The URL can be used to link to this page

Home My WebLink AboutCOMCHECK - 06-00474 - Dr Scott Hardy - Medical OfficeLighting Compliance Certificate 2003 IECC COMcheck-EZ Software Version 3.0 Release 2b Data filename: Untitled.cck Section 1: Project Information Project Name: A New Medical Office For. Dr. hardy Designer/Contractor. Payne Engineering Inc. Document Author. Mike Payne Notes: September 19, 2006 Section 2: General Information Building Ilse Desaiption by: Whole Building Type Project Type: New Construction 0600474 Dr Scott Hardy Medical Office Checked By/Date Building Tyne Floor Area Medical and Clinical Care 2525 Section 3: Requirements Checklist D U D Bldg. I Dept. I S E P 2 5 2006 Use I Interior Lighting [ ] I 1. Total actual watts must be less than or equal to total allowed watts CITY OF REXBURG Allowed Watts Actual Watts Complies(Y/N) 3030 2978 YES I Exterior Lighting [ ] 2. Efficacy greater than 45 lumens/W Exceptions: Specialized lighting highlighting features of historic buildings; signage; safety or security lighting; low -voltage landscape lighting. I Controls, Switching, and Wiring [ ] I 3. Independent controls for each space (switch/occupancy sensor). Etr eption: Areas that must be continuously illuminated. [ ] 4. Master switch at entry to hotel/motel guest room. [ ] 5. individual dwelling units separately metered. [ ] I 6. Each space provided with a manual control to provide unifDrm light reduction capability. Exceptions: Only one luminaire in space; An occupant -sensing device controls the area; The area is a corridor, storeroom, restmom, or lobby; Areas that must be continuously illuminated; lft� Areas that use less than 0.6 Watts/sq.f. 7. Automatic lighting shutoffcontrol in buildings larger than 5,000 sq.fi. 8. Photocell/astronomical time switch on exterior lights. Perceptions: Areas requiring lighting during daylight hours 9. Tandem wired one -lamp and three -lamp ballasted luminaires. Exceptions: Electronic high-fequencJ+ ballasts; Luminaires on emergency circuits or with no available pair. Section 4: 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 IECC, Chapter 8, requirements in COMcheck EZ Version 3.0 Release 2b and to comply with the mandatory requirements in the Requirements Checklist. 4ng- r� • Principal Lighting Designer -Name Signature Date Lighting Application Worksheet 2003 IECC COMc mk EZ Sofware Version 3.0 Release 2b Section l: Allowed lighting Power Calculation A B C D Total Floor Allowed Allowed Area Building Tyne (J12)i Watts (w is/Q1 Watts B X Q Medical and Clinical Care 2525 1.2 3030 Total Allowed Watts = 3030 Section 2: Actual lighting Power Calculation A B C D E F Fixture Fixture Description / Lamps/ # of Fixture T, lam` Lamp DU&dation / Wattage P�0 B l Iasi FixtureFixtures Wart. 02 x ) F 1 3 lamp recessed fluor. / 48" T8 32W / Electronic 3 22 95 2090 F2 21amp fluor. wrap / 48" T8 32W / Electronic 2 4 61 244 F3 2 lamp fluor. troflir! 48" T8 32W / Electronic 2 2 61 122 F6 1 lamp recessed can / Quad 2-pin 26W / Electronic 1 6 26 156 F7 2 lamp recessed fluor. / 48" T8 32W / Electronic 2 3 61 183 F8 2 lamp open strip fluor. / 48" T8 32W / Electronic 2 3 61 183 Total Actual Watts = 2978 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 = 3030 Total Actual Watts = 2978 Project Compliance = 52 U gh d n g PASSES : Design 2% better than code 0600474 Dr Scott Hardy Medical Office Envelope Compliance Certificate Checked By/Date Standard 90.1-1999 COMcheck-EZ Software Version 3.0 Release 2a Data filename: C:\Program Files\Check\COMcheck-EZ\Dr. Hardy. cck Section 1: Project Information Project Name: Designer/Contractor: Document Author: A new medical office br Dr. Hardy JRW & Associates 1152 Bond Ave Rexburg, Idaho Gary Richardson JRW & Associates Section 2: General Information Building Location (for weather data): Rexburg, Idaho Heating Degree Days (base 65 degrees F): 8693 Cooling Degree Days (base 50 degrees F): 1446 Building type for envelope requirements: Non -Residential Project Type: New Construction Window / Wall Ratio: 0.09 Buildinn Tvoe Floor Area Office 2208 Section 3: Requirements Checklist Bldg Dept. Use R E C E o W E SEP 25 2000 0 CITY 0= REXBUR, a Insulation [ ] 1. Open -blown or poured loose -fill insulation has not been used in attic roof spaces with ceiling slope greater than 3 in 12. [ ] 2. Wherever vents occur, they are baffled to deflect incoming air above the insulation. [ ] 3. Recessed lights, equipment and ducts are not affecting insulation thickness. [ ] 4. No roof insulation is installed on a suspended ceiling with removable ceiling panels. [ ] 