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COMcheck Software Version 3.9.4
Envelope Compliance Certificate
2010 New York Energy Conservation Construction Code SEC 3 0 1014
Section 1: Project Information
Project Type: New Construction
Project Title:West Mt. Primary Care II
Construction Site: Owner/Agent: Designer/Contractor:
161 Carey Road James McCormick Richard Jones
Queensbury,NY 12804 Hudson Headwaters Health Network Richard E.Jones Associates Architects
9 Carey Road 339 Aviation Road
Queensbury,NY 12804 Queensbury,NY 12804
518-824-8622 518-793.1015 x 311
Section 2: General Information
Building Location(for weather data): Warren,New York
Climate Zone: 6a
Building Space Conditioning Type(s): Nonresidential
Vertical Glazing/Wall Area Pct.: 17%
Activity Type(s) Floor Area
Main Floor(Heakhmm-Clinic) 28636
Section 3: Requirements Checklist
Climate-Specific Requirements:
Component Name/Description Gross Cavity Cont. Proposed Budget
Area or R-Value R-Value U-Factor U-Factorial
Perimeter
Roof 1:Insulation Entirely Above Deck 22627 — 20.0 0.048 0.048
Roof 2:Attic Roof with Wood Joists 6009 38.0 0.0 0.027 0.027
Exterior Wall 1:Wood-Framed, 16"o.c. 14480 20.0 8.7 0.039 0.051
Window 1:Metal Frame Curtain Wall/Storefront,Perf.Type:Other 2245 — — 0.270 0.450
testing/cert.Product ID:NA,SHGC 0.37(b)
Door 1:Insulated Metal,Swinging 119 — — 0.086 0.700
Door 2:Glass(>50%glazing):Metal Frame,Entrance Door,Pert. 245 — — 0.270 0.800
Type:Other testing/cert.Product ID:NA,SHGC 0.37(b)
Floor 1:Slab-On-Gmde:Unheated,Vertical 4 ft. 844 — 10.0 — —
(a)Budget U-factors are used for software baseline calculations ONLY,and are not code requirements.
(b)Fenestrations product performance must be certfied in accordance with NFRC and requires supporting documentation.
Air Leakage, Component Certification,and Vapor Retarder Requirements:
❑ 1. All joints and penetrations are caulked,gasketed or covered with a moisture vapor-permeable wrapping material installed in accordance
with the manufacturer's installation instructions.
0 2. Windows,doors,and skylights certified as meeting leakage requirements.
0 3. Component R-values&1.1-factors labeled as certified.
F-1 4. No roof insulation is installed on a suspended ceiling with removable ceiling panels.
5. 'Other components have supporting documentation for proposed U-Factors.
Li 6. Insulation installed according to manufacturers instructions,in substantial contact with the surface being insulated,and in a manner that
achieves the rated R-value without compressing the insulation.
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7. Stair,elevator shaft vents,and other outdoor air intake and exhaust openings in the building envelope are equipped with motorized
dampers.
8. Cargo doors and loading dock doors are weather sealed.
9. Recessed lighting fixtures installed in the building envelope are Type IC rated as meeting ASTM E283,are sealed with gasket or caulk.
C] 10.Building entrance doors have a vestibule equipped with self-closing devices.
Exceptions:
Building entrances with revolving doors.
Q Doors not intended to be used as a building entrance.
L) Doors that open directly from a space less than 3000 sq.ft.in area.
C] Doors used primarily to facilitate vehicular movement or materials handling and adjacent personnel doors.
Doors opening directly from a sleeping/dwelling unit.
Section 4: Compliance Statement
Compliance Statement: The proposed envelope design represented in this document is consistent with the building plans,specifications
and other calculations submitted with this permit application.The proposed envelope system has been designed to meet the 2010 New York
Energy Conservation Construction Code requirements in COMcheck Version 3.9.4 and to comply with the mandatory requirements in the
Requirements Checklist.
