEN THE SUPPLY WATER TEMPERATURE SETPOINT INDICATED BY THE RESET ABOVE AND THE HEAT PUMP SHALL OPERATE
UNDER PACKAGED CONTROLS TO MAINTAIN THE SETPOINT.
THE LAG HEAT PUMP AND LAG PRIMARY PUMP SHALL BE CYCLED ON AND OFF IN THE SAME WAY AS NEEDED TO MAINTAIN
THE BUFFER TANK TEMPERATURE AT THE HEATING WATER SUPPLY TEMPERATURE SETPOINT INDICATED BY THE RESET
ABOVE.
THE HEAT PUMPS SHALL DUTY CYCLE ON A LEAD/LAG SEVEN DAY CYCLE. IN THE EVENT OF HEAT PUMP FAILURE (AS
INDICATED BY THE EQUIPMENT ALARM), AN ALARM SHALL BE GENERATED AND THE NEXT AVAILABLE HEAT PUMP SHALL BE
ENABLED. ONCE EQUIPMENT ALARM HAS BEEN CLEARED AT OPERATOR WORKSTATION, THE HEAT PUMPS SHALL BE
RETURNED INTO NORMAL SERVICE.
CHARLES
CUNNIFFE
ARCHITECTS
COPYRIGHT CHARLES CUNNIFFE ARCHITECTSC
SHEET NO.
JOB NO.
2/
6
/
2
0
1
8
4
:
4
8
:
3
4
P
M
M9.03
2016.01.0223
MECHANICAL
CONTROLS
AS
P
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42
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ISSUE: DATE:
50% DD 10/30/17
100% DD 12/12/17
PERMIT 02/07/18
03/16/2019
T
NO SCALE
T
SMR
T
S
SMS
SMR
SMS
CS
CR
SMP-1
SNOWMELT
DISTRIBUTION
AIR SEPARATOR
AI
SMRT
DPS
HI
LO
AI
SMDPS
VFD
PUMP
GLYCOL FEEDER
GF-2
BI
P1ST
BO
P1SS
AO
P1MOD
AI
P1kW
AI
SMST
AI
OAT
WATER TO WATER
WWHP-3
BO
HP3SS
BI
HP3AL
AO
HP3T
BI
GF2AL
NOTES: 1) NOT ALL VIRTUAL POINTS ARE SHOWN. PROVIDE ALL POINTS REQUIRED FOR SOFTWARE OPERATION.
2) AV (ANALOG VIRTUAL) & BV (BINARY VIRTUAL)
3) POINT SHALL BE DISPLAYED ON THE NOTED SYSTEM GRAPHIC
4) LOCKOUT ALARM WHEN UNIT IS DE-ENERGIZED. PROVIDE 15-MINUTE STARTUP DELAY PRIOR TO ENABLING ALARM.
5) OI (ON INDICATION), TREND SHALL NOTE TIME OF BINARY POINT CHANGE
POINT NAME TYPE
AI
ALARM
---
NOTE 2
GRAPHIC
NOTE 3NOTE 1
TREND
5 MIN
NOTES
---
AI 10°<SPT 5 MIN 4
AI
BO FAIL OI ---
SNOWMELT
NOTE 5
BO --- OI ---
BI FAIL OI ---
BI FAIL OI 4
AO --- 5 MIN ---
AI --- 5 MIN ---
BO --- OI ---
AO --- 5 MIN ---
AI 10%<SPT 5 MIN 4, FIELD COORD SETPOINT WITH TAB
OAT - OUTSIDE AIR TEMPERATURE
SMDPS - DIFFERENTIAL PRESSURE SENSOR
SMST - SNOWMELT SUPPLY TEMPERATURE
HWRT - HOT WATER RETURN TEMEPRATURE
P1ST - SNOWMELT PUMP 1 STATUS
P1SS - SNOWMELT PUMP 1 START/STOP
P1MOD - SNOWMELT PUMP 1 MODULATE
P1kW - SNOWMELT PUMP 1 kW ENERGY USE
GF2AL - GLYCOL FEEDER 2 ALARM
HP3SS - HEAT PUMP 3 START/STOP
HP3T - HEAT PUMP 3 SUPPLY TEMP SETPOINT
HP3AL - HEAT PUMP 3 ALARM
SNOWMELT
SNOWMELT
SNOWMELT
SNOWMELT
SNOWMELT
SNOWMELT
SNOWMELT
SNOWMELT
SNOWMELT
SNOWMELT
SNOWMELT
RETURN MANIFOLD
SUPPLY MANIFOLD
TYP. (1)
PER ZONE
3-WAY CONTROL
VALVE LOCATED AT
MANIFOLD. SEE
SNOWMELT
SNOWMELT
MANIFOLD.
SEE DETAIL.
DIFFERENTIAL
PRESSURE SENSOR
LOCATED AT MOST
HYDRAULICALLY
REMOTE SNOWMELT
MANIFOLD.
OUTDOOR AIR SENSORS
LOCATED ON NORTH OF
BUILDING OUT OF
DIRECT SUNLIGHT AND
AWAY FROM
INTERFERANCES.
SCHEDULE
AI
SLT#
BI
SMS#
AO
SMV#
HEAT PUMP
SNOWMELT - HEAT PUMP PLANT
CONTROL DRAWING AND SEQUENCE OF OPERATION
AI 5 MINSLT# - SLAB TEMPERATURE SENSOR ZONE #SNOWMELT------
BI OISMS# - SLAB MOISTURE SENSOR ZONE #SNOWMELT------
AO 5 MINSMV# - SNOWMELT CONTROL VALVE ZONE #SNOWMELT------
5 MIN------
BO
HP3CV
BO --- OI ---HP3CV - HEAT PUMP 3 CONDENSER WATER VALVE SNOWMELT
SEQUENCE OF OPERATION:
GENERAL SECTION:
ALARMS SHALL BE AS NOTED WITHIN THE SEQUENCE OF OPERATION AND THE CONTROL SYSTEM
DATA POINT MATRIX. ALL SET POINTS SHALL BE ADJUSTABLE.
SYSTEM PUMPS HEAT PUMP, AND ALL ASSOCIATED ACCESSORIES ARE TO BE CONTROLLED BY THE
DDC SYSTEM EXCEPT WHERE NOTED BELOW. THE DDC SYSTEM WILL PROVIDE THE HEAT PUMP WITH
ALL REQUIRED INPUTS TO INCLUDE BUT NOT LIMITED TO THE FOLLOWING: REQUIRED WATER SUPPLY
TEMPERATURE & ENABLE/DISABLE COMMAND.
THE DDC SYSTEM SHALL BE CAPABLE OF MONITORING THE STATUS OF ALL ALARMS INCLUDING
THOSE FROM THE HEAT PUMP. AT A MINIMUM THE DDC WILL PULL THE FOLLOWING HEAT PUMP
ALARMS FOR MONITORING AT THE DDC FRONT END WORKSTATION: GENERAL ALARM.
LIFE/UNIT SAFETY SECTION:
ALL SAFETIES PROVIDED WITH THE HEAT PUMP SHALL BE LEFT IN OPERATION AS RECOMMENDED BY
THE MANUFACTURER.
SNOWMELT RADIANT MANIFOLDS:
THE SYSTEM SHALL MONITOR THE SLAB TEMPERATURE AND MOISTURE SENSOR.
WHENEVER THE SLAB SENSOR DETECTS MOISTURE AND THE SLAB TEMPERATURE IS BELOW 36°F
(ADJ), THE RADIANT MANIFOLD CONTROL VALVE SHALL BE CONTROLLED AS FOLLOWS.
THE SNOWMELT MANIFOLD CONTROL VALVE SHALL OPEN 100%.
THE CONTROL VALVE SHALL MODULATE TO MAINTAIN A SLAB TEMPERATURE SETPOINT OF 38°F (ADJ).
THE CONTROL VALVE SHALL CLOSE 100% WHEN THE SLAB SENSOR NO LONGER DETECTS MOISTURE
AND THE SLAB SURFACE IS 36°F (ADJ) OR ABOVE.
SYSTEM PUMPING - PRIMARY:
THE DDC SYSTEM SHALL START THE SNOWMELT DISTRIBUTION PUMP ON A CALL FOR HEATING FROM
ANY SNOWMELT MANIFOLD CONTROL VALVE. THE DDC SYSTEM SHALL STOP THE SNOWMELT
DISTRIBUTION PUMP, WHEN THERE IS NO LONGER A CALL FOR HEATING FROM ANY SNOWMELT
MANIFOLD CONTROL VALVE AND AFTER A 30 MINUTE (ADJ) DELAY.
THE SNOWMELT DISTRIBUTION PUMP VFD SHALL MODULATE THE PUMP TO MAINTAIN A SYSTEM
DIFFERENTIAL PRESSURE AT A MINIMUM OF 5 PSIG. (CONTROL CONTRACTOR TO COORDINATE WITH
BALANCER TO DETERMINE ACTUAL SET POINT) AT ALL DIFFERENTIAL PRESSURE TRANSMITTERS.
THE DIFFERENTIAL PRESSURE SET POINT SHALL BE RESET DOWN SUCH THAT THE WORST CASE
VALVE IS OPEN 90%.
IN ALL CASES THE SNOWMELT DISTRIBUTION PUMP SHALL NOT MODULATE BELOW THE HEAT PUMP
MANUFACTURER'S MINIMUM REQUIRED FLOW. CONTROL CONTRACTOR AND BALANCING
CONTRACTOR TO COORDINATE TO DETERMINE MINIMUM VFD FREQUENCY REQUIRED TO MAINTAIN
MINIMUM FLOW. THE MINIMUM PUMP SPEED SHALL NOT BE SET BELOW 500 RPM FOR MOTOR
PROTECTION.
SNOWMELT HEAT PUMP:
ON A CALL FOR HEATING FROM ANY SNOWMELT MANIFOLD CONTROL VALVE, THE HEAT PUMP
SOURCE CONTROL VALVE SHALL OPEN. THE HEAT PUMP SHALL BE ENABLED, AFTER PROOF OF
PRIMARY SOURCE PUMP OPERATION AND SNOWMELT DISTRIBUTION PUMP OPERATION.
THE HEAT PUMP SHALL BE GIVEN A TEMPERATURE SETPOINT OF 130°F (ADJ), AND THE HEAT PUMP
SHALL OPERATE UNDER PACKAGED CONTROLS TO MAINTAIN THE SETPIONT. SEE IDLE OPERATION
SEQUENCE FOR TEMPERATURE RESET.
