duct sizing criteria - fscj
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![Page 1: DUCT SIZING CRITERIA - FSCJ](https://reader030.vdocuments.mx/reader030/viewer/2022012522/61964742afcfba18ec5abf99/html5/thumbnails/1.jpg)
PIPING SYMBOLS
AIR CONDITIONING
CHILLED WATER SUPPLY
CHILLED WATER RETURN
GENERAL
DIRECTION OF FLOW
TOP CONNECTION, 45^ OR 90^
BOTTOM CONNECTION, 45^ OR 90^
CWS
CWR
CONDENSATE DRAIN LINE
ELBOW, TURNED UP
ELBOW, TURNED DOWN
FWS
FWR
FILTER WATER SUPPLY
FILTER WATER RETURN
HEATING
MEDIUM PRESSURE STEAM CONDENSATE RETURN
RL REFRIGERANT LIQUID
RS REFRIGERANT SUCTION
HIGH PRESSURE STEAM CONDENSATE RETURN
CHS
CHR
HIGH PRESSURE STEAM (60 PSiG & ABOVE)
CONDENSER WATER TO TOWER (SUPPLY)
CONDENSER WATER FROM TOWER (RETURN)
D
HPS- *
MPS- * MEDIUM PRESSURE STEAM (16 PSiG THRU 60 PSiG)
LPS- * LOW PRESSURE STEAM (1 PSiG THRU 15 PSiG)
LOW PRESSURE STEAM CONDENSATE RETURN
PCR CONDENSATE PUMP DISCHARGE
PRS
HWS
HWR
HOT WATER HEATING SUPPLY
HOT WATER HEATING RETURN
VALVED AND CAPPED FOR FUTURE CONNECTION
PRESSURE REDUCING STATION
LPC
MPC
HPC
S
SIDE CONNECTION
CAPPED OUTLET
RISE OR DROP IN PIPE
UNION
STRAINER
THERMOMETER
PRESSURE GAGE
WATER FLOW MEASURING DEVICE
VALVES
GATE VALVE
GLOBE VALVE
CHECK VALVE
BUTTERFLY VALVE
BALL VALVE
BALANCING VALVE
AUTOMATIC FLOW CONTROL VALVE
SAFETY OR PRESSURE RELIEF VALVE
PRESSURE REDUCING VALVE
MANUAL AIR VENT
TEST PLUG (PRESSURE/TEMPERATURE)
TWO WAY CONTROL VALVE
FLOW SWITCH
WATER FLOW METER
W.F.M.
POINT OF CONNECTION BETWEENNEW AND EXISTING WORK
GATE VALVE WITH ƒ" HOSE ADAPTOR
STRAINER W/BLOW-OFF VALVE
REGULATING VALVE
SOLENOID VALVE
FS
STEAM TRAP ASSEMBLY (REFER TOSPEC'S FOR TYPE)
3-WAY CONTROL VALVE
CIRCUIT SETTER
TRIPLE DUTY VALVE
OS&Y VALVE
A SECTION LETTER / NUMBER
DRAWING SYMBOLS
UP DN SUPPLY DUCT (UP & DOWN)
UP DN
INCLINED RISE, IN DIRECTION OF AIR FLOW
INCLINED DROP, IN DIRECTION OF AIR FLOW
FLEXIBLE CONNECTION
VANED ELBOW (PROVIDE ALL SQUARE OR RECTANGULARELBOWS WITH VANES EVEN IF SYMBOL IS MISSING)
10"x8"
DRAWING NUMBER WHERE SHOWN
R OR RISE
D OR DROP
RETURN/EXHAUST DUCT (UP & DOWN)
6"
8"
RECT. DUCT-WIDTH x DEPTH(FIRST FIGURE INDICATES SIDE SHOWN)
M4.1
CEILING DIFFUSERS (TYPE 1 - 200 CFM)
SIDEWALL SUPPLY GRILLE OR REGISTER(TYPE 4 - 200 CFM)
LINEAR SLOT DIFFUSERS (TYPE 3 - 200 CFM)3-200S
CEILING RETURN (OR EXHAUST) GRILLE OR REGISTER(TYPE 2 - 200 CFM)
SIDEWALL RETURN (OR EXHAUST) GRILLE OR REGISTER(TYPE 5 - 200 CFM)
2-200R (E)
DOOR GRILLE (TYPE 9 - 200 CFM)
R=1.5 x DUCT WIDTH
STANDARD RADIUS ELBOW (CENTERLINE RADIUSEQUAL 1.5 TIMES DUCT WIDTH)
4-200S__"x__"
5-200R (E)__"x__"
9-200R (E)
VANE TURN ELBOW & PROPORTIONAL AIR SPLIT TYPE DUCT TAKE-OFFW/ SPLITTER DAMPER
1-200S
45^ BRANCH DUCT TAKE-OFF (SUPPLY)
45^ BRANCH DUCT TAKE-OFF (RETURN OR EXHAUST)
MANUAL VOLUME DAMPER
FIRE DAMPER
SMOKE DAMPER WITH DUCT MOUNTEDSMOKE DETECTOR WITHIN 5'-0" OF DAMPER
FLAT OVAL DUCT-WIDTH x DEPTH(FIRST FIGURE INDICATES SIDE SHOWN)
14"ø
20"/16"
MVD
ROOM CONTROL: THERMOSTAT
ROUND DUCT - DIAMETER
COMBINATION FIRE/SMOKE DAMPER WITHDUCT MOUNTED SMOKE DETECTOR WITHIN5'-0" OF DAMPER
OR
MVD
DUCT MOUNTED SMOKE DETECTOR
ROOM CONTROL: HUMIDISTAT
SD
F/SD
AIR HEATING & COOLING UNITS SYMBOLS
FAN POWERED VAV TERMINAL UNIT WITH REHEATNUMBER INDICATES UNIT DESIGNATION.
VARIABLE VOLUME/CONSTANT VOLUME TERMINAL UNIT WITHOR WITHOUT REHEAT NUMBER INDICATES UNIT DESIGNATION.
DD
T
ROOM CONTROL: CONCEALED THERMOSTAT
H
TC
FD
200
200
VALVE (SEE SPECIFICATIONS FOR TYPE)
EMERGENCY POWER OFF CONTROL
F.O.B.
F.O.T.
FLA
FTR
GH
GPM
HC
HD
HE
HF
HP
HPR
HPS
HRP
HV
HX
IV (OR VIV)
KW
LAT
LBS/HR
LCD
LPR
LPS
LTCP
LWT
MAX
MB.MBH
MCC
MIN.
MPR
MPS
MVD
NOM.
OA
P
PC
PD
PF
PH
PRV
RA
RAG
RAR
RF
RH
Rh
SA
SAU
SAG
SAR
SCD
SD
SF
SH
SP
SPS
TDH
T.S.
TWU
UH
V
VE
VI
WB
WFM
WSF
WF
FLAT ON BOTTOM
FLAT ON TOP
FULL LOAD AMPS
FIN TUBE RADIATION
GRAVITY HOOD (RELEF, EXHAUST, INTAKE, O.A.)
GALLONS PER MINUTE
HEATING COIL
HOOD
AIR TO AIR HEAT EXCHANGER
HEPA FILTER
HORSE POWER
HIGH PRESSURE STEAM CONDENSATE RETURN
HIGH PRESSURE STEAM (60 PSIG & ABOVE)
HYDRONIC RADIAN CEILING PANEL
HEATING AND VENTILATING UNIT
HEAT EXCHANGER
INLET VANES (OR VARIABLE INLET VANES)
KILOWATT
LEAVING AIR TEMPERATURE
POUNDS PER HOUR
LINEAR CEILING DIFFUSER
LOW PRESSURE STEAM CONDENSATE RETURN
LOW PRESSURE STEAM (15 PSIG & BELOW)
LOCAL TEMPERATURE CONTROL PANEL
LEAVING WATER TEMPERATURE
MAXIMUM
MIXING BOX
1000 BTU/HOUR
MOTOR CONTROL CENTER
MINIMUM
MEDIUM PRESSURE STEAM CONDENSATE RETURN
MEDIUM PRESSURE STEAM (16 PSIG THRU 59 PSIG)
VOLUME DAMPER (MANUAL OPPOSED BLADE)
NORMAL
OUTSIDE AIR
PUMP
PUMPED CONDENSATE
PRESSURE DROP (FEET OF WATER)
PRE-FILTER
PREHEAT
PRESSURE REDUCING VALVE
RETURN AIR
RETURN AIR GRILLE
RETURN AIR REGISTER
RETURN FAN
REHEAT COIL
RELATIVE HUMIDITY
SUPPLY AIR
SOUND ATTENUATING UNIT
SUPPLY AIR GRILLE
SUPPLY AIR REGISTER
SMOKE CONTROL DAMPER
SMOKE DAMPER
SUPPLY FAN
STEAM HUMIDIFIER
STATIC PRESSURE (INCEHS OF WATER)
STATIC PRESSURE SENSOR
TOTAL DYNAMIC HEAD
TOP OF SLAB
THRU WALL UNIT
UNIT HEATER
VALVE
VOLUME EXTRACTOR
VIBRATION INSULATOR
WET BULB TEMPERATURE ºF
WATER FLOW MEASURING DEVICE
WATER SAND FILTER
WATER FILTER
ABBREVATIONS
AC
ACC
ACCU
AD
AF
AFF
AFM
AH
AMD
AP
APD
APU
ATC
BAS
BI
B.J.
B.O.D.
B.O.P.
B.S.
BTUH
BVS
C
CC
CD
CFM
CG
CLG
CO
COMP
CONV.
CP
CR
CRU
CT
CU
DB
dB
D
DD
Dp
DPS
DX
EA
EAG
EAR
EAT
ECC
ECD
EDH
EER
EF
EOM
ERC
ERP
ET
EUH
EWB
EWT
EXG.
F.A.
FACP
FC
F.F.
FLR.
FLRDRN.