When a Registered Design Professional has stamped and signed this page,they are attesting that to the best of his/her knowledge,belief,and
professional judgment,such plans or specifications are in compliance with this Code.
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Project Title:West Mt. Primary Care II Report date: 12/22/14
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CQMcheck Software Version 3.9.4
Interior Lighting Compliance
Certificate
2010 New York Energy Conservation Construction Code
Section 1: Project Information
Project Type:New Construction
Project Title:West Mt. Primary Care II
Construction Site: Owner/Agent: Designer/Contractor:
161 Carey Road James McCormick Richard Jones
Queensbury,NY 12804 Hudson Headwaters Health Network Richard E.Jones Associates Architects
9 Carey Road 339 Aviation Road
Queensbury,NY 12804 Queensbury,NY 12804
518-824-8622 518-793-1015 x 311
Section 2: Interior Lighting and Power Calculation
A B C D
Area Category Floor Area Allowed Allowed Watts
(it2I Watts/ft2 (B x C)
Main Floor(Healthcare-Clinic) 28636 1 28636
Total Allowed Wafts= 28636
Section 3: Interior Lighting Fixture Schedule
A B C D E
Fixture ID:Description/Lamp I Wattage Per Lamp I Ballast Lamps/ #of Fixture (C X D)
Fixture Fixtures Waft.
Main Floor(Healthcare-Clinic 28636 sq.ft.)
Linear Fluorescent 1:F1:2x4 Lay-in:48"78 32W:Electronic: 2 77 64 4928
Linear Fluorescent 2:F2-8:Linear Pendant:48"T8 32W:Electronic: 4 30 128 3840
Linear Fluorescent 3:F2-12:Linear Pendant:48"T8 32W:Electronic: 6 7 192 1344
Linear Fluorescent 4:F3:Industrial:48"T8 32W:Electronic: 2 24 64 1536
Compact Fluorescent 1:F4:Decorative Pendant Other.Electronic: 1 13 99.6 1294.8
Compact Fluorescent 2:F5:Decorative Pendant:Quad 2-pin 26W:Electronic: 4 13 104 1352
LED 1:F6:Wall Sconce:LED MR 10W: 1 6 10 60
Linear Fluorescent 5:F7&F7 EM:Recessed 1x4:48"T8 32W:Electronic: 2 15 64 960
Linear Fluorescent 6:F8:2x4 Parabolic:48"T8 32W:Electronic: 3 14 96 1344
LED 2:L1 &Li EM:Recessed Downlight:LED PAR 18W: 2 282 16 5076
LED 3:X1:Exit:LED MR 2W: 1 26 2 52
LED 4:X2:Exit:LED MR 2W: 2 2 4 8
Total Proposed Wafts= 21795
Section 4: Requirements Checklist
Lighting Wattage:
1. Total proposed watts must be less than or equal to total allowed wafts.
Allowed Watts Proposed Watts Complies
28636 21795 YES
Controls,Switching,and Wiring:
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❑ 2. Daylight zones under skylights more than 15 feet from the perimeter have lighting controls separate from daylight zones adjacent to
vertical fenestration.
O 3. Daylight zones have individual lighting controls independent from that of the general area lighting.
Exceptions:
❑ Contiguous daylight zones spanning no more than two orientations are allowed to be controlled by a single controlling device.
❑ Daylight spaces enclosed by walls or ceiling height partitions and containing two or fewer light fixtures are not required to have a
separate switch for general area lighting.
❑ 4. Independent controls for each space(switch/occupancy sensor).
Exceptions:
❑ Areas designated as security or emergency areas that must be continuously illuminated.
❑ Lighting in stairways or corridors that are elements of the means of egress.
5. Master switch at entry to hotellmotel guest room.
O 6. Individual dwelling units separately metered.
7. Medical task lighting or artlhistory display lighting claimed to be exempt from compliance has a control device independent of the control
of the nonexempt lighting.