THE HEAT PUMP SHALL BE DISABLED PRIOR TO STOPPING THE SNOWMELT DISTRIBUTION PUMP.
IN THE EVENT OF HEAT PUMP FAILURE (AS INDICATED BY THE EQUIPMENT ALARM) AN ALARM SHALL
BE GENERATED. ONCE EQUIPMENT ALARM HAS BEEN CLEARED AT OPERATOR WORKSTATION, THE
HEAT PUMP SHALL BE RETURNED INTO NORMAL SERVICE.
IDLE OPERATION:
WHEN THE OAT IS BETWEEN 40°F (ADJ) AND 30°F (ADJ) THE SNOWMELT SYSTEM SHALL IDLE.
THE BUILDING CONTROL SYSTEM SHALL OPERATE AND MODULATE THE SNOWMELT DISTRIBUTION
PUMP AS DESCRIBED ABOVE.
THE BUILDING CONTROL SYSTEM SHALL ENABLED THE HEAT PUMP AS DESCRIBED ABOVE AND RESET
THE SUPPLY WATER TEMPERATURE SETPOINT TO 100°F (ADJ) .
GLYCOL FEEDER:
DRY CONTACTS SHALL BE PROVIDED ON THE GLYCOL FEEDER PACKAGED CONTROLLER. GENERATE
AN ALARM IF THE GLYCOL FEEDER SENDS AN ALARM SIGNAL.
CONTROL SYSTEM DATA POINT MATRIX
CHARLES
CUNNIFFE
ARCHITECTS
COPYRIGHT CHARLES CUNNIFFE ARCHITECTSC
SHEET NO.
JOB NO.
2/
6
/
2
0
1
8
4
:
4
8
:
3
4
P
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M9.04
2016.01.0223
MECHANICAL
CONTROLS
AS
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ISSUE: DATE:
50% DD 10/30/17
100% DD 12/12/17
PERMIT 02/07/18
03/16/2019
S
S
S
S
SS
HR
C
CR CS
FUTURE HEAT
REJECTION
SYSTEM
INDIRECT EVAP
HP
C
RL
CS
RG
CR
D NPD
EC
C
CR CS
T
VFD
NC
EXHAUST
AIR
HEAT WHEEL
DA
BO-
RAD
D
F
BO-
RFSS
BI-
RF1ST
BI-
RF2ST
T
AI-
EAT
P
BI-
HSA
NC
FLOW
DA
AO-
OAD1
AI-
OAFL FDP
BI-
DP
T
AI-
MAT
T
AI-
SAT1
VFD
BO-
WSS
BI-
WST
AO-
RAD1
VFD
BO-
SFSS
BI-
SF1ST
BI-
SF2ST
P
BI-
HSA FDP
BI-
DP
SUPPLY
AIR
T
AI-
SAT2
D
FDP
DP
LO
DSP
HI
SUPPLY FANS
EXHAUST FANS
T
AI-
SPT
AI-
SPC02
C
SPACE TEMPERATURE
AND CO2 SENSORS AS
SHOWN ON PLAN AND AS
SHOWN ON VAV BOX
CONTROL DRAWINGS
T
AI
OAT
C
AI
OACO2
NO SCALE
WATER SOURCE VARIABLE AIR VOLUME AHU
CONTROL DRAWING AND SEQUENCE OF OPERATION
P
AI
OAPART
DA
NO
AIR
RETURN
BSD
HI
LO
LOCATE BUILDING
STATIC PRESSURE
SENSOR IN RUN OUT
VFD
EF
EXHAUST
AIR
RELIEF/RETURN
AIR
T
AI
RAT
C
AI
RACO2
EFST
BI
EFSS
BOAO
EFMOD
P
HSA
BI
PA
AI
RAPRT
AIR QUALITY
SENSORS, PROVIDE
ALL THREE AT EACH
FLOOR
AHU-1: PROVIDE
RETURN TEMP, CO2
AND PARTICULATES
AT EACH RISER
NO
DA
AI-
DSP
AI-
SPDP
AO-
SFMOD
AO-
WMOD
AO-
RFMOD
F D
SDA
BI-
SDA
BI-
SDA
BI-
AI-
SAFL
FLOW VIA FAN
HOUSING; COORDINATE
WITH MANUFACTURE
REQUIRED SENSOR.
AI-
RAFL
FLOW VIA FAN
HOUSING; COORDINATE
WITH MANUFACTURE
REQUIRED SENSOR.
AI-
EAFL
FLOW VIA FAN
HOUSING; COORDINATE
WITH MANUFACTURER
REQUIRED SENSOR.
OAPART & OAC02 CAN
BE DUCT MOUNTED ON
OUTSIDE AIR INTAKE
DUCT
H
AI
OAH
AI
OAWSP
SPEED
WIND
MECH ROOM PLENUM
AT EACH FLOOR
AI-
HEDP
AI-
HSDP
OUTSIDE
AIR
AO-
CWVL
M
HPHCM
BO
AO-
HPMOD
WATER
SOURCE
HEAT PUMP
MODULE
COORDINATE WITH
MANUFACTURER
FOR WATER SOURCE
HEAT PUMP CONTROL
REQUIREMENTS.
FDP
BI-
DP
LEVEL
CT
NO NO NC
BO-
PSS
BI-
PST
AI-
WLVL
BO-
FILL
BO-
DRN
MAO-
ECVL
NC
DA
AO-
OAD2
OUTSIDE
AIR AO-
RAD2
AI-
HRST
ON EACH FLOOR
TOTAL 4 SENSORS
CHARLES
CUNNIFFE
ARCHITECTS
COPYRIGHT CHARLES CUNNIFFE ARCHITECTSC
SHEET NO.
JOB NO.
2/
6
/
2
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8
4
:
4
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2016.01.0223
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50% DD 10/30/17
100% DD 12/12/17
PERMIT 02/07/18
03/16/2019
CONTROL SYSTEM DATA POINT MATRIX - AHU-1
POINT NAME
NOTE 1
TYPE
NOTE 2
ALARM
NOTE 6
GRAPHIC
NOTE 3
TREND
NOTE 5 NOTES
OAPRT - OUTSIDE AIR PARTICULATES REF AI ---AHU 10 MIN
1,000 COUNTR PER FT^3
OACO2 - OUTSIDE AIR CO2 REFERENCE AI ---AHU 12 MIN ---
OAT - OUTSIDE AIR TEMPERATURE AI ---AHU 10 MIN ---
OAH - OUTSIDE AIR HUMIDITY AI ---AHU 10 MIN ---
OAWSP - OUTSIDE AIR WIND SPEED AI ---AHU 10 MIN ---
OAD1 - OUTSIDE AIR DAMPER AO --- AHU 5 MIN ---
OAFL - MIN OUTSIDE AIR FLOW RATE AI <SETPOINT-10%AHU 5 MIN 4
FPD - FILTER PRESSURE DROP AI REPLACE AHU 10 MIN
4, NOTE WHEN TO REPLACE
WST - WHEEL STATUS BI FAIL AHU OI
WSS - WHEEL START/STOP BO ---AHU OI
WMOD - WHEEL MOD AO ---AHU 5 MIN
HSDP - WHEEL SUPPLY PRESSURE DROP AI ALARM AHU 5 MIN ALARM WHEN FROSTING
SAT1 - SUPPLY AIR TEMP (POST WHEEL)AI ---AHU 5 MIN
RAD1 - RETURN AIR DAMPER AO ---AHU 5 MIN ---
SDA - SMOKE DETECTOR ALARM BI ALARM AHU OI MULTIPLE DETECTORS
MAT - MIXED AIR TEMP AI <40 AHU 10 MIN ---
SF#ST - SUPPLY FAN # STATUS BI FAIL AHU OI 4
SFSS - SUPPLY FAN START/STOP BO ---AHU OI MULTIPLE FANS
SFMOD - SUPPLY FAN MODULATION AO ---AHU 2 MIN MULTIPLE FANS
SAFL - SUPPLY AIR FLOW RATE AI <SETPOINT-10%AHU 5 MIN 4
### - DOOR SWITCH AI ALARM AHU OI MULTIPLE SWITCHES
HSA - HIGH STATIC BI ALARM AHU OI ---
FPD - FILTER PRESSURE DROP AI REPLACE AHU 10 MIN
4, NOTE WHEN TO REPLACE
ECVL - ECONOMIZER WATER VALVE AO ---AHU 2 MIN ---
CWVL - CONDENSER WATER VALVE AO ---AHU 2 MIN ---
HPHCM - HEAT PUMP HEATING/COOLING MODE BO ---AHU OI ---
HPMOD - HEAT PUMP CAPACITY MODULATION AO ---AHU 2 MIN ---
SAT2 - SUPPLY AIR TEMP (LEAVING UNIT)AI <55, >80 AHU 2 MIN 4, SEE PLANS FOR COUNT
DSP - SUPPLY DUCT STATIC PRESSURE AI ---AHU 2 MIN ---
SPDP - SPACE DIFF PRESSURE AI ---AHU 2 MIN ---
RAPRT - RETURN AIR PARTICULATORS AI ALARM AHU 5 MIN
MULTIPLE, PER FLR, SEE IAQ WRITEUP
RAT - RETURN AIR TEMP AI <55, >85 AHU 5 MIN ---
RACO2 - RETURN AIR CO2 AI ALARM AHU 5 MIN
MULTIPLE, PER FLR, SEE IAQ WRITEUP
RAD2 - RELIEF AIR DAMPER AO ---AHU 5 MIN ---
EFST - EXHAUST FAN STATUS BI FAIL AHU OI 4
EFSS - EXHAUST FAN START/STOP BO ---AHU OI ---
EFMOD - EXHAUST FAN MODULATION AO ---AHU 2 MIN ---
EAFL - EXHAUST AIR FLOW RATE AI <SETPOINT-10%AHU 5 MIN 4
SDA - SMOKE DETECTOR ALARM BI ALARM AHU OI MULTIPLE DETECTORS
FPD - FILTER PRESSURE DROP AI REPLACE AHU 10 MIN
4, NOTE WHEN TO REPLACE
HEDP - WHEEL EXHAUST PRESSURE DROP AI ALARM AHU 5 MIN ALARM WHEN FROSTING
EAT - EXHAUST AIR TEMP AI <55, >85 AHU 5 MIN ---
RF#ST - RELIEF FAN # STATUS BI FAIL AHU OI
4, MULTIPLE FANS
RFSS - RELIEF FAN START/STOP BO ---AHU OI MULTIPLE FANS
RFMOD - RELIEF FAN MODULATION AO ---AHU 2 MIN MULTIPLE FANS
RAFL - RELIEF AIR FLOW RATE AI <SETPOINT-10%AHU 5 MIN 4
HSA - HIGH STATIC BI ALARM AHU OI ---
RAD - RELIEF AIR DAMPER BO ---AHU OI ---
OAD2 - OUTSIDE AIR DAMPER (HEAT REJECTION)AO ---AHU 5 MIN FUTURE
PST - PUMP STATUS BI FAIL AHU OI
4, FUTURE
PSS - PUMP START/STOP BO ---AHU OI FUTURE
WLVL - WATER LEVEL AI FAIL AHU 5 MIN FUTURE
DRN - DRAIN VALVES BO ---AHU OI FUTURE
FILL - FILL VALVE BO ---AHU OI FUTURE
HRST - HEAT REJECTION SUPPLY TEMPERATURE AI ---AHU 5 MIN FUTURE
NOTES:
1) NOT ALL VIRTUAL POINTS ARE SHOWN. PROVIDE ALL POINTS REQUIRED FOR SOFTWARE OPERATION
2) AV (ANALOG VIRTUAL) & BV (BINARY VIRTUAL)
3) POINT SHAL BE DISPLAED ON THE NOTED SYSTEM GRAPHIC
4) LOCKOUT ALARM WHEN UNIT IS DE-ENERGIZED. PROVIDE 15-MINUTE STARTUP DELAY PRIOR TO ENABLING ALARM.
