HomeMy WebLinkAbout06020001-Lighting compliance
Permit #
Permit Date
COMcheck Software Version 3.1 Release 1
Lighting Compliance Certificate
2003 IECC
Report Date: 01/25/06
Data filename: G:\Petco\055F53-1 \000\Energy\055000-1.CCK
Section 1: Project Information
Project Title: Petco - Carmel, IN - 0550001151
Construction Site:
TBD N. Michigan Road
Carmel, IN 46032
Owner/Agent:
Petoo
9125 Rehco Road
San Diego, CA 92121
Designer/Contractor:
Henderson Engineers, Inc.
8325 Lenexa Drive, Suite 400
Lenexa, KS 66214
913-307-5300
Section 2: General Information
Building Use Description by:
Project Type: New Construction
Bulldlna TVDe
Retail Sales, Wholesale Showroom
Floor Area
16130
Section 3: Requirements Checklist
Interior Lighting:
o 1. Total actual watts must be less than or equal to total allowed watts.
Allowed Watts Actual Watts Complies
24195 21093 YES
o 2. Exit signs 5 Watts or less per side.
Exterior Lighting:
o 3. Efficacy greater than 45 lumensIW.
Exceptions:
Specialized lighting highlighting features of historic buildings; signage; safety or security lighting; low-voltage landscape
lighting.
Controls, Switching, and Wiring:
o 4. Independent controls for each space (switch/occupancy sensor).
Exceptions:
Areas that must be continuously illuminated.
o 5. Master switch at entry to hotel/motel guest room.
o 6. Individual dwelling units separately metered.
o 7. Each space provided with a manual control to provide uniform light reduction by at least 50%.
Exceptions:
Only one luminaire in space;
An occupant-sensing device controls the area;
The area is a corridor, storeroom, restroom, public lobby or guest room;
Areas that must be continuously illuminated;
Areas that use less than 0.6 Watts/sq.ft.
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D 8. Automatic lighting shutoff control in buildings larger than 5,000 sq.ft.
D 9. Photocell/astronomical time switch on exterior lights.
Exceptions:
Lighting intended for 24 hour use.
D 10. Tandem wired one.lamp and three.lamp ballasted luminaires (No single-lamp ballasts).
Exceptions:
Electronic high-frequency ballasts; Luminaires on emergency circuits or with no available pair.
Section 4: 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 2003 IEGC. Chapter 8. requirements in COM check Version 3.1 Release 1 and to comply with the mandatory requirements
in the Requirements Checklist.
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Principal Ughting Designer.Name
Lc..d...
Signature
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Dale'
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Permit #
Permit Date
COMcheck Software Version 3.1 Release 1
Lighting Application Worksheet
2003 IEce
Report Date:
Data filename: G:IPetcoI055F53-11000IEnergyl055000-1.CCK
Section 1: Allowed Lighting Power Calculation
A
B C
Floor Area Allowed
Watts/ft2
16130 1.5
Total Allowed Watts =
D
Allowed Watts
Retail Sales, Wholesale Showroom
24195
24195
Section 2: Actual Lighting Power Calculation
A B C D E
Fixture 10 : Description I Lamp I Wattage Per Lamp / Ballast Lamps! #of Fixture (CXD)
Fixture Fixtures Watt.
TS/ T12 Fluorescent 1: A: 2X4 LAY-IN PRISMATIC /4S" TS 32W I Electronic 2 23 64 1472
T81 T12 Auorescent 2: K: 8' INDUSTRIAL STRIP 148" T8 32W I Electronic 4 75 128 9600
TSI T12 Fluorescent 3: K1: 4' INDUSTRIAL STRIP 148" Ta 32W I Electronic 2 10 64 640
T8/T12 Auorescent4: W: 4' VAPORLUME WET LOCATION 148' T832W I 2 4 64 256
Electronic
Tal T12 Fluorescent 5: KB: 4' NARROW STRIP 148" TS 32W I Electronic 1 24 32 768
HID 1: MH250: LOW BAY LUMINAIRE I Metal Halide 250W I Electronic 1 19 295 5605
T81 T12 Fluorescent 6: KEMER: 8' INDUSTRIAL STRIP 148' T8 32W I Electronic 4 14 128 1792
T8/T12 Fluorescent 7: KSI EMER: 4' INDUSTRIAL STRIP 148' T8 32W I 2 10 64 640
Electronic
Tal T12 Fluorescent S: AQ8.R: 8' INDUSTRIAL STRIP 148" T8 32W I Electronic 2 2 64 128
T8/T12 Fluorescent 9: AQ12-R: 12' INDUSTRIAL STRIP 148' T8 32W I 2 2 96 192
Electronic
Total Actual Watts = 21093
Section 3: Compliance Calculation
If the Total Allowed Watts minus the Total Actual Watts is greater than or equal to zero, the building complies.