B. Each space required to have a manual control also allows for reducing the connected lighting load by at least 50 percent by either
controlling all luminaires,dual switching of alternate rows of luminaires,alternate luminaires,or alternate lamps,switching the middle
lamp luminaires independently of other lamps,or switching each luminaire or each lamp.
Exceptions:
EJ Only one luminaire in space.
E) An occupant-sensing device controls the area.
C] The area is a corridor,storeroom,restroom,public lobby or sleeping unit.
El Areas that use less than 0.6 Watts/sq.ft.
El 9. Automatic lighting shutoff control in buildings larger than 5,000 sq.ft.
Exceptions:
El Sleeping units,patient care areas;and spaces where automatic shutoff would endanger safety or security.
FJ 10.Photocellfastronomical time switch on exterior lights.
Exceptions:
❑ Lighting intended for 24 hour use.
U 11.Tandem wired one4amp and three4amp ballasted luminaires(No single-lamp ballasts).
Exceptions:
(:J Electronic high-frequency ballasts;Luminaires on emergency circuits or with no available pair.
Section 5: Compliance Statement
Compliance Statement The proposed lighting design represented in this document is consistent with the building plans,specifications
and other calculations submitted with this permit application.The proposed lighting system has been designed to meet the 2010 New York
Energy Conservation Construction Code requirements in COMcheck Version 3.9.4 and to comply with the mandatory requirements in the
Requirements Checklist.
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Project Title:West Mt. Primary Care II Report date: 12/22/14
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COMcheck Software Version 3.9.4
Exterior Lighting Compliance
Certificate
2010 New York Energy Conservation Construction Code
Section 1: Project Information
Project Type: New Construction
Project Title:West Mt. Primary Care II
Exterior Lighting Zone: 1 (Developed rural area)
Construction Site: Owner/Agent: Designer/Contractor:
161 Carey Road James McCormick Richard Jones
Queensbury,NY 12804 Hudson Headwaters Health Network Richard E.Jones Associates Architects
9 Carey Road 339 Aviation Road
Queensbury,NY 12804 Queensbury,NY 12804
518-824-8622 518-793-1015 x 311
Section 2: Exterior Lighting Area/Surface Power Calculation
A B C D E F
Exterior Area/Surface Quantity Allowed Tradable Allowed Proposed
Wafts Wattage Wafts Watts
/Unit (Bx C)
Driveway 16320 ft2 0.04 Yes 653 770
Emergency services,loading area 715 ft2 0.5 No 358 364
Entry canopy 2222 ft2 0.25 Yes 556 140
Main entry 8 ft of door width 20 Yes 160 534
Walkway< 10 feet wide 1050 ft of walkway length 0.7 Yes 735 364
Parking area 53600 ft2 0.04 Yes 2144 2310
Total Tradable Watts'= 4247 4118
Total Allowed Watts= 4605
Total Allowed Supplemental Watts"= 500
'Wattage tradeoffs are only allowed between tradable areas/surfaces.
A supplemental allowance equal to 500 watts may be applied toward compliance of both non-tradable and tradable areas/surfaces.
Section 3: Exterior Lighting Fixture Schedule
A B C D E
Fixture ID:Description I Lamp/Wattage Per Lamp I Ballast Lamps/ #of Fixture (C X D)
Fixture Fixtures Waft.