FD
F/SD
AIR CONDITIONING UNIT
AIR-COOLED CONDENSER
AIR-COOLED CONDENSING UNIT
ACCESS DOOR
AIR FOIL
ABOVE FINISHED FLOOR
AIR FLOW MEASURE DEVICE
AIR HANDLING UNIT
AIR MIXING DEVICE
ACCESS PANEL
AIR PRESSURE DROP (INCHES OF WATER)
AIR PURIFICATION UNIT
AUTOMATIC TEMPERATURE CONTROL PANEL
BUILDING AUTOMATION SYSTEM
BACKWARD INCLINED
BOTTOM OF JOIST
BOTTOM OF DUCT (ELEVATION)
BOTTOM OF PIPE (ELEVATION)
BOTTOM OF STEEL
BTU PER HOUR
BELTED-VENT SET (CENTRIFUGAL FAN)
CONVERTOR (HEAT EXCHANGER)
COOLING COIL
CEILING DIFFUSER
CUBIC FEET PER MINUTE
CEILING GRILLE
CEILING
CLEAN OUT
COMPRESSOR UNIT
CONVERTOR
CONDENSATE PUMP
CONDENSATE RETURN
CONDENSATE RETURN UNIT
COOLING TOWER
CONDENSING UNIT
DRY BULB TEMPERATURE ºF
DECIBELS
AUTOMATIC CONTROL DAMPER
DISCHARGE DAMPER
DEW POINT TEMPERATURE ºF
DIFFERENTIAL PRESSURE SENSOR
DIRECT EXPANSION
EXHAUST AIR
EXHAUST AIR GRILLE
EXHAUST AIR REGISTER
ENTERING AIR TEMPERATURE ºF
ENGINEERING CONTROL CENTER
EDDY CURRENT DRIVE
ELECTRIC DUCT HEATER
ENERGY EFFICIENCY RATIO
EXHAUST FAN
END OF MAIN DRIP (STEAM)
ENERGY RECOVERY COIL
ELECTRIC RADIANT CEILING PANEL
EXPANSION TANK
ELECTRIC UNIT HEATER
ENTERING WET BULB TEMPERATURE ºF
ENTERING WATER TEMPERATURE ºF
EXISTING
FIRE ALARM
FIRE ALARM CONROL PANEL
FAN COIL UNIT
FINAL FILTER
FLOOR
FLOOR DRAIN
FIRE DAMPER
COMBINATION FIRE/SMOKE DAMPER
PIPE SIZING CRITERIA
Pipe SizeFlow Pressure
(GPM)Pressure Drop Range
(ft/100)Velocity(ft/sec.)
3/4" 0 - 3 0.00 - 2.91 0.00 - 1.97
1" 4 - 7 1.34 - 3.58 1.56 - 2.74
1-1/4" 8 - 13 1.66 -3.91 2.05 - 3.33
1-1/2" 14 - 21 1.95 - 4.00 2.54 - 3.80
2" 22 - 44 1.17 - 4.00 2.30 - 4.60
2-1/2" 45 - 73 1.59 - 3.91 3.01 - 4.89
3" 74 - 131 1.37 - 3.97 3.21 - 5.69
4" 132 - 270 1.04 - 4.00 3.33 - 6.80
5" 271 - 491 1.30 - 4.00 4.34 - 7.87
6" 492 - 796 1.60 - 4.00 5.46 - 8.84
8" 797 - 1558 1.01 - 3.63 5.11 - 10.0
10" 1559 - 2460 1.15 - 2.76 6.34 - 10.0
12" 2461 - 3488 1.15 - 2.24 7.06 - 10.0
14" 3489 - 4216 1.39 - 1.99 8.27 - 10.0
16" 4217 - 5508 1.02 - 1.70 7.66 - 10.0
18" 5509 - 6972 0.94 - 1.48 7.90- 10.0
20" 6973 - 8670 0.85 - 1.30 8.05 - 10.0
24" 8671 - 12530 0.51 - 1.04 6.92 - 10.0
MEDIUM PRESSURE SUPPLY
LOW PRESSURE SUPPLY
LOW PRESSURE RETURN/EXHAUST
MAX. 2500 FPM OR .25"/100'
MAX. 1000 FPM OR .07"-1.0"/100'
MAX. 800 FPM .05" - .08"/100'
DUCT SECTION
SUPPLY-UNIT DISCHARGE TO TERMINAL
SUPPLY-TERMINAL UNIT TO DIFFUSER
RETURN - ALL
EXHAUST - ALL
OUTDOOR - ALL
PRESSURE CLASS / SEAL CLASS
+6", SEAL CLASS A
+1", SEAL CLASS A
-2", SEAL CLASS A
+1, SEAL CLASS A
DUCT CONSTRUCTION CLASSIFICATION
DUCT SIZING CRITERIA
DM-1 THESE DRAWINGS HAVE BEEN DEVELOPED FROM EXISTING DRAWINGS WHICH MAY NOT REFLECT ACTUAL FIELD CONDITIONS. THE CONTRACTOR SHALL VERIFY THESE DRAWINGS WITH EXISTING FIELD CONDITIONS AND NOTIFY THE ARCHITECT/ENGINEER IMMEDIATELY OF ANY INCONSISTENCIES PRIOR TO COMMENCEMENT OF WORK.
DM-2 THE CONTRACTOR SHALL NOTIFY THE ARCHITECT/ENGINEER IMMEDIATELY IF ANY WORK INDICATED IN THE CONTRACT DOCUMENT CANNOT BE PERFORMED DO TO EXISTING FIELD CONDITIONS OR, IF PERFORMING SUCH WORK WILL JEOPARDIZE THE INTENT OF THE CONTRACT DOCUMENT.
DM-3 PIPING REMOVAL SHALL TERMINATE AT THE MAIN OR AT LOCATION INDICATED. VALVE AND CAP PIPES AT TERMINATION LOCATION.
DM-4 COORDINATE DEMOLITION WORK WITH OTHER TRADES. REFER TO ARCHITECTURAL DRAWINGS FOR PHASING OF WORK.
DM-5 ANY EXISTING ITEM(S) WHICH ARE TO REMAIN SHALL BE PROTECTED FROM DAMAGE BY THR CONTRACTOR THROUGHOUT THE CONSTRUCTION PERIOD. DAMAGE TO EXISTING ITEMS WHICH ARE TO REMAIN SHALL BE REPAIRED OR REPLACED TO CONFORM TO IT'S ORIGINAL WORKING CONDITION PRIOR TO EVENT.
DM-6 CONTRACTOR SHALL COORDINATE AND SCHEDULE ANY ANTICIPATED HVAC SYSTEM(S) SHUTDOWN/INTERUPTION WITH THE FACILITIES MANAGEMENT DEPARTMENT. ANY SUCH SERVICE INTERUPTION SHALL NOT BE MADE WITH OUT PRIOR WRITTEN CONSENT/APPROVAL FROM THE OWNER AND PROPPER COORDINATION WITH THE HOSPITAL. FURNISH THE ARCHITECT/ ENGINEER WITH A COPY OF THE WRITTEN APPROVAL PRIOR TO THE SCHEDULED ACTIVITY DATE.
DM-7 CONTRACTOR SHALL TAKE NECESSARY PRECAUTION TO PREVENT ACCIDENTS DURING THIS WORK. PIPES MAY HAVE WATER OR STEAM OR STEAM CONDENSATE. THE FLOORS MAY BE WET, VALVES MAY NOT FUNCTION AS DESIGNED ETC.
DM-8 PATCH, REPAIR AND SEAL ALL AREAS OF DEMOLITION TO MATCH EXISTING ADJACENT AREAS. THIS INCLUDES WALLS, CEILINGS, FLOORS AND ROOFS. REFER TO ARCHITECTURAL DRAWING FOR ADDITIONAL INFORMATION.
DM-9 CONTRACTOR IS RESPONSIBLE FOR SHUTTING DOWN EQUIPMENT EITHER BEING DEMOLISHED OR DE-COMMISSIONED IN PLACE.
DM-10 CONTRACTOR SHALL COORDINATE THE RECOVERY OR DISPOSAL OF EQUIPMENT REMOVED AND NOT REUSED ON THIS PROJECT. IF THE OWNER CHOSES TO RECOVER EQUIPMENT THE CONTRACTOR SHALL COORDINATE THE STORAGE OF EQUIPMENT WITH THE OWNER.
DM-11 CONTRACTOR SHALL PATCH EXISTING TO REMAIN DUCTWORK WHERE TAPS/TAKE-OFFS ARE REMOVED; PATCH SHALL BE OF SIMILAR MATERIAL AN PRESSURE CLASS AS THE DUCTWORK BEING PATCHED. PATCH SHALL BE SEALED PER SMACNA SEAL CLASS "A".
DEMOLITION NOTES
1. ALL DUCT DIMENSIONS SHOWN ARE INSIDE CLEAR MEASUREMENTS.
2. ALL DUCTS SHALL BE INSULATED PER SPECIFICATION AND AS NOTED ON DRAWINGS.
3. ALL LOW PRESSURE DUCT TRANSITIONS ARE FLAT ON TOP (F.O.T.) UNLESS OTHERWISE NOTED.
4. ALL SUPPLY DUCT SPLITTERS SHALL BE SIZED AND CONSTRUCTED PER SMACNA DUCT STANDARDS AND AS SPECIFIED.
5. ALL TURNING VANES SHALL BE DOUBLE THICKNESS. TURNING VANES WHETHER INDICATED OR NOT, SHALL BE IN SPLITTER FITTING. RECTANGULAR ELBOWS AND RADIUS ELBOW. TURNING VANES SHALL BE CONSTRUCTED PER SMACNA DUCT STANDARDS.
6. ALL TRANSITIONS SHALL BE 30 DEGREES MAX. ON CONTRACTING FLOW (7" IN 12"); 20 DEGREES MAX. ON DIVERGING FLOW (4-3/8" IN 12") PER SMACNA DUCT STANDARDS
7. ACCESS PANELS IN SUSPENDED CEILINGS ARE REQUIRED FOR ALL VALVES, TRAPS, DAMPERS, CLEANOUTS, CONTROLS, ETC.
8. ALL SUPPLY, RETURN, AND EXHAUST DUCTS ARE TO BE SEALED AT LONGITUDINAL AND TRANSVERSE JOINT TO MINIMIZE LEAKAGE. TEST ALL DUCTS AS SPECIFIED.
9. PROVIDE VOLUME DAMPERS ON ALL BRANCH DUCTWORKWHETHER INDICATED OR NOT. EXTRACTORS AND AIR SCOOPS ARE NOT ALLOWED.
10. BUTTON-PUNCH SEAMS ARE NOT ALLOWED IN ANY DUCT CLASS.
11. DRAWINGS ARE SCHEMATIC. NOT ALL OFFSETS AND, NOT ALL CHANGES IN ELEVATIONS ARE SHOWN. TRADES ARE TO COORDINATE THEIR WORK WITH OTHER TRADES IN ORDER TO AVOID CONFLICTS.
12. LOCATION OF CONCEALED HYDRONIC VALVES, FIRE DAMPERS, SMOKE DAMPERS, AND COMBINATION FIRE AND SMOKE DAMPERS SHALL BE PERMANENTLY IDENTIFIED ON THE EXTERIOR OF THE CEILING AND LIABLE FROM THE SPACE BELOW THE CEILING BY LABEL HAVING LETTERS NOT LESS THAN 1/2" IN HEIGHT READING " HEATING HOT WATER VALVES", "FIRE DAMPERS", "SMOKE DAMPERS", AND "COMBINATION FIRE AND SMOKE DAMPERS".