5) OI (ON INDICATION), TREND SHAL NOTE TIME OF BINARY POINT CHANGE. ANALOG POINTS TREND AT INTERVAL NOTED.
6) FAIL, ALARM WHEN STATUS DOESN'T EQUAL COMMAN CONDITION.
#/#, ALARM WHEN TEMPERATURE OR VALUE IS OUTSIDE OF THIS GIVEN RANGE.
NO SCALE
WATER SOURCE VARIABLE AIR VOLUME AHU
CONTROL DRAWING AND SEQUENCE OF OPERATION
AIR HANDLER - WATER SOURCE HEAT PUMP & ENERGY RECOVERY & SUPPLY/RETURN/RELIEF/EXHAUST FAN -
SEQUENCE OF OPERATION
GENERAL SECTION:
OUTSIDE AIR, RETURN AIR, AND RELIEF AIR DAMPERS ARE PROVIDED WITH THE AIR HANDLING UNIT.
ALARMS SHALL BE AS NOTED WITHIN THE SEQUENCE OF OPERATION AND THE CONTROL SYSTEM DATA POINT MATRIX.
ALL SET POINTS SHALL BE ADJUSTABLE.
LIFE/UNIT SAFETY SECTION:
THE OUTSIDE AIR AND RELIEF AIR DAMPERS SHALL CLOSE AND THE RETURN AIR DAMPERS SHALL OPEN WHENEVER
THE SUPPLY AND RETURN FANS STOP UNDER ANY CONDITION.
SHOULD A SMOKE DETECTOR ACTIVATE, THE DETECTOR SHALL STOP THE SUPPLY, RELIEF AND EXHAUST FANS IN
BOTH THE MANUAL AND AUTOMATIC MODE, INDEPENDENT OF THE CONTROL SYSTEM. AN ALARM SIGNAL SHALL BE
INDICATED AT THE CENTRAL FACILITY OPERATOR STATION.
PROVIDE FAN INTERRUPT SAFETY SWITCHES ON THE DOORS OF THE FAN COMPARTMENT[S] OF THE AIR HANDLING
UNIT. FAN(S) SHALL STOP ANYTIME THE FAN COMPARTMENT DOOR IS OPENED. AN ALARM SIGNAL SHALL BE SENT TO
THE CENTRAL FACILITY OPERATOR STATION.
PROVIDE A DUCT STATIC PRESSURE HIGH LIMIT SWITCH DOWNSTREAM OF THE SUPPLY FAN. IF THE PRESSURE IN
THE DUCT EXCEEDS 2.5 IN.W.C. (COORDINATE WITH TAB FOR FINAL SETPOINT), THE SWITCH SHALL STOP THE SUPPLY,
RELIEF AND EXHAUST FANS IN BOTH THE MANUAL AND AUTOMATIC MODE, INDEPENDENT OF THE CONTROL SYSTEM.
AN ALARM SIGNAL SHALL BE INDICATED AT THE CENTRAL FACILITY OPERATOR STATION.
PROVIDE A DUCT STATIC PRESSURE HIGH LIMIT SWITCH DOWSTREAM OF THE RELIEF FAN. IF THE PRESSURE IN THE
DUCT EXCEEDS 1.0 IN.W.C. (COORDINATE WITH TAB FOR FINAL SETPOINT), THE SWITCH SHALL STOP THE SUPPLY,
RELIEF AND EXHAUST FANS IN BOTH THE MANUAL AND AUTOMATIC MODE, INDEPENDENT OF THE CONTROL SYSTEM.
AN ALARM SIGNAL SHALL BE INDICATED AT THE CENTRAL FACILITY OPERATOR STATION.
PROVIDE A DUCT STATIC PRESSURE HIGH LIMIT SWITCH DOWSTREAM OF THE EXHAUST FAN. IF THE PRESSURE IN
THE DUCT EXCEEDS 1.0 IN.W.C. (COORDINATE WITH TAB FOR FINAL SETPOINT), THE SWITCH SHALL STOP THE SUPPLY,
RELIEF AND EXHAUST FANS IN BOTH THE MANUAL AND AUTOMATIC MODE, INDEPENDENT OF THE CONTROL SYSTEM.
AN ALARM SIGNAL SHALL BE INDICATED AT THE CENTRAL FACILITY OPERATOR STATION.
ECONOMIZER CONDENSER WATER COIL TWO WAY CONTROL VALVE SHALL BE 100% CLOSED WHENEVER THE SUPPLY
FAN IS OFF EXCEPT WHEN THE OUTSIDE AIR IS BELOW 35 DEG F. BELOW 35 DEG F OUTSIDE AIR TEMPERATURE WITH
THE FAN OFF, THE CONTROL VALVE SHALL BE OPENED 25% (ADJ).
PROVIDE A DIFFERENTIAL PRESSURE SENSOR ACROSS THE FILTER SECTION TO MONITOR FILTER PRESSURE DROP.
AN ALARM SIGNAL SHALL BE SENT TO THE CENTRAL FACILITY OPERATOR STATION INDICATING A DIRTY FILTER
WHENEVER THE FILTER PRESSURE DROP EXCEEDS THE MANUFACTURER'S RECOMMENDED LIMIT AS ADJUSTED FOR
THE GIVEN FAN SPEED.
IF THE OUTSIDE AIR TEMPERATURE IS BELOW 14 DEG. F AND THE DP ACROSS THE HEAT WHEEL INCREASES TO 1.5
TIMES THE DRY DP AS DETERMINED BY CONSULTATION WITH THE BALANCING CONTRACTOR, INDICATING A FROST
CONDITION, INITIATE AN ALARM.
UNIT START/STOP CONTROL:
PROVIDE AN OVERRIDE SWITCH TO CYCLE THE UNIT INTO THE OCCUPIED MODE FOR A FOUR HOUR (ADJ.) PERIOD.
OVERRIDE SWITCHES SHALL BE ON EACH ZONE TEMPERATURE SENSOR; ANY OF WHICH WILL BRING THE ASSOCIATED
UNIT ONLINE.
THE DDC SYSTEM TIME AND OPTIMUM START/STOP PROGRAMS SHALL CONTROL THE SYSTEM IN THE FOLLOWING
CONTROL CYCLES. INITIALLY START AT 6 A.M. AND STOP AT 8 P.M. THE FINAL OCCUPANCY SCHEDULED MODE
(OCCUPIED OR UNOCCUPIED) SHALL BE DETERMINED THROUGH A USER-ADJUSTABLE, GRAPHICAL, SEVEN-DAY
SCHEDULE WITH A HOLIDAY SCHEDULE.
WARM UP / COOL DOWN CYCLE: AS CALCULATED BY THE DDC OPTIMUM START PROGRAM, THE WARM UP / COOL
DOWN CYCLE SHALL START AS LATE AS POSSIBLE TO BRING THE SPACE TO ITS PROGRAMMED SETPOINT BY THE
PROGRAMMED OCCUPIED TIME.
WARM UP: THE OPTIMUM START PROGRAM SHALL START THE UNIT AT THE LATEST POSSIBLE TIME TO REACH THE
DESIRED OCCUPIED SPACE TEMPERATURE SETPOINT AT OCCUPANCY TIME. IF THE AVERAGE SPACE TEMPERATURE
IS BELOW THE OCCUPIED SPACE TEMPERATURE SETPOINT, THE SUPPLY FANS SHALL ENERGIZE, THE OUTSIDE AND
EXHAUST DAMPERS SHALL REMAIN CLOSED, AND RETURN DAMPER OPEN. THE HEAT PUMP CP-1 SHALL ENABLE, THE
HEAT PUMP SHALL BE SET TO THE HEATING MODE, AND THE HEAT PUMP CAPACITY SHALL MODULATE TO MAINTAIN A
SUPPLY AIR TEMPERATURE SETPOINT OF 75 DEG. F UNTIL THE AVERAGE SPACE TEMPERATURE EQUALS THE
OCCUPIED SPACE TEMPERATURE SETPOINT. THE SUPPLY FAN SPEED SHALL BE CONTROLLED AS DESCRIBED IN THE
OCCUPIED MODE. THE VAV BOXES SHALL MODULATE TO MAINTAIN THE OCCUPIED SPACE TEMPERATURE WHILE THE
UNIT IS DELIVERING WARM AIR. WHEN THE OCCUPIED SPACE TEMPERATURE SETPOINT IS REACHED, THE UNIT SHALL
OPERATE IN THE OCCUPIED MODE. MORNING WARM-UP SHALL OCCUR ONLY ONCE IN A DAY.