Total Allowed Watts = 24195
Total Actual Watts = 21093
Project Compliance = 3102
lighting PASSES Design 13% better !han ~coi:te-"'.' :~'3r?~~ii..~,f,-:'~ '_~r r:r: :t';,"~,~>.,"":'-,-,~";"';: ><;:- ~:~}f":!;';'f~~4""t;>;"c~,,~, }"" ~'-.f:~:~_
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Permit #
Permit Date
COMcheckSoftware Version 3.1 Release 1
Mechanical Compliance Certificate
2003 IECC
Report Date: 01/25/06
Data filename: G:IPetcoI055F53-11000IEnergyI055000-1.CCK
Section 1: Project Information
Project Title: Petco - Carmel, IN - 0550001151
Construction Site:
TBD N. Michigan Road
Carmel, IN 46032
Owner/Agent:
Peteo
9125 Rehco Road
San Diego, CA 92121
Designer/Contractor:
Henderson Engineers, Inc.
8325 Lenexa Drive, Suite 400
Lenexa, KS 66214
913-307-5300
Section 2: General Information
Building Location (for weather data):
Climate Zone:
Heating Degree Days (base 65 degrees F):
Cooling Degree Days (base 65 degrees F):
Project Type:
Carmel, Indiana
12b
6011
837
New Construction
Section 3: Mechanical Systems List
Quantltv
4
2
2
1
System TVDe & DescrlDtlon
RTU 1-4 (10 ton): Heating: Other, Gas I Cooling: Rooftop Package Unit, Capacity >=90 - <135 kBtulh, Air-Cooled
Condenser I Single Zone
Gas unit heater: Heating: Unit Heater, Gas
Electric ceiling heater. Heating: Unit Heater, Electric
RTU 5 (6 ton): Heating: Other, Gas I Cooling: Rooftop Package Unit, Capacity >=65 - <90 kBtulh, Air-Cooled
Condenser I Single Zone
Section 4: Requirements Checklist
Requirements Specific To: RTU 1-4 (10 ton) :
o 1. Equipment minimum efficiency: Rooftop Package Unit: 10.3 EER
o 2. Integrated air economizer required
Requirements Specific To: Gas unit heater:
o 1. Equipment minimum efficiency: Unit Heater (Gas): 80% Ec
Requirements Specific To: Electric ceiling heater:
Requirements Specific To: RTU 5 (6 ton) :
o 1. Equipment minimum efficiency: Rooftop Package Unit 10.3 EER
o 2. Integrated air economizer required
Generic Requirements: Must be met by all systems to which the requirement is applicable:
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01.
,. 02.
03.
04.
05.
06.
07.
08.
09.
010.
0 11.
0 12.
Load calculations per 1 997 ASH RAE Fundamentals
Plant equipment and system capacity no greater than needed to meet loads
Exception: Standby equipment automatically off when primary system is operating
Exception: Multiple units controlled to sequence operation as a function of load
Minimum one temperature control device per system
Minimum one humidity control device per installed humidification/dehumidification system
Thennostatic controls has 5 degrees F dead band
Exception; Thermostats requiring manual changeover between heating and cooling
Automatic Controls: Setback to 55 degrees F (heat) and 85 degrees F (cool); 7-day clock, 2-hour occupant override, 1 a-hour
backup
Exception: Continuously operating zones
Exception: 2 kW demand or less, submit calculations
Automatic shut-off dampers on exhaust systems and supply systems with airflow >3,000 cfm
Outside-air source for ventilation; system capable of reducing OSA to required minimum
R-5 supply and return air duct insulation in unconditioned spaces R-8 supply and return air duct insulation outside the
building RM8 insulation between ducts and the building exterior when ducts are part of a building assembly
Exception: Ducts located within equipment
Exception: Ducts with interior and exterior temperature difference not exceeding 15 degrees F.