GENERAL NOTES
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DATE:PROJECT:
G S & P
R
G R E S H A MS M I T H A N DP A R T N E R S
Design ServicesFor The Built
Environment
Atlanta GABirmingham AL
Charlotte NCCincinnati OHColumbus OH
Dallas TXFt Lauderdale FL
Houston TXJackson MS
Jacksonville FLKnoxville TNLouisville KYMemphis TNMiami FLNashville TNRichmond VATallahassee FLTampa FL
BID REVIEW
NOT FORCONSTRUCTION
1/3
/2017 2
:08:2
4 P
MC:\
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_2016_perr
inj.rv
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HVAC LEGENDS AND
NOTES
M00142390.00
November 21, 2016
Auth
or
Check
er
Appro
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FLORIDA STATECOLLEGE AT
JACKSONVILLE
NORTHCAMPUS
SIMULATION
LAB
4501 Capper Rd.Jacksonville, FL 32218
Revision
No. Date Description1 01/04/17 ADDENDUM NO. 2
1
1
![Page 2: DUCT SIZING CRITERIA - FSCJ](https://reader030.vdocuments.mx/reader030/viewer/2022012522/61964742afcfba18ec5abf99/html5/thumbnails/2.jpg)
AIR TERMINAL UNIT SCHEDULE
MARK MAX MIN VENT HEATING MAX MIN HEATING COIL
AIR AIR AIR AIR INLET EAT LAT CAPACITY ELECTRICAL RUNOUT REMARKS
FLOW FLOW FLOW PD SP �( ) �( ) (KW) VOLTAGE DUCT SIZE
(CFM) (CFM) (CFM) (IN WC) (IN WC) (IN)
100-1 600 240 240 0.5 0.75 55 94.32 3 277-1-60 10" B,C,D,E
100-2 640 260 260 0.5 0.75 55 91.30 3 277-1-60 10" B,C,D,E
100-3 940 380 380 0.5 0.75 55 88.11 4 277-1-60 12" B,C,D,E
100-4 800 320 320 0.5 0.75 55 94.32 4 277-1-60 12" B,C,D,E
100-5 660 260 260 0.5 0.75 55 91.30 3 277-1-60 10" B,C,D,E
100-6 400 160 160 0.5 0.75 55 74.66 1 277-1-60 10" B,C,D,E
100-7 400 160 160 0.5 0.75 55 74.66 1 277-1-60 10" B,C,D,E
200-1 360 140 140 0.5 0.75 56 100.94 2 277-1-60 8" B,C,D,E
200-2 880 350 350 0.5 0.75 57 92.95 4 277-1-60 12" B,C,D,E
200-3 360 140 140 0.5 0.75 58 102.94 2 277-1-60 8" B,C,D,E
REMARKS:
A. PARALLEL FAN POWERED BOX E. TRANSFORMER
B. SCR HEAT CONTROL
C. MAX NC LEVEL 35
D. DDC CONTROLS
DUCTLESS AC UNIT SCHEDULE
MARK AC-17-1
SERVICE OFFICE E103
IN
DO
OR
UN
IT
TYPE DUCTLESS
MANUFACTURER / MODEL MITSUBISHI/PKA-A24A6
AIRFLOW (CFM) 775
WEIGHT 46
COOLING CAPACITY (BTUH) 24,000
HEATING CAPACITY (BTUH) 26,000
MCA (A) 1
FAN MOTOR FLA 0.33
VOLTAGE 208/1/60
OU
TD
OO
R U
NIT
MARK CU-17-1
LOCATION FIRST FLOOR ROOF
MANUFACTURER/MODEL MITSUBISHI/PUZ-A24NHA6
VOLTAGE 208/1/60
AMBIENT TEMP (F) 105
CONDENSER FAN MOTOR FLA 0.75
REFRIGERANT TYPE R-410A
MCA (A) 18
MOCP (A) 30
WEIGHT 165
COOLING EFFICIENCY 17 SEER
REMARKS A, B, C, D, E
A- SIZE PIPING PER MANUFACTURER RECOMMENDATION
B - INVERTER (VARIABLE SPEED COMPRESSOR), GOLD FIN™ ANTI-CORROSION, SELF-CLEANING INDOOR COIL, AUTO CHANGEOVER, DEHUMIDIFYING MODE, AUTO RESTART, BUILT-INLOW AMBIENT STANDARD, DOWN TO 14ºF (COOLING MODE), DEFROST CONTROL, EVAPORATOR FROST CONTROL
C- WIRED WALL CONTROLLER
D- SINGLE POINT CONNECTION (INDOOR UNIT POWERED FROM OUTDOOR UNIT)
E- CONDENSATE PUMP WITH LINESET COVER SYSTEM
EXISTING EQUIPMENT REBALANCE SCHEDULE
MARK AHU-1 AHU-2
LOCATION MECHANICAL ROOM MECHANICAL ROOM
EX
IST
ING
DE
SIG
N C
ON
DIT
ION
S
SUPPLY FAN
AIRFLOW (CFM) 12,000 21,200
ESP (IN WC) 0.95 0.95
NAMEPLATE HORSEPOWER 15 25
OUTSIDE AIR
MINIMUM AIRFLOW (CFM) 1000 2110
COOLING COIL EXISTING EXISTING
EAT DB/WB (DEG F) -- --
LAT DB/WB (DEG F) -- --
TOTAL CAPACITY (MBH) 392 392
FLOW (GPM) 60 60
NE
W C
ON
DIT
ION
S
FAN NEW EXISTING
SUPPLY AIRFLOW (CFM) EXISTING 12,000 10400E
SUPPLY AIRFLOW (CFM) DESIGN 4440F 10800E
RETURN AIRFLOW (CFM) DESIGN 3440F 7200E
ESP (IN WC) 2.75 3.6
NAMEPLATE HORSEPOWER 20 25
OUTDOOR AIRFLOW (CFM) 1,000 2,110
COOLING COIL NEW EXISTING
EAT DB/WB (DEG F) 80/67 N/A
LAT DB/WB (DEG F) 55/53 N/A
TOTAL CAPACITY (MBH) 300 N/A
FLOW (GPM) 50 N/A
REMARKS A, B, C, D, F, G, H, I A, B, E, F
A - EXISTING DESIGN CONDITIONS FROM ORIGINAL SCHEDULE; NOTE SCHEDULED VAULES AND PLAN VALUES DONOT MATCH. CONTRACTOR TO VERIFY VALUES WITH PRETEST.
B - CLEAN UNITS AND VERIFY EXISTING CONTROLS ARE IN LIKE NEW OPERATING CONDITION, REPAIR/REPLACEEXISTING CONTROL COMPONESTS IF REQUIRED.
C - SCHEDULED COIL AND FAN VALUES ARE MAXIMUM VALES FOR NEW EQUIPMENT BASED ON CALCULATEDVALUES TO BE VERIFIED BY VENDOR EQUIPMENT SELECTION.
D - NEW AIRFLOW MONITOR IN OUTSIDE AIR INTAKE
E - SCHEDULED AIRFLOW IS ONLY FOR FIRST FLOOR; SEE EXISTING PLANS FOR REMAINING 10,400 CFM ON FLOORABOVE
F - CONTRACTOR TO PROVIDE PRETEST FOR EXISTING INCLUDING BUT NOT LIMITED TO; SUPPLY, RETURN ANDOUTSIDE AIR,AIRFLOW, COOLING COIL WATER FLOW, HEATING COIL WATER FLOW, HOT WATER VALVE POSITION,CHILLED WATER VALVE POSTION, FAN BRAKE HORSEPOWER, FAN AMPERAGE, COMPLETE STATIC PRESSUREPROFILE FOR UNIT, EXISTING AIRFLOWS FOR ALL TERMINAL DEVICES, VFD FREQUENCIES.
G- FAN SELECTED AT 8,000 CFM TO ACCOMMODATE FUTURE SPACE BUILDOUT. UNIT TO BE BALANCED TOSCHEDULED VALUES FOR CURRENT DESIGN.
H- IF ADEQUATE PERFORMANCE FOR SCHEDULED COMPONENTS CANNOT BE ATTAINED, CONTRACTOR MUSTPRICE NEW UNIT.
I- MAXIMUM FIN SPACING; 12 FINS PER INCH
Dra
wn
By:
Che
cked
By:
Ap
pro
ved
By:
DATE:PROJECT:
G S & P
R
G R E S H A MS M I T H A N DP A R T N E R S
Design ServicesFor The Built
Environment
Atlanta GABirmingham AL
Charlotte NCCincinnati OHColumbus OH
Dallas TXFt Lauderdale FL
Houston TXJackson MS
Jacksonville FLKnoxville TNLouisville KYMemphis TNMiami FLNashville TNRichmond VATallahassee FLTampa FL
BID REVIEW
NOT FORCONSTRUCTION
1/3
/2017 2
:08:2
5 P
MC:\
tmp\R
evitLoca
l\4239000_Centr
al_
Mech
_2016_perr
inj.rv
t
HVAC SCHEDULES
M00242390.00
November 21, 2016
Auth
or
Check
er
Appro
ver
FLORIDA STATECOLLEGE AT
JACKSONVILLE
NORTHCAMPUS
SIMULATION
LAB
4501 Capper Rd.Jacksonville, FL 32218
AIR DISTRIBUTION DEVICE SCHEDULE
TYPE MANUFACTURER MODEL COMMENTS SERVICE CFM RANGE FACE SIZE NECK RUNOUT NOTES
1 TITUS TDCAA N/A SUPPLYSQUARECEILING
DIFFUSER
0-5055-110115-220225-340345-645
12"x12"24"x24"24"x24"24"x24"24"x24"
6"ø6"ø8"ø10"ø12"ø
6"ø / 8"x4"6"ø / 8"x4"8"ø / 10"x6"
10"ø / 12"x8"12"ø / 16"x8"
2 TITUS 50R AND 50F N/A RETURN/EXHAUSTCEILING
REGISTER
0-150155-200205-400405-550555-650655-950
955-13001305-17001705-20002005-23002305-27002705-32003205-3800
6"x6"12"x12"12"x12"12"x12"24"x24"24"x24"24"x24"24"x24"24"x24"24"x48"24"x48"24"x48"24"x48"
---------------------------------------
8"ø / 10"x6"10"ø / 14"x6"12"ø / 14"x8"14"ø / 18"x8"14"ø / 28"x6"16"ø / 28"x8"18"ø / 28"x10"20"ø / 28"x12"22"ø / 28"x14"24"ø / 28"x16"24"ø / 32"x16"26"ø / 36"x16"26"ø / 36"x18"