COOL DOWN: IF THE MONTH IS BETWEEN MAY AND OCTOBER, THE OUTSIDE AIR TEMPERATURE IS BELOW 55 DEG. F
AND THE AVERAGE OF THE THREE HIGHEST SPACE TEMPERATURES EXCEEDS A PRE-COOL SPACE TEMPERATURE
SETPOINT OF 80 DEG. F, MORNING PRE-COOLING MAY BEGIN. THE UNIT SHALL START IN THE PRE-COOL MODE AS
DETERMINED BY AN OPTIMUM START PROGRAM AT THE LATEST POSSIBLE TIME TO HAVE THE SPACE AT THE
OCCUPIED SETPOINT AT OCCUPANCY TIME. THE ECONOMIZER COOLING MODE SHALL MODULATE THE OUTSIDE AIR
AND RETURN AIR DAMPERS TO PROVIDE 55 DEG. F SUPPLY AIR. THE SUPPLY FAN SPEED SHALL BE CONTROLLED AS
DESCRIBED IN THE OCCUPIED MODE. WHEN THE AVERAGE OF THE THREE HIGHEST SPACE TEMPERATURES FALLS
BELOW THE OCCUPIED SPACE TEMPERATURE SETPOINT, THE UNIT SHALL RETURN TO UNOCCUPIED MODE. WHEN THE
SPACE HAS REACHED THIS SETPOINT, THE UNIT SHALL OPERATE IN THE OCCUPIED MODE. MORNING COOL-DOWN
SHALL OCCUR ONLY ONCE IN A DAY.
OCCUPIED CYCLE:
THE SUPPLY FAN SHALL BE ENERGIZED. THE SUPPLY AIR DUCT STATIC PRESSURE SETPOINT SHALL BE SLOWLY
RAMPED FROM ZERO TO THE FINAL SETPOINT VALUE AFTER THE SUPPLY FAN IS STARTED. THE AIR HANDLING UNIT
SUPPLY FAN SPEED SHALL MODULATE TO MAINTAIN DUCT STATIC PRESSURE SETPOINT. THE SUPPLY FAN SPEED
SHALL NOT DROP BELOW 15% (ADJUSTABLE) TO ASSURE ADEQUATE FAN MOTOR COOLING. THE STATIC PRESSURE
SETPOINT SHALL BE RESET SO THAT AT LEAST ONE OF THE VAV BOXES IS AT 90% OPEN.
IN THE EVENT OF LOSS OF COMMUNICATION WITH ONE OR MORE VAV CONTROLLERS THE SYSTEM SHALL REVERT TO
MODULATING THE FAN SPEED TO MAINTAIN THE DUCT STATIC PRESSURE SETPOINT OF 0.75 IN.W.C. A HIGH LIMIT
FUNCTION SHALL REDUCE THE SUPPLY FAN SPEED TO KEEP THE SUPPLY DUCT PRESSURE FROM EXCEEDING 1.5
IN.W.C. OF WATER REGARDLESS OF THE DEMAND FROM THE VAV BOXES. THE FINAL DUCT STATIC PRESSURE
SETPOINT SHALL BE DETERMINED IN CONSULTATION WITH THE BALANCING CONTRACTOR. WHEN THE SUPPLY FAN IS
DE-ENERGIZED THE STATIC SETPOINT SHALL BE ZERO.
THE OUTSIDE AIR DAMPER, OAD1, AND RETURN AIR DAMPER, RAD1, SHALL MODULATE TO MAINTAIN THE MINIMUM
OUTSIDE AIR SETPOINT DCV-MAXIMUM EXCEPT WHEN IN ECONOMIZER OR DCV MODE.
DEMAND CONTROLLED VENTILATION: WHEN THE AIR HANDLER RECEIVES A SIGNAL FROM A VAV TERMINAL INDICATING A
NEED FOR SECOND STAGE CARBON DIOXIDE CONTROL THE OUTSIDE AIR DAMPER, OAD1, SHALL MODULATE OPEN FROM
THE DCV-MINIMUM POSITION AT A RATE OF 5% PER 15 MINUTE PERIOD UNTIL THE CARBON DIOXIDE SENSOR CONDITION
IS CLEARED AT THE VAV TERMINAL. THE OUTSIDE AIRFLOW SHALL NOT EXCEED THE DCV-MAXIMUM AIRFLOW NOTED IN
THE UNIT SCHEDULE EXCEPT AS ALLOWED FOR ECONOMIZER OPERATION. SEE THE VAV TERMINAL SEQUENCE OF
OPERATION FOR ADDITIONAL INFORMATION.
THE RELIEF DAMPER, RAD, SHALL BE OPEN, THE RELIEF DAMPER, RAD2, SHALL BE OPENED 100%, AND THE RELIEF FAN
SHALL BE ENERGIZED, WHENEVER THE SUPPLY FAN IS ENERGIZED AND THE OUTSIDE AIR DAMPERS ARE MODULATING
TO PROVIDE VENTILATION. THE RELIEF FAN SHALL MODULATE TO MAINTAIN THE SPACE STATIC PRESSURE SETPOINT OF
0.02 IN.W.C. REFERENCED TO OUTSIDE AIR STATIC PRESSURE. THE SYSTEM SHALL ALSO MONITOR THE RELIEF AND
EXHAUST AIRFLOW RATES. DURING NATURAL VENTILATION MODE AND EVEN MINIMUM VENTILATION MODE BUILDING
PRESSURE IS EXPECTED TO DROP ON ACCOUNT OF OPEN WINDOWS RESULTING IN RELIEF FAN SPEED/FLOW
REDUCTION. AT NO POINT SHALL THE RELIEF FAN AIRFLOW DROP BELOW THAT OF THE CAV EXHAUST FAN THUS
ENSURING POSITIVE EXHAUST AIRFLOW REMOVAL TOWARDS THE UNIT EXHAUST OUTLET VS. BACK FEEDING INTO THE
MECHANICAL ROOM VIA THE UNIT RELIEF AIR CONNECTION. THE RELIEF AIRFLOW SHALL BE 5% GREATER THAN THAT OF
THE EXHAUST FAN. FIELD ADJUST THIS AND ALL PRESSURE/AIRFLOW SETTINGS WITH TAB CONTRACTOR TO ENSURE
PROPER OPTIMIZATION.
THE EXHAUST FAN SHALL BE ENERGIZED, WHENEVER THE SUPPLY FAN IS ENERGIZED AND THE OUTSIDE AIR DAMPERS
ARE MODULATING TO PROVIDE VENTILATION. THE EXHAUST FAN SHALL MODULATE TO MAINTAIN THE EXHAUST AIRFLOW
RATE AT SETPOINT.
THE SENSIBLE ENERGY RECOVERY WHEEL, AIRSIDE ECONOMIZER, CONDENSER ECONOMIZER, AND HEAT PUMP MODULE
SHALL STAGE AND MODULATE IN SEQUENCE TO MAINTAIN THE SUPPLY AIR TEMPERATURE SETPOINT.
THE SUPPLY AIR TEMPERATURE SETPOINT SHALL BE RESET FROM T-MIN (55 DEG. F) WHEN THE OUTSIDE AIR
TEMPERATURE IS 70 DEG. F AND ABOVE, UP TO T-MAX WHEN THE OUTSIDE AIR TEMPERATURE IS 65 DEG. F AND BELOW.
T-MAX SHALL RANGE FROM 55 DEG. F TO 65 DEG. F. T-MAX SHALL VARY SUCH THAT THE VAV BOX WITH THE HIGHEST
COOLING DEMAND IS AT 90% OF ITS COOLING MAX SETPOINT. THE SUPPLY AIR TEMPERATURE SETPOINT SHALL CHANGE
SLOWLY; NO MORE THAN 1 DEG. F PER 15 MINUTE PERIOD.
DISCHARGE AIR TEMPERATURE CONTROL HEATING:
THE HEAT WHEEL, CONDENSER ECONOMIZER, AND HEAT PUMP MODULE SHALL ACT IN SEQUENCE TO CONTROL THE
DISCHARGE AIR TEMPERATURE SETPOINT AS NOTED BELOW.
THE HEAT WHEEL SPEED SHALL MODULATE AS NECESSARY TO MAINTAIN THE DISCHARGE AIR TEMPERATURE SETPOINT.
WHEN THE HEAT WHEEL SPEED REACHES 100% AND AN ADDITIONAL NEED FOR HEATING IS REQUIRED, AND IF THE
CONDENSER WATER SUPPLY TEMPERATURE IS GREATER THAN THE MIXED AIR TEMPERATURE, THE ECONOMIZER COIL
CONTROL VALVE SHALL MODULATE TO MAINTAIN THE DISCHARGE AIR TEMPERATURE SETPOINT.
WHEN THE HEAT WHEEL SPEED REACHES 100% AND AN ADDITIONAL NEED FOR HEATING IS REQUIRED, AND AFTER THE
ECONOMIZER COIL HAS BEEN UTILIZED (IF POSSIBLE), THE HEAT PUMP CONDENSER WATER COIL CONTROL VALVE SHALL
OPEN, THE HEAT PUMP SHALL BE SET TO HEATING MODE, AND THE HEAT PUMP SHALL MODULATE AS REQUIRED TO
MAINTAIN THE DISCHARGE AIR TEMPERATURE SETPOINT.
WHEN THE OUTSIDE TEMPERATURE IS BELOW 14 DEG. F.; THE UNIT SHALL BE MONITORED TO ENSURE THAT A HEAT
WHEEL FROSTING CONDITION DOES NOT OCCUR. WHEN THE HEAT WHEEL EXHAUST AIR TEMPERATURE DROPS BELOW
21 DEG. F. THE DDC SHALL START A TIMER; AFTER 8 HOURS AND THE EXHAUST AIR TEMPERATURE IS STILL BELOW 21
DEG. F, THE HEAT WHEEL SHALL MODULATE TO 30% SPEED. DURING THIS CONDITION THE HEAT PUMP MODULE SHALL
SUPPLEMENT THE HEATING REQUIREMENT. AFTER 30 MINS OR WHEN THE OUTSIDE AIR IS ABOVE 14 DEG.F, RE-INITIATE
THE NORMAL HEAT WHEEL SEQUENCE.
DISCHARGE AIR TEMPERATURE CONTROL COOLING:
THE HEAT WHEEL, AIRSIDE ECONOMIZER, CONDENSER ECONOMIZER, AND HEAT PUMP MODULE SHALL ACT IN SEQUENCE
TO CONTROL THE DISCHARGE AIR TEMPERATURE SETPOINT AS NOTED BELOW.
THE HEAT WHEEL SPEED SHALL MODULATE AS NECESSARY TO MAINTAIN THE DISCHARGE AIR TEMPERATURE SETPOINT.