Ducts sealed . longitudinal seams on rigid ducts; transverse seams on al\ ducts; UL i81A or 181B tapes and mastics
Exception: Continuously welded and locking.type longitudinal joints and seams on ducts operating at static
pressures less than 2 inches w.g. pressure classification
Mechanical fasteners and sealants used to connect ducts and air distribution equipment
Hot water pipe insulation: 1 in. for pipes <=1.5 in. and 2 in. for pipes> 1.5 in. Chilled water/refrigerantlbrine pipe insulation: 1
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: Piping within HV AC equipment
Exception: Fluid temperatures between 55 and 105 degrees F
Exception: Fluid not heated or cooled
Exception: Runouts <4 11 in length
o 13. Operation and maintenance manual provided to building owner
o 14. Balancing devices provided in accordance with IMC 603.15
o 15. Stair and elevator shaft vents are equipped with motorized dampers
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 pennit application. The proposed mechanical systems have been designed
to ;~i;:::n~~h~~~;eqUirements in CO~MCheCk v~~rSion 3.1 Relea"l ~.~d to comply with the mandatory requirements in the
Hz.. ~ .~.l+ .l=>-'J...J fI~ ~I'LS'{)"
Principal M hanical Designer-Name ignature Date
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:
COMcheck Software Version 3.1 Release 1
Mechanical Requirements
Description
2003 IECC
Report Date:
Data filename: G:\Petco\055F53-1\OOO\Energy\055000-1.CCK
The following list provides more detailed descriptions of the requirements in Section 4 of the Mechanical Compliance Certificate.
Requirements Specific To: RTU 1-4 (10 ton) :
1. The specified heating andlor cooling equipment is covered by ASH RAE 90.1 Code and must meet the following minimum
efficiency: Rooftop Package Unit: 10.3 EER
2. An integrated air economizer is required for individual cooling systems over 65 kBtuIh in the selected climate. An integrated
economizer allows simultaneous operation of outdoor-air and mechanical cooling.
Requirements Specific To: Gas unit heater:
1. The specified heating and/or cooling equipment is covered by the ASH RAE 90.1 Code and must meet the following minimum
efficiency: Unit Heater (Gas): 60% Ec
Requirements Specific To: Electric ceiling heater:
Requirements Specific To: RTU 5 (6 ton) :
1. The specified heating and/or cooling equipment is covered by ASH RAE 90.1 Code and must meet the following minimum
efficiency: Rooftop Package Unit 10.3 EER
2. An integrated air economizer is required for individual cooling systems over 65 kBtuIh in the selected climate. An integrated
economizer allows simultaneous operation of outdoor~air and mechanical cooling.
Generic Requirements: Must be met by all systems to which the requirement Is applicable:
1. Design heating and cooling loads for the building must be determined using procedures equivalent to those in Chapters 27
and 28 of the ASH RAE Handbook of Fundamentals or an approved equivalent calculation procedure.
2. All equipment and systems must be sized to be no greater than needed to meet calculated loads. A single piece of equipment
providing both heating and cooling must satisfy this provision for one function with the capacity for the other function as small
as possible, within available equipment options.
Exception: The equipment and/or system capacity may be greater than calculated loads for standby purposes. Standby
equipment must be automatically controlled to be off when the primary equipment and/or system is operating.
Exception: Multiple units of the same equipment type whose combined capacities exceed the calculated load are allowed
if they are provided with controls to sequence operation of the units as the load increases or decreases.
3. Each heating or cooling system serving a single zone must have its own temperature control device.
4. Each humidification system must have its own humidity control device.
5. Thermostats controlling both heating and cooling must be capable of maintaining a 5 degrees F deadband (a range of
temperature where no heating or cooling is provided).
Exception: Deadband capability is not required if the thermostat does not have automatic changeover capability between
heating and cooling.
6. The system or zone control must be a programmable thermostat or other automatic control meeting the following criteria:a)
capable of setting back temperature to 55 degrees F during heating and setting up to 85 degrees F during coolingb) capable of
automatically setting back or shutting down systems during unoccupied hours using 7 different day schedulesc) have an
accessible 2-hour occupant overrided) have a battery back-up capable of maintaining programmed settings for at least 10
hours without power.