Driveway(16320 ft2):Tradable Wattage
LED 1:SL-1:Pole Light LED Roadway-Parking Unit 110W: 1 7 110 770
Emergency services,loading area(715 f12):Non-tradable Wattage
LED 2:L-3:Down Light:LED Other Fixture Unit 28W: 1 13 28 364
Entry canopy(2222 11:2):Tradable Wattage
LED 3:L-3: Down Light:LED Other Fixture Unit 28W: 1 5 28 140
Main entry(8 ft of door width):Tradable Wattage
LED 4:L-3:Down Light:LED Other Fixture Unit 28W: 1 15 28 420
LED 5:L-4:Wall Sconce:LED Panel 19W: 1 6 19 114
Walkway<10 feet wide(1050 ft of walkway length):Tradable Wattage
LED 6:LED Other Fixture Unit 28W: 1 13 28 364
Parking area(53600 ft2):Tradable Wattage
LED 7:SL-1:Pole Light:LED Roadway-Parking Unit 110W: 1 21 110 2310
Total Tradable Proposed Watts= 4118
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Section 4: Requirements Checklist
Lighting Wattage:
❑ 1. Within each non-tradable area/surface,total proposed watts must be less than or equal to total allowed watts.Across all tradable
areas/surfaces,total proposed watts must be less than or equal to total allowed watts.
Compliance:Passes using supplemental allowance watts.
Controls,Switching,and Wiring:
F1 2. All exemption claims are associated with fixtures that have a control device independent of the control of the nonexempt lighting.
F1 3. Lighting not designated for dusk-to-dawn operation is controlled by either a a photosensor(with time switch),or an astronomical time
switch.
n 4. Lighting designated for dusk-to-dawn operation is controlled by an astronomical time switch or photosensor.
111 5. All time switches are capable of retaining programming and the time setting during loss of power for a period of at least 10 hours.
Exterior Lighting Efficacy:
6. All exterior building grounds luminaires that operate at greater than 100W have minimum efficacy of 60 lumen/watt.
Exceptions:
❑ Lighting that has been claimed as exempt and is identified as such in Section 3 table above.
❑ Lighting that is specifically designated as required by a health or fife safety statue,ordinance,or regulation.
p Emergency lighting that is automatically off during normal building operation.
❑ Lighting that is controlled by motion sensor.
Section 5: Compliance Statement
Compliance Statement., The proposed exterior lighting design represented in this document is consistent with the building plans,specifications
and other calculations submitted with this permit application.The proposed lighting system has been designed to meet the 2010 New York
Energy Conservation Construction Code requirements in COMcheck Version 3.9.4 and to comply with the mandatory requirements in the
Requirements Checklist.
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Project Title:West Mt. Primary Care II Report date: 12/22/14
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COMcheck Software Version 3.9.4
Mechanical Compliance Certificate
2010 New York Energy Conservation Construction Code
Section 1: Project Information
Project Type: New Construction
Project Title:West Mt. Primary Care II
Construction Site: Owner/Agent: Designer/Contractor:
161 Carey Road James McCormick Richard Jones
Queensbury,NY 12804 Hudson Headwaters Health Network Richard E.Jones Associates Architects
9 Carey Road 339 Aviation Road
Queensbury,NY 12804 Queensbury,NY 12804
518-824-8622 518-793-1015 x 311
Section 2: General Information
Building Location(for weather data): Warren, New York
Climate Zone: 6a
Section 3: Mechanical Systems List
Quantity System Type 8 Descjptio_n
1 HVAC System 1 (Multiple-Zone):
Heating: 1 each-Duct Furnace,Gas,Capacity=525 kBtu/h
Proposed Efficiency=81.00%Ec,Required Efficiency=80.00%Ec
Cooling:1 each-Single Package DX Unit,Capacity=256 kBtu/h,Air-Cooled Condenser,Air Economizer
Proposed Efficiency=10.10 EER,Required Efficiency=9.80 EER