WHEN THE RETURN AIR TEMPERATURE IS LESS THAN THE OUTSIDE AIR TEMPERATURE THE HEAT WHEEL SHALL
OPERATE AT 100% SPEED. WHEN THE RETURN AIR TEMPERATURE IS GREATER THAN THE OUTSIDE AIR TEMPERATURE
THE HEAT WHEEL SHALL MODULATE AS NECESSARY TO MAINTAIN THE DISCHARGE AIR TEMPERATURE SETPOINT.
THE ECONOMIZER SHALL MODULATE THE OUTSIDE AIR AND RETURN AIR DAMPERS TO PROVIDE MORE OUTSIDE AIR
WHEN THERE IS A CALL FOR COOLING, THE OUTSIDE AIR TEMPERATURE IS LESS THAN THE RETURN AIR TEMPERATURE,
AND THE HEAT WHEEL HAS ALREADY MODULATED TO 0% SPEED / STOPPED. THE ECONOMIZER SHALL MODULATE THE
DAMPERS TO MAINTAIN THE DISCHARGE AIR TEMPERATURE SETPOINT.
THE CONDENSER ECONOMIZER COIL CONTROL VALVE SHALL MODULATE TO MAINTAIN THE DISCHARGE AIR
TEMPERATURE SETPOINT, WHEN THE MIXED AIR TEMPERATURE IS GREATER THAN THE CONDENSER WATER SUPPLY
TEMPERATURE.
THE HEAT PUMP CONDENSER WATER CONTROL VALVE SHALL OPEN, THE HEAT PUMP SHALL BE ENABLED IN THE
COOLING MODE, AND THE HEAT PUMP CAPACITY SHALL MODULATE TO MAINTAIN DISCHARGE AIR TEMPERATURE
SETPOINT, WHENEVER THERE IS A CALL FOR COOLING AND THE HEAT WHEEL, AIRSIDE ECONOMIZER, AND OR
WATERSIDE ECONOMIZER ARE NOT ABLE TO MEET DISCHARGE AIR TEMPERATURE SETPOINT.
UNOCCUPIED CYCLE:
THE SUPPLY, EXHAUST AND RELIEF FANS SHALL BE OFF. THE OUTSIDE AIR AND RELIEF DAMPERS SHALL CLOSE, AND THE
RETURN DAMPER SHALL BE OPEN. THE ECONOMIZER AND HEAT PUMP CONDENSER WATER COIL CONTROL VALVES
SHALL BE POSITIONED AS NOTED IN THE GENERAL SECTION ABOVE.
BASED ON THE ZONE SENSOR INPUT, THE SUPPLY FAN SHALL START WHEN ANY SPACE TEMPERATURE DROPS BELOW
ITS UNOCCUPIED HEATING SETPOINT. THE OUTSIDE AIR AND RELIEF AIR DAMPERS SHALL REMAIN CLOSED. THE UNIT
DISCHARGE AIR TEMPERATURE SHALL BE MAINTAINED AT 75 DEG. F AND THE ZONE DUCT HEATING CONTROL VALVES
SHALL MODULATE TO MAINTAIN THEIR OCCUPIED SET POINTS. WHEN THE CRITICAL ZONE SPACE TEMPERATURE
REACHES 5 DEG. F. (ADJ.) ABOVE SETPOINT, THE SUPPLY FAN SHALL STOP, AND THE HEAT PUMP CONDENSER COIL
CONTROL VALVE SHALL RETURN TO ITS NORMAL UNOCCUPIED OPERATION.
FUTURE HEAT REJECTION SYSTEM:
WHEN THERE IS A CALL FOR HEAT REJECTION FROM THE CONDENSER WATER PLANT, THE SYSTEM SHALL OPERATE AS
DESCRIBED BELOW.
OCCUPIED CYCLE:
THE SYSTEM SHALL OPERATE AS INDICATED IN THE OCCUPIED CYCLE ABOVE WITH THE FOLLOWING CHANGES.
THE OUTSIDE AIR DAMPER, OAD2, SHALL OPEN. IF THE OUTSIDE AIR FLOW RATE TO THE WHEEL DROPS BELOW
SETPOINT, THE OUTSIDE AIR DAMPER, OAD2, SHALL MODULATE CLOSED TO MAINTAIN OUTSIDE AIR FLOW RATE SETPIONT.
IF THE OUTSIDE AIR TEMPERATURE IS ABOVE 55°F (ADJ), THE EVAPORATIVE COOLER SHALL BE SET TO FILL, AND AFTER A
DELAY TO ALLOW THE SUMP TO FILL THE EVAPORATIVE COOLING PUMP SHALL BE STARTED.
THE RELIEF FAN SHALL MODULATE TO MAINTAIN THE LEAVING WATER TEMPERATURE OF THE HEAT REJECTION COIL
EQUAL TO THE CONDENSER WATER SUPPLY TEMPERATURE SETPOINT. THE FAN SHALL OPERATE TO THE GREATER OF
THE SIGNALS FOR BUILDING PRESSURE AND HEAT REJECTION CONTROL.
THE RELIEF AIR DAMPERS, RAD2, SHALL MODULATE TO MAINTAIN SPACE STATIC PRESSURE AT SETPOINT.
UNOCCUPIED CYCLE:
THE SYSTEM SHALL OPERATE AS INDICATED IN THE UNOCCUPIED CYCLE ABOVE WITH THE FOLLOWING CHANGES.
THE OUTSIDE AIR DAMPER, OAD2, AND RELIEF AIR DAMPER, RAD, SHALL OPEN.
IF THE OUTSIDE AIR TEMPERATURE IS ABOVE 55°F (ADJ), THE EVAPORATIVE COOLER SHALL BE SET TO FILL, AND AFTER A
DELAY TO ALLOW THE SUMP TO FILL THE EVAPORATIVE COOLING PUMP SHALL BE STARTED.
THE RELIEF FAN SHALL MODULATE TO MAINTAIN THE LEAVING WATER TEMPERATURE OF THE HEAT REJECTION COIL
EQUAL TO THE CONDENSER WATER SUPPLY TEMPERATURE SETPOINT.
CHARLES
CUNNIFFE
ARCHITECTS
COPYRIGHT CHARLES CUNNIFFE ARCHITECTSC
SHEET NO.
JOB NO.
2/
6
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2
0
1
8
4
:
4
8
:
3
5
P
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M9.06
2016.01.0223
MECHANICAL
CONTROLS
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ISSUE: DATE:
50% DD 10/30/17
100% DD 12/12/17
PERMIT 02/07/18
03/16/2019
HWS
HWRHWS
HWR
NO SCALE
H
C
NO
PRIMARY
AIR FLOW
DA
AO-
DMPR
AI-
AFL
T
AI-
DAT
SUPPLY
AIR
AI-
SPT
AI-
SPTA
T
3-WAY
HEATING
M
HVLV
AO-
AO-
HVLV
M
3-WAY VALVE OPTION
VAV BOX
VAV TERMINAL - SINGLE DUCT W/HOT WATER REHEAT
CONTROL DRAWING AND SEQUENCE OF OPERATION
POINT NAME
AFL - VAV BOX AIRFLOW
TYPE
AI
ALARM
---
NOTE 2
GRAPHIC
NOTE 3NOTE 1
TREND
5 MIN
NOTES
---
DMPR - VAV BOX DAMPER AO --- 5 MIN ---
DAT - DISCHARGE AIR TEMP AI 50/100 5 MIN 4
SPT - ZONE SPACE TEMP AI 65/80 5 MIN 4
MAXIMUM AIRFLOW SETPOINT BV --- --- ---
MINIMUM AIRFLOW SETPOINT BV --- --- ---
REHEAT AIRFLOW SETPOINT BV --- VAV ZONE --- ---
NOTES: 1) NOT ALL VIRTUAL POINTS ARE SHOWN. PROVIDE ALL POINTS REQUIRED FOR SOFTWARE OPERATION.
2) AV (ANALOG VIRTUAL) & BV (BINARY VIRTUAL)
3) POINT SHALL BE DISPLAYED ON THE NOTED SYSTEM GRAPHIC
4) LOCKOUT ALARM WHEN UNIT IS DE-ENERGIZED. PROVIDE 15-MINUTE STARTUP DELAY PRIOR TO ENABLING ALARM.
VAV ZONE
VAV ZONE
VAV ZONE
VAV ZONE
VAV ZONE
VAV ZONE
NOTE 5
5) OI (ON INDICATION), TREND SHALL NOTE TIME OF BINARY POINT CHANGE
SPTA - VAV BOX SPACE TEMP ADJ AI --- --- +/- 2 DEG F RANGE
OVR - VAV BOX OCCUPANT OVERRIDE BI --- OI ---
CO2 - SPACE CO2 LEVELS AI 700 PPM VAV ZONE 5 MIN PPM RELATIVE TO AMBIENT
VAV ZONE
VAV ZONE
SUPPLY AIR TEMP SETPOINT MAX BV --- VAV ZONE --- MAX HEATING DAT ALLOWED
OCCUPIED SPACE TEMP SETPOINT COOLING BV --- VAV ZONE --- ---
OCCUPIED SPACE TEMP SETPOINT HEATING BV --- VAV ZONE --- ---
UNOCCUPIED SPACE TEMP SETPOINT HEATING BV --- VAV ZONE --- ---
BV --- VAV ZONE OI ---OCC - SPACE OCCUPANCY SENSOR
UNOCCUPIED CYCLE:
THE PRIMARY AIR VOLUME DAMPER SHALL POSITIVELY CLOSE. WHEN DUCT PRESSURE IS SENSED,
INDICATING THAT THE PRIMARY SYSTEM AIR IS OPERATING, THE DDC SYSTEM SHALL MODULATE THE
PRIMARY AIR VOLUME DAMPER TO MAINTAIN THE UNOCCUPIED SPACE COOLING SETPOINT OR WITH
THE PRIMARY AIR VOLUME DAMPER IN IT'S MINIMUM POSITION MODULATE THE HEATING COIL TO
MAINTAIN THE UNOCCUPIED SPACE HEATING SETPOINT.
DEMAND CONTROLLED VENTILATION:
WHERE A VAV BOX SERVICES A ZONE WITH CARBON DIOXIDE SENSORS THE FOLLOWING DEMAND
CONTROLLED VENTILATION SEQUENCE SHALL OCCUR DURING THE OCCUPIED CYCLE.
