HomeMy WebLinkAboutCompliance Certificatesv.._.......- .....~._...~.r.e,ഀ
tഀ
CCLO ;AD0 !NlSPECTIONഀ
AGENCYഀ
COMcheck Software Version 3.2,0ഀ
2004 IECCഀ
Permit #ഀ
Permit Dateഀ
Lighting Compliance Certificateഀ
Report Date: 04/05/06ഀ
Data filename: P:\2001-134-03\ADMIN\Elec_A\Schedules\Building E - Residences\Bldg-E-Whole Building-mtv.cckഀ
Section 1: Project Informationഀ
Project Title: Vail's Front Door Building E - The Chaletsഀ
Construction Site:ഀ
Vail, CO 81620ഀ
Owner/Agent:ഀ
Vail Resorts Development Companyഀ
137 Benchmark Roadഀ
Avon, CO 81620ഀ
Section 2: General Informationഀ
Building Use Description by: Activity Typeഀ
Project Type: New Constructionഀ
Activity Tyoe(slഀ
Corridor, Restroom, Support Areaഀ
Storage, Industrial and Commercialഀ
Otherഀ
Section 3: Requirements Checklistഀ
Interior Lighting:ഀ
Floor Areaഀ
759ഀ
4414ഀ
12626ഀ
❑ 1. Total actual watts must be less than or equal to total allowed watts.ഀ
Allowed Watts Actual Watts Compliesഀ
16840 11234 YESഀ
Exterior Lighting:ഀ
• 6 ~y{ r'~,'gtw~ഀ
il~/✓i : -4ഀ
{/1•. 00.00•ഀ
, ('7011 ALഀ
APRtഀ
❑ 2. Efficacy greater than 45 lumens/W.ഀ
Exceptions:ഀ
Specialized lighting highlighting features of historic buildings; signage; safety or security lighting; low-voltage landscapeഀ
lighting.ഀ
Controls, Switching, and Wiring:ഀ
❑ 3. 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.ഀ
❑ 4. Master switch at entry to hotel/motel guest room.ഀ
❑ 5. Individual dwelling units separately metered.ഀ
❑ 6. 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;ഀ
Designer/Contractor:ഀ
Marcus Vahlingഀ
ABS Consultants Inc.ഀ
1530 16th Street Suite 400ഀ
Denver, CO 80202ഀ
R~ഀ
- Rഀ
Page 1 of 3ഀ
The area is a corridor, storeroom, restroom, public lobby or guest room;ഀ
Areas that use less than 0.6 Watts/sq.ft.ഀ
❑ 7. Automatic lighting shutoff control in buildings larger than 5,000 sq.ft.ഀ
❑ 8. Photocell/astronomical time switch on exterior lights.ഀ
Exceptions:ഀ
Lighting intended for 24 hour use.ഀ
❑ 9. 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 Statementഀ
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 toഀ
meet the 2004 IECC, Chapter 8, requirements in COMc ck Version 3.2.0 and to comply with the mandatory requirements in theഀ
Requirements Checklist.ഀ
rincipal Lighting Designer-Name L`kgnain~ ` ( % Dateഀ
Page 2 of 3ഀ
Permit #ഀ
Permit Dateഀ
COMcheck Software Version 3.2.0ഀ
86/11' Lighting Application Worksheetഀ
2004 IECCഀ
Report Date:ഀ
Data filename: P:\2001-134-03WDMIN\Elec_A\Schedules\Building E - Residences\Bldg-E-Whole Building-mtv.cckഀ
Section 1: Allowed Lighting Power Calculationഀ
Aഀ
Bഀ
Cഀ
Dഀ
Area Categoryഀ
Floor Areaഀ
Allowedഀ
Allowed Wattsഀ
(ft2)ഀ
Watts / ft2ഀ
(B x C)ഀ
Corridor, Restroom, Support Areaഀ
759ഀ
0.9ഀ
683ഀ
Storage, Industrial and Commercialഀ
4414ഀ
0.8ഀ
3531ഀ
Otherഀ
12626ഀ
1ഀ
12626ഀ
Total Allowed Watts = 16840ഀ
Section 2: Actual Lighting Power Calculationഀ
Aഀ
Bഀ
Cഀ
Dഀ
Eഀ
Fixture ID : Description / Lamp / Wattage Per Lamp / Ballastഀ
Lamps/ഀ
# ofഀ
Fixtureഀ
(C X D)ഀ
Fixtureഀ
Fixturesഀ
Watt.ഀ
Compact Fluorescent 1: B: 6" DOWNLIGHT / Triple 4-pin 32W / Electronicഀ
1ഀ
32ഀ
35ഀ
1120ഀ
T8 / T12 Fluorescent 1: F: 4' SURFACE / 48" T8 32W / Electronicഀ
2ഀ
1ഀ
64ഀ
64ഀ
T8 / T12 Fluorescent 2: FE: 4' SURFACE W/ EM / 48" T8 32W / Electronicഀ