Fan System: RTU Units l Office,public&Clinical Areas—Compliance(Motor nameplate HP method):Passes
Fans:
FAN 1 Supply, Multi-Zone VAV,8000 CFM,5.0 motor nameplate hp
FAN 2 Supply, Multi-Zone VAV,14000 CFM, 15.0 motor nameplate hp
FAN 3 Supply,Multi-Zone VAV,10000 CFM, 10.0 motor nameplate hp
1 HVAC System 2(Multiple-Zone):
Heating:1 each-Duct Furnace,Gas,Capacity=800 kBtu/h
Proposed Efficiency=81.00%Ec,Required Efficiency=80.00%Ec
Cooling: 1 each-Single Package DX Unit,Capacity=412 kBtu/h,Air-Cooled Condenser,Air Economizer
Proposed Efficiency=10.00 EER,Required Efficiency=9.80 EER
Fan System: RTU Units l Office,public&Clinical Areas—Compliance(Motor nameplate HP method):Passes
Fans:
FAN 1 Supply,Mulfi-Zone VAV,8000 CFM,5.0 motor nameplate hp
FAN 2 Supply,Multi-Zone VAV,14000 CFM,15.0 motor nameplate hp
FAN 3 Supply,Multi-Zone VAV,10000 CFM,10.0 motor nameplate hp
1 HVAC System 3(Multiple-Zone):
Heating:1 each-Duct Furnace,Gas,Capacity=525 kBtu/h
Proposed Efficiency=81.00%Ec,Required Efficiency=80.00%Ec
Cooling: 1 each-Single Package DX Unit,Capacity=301 kBtu/h,Air-Cooled Condenser,Air Economizer
Proposed Efficiency=10.00 EER,Required Efficiency=9.80 EER
Fan System: RTU Units l Office,public&Clinical Areas—Compliance(Motor nameplate HP method):Passes
Fans:
FAN 1 Supply,Multi-Zone VAV,8000 CFM,5.0 motor nameplate hp
FAN 2 Supply,Muld-Zone VAV,14000 CFM, 15.0 motor nameplate hp
FAN 3 Supply,Multi-Zone VAV,10000 CFM,10.0 motor nameplate hp
1 HVAC System 4(Single Zone):
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Cooling:4 each-Split System,Capacity=15 kBtu/h,Air-Cooled Condenser,No Economizer,Economizer
exception:None
Proposed Efficiency=16.00 SEER,Required Efficiency=13.00 SEER
Fan System: None
1 Plant 1:
Heating:Hot Water Boiler,Capacity 960 kBtu/h,Gas,with Waterloop Heat Pump
Proposed Efficiency:96.80%Et,Required Efficiency:75.00%Et
1 Water Heater 1:
Gas Storage Water Heater,Capacity:100 gallons,Input Rating:200 Btu/h w/Circulation Pump
Proposed Efficiency:92.00%Et,Required Efficiency:80.00%Et
Section 4: Requirements Checklist
Requirements Specific To: HVAC System 1 :
❑ 1. Equipment minimum efficiency: Duct Furnace(Gas): 80.00%Ec
2. Equipment minimum efficiency: Single Package Unit: 9.80 EER(9.5 IPLV)
3. Minimum one temperature control device per zone
4. Discharge dampers prohibited with fan motors>25 hp
5. Balancing and pressure test connections on all hydronic terminal devices
6. Integrated economizer is required for this location and system.
7. Cooling system provides a means to relieve excess outdoor air during economizer operation.
8. Systems serving more than one zone must be VAV systems
❑ 9. Single-duct VAV terminals reduce primary air before reheating
10.Controls capable of resetting supply air temp(SAT)by 25%of SAT-room temp difference
Exceptfon(s):
C] Systems that prevent reheating,recooling or mixing of heated and cooled supply air
D Seventy five percent of the energy for reheating is from site-recovered or site solar energy sources.
❑ Zones with peak supply air quantities of 300 cfm(142 Us)or less.
❑ 11.VAV fan>=10 hp are driven by mechanical or electrical variable speed drive,or driven by vane-axial with variable speed blades,or
operate with motor demand<=30%design kW at 50%design flow-calculations required
F1 12.Hot gas bypass prohibited unless system has multiple steps of unloading or continuous capacity modulation
❑ 13.Hot gas bypass limited to 25%of total cooling capacity
r-1 14.VAV fans with static pressure sensors are placed in a position such that the controller setpoint is no greater than one-third the total
design fan static pressure.If placement results in the sensor being located downstream of major duct splits,multiple sensors are
installed in each major branch.