A. REFER TO MECHANICAL FLOOR PLANS FOR LOCATIONS AND QUANTITIES.
B. RUNOUT SIZES ARE AS NOTED IN SCHEDULE UNLESS OTHERWISE NOTED ON PLANS OR DETAILS.
C. NOT ALL SIZES SHOWN MAY BE USED ON THIS PROJECT.
D. PAINT INSIDE OF DUCTWORK FLAT BLACK BEHIND REGISTERS AND GRILLES WHEN SHEET METAL IS VISIBLE.
NOTES:
Revision
No. Date Description1 01/04/17 ADDENDUM NO. 2
1
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66 SF
1224 SF
211 SF
254 SF
515 SF523 SF
225 ampPANEL
GENERAL AREA OF CONSTRUCTION
GENERAL AREA O
F CONSTRUCTIO
N
GENERAL AREA OFCONSTRUCTION
1
5
EXISTING TOREMAIN
2-09
2-0
8
2-07
2-06
2-05
THIS AREA IS NOTIN SCOPE OF
WORK
THIS AREA ISNOT IN SCOPE
OF WORK
48"x1
6"
48"x2
0"
28"x16"
18"x14"
18"x10"
18"x14"
18"x10"
18"x14"
18"x10"
18"x14"
18"x10"
18"x10"
48
"x20
"
48"x1
8"
48"x1
6"
18"x10"
16"x4"
18"x10"
18"x14"34"x1
6"
34
"x16
"
36
"x1
6"
38
"x1
6"
28"x1
6"
60
"x2
0"
18
"x14
"
REFER TO KEYNOTES 3AND 6 FOR THIS AREA
EXISTING TOREMAIN
5CONTRACTOR MAY REUSE VERTICALDUCTWORK IF DUCT MEETS SMACNAPRESSURE CLASS REQUIREMENTS FORMEDIUM PRESSURE DUCT SEAL CLASS A
CONTRACTOR TOREPLACE EXISTINGCONTROL VALVES IN UNIT
9
9
PRE-MEASUREEXHAUST AIRFLOWPRIOR TO DEMOLITION
REMOVE DAMPERSAT SLAB
REMOVE DAMPERSAT SLAB
DEMOLITION
EXISTING TO REMAIN
HVAC DEMOLITION LEGEND
Dra
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By:
Ap
pro
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By:
DATE:PROJECT:
G S & P
R
G R E S H A MS M I T H A N DP A R T N E R S
Design ServicesFor The Built
Environment
Atlanta GABirmingham AL
Charlotte NCCincinnati OHColumbus OH
Dallas TXFt Lauderdale FL
Houston TXJackson MS
Jacksonville FLKnoxville TNLouisville KYMemphis TNMiami FLNashville TNRichmond VATallahassee FLTampa FL
BID REVIEW
NOT FORCONSTRUCTION
1/3
/2017 2
:08:2
7 P
MC:\
tmp\R
evitLoca
l\4239000_Centr
al_
Mech
_2016_perr
inj.rv
t
HVAC FIRST FLOOR
DEMOLITION PLAN
M10142390.00
November 21, 2016
Auth
or
Check
er
Appro
ver
FLORIDA STATECOLLEGE AT
JACKSONVILLE
NORTHCAMPUS
SIMULATION
LAB
4501 Capper Rd.Jacksonville, FL 32218
0'8' 4' 8' 16'1HVAC FIRST FLOOR DEMOLITION PLAN
1. DEMOLISH ASSOCIATED DUCTWORK AND ASSOCIATED PIPING. REUSE AND RELOCATEBOX AS INDICATED ON NEW CONSTRUCTION PLAN. SEE SHEET M201 FOR ADDITIONALINFORMATION.
2. CONTRACTOR TO PROVIDE TEMPORARY COOLING AND DISTRIBUTION FOR EQUIPMENTSERVING SPACE NOT IN SCOPE OF PROJECT. COORDINATE WORK FOR ASSOCIATEDSYSTEM WITH OWNER.
3. CONTRACTOR SHALL VERIFY OPERATIONAL CONDITION AND PERFORMANCE OF EXISTINGEXHAUST FANS; SHALL MEASURE EXISTING AIR FLOW AT EACH GRILLE ASSOCIATED WITHFAN. PRETEST SHALL ALSO INCLUDE THE FOLLOWING:a. TOTAL FAN AIRFLOW.b. STATIC PRESSURE ACROSS FAN.c. MOTOR AMPS.d. OVERALL UNIT CONDITION.e. FAN PHYSICAL DATA.f. FAN SCHEMATIC SKETCHED ON BLACK FLOOR PLAN.
4. DURING PRETEST CONTRACTOR SHALL REVIEW ALL AIR HANDLERS: 1,2, AND PRETESTREPORT SHALL INCLUDE THE FOLLOWING:a. STATIC PRESSURE PROFILE OF ENTIRE UNITb. FAN ELECTRICAL CHARACTERISTICS.c. SUPPLY FAN OPERATING AMPS.d. RETURN FAN OPERATING AMPS (IF APPLICABLE).e. TOTAL SUPPLY AIRFLOW.f. UNIT PHYSICAL DATA.g. TOTAL RETURN AIRFLOW.h. TOTAL OUTSIDE AIRFLOW.
5. DEMOLISH EXISTING UNIT AND ASSOCIATED DUCTWORK AND PIPING. CAP PIPINGBACK TO MAIN. SEAL DUCT AS REQUIRED TO MAINTAIN PRESSURE CLASSIFICATION.REPAIR INSULATION AS REQUIRED TO MAINTAIN INSULATING VALUE.
6. EXISTING AIR TERMINAL UNITS 1, 2, 3 AND 4 SERVING THIS AREA TO REMAIN IN PLACE.CLEAN TERMINAL UNITS AND RECALIBRATE CONTROLS
7. CONTRACTOR TO PERFORM WORK ON ALL SYSTEMS DURING NON-OPERATINGHOURS. CONTRACTOR TO COORDINATE ALL WORK, OUTAGES AND REQUIREMENTSFOR TEMPORARY EQUIPMENT AND OPERATION OF ALL AREA INDICATED BY OWNER.
8. PRE-MEASURE AIRFLOW OF EXISTING AIR TERMINAL UNITS TO REMAIN.
9. PRE-MEASURE AIRFLOW PRIOR TO DEMOLITION
10. CLEAN EXISTING DUCTWORK TO REMAIN.
Revision
No. Date Description1 01/04/17 ADDENDUM NO. 2
KEYNOTES:
1
1
1
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LP
LP
LP
CR
CR
CR
CR
ELEVATOR
E190
GARBAGE
E101
IDF
E102A
LOADING DOCK
E100ASTOR/
LAUNDRY
E102
RECEPTION
E118
THIS AREA IS NOTIN SCOPE OF
WORK
THIS AREA ISNOT IN SCOPE
OF WORK
10"x12"
10"x10"
EXTERIORCIRCULATION
E184
EXTERIORCIRCULATION
E183
STOR
E183
LAB SUPPORT
E111
1-400S
1-440S
1-100S
1-320S
1-320S
40"x16"
1-400S
1-400S
1-300S
1-300S
40
"x2
0"
1-470S
1-470S
2-05
RELOCATED FANPOWERED BOX
2-06
1-100S
1-100S
1-100S
OFFICE E103
E103
OFFICE E103A
E103A
CONTROL 2
E112
SIMLUATION 4
E112B
SIMULATION 3
E112A
DEBRIEF 2
E111
SIMULATION 1
E113A
CONTROL 1
E113
SIMULATION 2
E113B
TEAM STATION 1
E115
CORRIDOR
E114.1
CORRIDOR
E114
2-09
FD FD
FD
FD
D
AC-17-1
1
2
10
"x1
0"
D
1-200S
1-200S
2-200R
14"x14"
12"x14"
40
"x1
6"
34"x
16"
26"x1
6"
20"x16"
CAP FOR FUTURE3,200 CFM
100
100
2-640R
2-940R
2-800R
CAP
100-2
100-1
100-3
100-4
100-5
10
0-6
100-7
200-1
200-3
200-2
60
"x1
6"
48"x
16"
40"x1
6"
12"x10"
12"x12"
2-200R
14"x8"
2-360R
D
2-360R
14"x14"
34"x1
6"
40"x2
0"
R
44
"x1
8"
14"x
14"
2-400R
36"x
18"
36"x18"
10
"x1
0" 1-180S
1-180S
44"x
18"
1-440S
1-180S
1-180S
28"x16"
14"x6"R
D
10"x10"
18"x12"
2-450E
2-450E
T
3
T
T
T
TC
T
T
T
T
TC
TINSTALL NEW VFD FOR AHU-1IN MECHANICAL ROOM 202ON SECOND FLOOR.
CAP FOR FUTURE3,200 CFM
2-660R
F/SD ATSLAB
F/SD AT FLOOR
2-880R
5
4
4
4
4
F/SD ATFLOOR
6
HVAC NEW CONSTRUCTION LEGEND
NEW CONSTRUCTION
EXISTING TO REMAIN
POINT OF CONNECTION BETWEENNEW AND EXISTING
Dra
wn
By:
Che
cked
By:
Ap
pro
ved
By:
DATE:PROJECT:
G S & P
R
G R E S H A MS M I T H A N DP A R T N E R S
Design ServicesFor The Built
Environment
Atlanta GABirmingham AL
Charlotte NCCincinnati OHColumbus OH
Dallas TXFt Lauderdale FL
Houston TXJackson MS
Jacksonville FLKnoxville TNLouisville KYMemphis TNMiami FLNashville TNRichmond VATallahassee FLTampa FL
BID REVIEW
NOT FORCONSTRUCTION
1/3
/2017 2
:08:3
0 P
MC:\
tmp\R
evitLoca
l\4239000_Centr
al_
Mech
_2016_perr
inj.rv
t
HVAC FIRST FLOOR NEW
CONSTRUCTION PLAN
M20142390.00
November 21, 2016
Auth
or
Check
er
Appro
ver
FLORIDA STATECOLLEGE AT
JACKSONVILLE
NORTHCAMPUS
SIMULATION
LAB
4501 Capper Rd.Jacksonville, FL 32218
0'8' 4' 8' 16'1HVAC FIRST FLOOR NEW CONSTRUCTION PLAN
Revision
No. Date Description1 01/04/17 ADDENDUM NO. 2
KEYNOTES
1 CU-17-1 MOUNTED ON ROOF ABOVE.
2
MECHANICAL ADD ALTERNATE 1;
INSTALL TWO ATUS WITH ELECTRIC HEAT TO SERVE THE RECEPTION AREA. ONE SIZED AT 1600 CFM TO SERVE THE EXTERIORWALL WITH LINEAR DIFFUSERS AND THE SECOND SIZED AT 800 CFM TO SERVE THE INTERIOR OF THE SPACE. ADDITIONALLY,DUCTWORK SERVING THE RECEPTION AREA WILL BE REDUCED IN SIZE AND DAMPERS SHOULD BE BALANCED ACCORDINGLY.DUCTWORK SHOULD BE PATCHED AND SEALED TO ACCOMMODATE CHANGES IN ROUTING AND DISTRIBUTION. AHU1 WILL BEREQUIRED TO BE REBALANCED TO ACCOMMODATE THE NEW AIRFLOW, ALONG WITH THE CHILLED WATER FLOW TO THECOOLING COIL IN THE UNIT.