2ഀ
2ഀ
64ഀ
128ഀ
T8 / T12 Fluorescent 3: F8: 8' TANDEM STRIP / 48" T8 32W / Electronicഀ
4ഀ
13ഀ
128ഀ
1664ഀ
T8 / T12 Fluorescent 4: F8E: 8' TANDEM STRIP W/ EM / 48" T8 32W / Electronicഀ
4ഀ
7ഀ
128ഀ
896ഀ
Incandescent 1: EP: ELEV PIT / Incandescent 60Wഀ
1ഀ
13ഀ
60ഀ
780ഀ
T8 / T12 Fluorescent 5: S4: 4' STRIP / 48" T8 32W / Electronicഀ
2ഀ
3ഀ
64ഀ
192ഀ
T8 / T12 Fluorescent 6: S8: 8' TANDEM STRIP / 48" T8 32W / Electronicഀ
4ഀ
21ഀ
128ഀ
2688ഀ
T8 / T12 Fluorescent 7: S8E: 8' TANDEM STRIP W/ EM / 48'T8 32W / Electronicഀ
4ഀ
1ഀ
128ഀ
128ഀ
T8 / T12 Fluorescent 8: ST: 4' UP/DN WALL / 48" T8 32W / Electronicഀ
2ഀ
16ഀ
64ഀ
1024ഀ
HID 1: A: Garage Luminaire / Metal Halide 15OW / Electronicഀ
1ഀ
15ഀ
170ഀ
2550ഀ
Total Actual Watts =ഀ
11234ഀ
Section 3: Compliance Calculationഀ
If the Total Allowed Watts minus the Total Actual Watts is greater than or equal to zero, the building complies.ഀ
Total Allowed Watts = 16840ഀ
Total Actual Watts = 11234ഀ
Project Compliance = 5606ഀ
Lighting PASSES: Design better than code.ഀ
Page 3 of 3ഀ
REVIEWED .ഀ
~Jഀ
jUL 10 =ഀ
COഀ
AGഀ
COMcheck Software Version 3.1 Release 1ഀ
Permit #ഀ
Permit Dateഀ
Envelope Compliance Certificateഀ
2003 IECCഀ
Report Date: 04/05/06ഀ
Data filename: P:\2001-134-03\ADMIN\Mech A\Elite\Residences-Garage.cckഀ
Section 1: Project Informationഀ
Project Title: Vail's Front Door - The Chalets at the Lodge at Vail - Garageഀ
Construction Site: Owner/Agent: Designer/Contractor:ഀ
Vail, CO Vail Resorts Development Company Jay Watsonഀ
ABS Consultants, Inc.ഀ
1530 16th Street, Suite 400ഀ
Denver, CO 80202ഀ
303-623-6200ഀ
Section 2: General Informationഀ
Building Location (for weather data): Vail, Coloradoഀ
Climate Zone: 15ഀ
Heating Degree Days (base 65 degrees F): 9248ഀ
Cooling Degree Days (base 65 degrees F): 44ഀ
Project Type: New Constructionഀ
Glazing Area Percentage: 0%ഀ
Building Tvgeഀ
Parking Garageഀ
Floor Areaഀ
19456ഀ
Section 3: Requirements Checklistഀ
'Envelope PASSES: Design 7/,, better than code.ഀ
Climate-Specific Requirements:ഀ
Component Name/Descriptionഀ
Gross Area Cavityഀ
or R-Valueഀ
Perimeterഀ
Cont.ഀ
R-Valueഀ
Proposedഀ
U-Factorഀ
Budgetഀ
U-Factorഀ
Roof 1: Structural Slabഀ
7811 -ഀ
24.0ഀ
0.040ഀ
0.045ഀ
Comments: Areas with foam or insulation above.ഀ
Exterior Wall 1: Solid Concrete or Masonry > 8", Furring: Noneഀ
870 -ഀ
13.3ഀ
0.064ഀ
0.064ഀ
Door 1: Overheadഀ
162 -ഀ
-ഀ
0.200ഀ
0.108ഀ
Door 2: Solidഀ
42 -ഀ
-ഀ
0.200ഀ
0.108ഀ
Basement Wall 1: Solid Concrete or Masonry - 8", Furring: None,ഀ
300 -ഀ
1.0ഀ
0.424ഀ
0.087ഀ
Wall Ht 10.0, Depth B.G. 10.0ഀ
Comments: All walls more than 10' below grade were ignored perഀ
COMcheck.ഀ
Floor 1: Slab-On-Grade: Unheated, Horizontal 4 ft.ഀ
58 -ഀ
15.0ഀ
-ഀ
ഀ
(a) Budget U-factors are used for software baseline calculations ONLY, and are not code requirements.ഀ
Air Leakage, Component Certification, and Vapor Retarder Requirements:ഀ
❑ 1. All joints and penetrations are caulked, gasketed, weather-stripped, or otherwise sealed.ഀ
❑ 2. Windows, doors, and skylights certified as meeting leakage requirements.ഀ
Vail's Front Door - The Chalets at the Lodge at Vail - Garage Page 1 of 6ഀ
❑ 3. Component R-values & U-factors labeled as certified.ഀ