Exception(s):
Systems with DDC of individual zone boxes reporting to the central control panel and reset of static pressure setpoint based on
the zone requiring the most pressure.
15.Systems with DDC of individual zone boxes reporting to the central control panel has static pressure setpoint reset based on the zone
requiring the most pressure.
Requirements Specific To: HVAC System 2 :
❑ 1. Equipment minimum efficiency: Duct Furnace(Gas): 80.00%Ec
❑ 2. Equipment minimum efficiency: Single Package Unit: 9.80 EER(9.5 IPLV)
3. Minimum one temperature control device per zone
4. Discharge dampers prohibited with fan motors>25 hp
❑ 5. Balancing and pressure test connections on all hydronic terminal devices
❑ 6. Integrated economizer is required for this location and system.
❑ 7. Cooling system provides a means to relieve excess outdoor air during economizer operation.
❑ 8. Systems serving more than one zone must be VAV systems
❑ 9. Single-duct VAV terminals reduce primary air before reheating
f-1 10.Controls capable of resetting supply air temp(SAT)by 25%of SAT-room temp difference
Exception(s):
Ll Systems that prevent reheating,recooling or mixing of heated and cooled supply air
❑ Seventy five percent of the energy for reheating is from site-recovered or site solar energy sources.
❑ Zones with peak supply air quantities of 300 chn(142 Us)or less.
11.VAV fan>=10 hp are driven by mechanical or electrical variable speed drive,or driven by vane-axial with variable speed blades,or
operate with motor demand<=30%design kW at 50%design flow-calculations required
12.Hot gas bypass prohibited unless system has multiple steps of unloading or continuous capacity modulation
O 13.Hot gas bypass limited to 25%of total cooling capacity
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❑ 14.VAV fans with static pressure sensors are placed in a position such that the controller setpoint is no greater than ane-third the total
design fan static pressure.If placement results in the sensor being located downstream of major duct splits,multiple sensors are
installed in each major branch.
Exception(s):
❑ Systems with DDC of individual zone boxes reporting to the central control panel and reset of static pressure selpoint based on
the zone requiring the most pressure.
❑ 15.Systems with DEC of individual zone boxes reporting to the central control panel has static pressure setpoint reset based on the zone
requiring the most pressure.
Requirements Specific To: HVAC System 3:
❑ 1. Equipment minimum efficiency: Duct Furnace(Gas): 80.00%Ec
❑ 2. Equipment minimum efficiency: Single Package Unit: 9.80 EER(9.51PLV)
❑ 3. Minimum one temperature control device per zone
❑ 4. Discharge dampers prohibited with fan motors>25 hp
❑ 5. Balancing and pressure test connections on all hydronic terminal devices
❑ 6. Integrated economizer is required for this location and system.
❑ 7. Cooling system provides a means to relieve excess outdoor air during economizer operation.
❑
B. Systems serving more than one zone must be VAV systems
❑ 9. Single-duct VAV terminals reduce primary air before reheating
❑ 1O.Controls capable of resetting supply air temp(SAT)by 25%of SAT-room temp difference
Exception(s):
❑ Systems that prevent reheating,recooling or mixing of heated and cooled supply air
❑ Seventy five percent of the energy for reheating is from site-recovered or site solar energy sources.
❑ Zones with peak supply air quantities of 300 cfm(142 Us)or less.
❑ 11.VAV fan>=10 hp are driven by mechanical or electrical variable speed drive,or driven by vane-axial with variable speed blades,or
operate with motor demand<=30%design kW at 50%design flow-calculations required
❑ 12.Hot gas bypass prohibited unless system has multiple steps of unloading or continuous capacity modulation
❑ 13.Hot gas bypass limited to 25%of total cooling capacity
❑ 14.VAV fans with static pressure sensors are placed in a position such that the controller setpoint is no greater than one-third the total
design fan static pressure.If placement results in the sensor being located downstream of major duct splits,multiple sensors are
installed in each major branch.