MECHANICAL ADD ALTERNATE 2;
AN ADDITIONAL 700 CFM AIR TERMINAL UNIT WITH ELECTRIC HEAT TO SERVE THE NEW SIMULATION LAB ADDED TO AH-4 WILLBE REQUIRED TO SERVE THIS SPACE. AIRFLOW FROM THE STORAGE AREA AND TEAM STATION WILL BE MOVED TOACCOMMODATE THIS ADDITIONAL LOAD. THE STORAGE AREA WILL BE REBALANCED TO 560CFM AND THE TEAM STATION WILLBE REBALANCED TO 580CFM, ASSOCIATED AIR TERMINAL UNITS MAY REQUIRE RESIZING. ASSOCIATED DUCTWORK AND HOTWATER PIPING WILL BE REQUIRED TO SERVE THE NEW AIR TERMINAL UNIT. ADDITIONAL SUPPLY DIFFUSERS AND RETURNGRILLES WILL BE REQUIRED IN THE SIM LAB TO DISTRIBUTE CONDITIONED AIR. REBALANCING OF EXISTING TOILET EXHAUSTFAN WILL BE REQUIRED AS EXISTING LOCKER ROOM AREA WILL BE REMOVED FROM THE SYSTEM. EXISTING DUCTWORK ANDAIR TERMINAL UNITS WILL BE DEMOLISHED AND REMOVED FROM THE PROJECT AS REQUIRED TO ACCOMMODATE NEWINSTALLATION. DUCTWORK SERVING RESTROOMS TO REMAIN WILL REQUIRE ALTERATION TO REMOVE PORTIONS OF DUCTSERVING SIM LAB AND WILL BE REQUIRE PROPER SEALING AND TERMINATION. AN ADDITIONAL BUILDING EXHAUST FAN WILL BEADDED TO SERVE THE RESTROOM ADDED ADJACENT TO BEDROOM AND LIVING AREA. THE FAN WILL BE APPROXIMATELY100CFM AND WILL BE ROUTED TO THE NEAREST OUTDOOR WALL AND EXHAUSTED. ASSOCIATED DUCTWORK AND DUCTWORKACCESSORIES WILL BE REQUIRED TO INSTALL AND INCORPORATE THIS FAN INTO THE BUILDING HVAC SYSTEM. ADDITIONALAIR TERMINAL UNITS AND ASSOCIATED AIRFLOWS MAY REQUIRE ADDITIONAL BALANCING TO ACCOMMODATE THE ADDITIONOF THE RESTROOM.
ADD EXHAUST FAN AND ASSOCIATED EXHAUST DUCTWORK TO SERVE LIFT STATION ROOM. FAN WILL BE 400 CFM DIRECTDRIVE FAN SIMILAR TO GREENHECK CUE. DUCTWORK WILL BE ROUTED UP THROUGH SECOND FLOOR, FAN TO BE LOCATEDON ROOF AND SHOULD FOLLOW EXISTING RESTROOM EXHAUST FAN ROUTING. FAN SHOULD BE MOUNTED ON ROOF ANDSHOULD BE SUPPLIED WITH HINGED ROOF CURB, DISCONNECT, MOTORIZED BACKDRAFT DAMPERS AND ASSOCIATEDCONTROLS. COORDINATE ROOF PENETRATION WITH ROOFING CONTRACTOR. SEAL ALL ROOFING MATERIALS WITH CURBOPENING. EXHAUST FAN MUST BE LOCATED A MINIMUM OF 10’ AWAY FROM ALL OUTDOOR AIR INTAKES AND SHOULD BE AMINIMUM OF 10’ FROM THE EDGE OF THE ROOF. IF LOCATE LESS THAN 10’ FROM ROOF, ADDITIONAL RAILING WILL BEREQUIRED FOR OSHA REQUIREMENTS.
MECHANICAL ADD ALTERNATE 3;
ONE ADDITIONAL AIR TERMINAL UNIT WILL NEED TO BE ADDED TO SERVE THE SIMULATION ROOM WHICH ARE PART OF THEEXISTING AH-2 APPROXIMATELY 1260CFM. EXISTING ATU FE1A WILL BE RELOCATED TO SERVE OPEN SPACE AND CONFERENCEAREA. SYSTEM WILL REQUIRE PRETEST AND REBALANCE UPON COMPLETION. ALL DUCTWORK SHOULD BE REINSULATED, ANDSEALED AS REQUIRED TO MEET THE ENERGY CODE AND SMACNA REQUIREMENTS. ADDITIONAL SUPPLY DIFFUSERS ANDRETURN GRILLES WILL BE REQUIRED IN EACH SPACE TO SUPPLY AND RETURN BUILDING AIR TO SPACES AS REQUIRED.ADDITION F/SD OR RADIATION DAMPERS WILL BE REQUIRED FOR THE NEWLY ADDED SLEEPING QUARTERS. ADDITIONALDAMPERS WILL BE REQUIRED FOR ANY RATED WALLS AS DICTATED BY CODE.
TWO ADDITIONAL AIR TERMINAL UNITS WILL NEED TO BE ADDED TO SERVE THE TWO NEW CONFERENCE ROOMS WHICH AREPART OF THE EXISTING AH-2, EACH UNIT WILL BE APPROXIMATELY 700CFM. AIRFLOW SERVING THE CORRIDOR SPACE WILL BEREDUCED TO 1070CFM AND THE ASSOCIATED AIR TERMINAL UNIT WILL BE REDUCED IN SIZE TO ACCOMMODATE THIS CHANGE.THE AIR TERMINAL UNIT SERVING THE OPEN LAB SPACE IN THE BASE DESIGN WILL BE RE-USED TO SERVE THE BEDROOM ANDSTORAGE AREA, THE ASSOCIATED AIRFLOW FOR THAT 870CFM. ASSOCIATED DUCTWORK AND HOT WATER PIPING WILL BEREQUIRED TO SERVE THE NEW AIR TERMINAL UNITS.
MECHANICAL ADD ALTERNATE 4;
DEMOLISH EXISTING DUCTWORK FROM EXISTING AIR TERMINAL UNIT ATU-1B. INSTALL NEW DUCTWORK FROM EXISTING AIRTERMINAL UNIT, WITH 4 SUPPLY DIFFUSERS WITH MANUAL VOLUME DAMPERS; BALANCE EACH SUPPLY DIFFUSER TO 190CFMEACH TO SERVE THE WORKROOM. INSTALL RETURN REGISTER AND ASSOCIATED RETURN DUCTWORK FOR CONNECTING TORETURN MAIN. A NEW 270 ATU WITH ELECTRIC HEAT WILL BE ADDED TO SERVE THE COMPRESSOR ROOM.
EXISTING MECHANICAL EQUIPMENT SERVING ADJACENT SPACES IS REQUIRED TO BE IN SERVICE DURING NORMAL HOURS OFOPERATION. CONTRACTOR MAY NEED TO PROVIDE TEMPORARY MEANS OF CONDITIONING SPACE OR PERFORM WORKDURING UNOCCUPIED HOURS.
MECHANICAL ADD ALTERNATE 5;
INSTALL TWO 400 CFM ATUS WITH ELECTRIC HEAT; ONE FOR EACH EXAM ROOM. INSTALL TWO 200 CFM SUPPLY DIFFUSERS INEACH EXAM ROOM AND ONE 400 CFM RETURN REGISTER IN EACH ROOM. SUPPLY AND RETURN SHOULD BE ROUTED TONEAREST MAIN SUPPLY AND RETURN DUCT. INSTALL MANUAL VOLUME DAMPERS AND BALANCE ROOMS ACCORDINGLY.DIFFUSERS WILL BE INSTALLED IN HARD CEILING, PROVIDE PLASTER FRAMES AND ACCESS AS REQUIRED. DUCTWORK SHOULDBE PATCHED AND SEALED TO ACCOMMODATE CHANGES IN ROUTING AND DISTRIBUTION. AHU1 WILL BE REQUIRED TO BEREBALANCED TO ACCOMMODATE THE NEW AIRFLOW, ALONG WITH THE CHILLED WATER FLOW TO THE COOLING COIL IN THEUNIT.
EXISTING MECHANICAL EQUIPMENT SERVING ADJACENT SPACES IS REQUIRED TO BE IN SERVICE DURING NORMAL HOURS OFOPERATION. CONTRACTOR MAY NEED TO PROVIDE TEMPORARY MEANS OF CONDITIONING SPACE OR PERFORM WORKDURING UNOCCUPIED HOURS.
REFRIGERANT PIPING UP THROUGH ROOF. ROUTE REFRIGERANT PIPINGALONG ROOF TO CONDENSING UNIT CU-17-1.
3 CONNECT HWS&R TO EXISTING 2" HWS&R MAINS IN THIS APPROXIMATEAREA.
1
1
1
4 REBALANCE EXISTING TO PRE-CONSTRUCTION AIRFLOW RATES
5 CLEAN, REPLACE BELTS AND SHEAVES OF EXISTING FAN. REBALANCE TOPROVIDE AIRFLOW LISTED.
6 NEW F/SD AT FLOOR. TRANSITION TO EXISTING 36"x16" ABOVE FLOOR.
![Page 5: DUCT SIZING CRITERIA - FSCJ](https://reader030.vdocuments.mx/reader030/viewer/2022012522/61964742afcfba18ec5abf99/html5/thumbnails/5.jpg)
1 2 3 4
5 6 7 8
9 10 11 12
SPRING-LOADEDDAMPER
MAX. PROTRUSION OF FIREDAMPER BLADE SUPPORT INTOAIRSTREAM SHALL BE 0% OFDUCT CROSS SECTION AREA ONM.P. DUCTS AND 10% ONL.P. DUCTS
AIRFLOW
FIRE DAMPER SLEEVE MUST EXTENDCOMPLETELY THRU WALL
WALL BREAKAWAY SLIP JOINTTYP. BOTH SIDES (NOSCREWS WILL BE PERMITTED)
RETAINING ANGLE FASTENED TODAMPER SLEEVE ONLY (TYP.) W/SCREWS ON 8" CENTERS MIN.OR PROVIDE AND INSTALLACCORDING TO MFR. INSTRUCTIONSUL APPROVED WRAP AROUNDRETAININD ANGLES.
NOTES:
1. FIRE DAMPER SHALL BE U.L. LABELED 555AND INSTALLED PER MANUFACTURERSINSTRUCTIONS.
2. DAMPER MUST BE SELF-SUPPORTING AND INDEPENDENT OF DUCT.
STEEL WALL SLEEVE AND SHROUDREFER TO SPECIFICATIONS FORMINIMUM THICKNESS.
165ºF FUSIBLE LINK
WALL-MOUNTED
FIRE DAMPER IN DUCT DETAIL
DUCT ACCESSDOOR (TYP.)LABEL FD ACCESS
PROVIDE BLANKET WRAPINSULATION ALL AROUNDDUCT & FIRE DAMPERSLEEVE & VAPOR SEALAT DUCT & WALL(TYP. BOTH SIDES)
PROVIDE AIR GAP FOR EXPANSION INACCORDANCE W/MFRS. RECOMMENDATIONS
NO SCALE
RETAINING ANGLE SIZE
0"-48" 1 1/2" X 12 GA.
49"-72" 2" X 12 GA.
ABOVE 72" 2" X 1/8"
DUCT SUPPORT AT PARTITION DETAIL
INSULATION NOT TO PASS THROUGH WALL
DUCTWORK
WALL FRAMING SYSTEM
FRAME DUCT OPENING LARGE ENOUGHFOR DUCT TO PASS THROUGH
ANGLE FRAME AROUND DUCT ONESIDE OF DUCT ONLY
DUCT INSULATION
WALL
SEAL DUCT INSULATION ANDVAPOR BARRIER TO WALL.