FIRST STAGE CARBON DIOXIDE CONTROL: THE SPACE IS PROVIDED WITH A CARBON DIOXIDE
SENSOR. WHEN THE SPACE CARBON DIOXIDE SENSOR INDICATES A CONCENTRATION LEVEL OF 530
PPM (ADJ.) ABOVE AMBIENT CONDITIONS AS REFERENCED BY THE EXTERIOR SENSOR, THE PRIMARY
AIR VOLUME DAMPER SHALL MODULATE OPEN PROVIDING MORE AIR TO THE SPACE AT A RATE OF 5%
(ADJ.) PER 5 MINUTE (ADJ.) PERIOD UNTIL THE CARBON DIOXIDE SENSOR CONDITION IS CLEARED.
ONCE THE PRIMARY AIR REACHES THE MAXIMUM AIRFLOW SETPOINT AND THERE IS STILL A FURTHER
NEED OF VENTILATION AIR AS DETERMINED BY C02 CONCENTRATION LEVEL THE SECOND STAGE
CARBON DIOXIDE CONTROL SEQUENCE SHALL BE INITIATED. OR WHERE OVER-AIRING REQUIRES THE
REHEAT COIL TO OPERATE MORE THAN 30 MINUTES (IN A NON-HEATING MODE), THE SECOND STAGE
CARBON DIOXIDE CONTROL SEQUENCE SHALL BE INITIATED AND THE PRIMARY AIR SHALL DAMPER
SHALL CONTROL MODULATE TO OPEN.
SECOND STAGE CARBON DIOXIDE CONTROL: THE VAV BOXES RESPECTIVE AIR HANDLER OUTSIDE
AIR DAMPERS SHALL MODULATE OPEN FROM THE DCV-MINIMUM POSITION AT A RATE OF 5% (ADJ.)
PER 15 MINUTE (ADJ.) PERIOD UNTIL THE CARBON DIOXIDE SENSOR CONDITION IS CLEARED. THE AIR
HANDLER SHALL NOT EXCEED THE DCV-MAXIMUM AIRFLOW CONDITION EXCEPT AS ALLOWED FOR
FROM THE ECONOMIZER OPERATION. SEE AIR HANDLING UNIT SEQUENCE OF OPERATION.
ONCE THE CONDITION IS CLEARED THE AIR HANDLER OUTSIDE AIR DAMPER SHALL TURN DOWN FROM
ITS CURRENT POSITION AT A RATE OF 5% (ADJ.) PER 15 MINUTE (ADJ.) PERIOD UNTIL IT REACHES THE
DCV-MINIMUM POSITION OR HAS ANOTHER CARBON DIOXIDE SENSOR ALARM. SIMULTANEOUSLY THE
ZONE PRIMARY AIR DAMPER SHALL TURN DOWN FROM ITS CURRENT POSITION AT A RATE OF 5%
(ADJ.) PER 5 MINUTE (ADJ.) PERIOD UNTIL IT RESUMES NORMAL TEMPERATURE CONTROL OPERATION.
HVLV - HEATING WATER VALVE AO --- 5 MIN ---VAV ZONE
BI-
OVR
SPACE
TEMPERATURE
AND CO2 SENSORS
AS SHOWN ON
PLAN, TYP
CO2
AI-
SPC02
NO SCALE
SEQUENCE OF OPERATION
DDC SYSTEM SHALL MONITOR STATUS OF ALL GENERATOR AND REMOTE FUEL ALARMS.
FIELD VERIFY QUANTITY OF ALARM CONTACTS WITHIN GENERATOR.
WHEN THE GENERATOR IS ENABLED THE INTAKE DAMPER AND RADIATOR
EXHAUST DAMPER SHALL OPEN (OPEN SPEED SHALL MATCH GENERATOR
ENABLE TIME, ~10 SECONDS).
THE BYPASS DAMPER SHALL MODULATE OPEN TO KEEP ROOM TEMPERATURE
AT 50 DEG. F. ENSURE BYPASS DAMPER SETPOINT IS 5 DEG. F HIGHER THAN
LOCAL UNIT HEATER TO PREVENT EXCESSIVE UNIT HEATER RUN DURING
GENERATOR OPERATION.
ALRM
BI-
GENERATOR 1
SEE ELECTRICAL
PLANS FOR
LOCATIONS OF
GENERATOR
GENERATOR INTERFACE CONTROL
DRAWING AND SEQ. OF OPERATION
NO SCALE
SEQUENCE OF OPERATION
DDC SYSTEM SHALL MONITOR STATUS OF ALL ATS
SYSTEM ALARMS.
FIELD VERIFY QUANTITY OF ALARM CONTACTS WITHIN
ATS.
ALRM
BI-
ATS
SEE ELECTRICAL
PLANS FOR
LOCATIONS OF ATS
ATS INTERFACE CONTROL
DRAWING AND SEQ. OF OPERATION
NO
GENERATOR
RADIATOR
DA
AO-
DMPR
EXHAUST
AIR
AI-
SPT
T
EXHAUST
NO
GENERATOR
RADIATOR
DA
AO-
DMPR
BYPASS
AIREXHAUST
NO
GENERATOR
RADIATOR
DA
AO-
DMPR
INTAKE
AIRINTAKE
ALRM
BI-
REMOTE FUEL
SEE PLUMBING PLANS
FOR LOCATION OF
REMOTE FUEL
STATION
STATION
BI
WINST
OPERABLE WINDOWS (IN
EXTERIOR OCCUPIED
SPACES AND AT BUILDING
CLEARSTORY), SEE
ARCHITECTURAL PLANS FOR
LOCATION AND FURTHER
INFORMATION ON DAMPER
ACTUATION.
WIN - WINDOW OPERATION BO --- OI MULTIPLE, NOTE 6VAV ZONE
6) THERE ARE MULTIPLE AUTOMATICALLY OPERATED WINDOW S; BOTH IN THE WALLS WITHIN THE EXTERIOR OCCUPIED SPACE AND AT THE
BLDG CLEARSTORY. COORDINATE CLOSELY WITH SELECTED WINDOW MANUFACTURER TO ENSURE PROPER INTERFACE SIGNAL FOR
WINDOW OPERATION. COORDINATE ANY 120v POWER WITH ELECTRICAL CONTRACTOR. SEE ARCHITECTURAL PLANS FOR COUNT.
NATURAL VENTILATION CYCLE:
WHERE A VAV BOX SERVICES A ZONE WITH OPERABLE WINDOWS THE FOLLOWING NATURAL
VENTILATION CYCLE SHALL OCCUR. NATURAL VENTILATION SHALL NOT OCCUR DURING THE
UNOCCUPIED CONDITIONS FOR THE 1ST FLOOR OF THE BUILDING ON ACCOUNT OF SECURITY
CONCERNS. NATURAL VENTILATION SHALL BE DONE BY OPENING WINDOWS IN THE EXTERIOR
ZONES, SHUTTING OFF ZONE SPECIFIC HVAC AND OPENING CORRESPONDING WINDOWS IN THE
BUILDING CLEARSTORY. NATURAL VENTILATION SHALL BE IMPLEMENTED DURING THE FOLLOWING
CONDITIONS:
INTERIOR CONDITIONS: COOLING DEMAND PRESENT
INTERIOR TEMP: SPACE TEMP SHALL BE ALLOW ED TO DRIFT TO 78 DEG F
EXTERIOR TEMP: 60 TO 75 DEG F
EXTERIOR HUMIDITY: <50%RH
EXTERIOR WIND SPEED: <10 MPH
WHEN THESE CONDITIONS ARE NO LONGER IN RANGE THE WINDOWS SHALL CLOSE AND NORMAL
HVAC OPERATION SHALL RESUME. IF AT ANY TIME THE WINDOW REMAINS OPEN IN THE OUT OF
RANGE CONDITIONS AND ALARM SHALL BE GENERATED AFTER A 5 MIN. DELAY.
DURING NATURAL VENTILATION MODE THE ZONE LEVEL VAV BOX SHALL BE CLOSED. THE
CLEARSTORY "RELIEF" WINDOWS SHALL BE GROUPED INTO FOUR SETS GIVING FOUR STAGES OF
RELIEF. THESE FOUR SETS SHALL STAGE UP AS THE BUILDING ZONES CALL FOR MORE NATURAL
VENTILATION. THE FIRST SET OF CLEARSTORY WINDOWS SHALL OPEN UPON A SINGLE ZONE
MOVING INTO NATURAL VENTILATION MODE. ONCE 25% OF THE ZONES ARE IN NATURAL
VENTILATION MODE THE SECOND SET OF CLEARSTORY WINDOWS SHALL OPEN. THIS SHALL
CONTINUE FOR 50% AND 75% OF THE ZONES TO OPEN THE THRID AND FOURTH SET OF
CLEARSTORY WINDOWS. THE TURN DOWN SHALL BE THE OPPOSITE.
NATURAL VENTILATION SHALL BE OVERRIDDEN BY THE OPERABLE WINDOW SHADES; THAT IS WHEN
THE WINDOW SHADES ARE REQUIRED TO CLOSE PER THE LIGHTING CONTROL SYSTEM THE
WINDOWS SHALL CLOSE AND NORMAL HVAC SHALL OPERATE. THIS WILL AVOID THE SHADES BE
CLOSED IN FRONT OF OPEN WINDOWS.
NATURAL VENTILATION SHALL BE OVERRIDDEN BY THE "OVERRIDE" BUTTON ON THE ZONE LEVEL
TEMPERATURE SENSOR. THIS OVERRIDE SHALL PLACE THE SYSTEM INTO HVAC OPERATION FOR A
PERIOD OF 1-HR AT WHICH POINT THE ZONE CAN RETURN TO NATURAL VENTILATION MODE.
SEQUENCE OF OPERATION:
GENERAL:
THE SPACE TEMPERATURE SENSOR SHALL BE PROVIDED WITH AN OCCUPANT ADJUSTABLE
WARMER/COOLER SLIDER AND OCCUPANT OVERRIDE BUTTON. THE SLIDER SHALL ALLOW FOR
TEMPERATURE CONTROL OF +/- 2 DEG. F (ADJ.). THE OCCUPANT OVERRIDE BUTTON SHALL PLACE
THE BOX, ASSOCIATED SYSTEM ZONE AND ASSOCIATED AIR HANDLER INTO OCCUPIED MODE FOR A
PERIOD OF 2 HOURS (ADJ.)
ALARMS SHALL BE AS NOTED WITHIN THE SEQUENCE OF OPERATION AND THE CONTROL SYSTEM
DATA POINT MATRIX.