Exception: A setback or shutoff control is not required on thermostats that control systems serving areas that operate
continuously.
Exception: A setback or shutoff control is not required on systems with total energy demand of 2 kW (6,826 Btuth) or
less.
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,
7. Outdoor.alr supply systems with design airflow rates >3,000 cfm of outdoor air and all exhaust systems must have dampers
that are automatically closed while the equipment is not operating.
8. The system must supply outside ventilation air as required by Chapter 4 of the International Mechanical Code. If the ventilation
system is designed to supply outdoor~air quantities exceeding minimum required levels, the system must be capable 01
reducing outdoor-air flow to the minimum required levels.
9. Air ducts must be insulated to the following levels:a) Supply and return air ducts for conditioned air located in unconditioned
spaces (spaces neither heated nor cooled) must be insulated with a minimum of A-5. Unconditioned spaces include attics,
crawl spaces, unheated basements, and unheated garages.b) Supply and return air ducts and plenums must be insulated to a
minimum of R-8 when located outside the building.c) When ducts are located within exterior components (e.g., floors or roofs),
minimum R-8 insulation is required only between the duct and the building exterior.
Exception: Duct insulation is not required on ducts located within equipment.
Exception: Duct insulation is not required when the design temperature difference between the interior and exterior of the
duct or plenum does not exceed 15 degrees F.
10. All joints, longitudinal and transverse seams, and connections in ductwork must be securely sealed using weldments;
mechanical fasteners with seals, gaskets, or mastics; mesh and mastic sealing systems; or tapes. Tapes and mastics must be
listed and labeled in accordance with UL 181A or UL 1818.
Exception: Continuously welded and locking-type longitudinal joints and seams on ducts operating at static pressures
less than 2 inches w.g. pressure classification.
11. Mechanical fasteners and seals, mastics, or gaskets must be used when connecting ducts to fans and other air distribution
equipment, including multiple-zone terminal units.
12. All pipes serving space-conditioning systems must be insulated as follows: Hot water piping for heating systems: 1 in. for pipes
<=11/2.in. nominal diameter 2 in. for pipes >1 1/2-in. nominal diameter. Chilled water, refrigerant, and brine piping systems: 1
in. insulation for pipes <=11/2-in. nominal diameter 11/2 in. insulation for pipes >11{2.in. nominal diameter. Steam piping: 1
1/2 in. insulation for pipes <=1 1/2-in. nominal diameter 3 in. insulation for pipes >1 1/2-in. nominal diameter.
Exception: Pipe insulation is not required for factory-installed piping within HVAC equipment.
Exception: Pipe insulation is not required for piping that conveys fluids having a design operating temperature range
between 55 degrees F and 105 degrees F.
Exception: Pipe insulation is not required for piping that conveys fluids that have not been heated or cooled through the
use of fossil fuels or electric power.
Exception: Pipe insulation is not required for runout piping not exceeding 4 ft in length and 1 in. in diameter between the
control valve and HV AC coil.
13. Operation and maintenance documentation must be provided to the owner that includes at least the following infonnation:a)
equipment capacity (input and output) and required maintenance actionsb) equipment operation and maintenance manualsc)
HVAC system control maintenance and calibration information, including wiring diagrams, schematics, and control sequence
descriptions; desired or field-detennined set points must be pennanently recorded on control drawings, at control devices, or,
for digital control systems, in programming commentsd) complete narrative of how each system is intended to operate.
14. Each supply air outlet or diffuser and each zone terminal device (such as VAV or mixing box) must have its own balancing
device. Acceptable balancing devices include adjustable dampers located within the ductwork, tenninal devices, and supply air
diffusers.
15. Stair and elevator shaft vents must be equipped with motorized dampers capable of being automatically closed during normal
building operation and interlocked to open as required by fire and smoke detection systems. All gravity outdoor air supply and
exhaust hoods, vents, and ventilators must be equipped with motorized dampers that will automatically shut when the spaces
served are not in use. Exceptions: - Gravity (non.motorized) dampers are acceptable in buildings less than three stories in
height above grade. - Ventilation systems serving unconditioned spaces.
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