NO SCALE
RECTANGULAR DUCT HANGERS DETAIL
TRAPEZE HANGER MULTI-DUCT HANGER
PUSH NUTS
ANGLES
HANGER RODS
FIXTURE CLIPS
3 SHEETMETALSCREWS PERDUCT HANGER(MIN.)
HANGER STRAPS
ANGLES
STRAP HANGER
HANGER STRAPSOR RODS
COMPLY WITH SMACNA'S "HVAC DUCTCONSTRUCTION STANDARDS - METALAND FLEXIBLE" CHAPTER 4 "HANGERSAND SUPPORTS"
NOTE:
ATTACH HANGERS TO STRUCTURE PER SMACNA"HVAC DUCT CONSTRUCTION STANDARDS. METALAND FLEXIBLE" CHAPTER 4 "HANGERS ANDSUPPORTS."
NO SCALE
ROUND DUCT HANGERS DETAIL
HANGER STRAP
HANGER RODS OR STRAPS
FIXTURE CLIPS
PUSH NUTS
BAND
BAND OF SAME SIZE ASHANGER STRAP
COMPLY WITH SMACNA'S "HVAC DUCTCONSTRUCTION STANDARDS - METALAND FLEXIBLE" CHAPTER 4 "HANGERSAND SUPPORTS."
NOTE:
ATTACH HANGERS TO STRUCTURE PER SMACNA"HVAC DUCT CONSTRUCTION STANDARDS - METALAND FLEXIBLE" CHAPTER 4 "HANGERS AND SUPPORTS"
NOTE:
HANGERS MUST NOTDEFORM DUCT SHAPE
LOAD RATEDFASTENER
NO SCALE
AIR TERMINAL UNIT
LOW VELOCITY DUCT (SIZE VARIES) - SEE PLANS
NOTES:
1. FLEXIBLE DUCTWORK SHALL NOT PASSTHRU WALLS TO DECK.
2. FLEX IS NOT TO BE USED FOR CHANGE INDIRECTION OR ALIGNMENT.
HANGER STRAPS W/3SEE PLANS FLEX CONNECTION (SIZE VARIES)
TO AIR TERMINAL UNIT -MAXIMUM 2'-0" IN LENGTH
MINIMUM OF TWO (2) DUCTDIAMETERS HARD INLET DUCT
HANGER STRAPS W/3SHEETMETAL SCREWS MIN. (TYP..)
3'-0" MINIMUMSTRAIGHT RUN OF DUCT
DUCT CONNECTION
TO AIR TERMINAL UNIT DETAILNO SCALE
CEILING TILE CEILING TILE
A
B
1x1 SHEET METALANGLE
AIR DEVICEHOUSING
DUCT
TYPICAL CEILING AIR DEVICELESS THAN FULL CEILINGTILE REFER TO SCHEDULESAND SPECIFICATIONS
SCREW ANGLE TO AIRDEVICE HOUSING ANDCAULK AROUND SCREW
AIR DEVICE HOUSING
CEILING GRID
SECTION BSECTION A
PLAN
TYPICAL AIR DEVICE SUPPORT DETAIL
1x1 SHEET METAL ANGLE
SCREWS
CEILING TILE
SCREW ANGLE TO AIRDEVICE HOUSING ANDCAULK AROUND SCREW
1x1 SHEET METALANGLE FULL LENGTHBETWEEN T-BARS
NO SCALE
DUCT
AIR DEVICEHOUSING
ELEVATION
PLAN
ATUBOX
ATU TO BEDOUBLE-WALL CONSTRUCTION
ATU INSTALLATION DETAIL
LOW PRESSURESUPPLY AIR DUCT TO BESIZE OF ATU DISCHARGEU.N.O. REFER TO PLANS.
ATU CONTROLLERMOUNT ATU IN FIELD VERIFIEDLOCATION TO ALLOWMANUFACTURER RECOMMENDEDAND CODE REQUIRED CLEARANCE.
PRIMARY AIR DUCT, U.N.O. TO BESIZE OF ATU INLET. IF LENGTH OFRUN-OUT IS MORE THAN 15 FEET,THEN RUN-OUT TO BE 2" LARGERTHAN INLET. PROVIDE TRANSITION.
ATUBOX
PRIMARYAIR DUCT
MIN 1 1/2 DIAMETERSTRAIGHT HARD DUCT
IF REHEAT IS INDICATED EXTEND DUCTINSULATION OVER COIL HEADERS ANDSECURE VAPOR BARRIER TO BOX WITHVAPOR BARRIER TAPE (SINGLE WALLBOX - INSULATE ENTIRE BOX)
TRANSITIONAS REQUIRED
STEEL STRAP.SECURE TO STRUCTUREWITH ANCHORS, MIN. OF 4.
COILS SHALL BE AMINIMUM OF 2 ROWS
TRANSITIONAS REQUIRED
SUPPLYAIR DUCT
NO SCALE
PIPE THRU ROOF DETAIL
4"
DRIP LIP
ROOFING
WOOD NAILER
18" MINIMUM
ROOF CURB
ROOF INSULATION
METAL DECK
6" BATT INSULATION
PIPE SUPPORTSEE DETAIL
SECURE CURB TO ROOFDECK BY METHOD CONSISTANTWITH ROOF CONSTRUCTION
FLASHING AND COUNTERFLASHING
COVER PLATE ANDSEAL ALL AROUND
INSULATED CURB CAP MINIMUMR-11 INSULATION
2 TIMES INSULATION THICKNESS SPECIFIEDFOR EXTERIOR PIPING WITH 0.016 ALUMINUM
NO SCALE
COVERING
AIR VENT DETAIL
AIR FLOW
SUPPLY
RETURN
REDUCER
1/2" NIPPLE
NOTES:
1. LOCATE VENTS AT ALL HIGH POINTSIN PIPING AS INDICATED ABOVE.
2. IF AUTOMATIC AIR VENTS ARE REQUIRED:INSTALL W/ ISOLATION VALVE AND PIPEDISCHARGE TO DRAIN.
NOTES:
1. PROVIDE PIPE HANGERS SO THAT WATER COIL DOES NOT BEAR WEIGHT OF PIPING.
2. PIPING SHALL BE INSTALLED IN SUCH MANNER THAT IT WILL NOT BLOCK THE SWING OR USE OF ACCESSDOORS OR PANELS; NEITHER SHALL IT BLOCK THE SERVICING OF FILTERS, VALVES, OR EQUIPMENT.
3. LEAVE 18" MIN. CLEAR ABOVE TEST PLUGS TO ALLOW INSERTION OF PROBES.
4. UNIONS ARE TO BE DIELECTRIC WHEN TWO DISSIMILAR METALS ARE BEING JOINED.
WATER
COIL
TYPICAL PIPING AT WATER COIL
WITH 2-WAY CONTROL VALVE
UNION(TYP.)
3/4" HOSE ENDDRAIN VALVE W/CAP (TYP.)
CIRCULATINGWATER PIPING
1/2" GATEVALVE
1/4" COPPERTUBING
STRAINER W/HOSE ENDBLOW-OFF VALVE W/CAP
BUTTERFLY VALVE(TYP.)
BALANCINGVALVE TEST PLUG
(TYP.)
MANUAL AIRVENT (TYP.)
2-WAY CONTROL VALVE(OPERATOR INSTALLED VERTICALLY)
NO SCALE
PIPING FOR AIR TERMINAL UNIT
W/ REHEAT COIL DETAIL
UNION (TYP.)
BALL VALVE (TYP.)
HWR
HWS
UNION (TYP.)
BALL VALVE (TYP.)
HWR
HWS
PIPING AT AIR TERMINAL UNIT
PIPING AT AIR TERMINAL UNIT
P.T. PLUG
P.T. PLUG
MAUNAL AIR VENT
MAUNAL AIR VENT
FLOW INDICATING BALANCING /SHUT-OFF VALVE (TYP.)
FLOW INDICATING BALANCING /SHUT-OFF VALVE (TYP.)
NOTES:
1. UNIONS ARE TO BE DIELECTRIC WHEN TWO DISSIMILAR METALS ARE BEING JOINED.
2. PROVIDE PIPE HANGERS SO THAT REHEAT COIL DOES NOT BEAR WEIGHT OF PIPING.
3. REHEAT COIL TO BE INSULATED SIMILAR TO DUCTWORK.
4. PIPING CONNECTIONS MANUFACTURED BY HCI TERMINATOR WHICH INCLUDES THECOMPONENTS INDICATED ARE ACCEPTABLE.
STRAINER W/ HOSE ENDBLOW-OFF VALVE & CAP
STRAINER W/ HOSEBIB FITTING
AIR BLEEDVALVE
AIR BLEEDVALVE
BALANCINGVALVE
BALANCINGVALVE
AIR TERMINALUNIT
2-WAY CONTROLVALVE
HOT WATERREHEAT COIL
AIR TERMINALUNIT
3-WAY CONTROLVALVEHOT WATER
REHEAT COIL
NO SCALE
LOW PRESSURE
BRANCH TAKE-OFF DETAILNO SCALE
MAIN DUCT
W
L= 1/4 W, MINIMUM 4"
L
W
BRANCH DUCTWIDTH , W
LOCATE QUADRANTDAMPER HANDLEW/ STAND-OFF BRACKETTO BE ACCESSIBLETHRU INSULATION
SUPPLYAIR FLOW
RETURN OR EXHAUSTAIR FLOW
OPPOSED BLADEBALANCING DAMPER
45 DEGREE BRANCHCONNECTION
U.L. LABELED FIRE DAMPERMAX. PROTRUSION OF FIRE DAMPERBLADE SUPPORT INTO AIRSTREAMSHALL BE 0% OF DUCT CROSSSECTION AREA ON M.P. DUCTS AND10% ON L.P. DUCTS
AIR
FLO
W
WATERPROOFCAULKING
RETAINING ANGLE FASTENED TODAMPER SLEEVE ONLY (TYP.) W/SCREWS ON 8" CENTERS MIN.OR PROVIDE AND INSTALLACCORDING TO MFR'S.INSTRUCTIONS UL APPROVEDWRAP AROUND RETAININGANGLE.
PROVIDE BLANKET WRAPINSULATION ALL AROUNDDUCT AND DAMPER SLEEVEAND VAPOR SEAL AT DUCTAND SLAB (TYP. BOTH SIDES)
NOTE:
FIRE DAMPER SHALL BE U.L. LABELED 555.INSTALL DAMPER IN ACCORDANCE W/ MFRS. U.L.APPROVED INSTRUCTIONS.
FIRE DAMPER
INSTALLATION IN FLOOR DETAIL
TOP OFFLOOR
STEEL SLEEVE AND SHROUDREFER TO SPECIFICATIONSFOR MINIMUM THICKNESS.
DUCT ACCESS DOOR (TYP.)LABEL FD ACCESS
FIRE DAMPER SLEEVE MUSTEXTEND COMPLETELY THRUSLAB
165°F FUSIBLELINK
4" CONC.CURB
DAMPER MUST BESELF-SUPPORTINGINDEPENDENT OF DUCT
PROVIDE AIR GAP FOREXPANSION IN ACCORDANCEW/MFRS. RECOMMENDATIONS
LOCATE OPERATOROUT OF AIRSTREAM
SPRING-LOADEDDAMPER
BREAKAWAY SLIP JOINT TYP.BOTH SIDES (NO SCREWSWILL BE PERMITTED)
NO SCALE
RETAINING ANGLE SIZE
0"-48" 1 1/2" X 12 GA.
49"-72" 2" X 12 GA.