5. All exterior insulation is covered with protective material. [ ] 6. Cargo and loading dock doors are equipped with weather seals. Fenestration and Doors [ ] 7. Windows and skylights are labeled and certified by the manufacturer for U-factor and SHGC. [ ] 8. Fixed windows and skylights unlabeled by the manufacturer have been site labeled using the default U-factor and SHGC. [ ] 9. Other unlabeled vertical fenestration, operable and fixed, that are unlabeled by the M. M manufacturer have been site labeled using the default U-factor and SHGC. No credit has been given iDr metal flames with thermal breaks, low -emissivity coatings, gas fillings, or insulating spacers. Air Leakage and Component Certification [ ] 1 10. All joints and penetrations are caulked, gasketed, weather-stripped, or otherwise sealed. [ ] 11. Windows, doors, and skylights certified as meeting leakage requirements. [ J 12. Component R-values & U-factors labeled as certified. [ ] 13. Building entrance doors have a vestibule and equipped with closing devices. Exceptions: Buildings less than lour stories above grade, building entrances with revolving doors. Doors that open directly from a space less than 3000 sq. ff. in area Climate -Specific Requirements Coml2onent Name/Description Roof l: Attic Roof with Wood Joists Exterior Wall 1: Wood -Framed, 16" o.c. Window 1: Metal Frame with Thermal Break:Double Pane with Low-E Tinted, Fixed, SHGC 0.58 Door 1: Wood, Swinging Floor 1: Slab-On-Grade:Unheated Gross Area or Cavity Cont. Proposed Budget Perimeter -ValueR-Value U-Factor U-Factor 2400 38.0 0.0 0.027 0.034 2552 19.0 0.0 0.067 0.089 236 --- --- 0.540 0.570 63 --- --- 0.500 0.700 196 --- -- — — (a) Budget U-factors are used far software baseline calculations ONLY, and are not code requirerrents. Envelope PASSES: Design 11 % better than code Section 4: 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 Standard 90.1-1999 requirements in COMcheck-EZ Version 3.0 Release 2a and to comply with the mandatory requirements in the Requirements Checklist. c 1 etD Principal Lvelope Designer Name D e Iftle Permit # Permit Date COMcheck Software Version 3.2.1 Mechanical Compliance Certificate 2003 IECC Report Date: 09/20/06 Data filename: C:\Program Files\Check\COMcheck\Projects\Hardy.cck Section 1: Project Information Project Title: Dr Hardy Medical Office Construction Site: Owner/Agent: Designer/Contractor: Rexburg, ID 83440 Dwayne Sudweeks Engineered Systems Assoc., Inc. 315 W. Center Pocatello, ID 83204 208-233-0501 dcs®engsystems.com Section 2: General Information Building Location (for weather data): Rexburg, Idaho Climate Zone: 16 Heating Degree Days (base 65 degrees F): 8693 Cooling Degree Days (base 65 degrees F): 143 Project Type: New Construction Section 3: Mechanical Systems List Quantity System Type & Description 3 HVAC System 1: Heating: Central Furnace, Gas / Cooling: Split System, Capacity <65 kBtu/h, Air -Cooled Condenser / Single Zone 1 Storage Water Heater 1: Service Water Heater Section 4: Requirements Checklist Requirements Specific To: HVAC System 1 : ❑ 1. Newly purchased heating equipment meets the heating efficiency requirements ❑ 2. Equipment minimum efficiency: Split System: 10.0 SEER Requirements Specific To: Storage Water Heater 1 ❑ 1. Heat traps in inlet/outlet fittings ❑ 2. 1/2-in, insulation on 8 it of inlet/outlet piping if no integral heat traps ❑ 3. Gas Storage Water Heater efficiency >= 0.54 EF Generic Requirements: Must be met by all systems to which the requirement is applicable: ❑ 1. Load calculations per 2001 ASHRAE Fundamentals ❑ 2. Plant equipment and system capacity no greater than needed to meet loads - Exception: Standby equipment automatically off when pdmary system is operating - Exception: Multiple units controlled to sequence operation as a function of load ❑ 3. Minimum one temperature control device per system Page 1 of 4 ❑ 4. Minimum one humidity cont%fevice per installed humidification/dehumidification sys4mw/ ❑ 5. Thermostatic controls has 5 degrees F deadband Exception: Thermostats requiring manual changeover between heating and cooling ❑ 6. Automatic Controls: Setback to 55 degrees F (heat) and 85 degrees F (cool); 7-day clock, 2-hour occupant override, 10-hour backup Exception: Continuously operating zones Exception: 2 kW demand or less, submit calculations ❑ 7. Automatic shut-off dampers on exhaust systems and supply systems with airflow >3,000 cfm ❑ 8. Outside -air source for ventilation; system capable of reducing OSA to required minimum ❑ 9. 