Exception(s):
❑ Systems with DDC of individual zone boxes reporting to the central control panel and reset of static pressure setpoint based on
the zone requiring the most pressure.
❑ 15.Systems with DDC of individual zone boxes reporting to the central control panel has static pressure setpoint reset based on the zone
requiring the most pressure.
Requirements Specific To: HVAC System 4:
❑ 1. Equipment minimum efficiency: Split System: 13.00 SEER
Requirements Specific To: Plant 1 :
❑ 1. Equipment minimum efficiency: Boiler Thermal Efficiency 75%Et 80%Ec
❑ 2. Loop temperature controlled with 20 degrees F deadband where neither coaling towedfluid cooler nor boiler can operate
❑ 3. Two-position valve on each heat pump having total heat pump system power>10hp
❑ 4. Newly purchased heating equipment meets the efficiency requirements
-used equipment must meet 80%Et @ maximum capacity
❑ 5. Systems with multiple boilers have automatic controls capable of sequencing boiler operation
❑ 6. Hydronic heating systems comprised of a single boiler and>500 kBtu1h input design capacity include either a multistaged or modulating
burner
Requirements Specific To: Water Heater 1
❑ 1. Water heating equipment meets minimum efficiency requirements: Gas Storage Water Heater efficiency: 80.00%Et(261 SL,
kBtulh)
❑ 2. All piping in circulating system insulated
❑ 3. Hot water storage temperature controls that allow setpoint of 90"F for non-dwelling units and 110°F for dwelling units.
❑ 4. Automatic time control of heat tapes and recirculating systems present
❑ 5. Controls will shut off operation of circulating pump between water heaterfboiler and storage tanks within 5 minutes after end of heating
cycle
Generic Requirements: Must be met by all systems to which the requirement is applicable:
❑ 1. Plant equipment and system capacity no greater than needed to meet loads
Exception(s):
❑ Standby equipment automatically off when primary system is operating
❑ Multiple units controlled to sequence operation as a function of load
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• ❑ 2. Minimum one temperature control device per system
❑ 3. Minimum one humidity control device per installed humidification/dehumidification system
❑ 4. Load calculations per ASHRAE/ACCA Standard 183.
❑ 5. Automatic Controls:Setback to 55T(heal)and 85`F(cool);7-day clock,2-hour occupant override,10-hour backup
Exception(s):
❑ Continuously operafing zones
❑ 6. Outside-air source for ventilation;system capable of reducing OSA to required minimum
❑ 7. R-5 supply and return air duct insulation in unconditioned spaces
R-8 supply and return air duct insulation outside the building
R-8 insulation between ducts and the building exterior when duds are part of a building assembly
Exception(s):
❑ Ducts located within equipment
❑ Duds with interior and exterior temperature difference not exceeding 15T.
❑ 8. Mechanical fasteners and sealants used to conned duds and air distribution equipment
❑ 9. Duds sealed-longitudinal seams on rigid ducts;transverse seams on all ducts;UL 181A or 181 B tapes and mastics
❑ 10.Hot water pipe insulation: 1.5 in.for pipes<=1.5 in.and 2 in.for pipes>1.5 in.
Chilled water/reftigerant/brine pipe insulation: 1.5 in.for pipes<=1.5 in.and 1.5 in.for pipes>1.5 in.
Steam pipe insulation: 1.5 in.for pipes<=1.5 in.and 3 in.for pipes >1.5 in.
Exception(s):
❑ Piping within HVAC equipment.
❑ Fluid temperatures between 55 and 105T.
❑ Fluid not heated or cooled with renewable energy.
❑ Piping within room fan-coil(with AHRI440 rating)and unit ventilators(with AHRIB40 rating).
❑ Runouts<4 ft in length.