SETPOINTS:
COOLING SETPOINT: 75 DEG. F (ADJ.)
UNOCCUPIED COOLING SETPOINT: 85 DEG. F (ADJ.)
HEATING SETPOINT: 70 DEG. F (ADJ.)
UNOCCUPIED HEATING SETPOINT: 55 DEG. F (ADJ.)
OCCUPIED CYCLE:
WHEN DUCT PRESSURE IS SENSED, INDICATING THAT THE PRIMARY SYSTEM AIR IS OPERATING, THE
PRIMARY AIR VOLUME DAMPER SHALL OPEN AND MODULATE THE PRIMARY AIR TO SATISFY THE
OCCUPIED SPACE COOLING SETPOINT.
AS THE ROOM SENSOR SENSES A NEED FOR NO COOLING, THE CONTROL SYSTEM SHALL CLOSE THE
PRIMARY AIR VOLUME DAMPER DOWN TO THE MINIMUM PRIMARY AIR POSITION. BEFORE HEATING IS
INITIATED, THE CONTROLS SHALL ENTER A NO LOAD BAND.
ON SENSING A NEED FOR HEAT, THE HEATING HOT WATER CONTROL VALVE SHALL BE MODULATED AS
REQUIRED TO SATISFY THE SPACE HEATING SETPOINT. DISCHARGE AIR TEMPERATURE SHALL BE
LIMITED TO 90 DEG. F (ADJ.). IF SPACE TEMPERATURE CANNOT BE MET WITH 90 DEG. F AIR, THE
AIRFLOW RATE SHALL BE INCREASE UP TO THE SCHEDULED RE-HEATING AIRFLOW RATE. IF THE
SPACE TEMPERATURE STILL CANNOT BE MET, AFTER 5 MINUTES (ADJ.) THE HEATING HOT WATER
CONTROL VALVE SHALL BE ALLOWED TO MODULATE TO THE FULLY OPEN POSITION AS REQUIRED TO
MEET THE SPACE TEMPERATURE SETPOINT. UPON A RISE ABOVE SPACE TEMPERATURE SETPOINT,
THE OPPOSITE SEQUENCE SHALL OCCUR.
TEMPORARY UNOCCUPIED CYCLE:
WHERE A VAV BOX SERVICES A ZONE WITH OCCUPANCY SENSORS THE FOLLOWING SHALL OCCUR
DURING THE OCCUPIED CYCLE. WHEN THE OCCUPANCY SENSOR INDICATES AN UNOCCUPIED
CONDITION THE VAV BOX SHALL BE PLACED INTO A TEMPORARY UNOCCUPIED CYCLE. DURING THIS
CYCLE THE COOLING SPACE TEMPERATURE SET POINT SHALL BE 5 DEG. F (ADJ.) ABOVE NORMAL
SETPOINT AND THE HEATING SPACE TEMPERATURE SETPOINT SHALL BE 5 DEG. F (ADJ.) BELOW
NORMAL SETPOINT. WHEN THE OCCUPANCY SENSOR INDICATES ZONE OCCUPANCY THE
TEMPERATURE SETPOINTS SHALL RETURN TO NORMAL.
COOLING SETPOINT (NATURAL VENTILATION): 78 DEG. F (ADJ.)
DA
BO
WIN
ES
WINST - WINDOW STATUS, OPEN/CLOSED BI OPEN VAV ZONE OI MULTIPLE END SWITCHES, PER WINDOW
CONTROL SYSTEM DATA POINT MATRIX
CHARLES
CUNNIFFE
ARCHITECTS
COPYRIGHT CHARLES CUNNIFFE ARCHITECTSC
SHEET NO.
JOB NO.
2/
6
/
2
0
1
8
4
:
4
8
:
3
5
P
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M9.07
2016.01.0223
MECHANICAL
CONTROLS
AS
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42
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ISSUE: DATE:
50% DD 10/30/17
100% DD 12/12/17
PERMIT 02/07/18
03/16/2019
NO SCALE
HWS
HWRHWS
HWR
S
H
C
D
F
T
ECM
AO-
FMOD
SUPPLY
AIR
NO
PRIMARY
AIR FLOW
DA
AO-
DMPR
AI-
AFL
M
HVLV
AO-
AI-
DAT
AI-
SPT
AI-
SPTA
T CO2
BI-
OVR
AI-
SPC02
RETURN
AIR
BO-
FSS
BI-
FST
BI-
SD
3-WAY
HEATING
AO-
HVLV
M
3-WAY VALVE OPTION
DUCT SMOKE
DETECTOR WHERE
NOTED
FPVAV BOX
POINT NAME
AFL - VAV BOX AIRFLOW
TYPE
AI
ALARM
---
NOTE 2
GRAPHIC
NOTE 3NOTE 1
TREND
5 MIN
NOTES
---
DMPR - VAV BOX DAMPER AO --- 5 MIN ---
DAT - DISCHARGE AIR TEMP AI 50/100 5 MIN 4
SPT - ZONE SPACE TEMP AI 65/80 5 MIN 4
MAXIMUM AIRFLOW SETPOINT BV --- --- ---
MINIMUM AIRFLOW SETPOINT BV --- --- ---
REHEAT AIRFLOW SETPOINT BV --- VAV ZONE --- ---
NOTES: 1) NOT ALL VIRTUAL POINTS ARE SHOWN. PROVIDE ALL POINTS REQUIRED FOR SOFTWARE OPERATION.
2) AV (ANALOG VIRTUAL) & BV (BINARY VIRTUAL)
3) POINT SHALL BE DISPLAYED ON THE NOTED SYSTEM GRAPHIC
4) LOCKOUT ALARM WHEN UNIT IS DE-ENERGIZED. PROVIDE 15-MINUTE STARTUP DELAY PRIOR TO ENABLING ALARM.
VAV ZONE
VAV ZONE
VAV ZONE
VAV ZONE
VAV ZONE
VAV ZONE
NOTE 5
5) OI (ON INDICATION), TREND SHALL NOTE TIME OF BINARY POINT CHANGE
SPTA - VAV BOX SPACE TEMP ADJ AI --- --- +/- 2 DEG F RANGE
OVR - VAV BOX OCCUPANT OVERRIDE BI --- OI ---
SPCO2 - SPACE CO2 AI 1200 VAV ZONE 5 MIN 4
VAV ZONE
VAV ZONE
SUPPLY AIR TEMP SETPOINT MAX BV --- VAV ZONE --- MAX HEATING DAT ALLOWED
OCCUPIED SPACE TEMP SETPOINT COOLING BV --- VAV ZONE --- ---
OCCUPIED SPACE TEMP SETPOINT HEATING BV --- VAV ZONE --- ---
UNOCCUPIED SPACE TEMP SETPOINT HEATING BV --- VAV ZONE --- ---
BV --- VAV ZONE OI ---OCC - SPACE OCCUPANCY SENSOR
HVLV - HEATING WATER VALVE AO --- 5 MIN ---VAV ZONE
SEQUENCE OF OPERATION:
GENERAL:
THE SPACE TEMPERATURE SENSOR SHALL BE PROVIDED WITH AN OCCUPANT ADJUSTABLE
WARMER/COOLER SLIDER AND OCCUPANT OVERRIDE BUTTON. THE SLIDER SHALL ALLOW FOR
TEMPERATURE CONTROL OF +/- 2 DEG. F (ADJ.). THE OCCUPANT OVERRIDE BUTTON SHALL PLACE THE
BOX, ASSOCIATED SYSTEM ZONE AND ASSOCIATED AIR HANDLER INTO OCCUPIED MODE FOR A PERIOD
OF 2 HOURS (ADJ.)
ALARMS SHALL BE AS NOTED WITHIN THE SEQUENCE OF OPERATION AND THE CONTROL SYSTEM DATA
POINT MATRIX.
SETPOINTS:
COOLING SETPOINT: 75 DEG. F (ADJ.)
UNOCCUPIED COOLING SETPOINT: 85 DEG. F (ADJ.)
HEATING SETPOINT: 70 DEG. F (ADJ.)
UNOCCUPIED HEATING SETPOINT: 55 DEG. F (ADJ.)
LIFE SAFETY:
AIRFLOW GREATER THAN OR EQUAL TO 2000 CFM : THESE FAN POWERED BOXES SHALL BE SHUT
DOWN VIA A DUCT SMOKE DETECTOR LOCATED ON THE UNIT. THE DUCT SMOKE DETECTOR SHALL BE
TIED TO THE BUILDING FACP. THESE UNITS SHALL ALSO SHUT DOWN ON A BUILDING GENERAL ALARM
SIGNAL FROM THE FACP.
AIRFLOW LESS THAN 2000 CFM: THESE FAN POWERED BOXES SHALL BE SHUT DOWN VIA A HARD
WIRED INTERFACE TO THE FACP UPON TRIPPING OF ANY DUCT SMOKE DETECTOR WITHIN THE
BUILDING INLUCDING BUT NOT LIMITED TO THOSE WITHIN THE AIR HANDLER, THOSE WITHIN THE
CENTRAL RETURN OPENINGS ON EACH FLOOR AND THOSE LOCATED ON FAN POWERED BOXES (SEE
ABOVE). THESE UNITS SHALL ALSO SHUT DOWN ON A BUILDING GENERAL ALARM SIGNAL FROM THE
FACP.
OCCUPIED CYCLE:
WHEN DUCT PRESSURE IS SENSED, INDICATING THAT THE PRIMARY SYSTEM AIR IS OPERATING, THE
PRIMARY AIR VOLUME DAMPER SHALL OPEN AND MODULATE THE PRIMARY AIR TO SATISFY THE
OCCUPIED SPACE COOLING SET POINT. AS THE ROOM SENSOR SENSES A NEED FOR NO COOLING, THE
CONTROL SYSTEM SHALL CLOSE THE PRIMARY AIR VOLUME DAMPER DOWN TO THE MINIMUM PRIMARY
AIR POSITION. BEFORE HEATING IS INITIATED, THE CONTROLS SHALL ENTER A NO LOAD BAND.