ABOVE 72" 2" X 1/8"
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G S & P
R
G R E S H A MS M I T H A N DP A R T N E R S
Design ServicesFor The Built
Environment
Atlanta GABirmingham AL
Charlotte NCCincinnati OHColumbus OH
Dallas TXFt Lauderdale FL
Houston TXJackson MS
Jacksonville FLKnoxville TNLouisville KYMemphis TNMiami FLNashville TNRichmond VATallahassee FLTampa FL
BID REVIEW
NOT FORCONSTRUCTION
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/2017 2
:08:3
2 P
MC:\
tmp\R
evitLoca
l\4239000_Centr
al_
Mech
_2016_perr
inj.rv
t
HVAC DETAILS
M60142390.00
November 21, 2016
Auth
or
Check
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Appro
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FLORIDA STATECOLLEGE AT
JACKSONVILLE
NORTHCAMPUS
SIMULATION
LAB
4501 Capper Rd.Jacksonville, FL 32218
Revision
No. Date Description1 01/04/17 ADDENDUM NO. 2
1
1
![Page 6: DUCT SIZING CRITERIA - FSCJ](https://reader030.vdocuments.mx/reader030/viewer/2022012522/61964742afcfba18ec5abf99/html5/thumbnails/6.jpg)
SERIES FAN POWERED VAVWITH HOT WATER REHEAT
CONTROLLER
VOLUMEREGULATOR (N.O.)
TSPACETHERMOSTAT
120 V POWER PAIRCOMMUNICATIONS PAIR
TEMP.
DISCHARGED AIRTEMPERATURESENSOR
FULLY MODULATING2-WAY CONTROL VALVEON UNITS WITH REHEAT
FLOW SENSING RING
FAN STATUS
AIR HANDLING SYSTEM CONTROL SEQUENCE
SYSTEM START/STOP
1. WHEN THE SYSTEM IS COMMANDED ON BY THE BUILDING AUTOMATION SYSTEM THROUGH THE HOA SWITCH ON THE SUPPLYFAN VARIABLE SPEED DRIVE OR THE HAND POSITION OF THE HOA SWITCH THE FOLLOWING SHALL OCCUR:
a. ALL SMOKE AND COMBINATION FIRE/SMOKE DAMPERS IN THE SYSTEM SHALL OPENb. THE OUTSIDE AIR DAMPER SHALL OPENc. THE RETURN DAMPERS SHALL OPENd. THE SUPPLY FAN SHALL START AFTER AN ADJUSTABLE TIME DELAY TO ALLOW THE DAMPERS TO OPENe. ALL INTERLOCKED FANS SHALL STARTf. FAILURE OF ANY FAN IN THE SYSTEM OR FAN INTERLOCKED WITH THE SYSTEM OPERATION TO START SHALL SEND AN ALARM
TO THE BAS.
2. WHEN THE SYSTEM IS COMMANDED OFF BY THE BUILDING AUTOMATION SYSTEM THROUGH THE HOA SWITCH ON THE UNITSUPPLY FAN VARIABLE SPEED DRIVE OR THROUGH THE OFF POSITION OF THE HOA SWITCH THE FOLLOWING SHALL OCCUR:
a. THE SUPPLY FAN SHALL STOPb. ALL INTERLOCKED FANS SHALL STOPc. ALL SMOKE AND COMBINATION FIRE/SMOKE DAMPERS IN THE SYSTEM SHALL CLOSE AFTER AN ADJUSTABLE TIME DELAY
TO ALLOW THE FANS TO STOPd. THE OUTDOOR AIR DAMPERS SHALL BE CLOSEDe. THE RETURN AIR DAMPERS SHALL BE CLOSED
AIR FLOW RATE CONTROL
1. THE SUPPLY FAN SPEED SHALL BE MODULATED BY THE BAS THROUGH THE VARIABLE SPEED DRIVE TO MAINTAIN THE SUPPLYDUCT STATIC PRESSURE AT IT’S SET POINT (ADJUSTABLE) AS SENSED BY THE DUCT MOUNTED PRESSURE SENSOR.
2. SUPPLY DUCT STATIC PRESSURE SET POINT RESET
a. BUILDING AUTOMATION SYSTEM SHALL MONITOR THE POSITION OF ALL VARIABLE AIR VOLUME AIR TERMINAL UNITSIN SYSTEM.
b. IF ALL OF THE VAV TERMINAL UNITS ARE 93% OF FULL AIR FLOW (ADJUSTABLE), OR LESS, THE BAS SHALL RESET THESUPPLY AIR DUCT STATIC PRESSURE TO A LOWER DIFFERENTIAL VALUE UNTIL AT LEAST ONE AIR TERMINAL UNIT IS97% OF FULL AIR FLOW (ADJUSTABLE).
c. RESET OF DUCT STATIC PRESSURE SHALL CONTINUE UNTIL THE DUCT STATIC PRESSURE HAS BEEN RESET TO IT’S MINIMUMALLOWABLE VALUE (ADJUSTABLE).
3. OUTDOOR AIR CONTROL
a. WHEN THE UNIT IS ON THE MINIMUM OUTDOOR AIR DAMPER SHALL OPEN.
b. THE RETURN AIR DAMPER SHALL MODULATE TO MAINTAIN THE MINIMUM OUTDOOR AIR FLOW RATE (ADJUSTABLE) AS SENSEDBY THE OUTDOOR AIR FLOW MEASURING SYSTEM.
DISCHARGE AIR TEMPERATURE CONTROL
1. DISCHARGE AIR TEMPERATURE SET POINT SHALL BE 55 DEGREES F (ADJUSTABLE).
2. DISCHARGE AIR TEMPERATURE SET POINT RESET.
a. BUILDING AUTOMATION SYSTEM SHALL MONITOR THE POSITION OF ALL VARIABLE AIR VOLUME AIR TERMINAL UNITS IN SYSTEM.b. IF ALL OF THE VAV TERMINAL UNITS ARE 95% OPEN (ADJUSTABLE), OR LESS, AND THE SUPPLY DUCT DIFFERENTIAL STATIC
PRESSURE HAS BEEN RESET TO IT’S MINIMUM VALUE THE BAS SHALL RESET THE SUPPLY AIR TEMPERATURE UP UNTIL ATLEAST ONE AIR TERMINAL UNIT IS 97% OPEN (ADJUSTABLE).
c. RESET OF SUPPLY AIR TEMPERATURE SHALL CONTINUE UNTIL THE SUPPLY TEMPERATURE HAS BEEN RESET TO IT’S MAXIMUMALLOWABLE VALUE (ADJUSTABLE)
3. COOLING COIL CONTROL:
a. WHEN THE MIXED AIR TEMPERATURE IS ABOVE THE DISCHARGE AIR TEMPERATURE SET POINT THE CHILLED WATER COOLINGCOIL VALVE SHALL BE MODULATED TO MAINTAIN THE SUPPLY AIR TEMPERATURE DISCHARGE SET POINT (ADJUSTABLE).
b. WHEN THE HEATING COIL VALVE IS BEING MODULATED THE COOLING COIL CONTROL VALVE SHALL BE LOCKED OUT TO ITSFULLY CLOSED POSITION
4. HEATING COIL CONTROL
a. WHEN THE OUTDOOR AIR TEMPERATURE FALLS TO 45 DEGREES F (ADJUSTABLE) THE PREHEAT COIL CONTROLS SHALL BEENABLED.
b. WHEN THE OUTDOOR AIR TEMPERATURE RISES TO 50 DEGREES F THE PREHEAT COIL CONTROLS SHALL BE DISABLED.c. WHEN THE HEATING CONTROL IS ENABLED THE HEATING CONTROL VALVE SHALL BE MODULATED TO MAINTAIN THE
SUPPLY AIR TEMPERATURE DISCHARGE SET POINT (ADJ).
SAFETIES
1. HIGH DUCT STATIC PRESSURE FIXED SET POINT (NON-ADJUSTABLE, DETERMINED BY THE SUPPLY DUCT STATIC PRESSURECLASSIFICATION) AS SENSED BY THE SUPPLY DUCT STATIC PRESSURE SENSOR LOCATED BETWEEN THE UNIT DISCHARGEAND THE FIRST SMOKE DAMPER OR FIRE/SMOKE DAMPER SHALL OVERRIDE CONTROL OF THE SUPPLY FAN VARIABLE SPEEDDRIVE TO LIMIT DUCT STATIC PRESSURE
2. LOW TEMPERATURE OF 36 DEGREES F (ADJUSTABLE) IN THE HEATING COIL DISCHARGE AS SENSED BY AN AUTOMATIC RESETFREEZE STAT SHALL INITIATE THE FOLLOWING:
a. AN ALARM SHALL BE SENT TO THE BASb. THE CHILLED WATER COIL VALVE SHALL OPENc. IF NOT ALREADY OPERATING A CHILLED WATER SECONDARY PUMP SHALL BE ENERGIZEDd. THE HEATING COIL CONTROL SHALL REMAIN IN OPERATION
3. LOW TEMPERATURE OF 33 DEGREES F (ADJUSTABLE) AS SENSED BY THE MANUAL RESET FREEZE STAT IN THE COOLING COILDISCHARGE SHALL INITIATE THE FOLLOWING:
a. AN ALARM SHALL BE SENT TO THE BASb. ALL OUTDOOR AIR DAMPERS SHALL CLOSEc. THE RETURN AIR DAMPER SHALL BE OPEN THE RELIEF DAMPER SHALL BE CLOSEDd. THE CHILLED WATER COIL VALVE SHALL OPENf. THE HEATING WATER COIL SHALL REMAIN IN OPERATION AND THE HEATING COIL VALVE SHALL BE FULLY OPENED.
FIRE ALARM SHUT DOWN
1. THE FIRE ALARM SYSTEM SHALL CONTROL THE OPERATION OF SMOKE AND FIRE/SMOKE DAMPERS IN THE SYSTEM
2. UPON A FIRE ALARM SIGNAL FROM THE FIRE ALARM SYSTEM THE FOLLOWING SHALL OCCUR:
a. THE SUPPLY FAN SHALL BE DE-ENERGIZED, REGARDLESS OF THE POSITION OF THE HOA SWITCHb. THE RETURN FAN SHALL BE DE-ENERGIZED, REGARDLESS OF THE POSITION OF THE HOA SWITCH.c. ALL INTERLOCKED EXHAUST FANS SHALL BE DE-ENERGIZED REGARDLESS OF THE POSITION OF THEIR RESPECTIVE
STARTER HOAsd. ALL SMOKE DAMPERS AND FIRE/SMOKE DAMPERS IN THE SYSTEMS SHALL CLOSE AFTER A TIME DELAY (ADJUSTABLE)
TO ALLOW THE FANS TO STOP
HC
MIN OA D
OUTDOOR AIRFLOWMEASURING SYSTEM
DP
A-MOA
HIGH LIMITFILTER ALARM
M
HWS
HWR
CHWS
CHWR
2-WAY HEATING WATERCONTROL VALVE
2-WAY CHILLED WATERCONTROL VALVE
SD
SMOKEDAMPER
TO FIREALARM
TO SPACE
DISCHARGE AIRTEMPERATURE
T E/S
D
RETURN AIRDAMPER
E/S
M
A
RETURN AIR
SD
TO FIREALARM
SMOKEDAMPER
RETURN AIRHUMIDITY SENSOR
T
NEW FANAND VFD
Fz 1 Fz 2
DDC VAV TERMINAL UNIT CONTROL(TYPICAL FOR AIR TERMINAL UNITS)
CONTROLLER
VOLUMEREGULATOR (N.O.)