❑ 11.Operation and maintenance manual provided to building owner
❑ 12.Thermostatic controls have 5"F deadband
Exception(s):
❑ Thermostats requiring manual changeover between heating and cooling
❑ Special occupancy or special applications where wide temperature ranges are not acceptable and are approved by the authority
having jurisdiction.
❑ 13.Hot water distribution systems>=300 kBtu/h must have one of the following:
a)controls that reset supply water temperature by 25%of supply/retum delta T
b)mechanical or electrical adjustable-speed pump drive(s)
c)two-way valves at all heating coils
d)multiple-stage pumps
e)other system controls that reduce pump flow by at least 50%based on load
-calculations required
Excepfion(s):
❑ Where the supply temperature reset controls cannot be implemented without causing improper operation of heating,cooling,
humidification,or dehumidification systems.
❑ Hydronic systems that use variable flow to reduce pumping energy.
❑ 14.Balancing devices provided in accordance with IMC 603.17
❑ 15.Demand control ventilation(DCV)present for high design occupancy areas(>40 person/1000 ft2 in spaces>500 ft2)and served by
systems with any one of 1)an air-side economizer,2)automatic modulating control of the outdoor air damper,or 3)a design outdoor
airflow greater than 3000 dm.
Exception(s):
❑ Systems with heat recovery.
❑ Multiple-zone systems without DDC of individual zones communicating with a central control panel.
❑ Systems with a design outdoor airflow less than 1200 cfm.
❑ Spaces where the supply airflow rate minus any makeup or outgoing transfer air requirement is less than 1200 cfm.
❑ 16.Motorized,automatic shutoff dampers required on exhaust and outdoor air supply openings
Exception(s):
❑ Gravity dampers acceptable in buildings<3 stories
❑ 17.Automatic controls for freeze protection systems present
❑ 18.Three-pipe systems not used
❑ 19.Exhaust air heat recovery included for systems 5,000 dm or greater with more than 70%outside air fraction or specifically exempted
Exception(s):
❑ Hazardous exhaust systems,commercial kitchen and clothes dryer exhaust systems that the International Mechanical Code
prohibits the use of energy recovery systems.
❑ Systems serving spaces that are heated and not cooled to less than 60T.
Project Title:West Mt.Primary Care II Report date: 12122/14
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I] Where more than 60 percent of the outdoor heating energy is provided from site-recovered or site solar energy.
• I] Heating systems in climates with less than 3600 HDD.
❑ Cooling systems in climates with a 1 percent cooling design wet-bulb temperature less than 64°F.
Systems requiring dehumidification that employ energy recovery in series with the cooling Wil.
p Laboratory fume hood exhaust systems that have either a variable air volume system capable of reducing exhaust and makeup air
volume to 50 percent or less of design values or,a separate make up air supply meeting the following makeup air requirements:
a)at least 75 percent of exhaust flow rate,b)heated to no more than 2°F below room setpoint temperature,c)cooled to no lower
than 3°F above room setpoint temperature,d)no humidification added,e)no simultaneous heating and cooling.
Section 5: Compliance Statement
Compliance Statement., The proposed mechanical design represented in this document is consistent with the building plans,specifications
and other calculations submitted with this permit application.The proposed mechanical systems have been designed to meet the 2010 New
York Energy Conservation Construction Code requirements in COMcheck Version 3.9.4 and to comply with the mandatory requirements in the
Requirements Checklist.
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Naameme-Title Si na ur Date
Section 6: Post Construction Compliance Statem nt
❑ HVAC record drawings of the actual installation,system capacities,calibration information,and performance data for each equipment
provided to the owner.
HVAC O&M documents for all mechanical equipment and system provided to the owner by the mechanical contractor.
❑ Written HVAC balancing and operations report provided to the owner.
The above post construction requirements have been completed.
Principal Mechanical Designer-Name Signature Date
n: of
Project Title:West Mt. Primary Care 11 Report date: 12/22/14
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