ON SENSING A NEED FOR HEAT THE ECM FAN SHALL ENERGIZE AT 50% OF HEATING AIRFLOW RATE AND
DRAW IN WARM PLENUM AIR FOR SPACE TEMPERING. ON SENSING A FURTHER NEED FOR HEAT, THE
HEATING HOT WATER CONTROL VALVE BE MODULATED AS REQUIRED TO SATISFY THE SPACE HEATING
SET POINT. DISCHARGE AIR TEMPERATURE SHALL BE LIMITED TO 90 DEG. IF SPACE TEMPERATURE
CANNOT BE MET WITH 90 DEG. F AIR, THE FAN AIRFLOW RATE SHALL BE INCREASED UP TO THE
SCHEDULED HEATING AIRFLOW RATE. IF THE SPACE TEMPERATURE STILL CANNOT BE MET, THE
HEATING HOT WATER CONTROL VALVE SHALL BE ALLOWED TO MODULATE TO FULL POWER TO MEET
THE SPACE TEMPERATURE SET POINT. UPON A RISE ABOVE SPACE TEMPERATURE SET POINT, THE
OPPOSITE SEQUENCE SHALL OCCUR.
TEMPORARY UNOCCUPIED CYCLE:
WHERE A VAV BOX SERVICES A ZONE WITH OCCUPANCY SENSORS THE FOLLOWING SHALL OCCUR
DURING THE OCCUPIED CYCLE. WHEN THE OCCUPANCY SENSOR INDICATES AN UNOCCUPIED
CONDITION THE VAV BOX SHALL BE PLACED INTO A TEMPORARY UNOCCUPIED CYCLE. DURING THIS
CYCLE THE COOLING SPACE TEMPERATURE SET POINT SHALL BE 5 DEG. F (ADJ.) ABOVE NORMAL SET
POINT AND THE HEATING SPACE TEMPERATURE SET POINT SHALL BE 5 DEG. F (ADJ.) BELOW NORMAL
SET POINT. WHEN THE OCCUPANCY SENSOR INDICATES ZONE OCCUPANCY THE TEMPERATURE SET
POINTS SHALL RETURN TO NORMAL.
NATURAL VENTILATION CYCLE:
WHERE A VAV BOX SERVICES A ZONE WITH OPERABLE WINDOWS THE FOLLOWING NATURAL
VENTILATION CYCLE SHALL OCCUR. NATURAL VENTILATION SHALL NOT OCCUR DURING THE
UNOCCUPIED CONDITIONS FOR THE 1ST FLOOR OF THE BUILDING ON ACCOUNT OF SECURITY
CONCERNS. NATURAL VENTILATION SHALL BE DONE BY OPENING WINDOWS IN THE EXTERIOR ZONES,
SHUTTING OFF ZONE SPECIFIC HVAC AND OPENING CORRESPONDING WINDOWS IN THE BUILDING
CLEARSTORY. NATURAL VENTILATION SHALL BE IMPLEMENTED DURING THE FOLLOWING CONDITIONS:
INTERIOR CONDITIONS: COOLING DEMAND PRESENT
INTERIOR TEMP: SPACE TEMP SHALL BE ALLOWED TO DRIFT TO 78 DEG F
EXTERIOR TEMP: 60 TO 75 DEG F
EXTERIOR HUMIDITY: <50%RH
EXTERIOR WIND SPEED: <10 MPH
WHEN THESE CONDITIONS ARE NO LONGER IN RANGE THE WINDOWS SHALL CLOSE AND NORMAL HVAC
OPERATION SHALL RESUME. IF AT ANY TIME THE WINDOW REMAINS OPEN IN THE OUT OF RANGE
CONDITIONS AND ALARM SHALL BE GENERATED AFTER A 5 MIN. DELAY.
DURING NATURAL VENTILATION MODE THE ZONE LEVEL VAV BOX SHALL BE CLOSED. THE CLEARSTORY
"RELIEF" WINDOWS SHALL BE GROUPED INTO FOUR SETS GIVING FOUR STAGES OF RELIEF. THESE
FOUR SETS SHALL STAGE UP AS THE BUILDING ZONES CALL FOR MORE NATURAL VENTILATION. THE
FIRST SET OF CLEARSTORY WINDOWS SHALL OPEN UPON A SINGLE ZONE MOVING INTO NATURAL
VENTILATION MODE. ONCE 25%%% OF THE ZONES ARE IN NATURAL VENTILATION MODE THE SECOND
SET OF CLEARSTORY WINDOWS SHALL OPEN. THIS SHALL CONTINUE FOR 50%%% AND 75%%% OF THE
ZONES TO OPEN THE THRID AND FOURTH SET OF CLEARSTORY WINDOWS. THE TURN DOWN SHALL BE
THE OPPOSITE.
NATURAL VENTILATION SHALL BE OVERRIDDEN BY THE OPERABLE WINDOW SHADES; THAT IS WHEN
THE WINDOW SHADES ARE REQUIRED TO CLOSE PER THE LIGHTING CONTROL SYSTEM THE WINDOWS
SHALL CLOSE AND NORMAL HVAC SHALL OPERATE. THIS WILL AVOID THE SHADES BE CLOSED IN
FRONT OF OPEN WINDOWS.
NATURAL VENTILATION SHALL BE OVERRIDDEN BY THE "OVERRIDE" BUTTON ON THE ZONE LEVEL
TEMPERATURE SENSOR. THIS OVERRIDE SHALL PLACE THE SYSTEM INTO HVAC OPERATION FOR A
PERIOD OF 1-HR AT WHICH POINT THE ZONE CAN RETURN TO NATURAL VENTILATION MODE.
UNOCCUPIED CYCLE:
THE TERMINAL FAN SHALL BE OFF DURING THE UNOCCUPIED MODE AND THE PRIMARY AIR VOLUME
DAMPER SHALL POSITIVELY CLOSE. THE DDC SYSTEM SHALL CYCLE THE FAN AND MODULATE THE
HEATING TO MAINTAIN THE UNOCCUPIED SPACE HEATING SET POINT.
DEMAND CONTROLLED VENTILATION:
WHERE A VAV BOX SERVICES A ZONE WITH CARBON DIOXIDE SENSORS THE FOLLOWING DEMAND
CONTROLLED VENTILATION SEQUENCE SHALL OCCUR DURING THE OCCUPIED CYCLE.
FIRST STAGE CARBON DIOXIDE CONTROL: THE SPACE IS PROVIDED WITH A CARBON DIOXIDE SENSOR.
WHEN THE SPACE CARBON DIOXIDE SENSOR INDICATES A CONCENTRATION LEVEL OF 400 PPM (ADJ.)
ABOVE AMBIENT CONDITIONS AS REFERENCED BY THE EXTERIOR SENSOR, THE PRIMARY AIR VOLUME
DAMPER SHALL MODULATE OPEN PROVIDING MORE AIR TO THE SPACE AT A RATE OF 5% (ADJ.) PER 5
MINUTE (ADJ.) PERIOD UNTIL THE CARBON DIOXIDE SENSOR CONDITION IS CLEARED. ONCE THE
PRIMARY AIR REACHES THE MAXIMUM AIRFLOW SETPOINT AND THERE IS STILL A FURTHER NEED OF
VENTILATION AIR AS DETERMINED BY C02 CONCENTRATION LEVEL THE SECOND STAGE CARBON
DIOXIDE CONTROL SEQUENCE SHALL BE INITIATED. OR WHERE OVER-AIRING REQUIRES THE REHEAT
COIL TO OPERATE MORE THAN 30 MINUTES (IN A NON-HEATING MODE), THE SECOND STAGE CARBON
DIOXIDE CONTROL SEQUENCE SHALL BE INITIATED AND THE PRIMARY AIR SHALL DAMPER SHALL
CONTROL MODULATE TO OPEN.
SECOND STAGE CARBON DIOXIDE CONTROL: THE VAV BOXES RESPECTIVE AIR HANDLER OUTSIDE AIR
DAMPERS SHALL MODULATE OPEN FROM THE DCV-MINIMUM POSITION AT A RATE OF 5% (ADJ.) PER 15
MINUTE (ADJ.) PERIOD UNTIL THE CARBON DIOXIDE SENSOR CONDITION IS CLEARED. THE AIR HANDLER
SHALL NOT EXCEED THE DCV-MAXIMUM AIRFLOW CONDITION EXCEPT AS ALLOWED FOR FROM THE
ECONOMIZER OPERATION. SEE AIR HANDLING UNIT SEQUENCE OF OPERATION.
ONCE THE CONDITION IS CLEARED THE AIR HANDLER OUTSIDE AIR DAMPER SHALL TURN DOWN FROM
ITS CURRENT POSITION AT A RATE OF 5% (ADJ.) PER 15 MINUTE (ADJ.) PERIOD UNTIL IT REACHES THE
DCV-MINIMUM POSITION OR HAS ANOTHER CARBON DIOXIDE SENSOR ALARM. SIMULTANEOUSLY THE
ZONE PRIMARY AIR DAMPER SHALL TURN DOWN FROM ITS CURRENT POSITION AT A RATE OF 5% (ADJ.)
PER 5 MINUTE (ADJ.) PERIOD UNTIL IT RESUMES NORMAL TEMPERATURE CONTROL OPERATION.
FSS - FAN START/STOP BO --- OI ---VAV ZONE
FST - FAN STATUS BI FAIL OI ---VAV ZONE
FMOD - FAN MODULATION AO --- 5 MIN ---VAV ZONE
SD - DUCT SMOKE DETECTOR BI YES OI WHERE EQUIPPEDVAV ZONE
FAN MOTOR RUN TIME AV 800 VAV ZONE --- RUN HOURS FOR FILTER REMINDER
WIN - WINDOW OPERATION BO --- OI MULTIPLE, NOTE 6VAV ZONE
WINST - WINDOW STATUS, OPEN/CLOSED BI OPEN VAV ZONE OI MULTIPLE END SWITCHES, PER WINDOW
BI
WINST
OPERABLE WINDOWS (IN
EXTERIOR OCCUPIED
SPACES AND AT BUILDING
CLEARSTORY), SEE
ARCHITECTURAL PLANS FOR
LOCATION AND FURTHER
INFORMATION ON DAMPER
ACTUATION.DA
BO
WIN
ES
VAV TERMINAL - FAN POWERED ECM (PARALLEL) W/HOT WATER HEAT
CONTROL DRAWING AND SEQUENCE OF OPERATION
CONTROL SYSTEM DATA POINT MATRIX
CHARLES
CUNNIFFE
ARCHITECTS
COPYRIGHT CHARLES CUNNIFFE ARCHITECTSC
SHEET NO.
JOB NO.
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2016.01.0223
MECHANICAL
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ISSUE: DATE:
50% DD 10/30/17
100% DD 12/12/17
PERMIT 02/07/18
03/16/2019