T
M
S
SPACETHERMOSTAT
SPACE OVERRIDESWITCH
SPACE MOTIONSENSOR
120 V POWER PAIR
COMMUNICATIONS PAIR
TEMP.
DISCHARGED AIRTEMPERATURESENSOR
FULLY MODULATINGSCR CONTROLLERELECTRIC HEAT
AIR TERMINAL UNIT CONTROL
VAV AIR TERMINAL UNIT CONTROL
1. VARIABLE AIR VOLUME WITH TERMINAL REHEAT: THE AIR TERMINAL UNIT CONTROLLER SHALL MODULATE THE UNIT DAMPER ANDTHE ELECTRIC HEATING COIL CAPACITY CONTROL IN SEQUENCE TO MAINTAIN SPACE TEMPERATURE SET POINT
a. WHEN THE SPACE TEMPERATURE SENSOR CALLS FOR HEATING:
i. UPON A CALL FOR HEATING WITH THE AIR TERMINAL UNIT SHALL MODULATE TO THE MINIMUM HEATING AIR FLOW. WITH THEAIR TERMINAL UNIT MAINTAINING THE MINIMUM AIR FLOW AS SCHEDULED THE HEATING CONTROL SHALL ENERGIZEINCREMENTALLY TO SATISFY THE CALL FOR HEATING.
ii. UPON A REDUCTION IN HEATING DEMAND, WITH THE AIR TERMINAL UNIT AIR FLOW AT ITS MAXIMUM THE HEATING COIL CONTROLSHALL BE REDUCED INCREMENTALLY TO SATISFY THE DEMAND FOR HEATING.
iii. UPON A CONTINUED REDUCTION IN DEMAND FOR HEATING THE AIR TERMINAL UNIT DAMPER SHALL MAINTAIN THE SCHEDULEDHEATING MINIMUM AIR FLOW AND THE HEATING SHALL BE DE-ENERGIZED.
iv. UPON A CONTINUED REDUCTION IN HEATING DEMAND THE TERMINAL UNIT DAMPER SHALL MODULATE TO ITS MINIMUM AIR FLOWPOSITION AS SCHEDULED.
v. SPACE TEMPERATURE SET POINT SHALL BE 70 DEGREES F (ADJUSTABLE) IN HEATING
b. WHEN THE SPACE TEMPERATURE SENSOR CALLS FOR COOLING:i. UPON A CALL FOR INCREASED COOLING, WITH THE TERMINAL UNIT MAINTAINING THE MINIMUM AIR FLOW AS SCHEDULED AND
THE HEATING CONTROL SHALL BE DE-ENERGIZED, THE TERMINAL UNIT DAMPER SHALL MODULATE TO ITS OPEN POSITION UNTILTHE UNIT DAMPER HAS MODULATED TO THE MAXIMUM AIR FLOW AS SCHEDULED
ii. UPON A DROP COOLING DEMAND WITH THE TERMINAL UNIT MAINTAINING THE MAXIMUM AIR FLOW AS SCHEDULED AND THEHEATING CONTROL DE-ENERGIZED, THE TERMINAL UNIT DAMPER SHALL MODULATE TO ITS CLOSED POSITION UNTIL THE UNITDAMPER HAS MODULATED TO THE MINIMUM AIR FLOW AS SCHEDULED.
iii. THE BAS SHALL MONITOR THE UNIT AIR FLOW, THE UNIT DAMPER POSITION AND THE UNIT DISCHARGE AIR TEMPERATURE.iv. SPACE TEMPERATURE COOLING SET POINT SHALL BE 74 DEGREES F (ADJUSTABLE)
c. THE BAS SHALL INITIATE A REGULARLY SCHEDULED TERMINAL UNIT CALIBRATION SEQUENCE. THE SEQUENCE SHALL CALIBRATEUNIT DAMPER POSITION AT 100% OPEN AND 0% OPEN AND HEATING COIL CONTROL 100% ON AND OFF EVERY 24 HOURS(ADJUSTABLE) THROUGH A SCHEDULE COORDINATED WITH THE OWNER.
d. THE BAS SHALL MONITOR THE UNIT AIR FLOW, THE UNIT DAMPER POSITION, THE UNIT HEATING CONTROL AND THE UNIT DISCHARGEAIR TEMPERATURE
2. SERIES FAN POWERED VARIABLE AIR VOLUME WITH TERMINAL REHEAT: THE AIR TERMINAL UNIT CONTROLLER SHALLMODULATETHE UNIT DAMPER AND ELECTRIC HEATING COIL CAPACITY CONTROL IN SEQUENCE AND ENERGIZE THE SERIESTERMINAL UNIT FAN TOMAINTAIN SPACE TEMPERATURE SET POINT.a. THE BAS SHALL ENERGIZE THE SERIES FAN WHENEVER THE AREA IS OCCUPIED, BASED UPON THE USER DEFINED
OCCUPANCY SCHEDULE.b. THE BAS SHALL DE-ENERGIZE THE SERIES FAN WHENEVER THE AREA IS UNOCCUPIED BASED UPON THE USER DEFINED
OCCUPANCY SCHEDULE.c. WHEN THE SPACE TEMPERATURE SENSOR CALLS FOR HEATING:
i. UPON A CALL FOR HEATING WITH THE AIR TERMINAL UNIT MAINTAINING THE MINIMUM AIR FLOW AS SCHEDULED ANDTHE SERIES FAN ENERGIZED THE HEATING COIL CONTROL VALVE SHALL MODULATE TO SATISFY THE CALL FORHEATING.
ii. UPON A REDUCTION IN HEATING DEMAND WITH THE AIR TERMINAL UNIT SERIES FAN ENERGIZED AND THE AIR TERMINALUNIT DAMPER MAINTAINING THE MINIMUM AIR FLOW AS SCHEDULED THE HEATING COIL CAPACITY SHALL MODULATE.
d. WHEN THE SPACE TEMPERATURE SENSOR CALLS FOR COOLING:i. UPON A CALL FOR INCREASED COOLING, WITH THE TERMINAL UNIT MAINTAINING THE MINIMUM PRIMARY AIR FLOW AS
SCHEDULED, THE HEATING COIL DE-ENERGIZEED AND THE SERIES FAN ENERGIZED, THE TERMINAL UNIT DAMPER SHALLMODULATE TO ITS OPEN POSITION UNTIL THE UNIT DAMPER HAS MODULATED TO THE MAXIMUM PRIMARYAIR FLOW AS SCHEDULED
ii. UPON A CALL FOR REDUCED COOLING WITH THE TERMINAL UNIT MAINTAINING THE MAXIMUM AIR FLOW AS SCHEDULED,THE HEATING COIL DE-ENERGIZED AND THE SERIES FAN ENERGIZED, THE TERMINAL UNIT DAMPERSHALL MODULATE TO ITS CLOSED POSITION UNTIL THE UNIT DAMPER HAS MODULATED TO THE MINIMUM PRIMARYAIRFLOW AS SCHEDULED.
e. THE BAS SHALL INITIATE A REGULARLY SCHEDULED TERMINAL UNIT CALIBRATION SEQUENCE. THE SEQUENCE SHALLCALIBRATE UNIT DAMPER POSITION AT 100% OPEN AND 0% OPEN AND HEATING COIL 100% ON AND OFF EVERY 24 HOURS(ADJUSTABLE) THROUGH A SCHEDULE COORDINATED WITH THE OWNER
f. THE BAS SHALL MONITOR THE UNIT INLET AIR FLOW, THE UNIT DAMPER POSITION, THE UNIT HEATING CONTROL, THE SERIESFAN OPERATION AND THE UNIT DISCHARGE AIR TEMPERATURE
g. SPACE TEMPERATURE SET POINT SHALL BE 71 DEGREES F (ADJUSTABLE) IN HEATING AND 76 DEGREES F (ADJUSTABLE)IN COOLING
AIR TERMINAL UNITS (ATU) DIRECT DIGITAL CONTROL POINTS LIST SUMMARY TABLE
ALARMS
POINT DESCRIPTION
Ele
ctr
ic
Pn
eu
mati
c
An
alo
g
Bin
ary
Inp
ut
Ou
tpu
t
Set
Po
int
Ad
just
Gen
era
l A
larm
Cri
tical A
larm
Hig
h L
imit
Lo
w L
imit
Failu
re
Tre
nd
Even
t H
isto
ry
Arc
hiv
e
To
talizati
on
Gra
ph
ical P
oin
t
Un
its
VAV ATU WITH REHEAT
ATU DISCHARGE AIR TEMPERATURE X X X X X X X X DEGREES F
SPACE TEMPERATURE SETPOINT X X X X X X DEGREES F
SPACE TEMPERATURE MEASURED X X X X X DEGREES F
INLET AIRFLOW RATE X X X X X CFM
ATU DAMPER ACTUATOR COMMAND X X X X X X % OPEN
SCR COMMAND X X X X X % OPEN
ATU CALIBRATION X X X X X SCHEDULED EVENT
SERIES FAN POWERED VAV WITH REHEAT
ATU DISCHARGE AIR TEMPERATURE X X X X X X X DEGREES F
SPACE TEMPERATURE SETPOINT X X X X X X DEGREES F
SPACE TEMPERATURE MEASURED X X X X X DEGREES F
INLET AIRFLOW RATE X X X X X CFM
ATU DAMPER ACTUATOR COMMAND X X X X X X % OPEN
HEATING COIL CONTROL VALVE COMMAND X X X X X X % OPEN
FAN COMMAND X X X X X ON/OFF
FAN STATUS X X X X X ON/OFF
ATU CALIBRATION X X X X X SCHEDULED EVENT
X
Dra
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Ap
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DATE:PROJECT:
G S & P
R
G R E S H A MS M I T H A N DP A R T N E R S
Design ServicesFor The Built
Environment
Atlanta GABirmingham AL
Charlotte NCCincinnati OHColumbus OH
Dallas TXFt Lauderdale FL
Houston TXJackson MS
Jacksonville FLKnoxville TNLouisville KYMemphis TNMiami FLNashville TNRichmond VATallahassee FLTampa FL
BID REVIEW
NOT FORCONSTRUCTION
1/3
/2017 2
:08:3
3 P
MC:\
tmp\R
evitLoca
l\4239000_Centr
al_
Mech
_2016_perr
inj.rv
t
HVAC CONTROLS
M80142390.00
November 21, 2016
Auth
or
Check
er
Appro
ver
FLORIDA STATECOLLEGE AT
JACKSONVILLE
NORTHCAMPUS
SIMULATION
LAB
4501 Capper Rd.Jacksonville, FL 32218
Revision
No. Date Description1 01/04/17 ADDENDUM NO. 2
1