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 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. ❑ 10. Ducts sealed - longitudinal seams on rigid ducts; transverse seams on all ducts; UL 181 A or 181 B 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 ❑ 11. Mechanical fasteners and sealants used to connect ducts and air distribution equipment ❑ 12. Hot water pipe insulation: 1 in. for pipes <=1.5 in. and 2 in. for pipes >1.5 in. Chilled water/refrigerant/brine 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 HVAC equipment Exception: Fluid temperatures between 55 and 105 degrees F Exception: Fluid not heated or cooled Exception: Runouts <4 ft in length ❑ 13. Operation and maintenance manual provided to building owner ❑ 14. Balancing devices provided in accordance with IMC 603.15 ❑ 15. Newly purchased service water heating equipment meets the efficiency requirements ❑ 16. Water heater temperature controls: 110 degrees F for dwelling units or 90 degrees F for other occupancies (317. 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 permit application. The proposed mechanical systems have been designed to meet the 2003 IECC requirements in COMcheck Version 3.2.1 and to comply with the mandatory requirements in the Requirements Checklist. Dw a.N a S A, w eels�r�/J Principal Mechanical Designer -Name Signature I Date Page 2 of 4 COMcheck Software Version 3.2.1 Mechanical Requirements Description 2003 IECC Report Date: Data filename: C:\Program Files\Check\COMcheck\Projects\Hardy.cck The following list provides more detailed descriptions of the requirements in Section 4 of the Mechanical Compliance Certificate. Requirements Specific To: HVAC System 1 : 1. The specified heating equipment is covered by Federal minimum efficiency requirements. New equipment of this type can be assumed to meet or exceed ASHRAE 90.1 Code requirements for equipment efficiency. 2. The specified heating and/or cooling equipment is covered by ASHRAE 90.1 Code and must meet the following minimum efficiency: Split System: 10.0 SEER Requirements Specific To: Storage Water Heater 1 : 1. Heat traps are required on noncirculating water heating systems on both inlet and outlet connections. Heat traps may be purchased or field -fabricated by creating a loop or inverted U-shaped arrangement on the inlet and outlet pipes. 2. Pipe insulation for the specified noncirculating service hot water system is required for all piping in the following categodes:a) the first 8 It of outlet piping from any constant -temperature, noncirculating storage systemb) the inlet piping between the storage tank and a heat trap in a noncirculating storage systemPipe insulation must be at least 1/2 in. and have a conductivity no>0.28 Btu-in/(h-ft2-degrees F). 3. Service water heating equipment used solely for heating potable water, pool heaters, and hot water storage tanks must meet the following miniumum efficiency: Gas Storage Water Heater efficiency >= 0.54 EF 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 in the ASHRAE 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 criteriwa) 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 Btu/h) or less. 7. Outdoor -air 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 of Page 3 of 4 reducing outdoor -air flow to thiimurn required levels. `fir/ 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 R-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 181 B. - 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 <=1 1/2-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 <=1 1/2-in. nominal diameter 1 1/2 in. insulation for pipes >1 1/2-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 HVAC coil. 13. Operation and maintenance documentation must be provided to the owner that includes at least the following information: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 -determined set points must be permanently 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, terminal devices, and supply air diffusers. 15. Service water heating equipment must meet minimum Federal efficiency requirements included in the National Appliance Energy Conservation Act and the Energy Policy Act of 1992, which meet or exceed ASHRAE 90.1 Code. New service water heating equipment can be assumed to meet these requirements. 16. Water -heating equipment must be provided with controls that allow the user to set the water temperature to 110 degrees F for dwelling units and 90 degrees F for other occupancies. Controls must limit output temperatures of lavatories in public facility restrooms to 110 degrees F. 17. 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. Page 4 of 4