❑ 4. Stair, elevator shaft vents, and other dampers integral to the building envelope are equipped with motorized dampers.ഀ
❑ 5. Cargo doors and loading dock doors are weather sealed.ഀ
❑ 6. Recessed lighting fixtures are: (i) Type IC rated and sealed or gasketed; or (ii) installed inside an appropriate air-tightഀ
assembly with a 0.5 inch clearance from combustible materials and with 3 inches clearance from insulation material.ഀ
❑ 7. Building entrance doors have a vestibule and equipped with closing devices.ഀ
Exceptions:ഀ
Building entrances with revolving doors.ഀ
Doors that open directly from a space less than 3000 sq. ft. in area.ഀ
❑ 8. Vapor retarder installed.ഀ
Section 4: Compliance Statementഀ
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 toഀ
meet the 2003 IECC requirements in COMcheck Version 3.1 Release 1 and to comply with the mandatory requirements in theഀ
Requirements Checklist.ഀ
Principal Envelope Designer-Name Signature Dateഀ
Project Notes:ഀ
Note: Calculation was separated from the Residences set because "Multifamily" was notഀ
available as an option when the "Area Category" method was selected.ഀ
Vail's Front Door - The Chalets at the Lodge at Vail - Garage Page 2 of 6ഀ
Permit #ഀ
Permit Dateഀ
COMcheck Software Version 3.1 Release 1ഀ
Mechanical Compliance Certificateഀ
2003 IECCഀ
Report Date: 04/05/06ഀ
Data filename: P:\2001-134-03\ADMIN\Mech_A\Elite\Residences-Garage.cckഀ
Section 1: Project Informationഀ
Project Title: Vail's Front Door - The Chalets at the Lodge at Vail - Garageഀ
Construction Site:ഀ
Vail, COഀ
Owner/Agent:ഀ
Vail Resorts Development Companyഀ
Designer/Contractor:ഀ
Jay Watsonഀ
ABS Consultants, Inc.ഀ
1530 16th Street, Suite 400ഀ
Denver, CO 80202ഀ
303-623-6200ഀ
jwatson@absconsultants.comഀ
Section 2: General Informationഀ
Building Location (for weather data): Vail, Coloradoഀ
Climate Zone: 15ഀ
Heating Degree Days (base 65 degrees F): 9248ഀ
Cooling Degree Days (base 65 degrees F): 44ഀ
Project Type: New Constructionഀ
Section 3: Mechanical Systems Listഀ
Quantity System Tyne & Descriptionഀ
23 HVAC System 1: Heating: Unit Heater, Hot Waterഀ
1 HVAC System 2: Heating: Other, Electric / Single Zoneഀ
1 Plant 1: Heating: Hot Water Boiler, Capacity >=600 kBtu/h, Gasഀ
Section 4: Requirements Checklistഀ
Requirements Specific To: HVAC System 1 :ഀ
❑ 1. Balancing and pressure test connections on all hydronic terminal devicesഀ
Requirements Specific To: HVAC System 2:ഀ
Requirements Specific To: Plant 1 :ഀ
❑ 1. Equipment minimum efficiency: Boiler Thermal Efficiency 75% Etഀ
❑ 2. Newly purchased heating equipment meets the efficiency requirements - used equipment must meet 80% Et @ maximumഀ
capacityഀ
❑ 3. Systems with multiple boilers have automatic controls capable of sequencing boiler operationഀ
❑ 4. Hydronic heating systems comprised of a single boiler and >500 kBtu/h input design capacity include either a multistaged orഀ
modulating burnerഀ
Generic Requirements: Must be met by all systems to which the requirement is applicable:ഀ
❑ 1. Load calculations per 1997 ASHRAE Fundamentalsഀ
❑ 2. Plant equipment and system capacity no greater than needed to meet loadsഀ
Vail's Front Door - The Chalets at the Lodge at Vail - Garage Page 3 of 6ഀ
Exception: Standby equipment automatically off when primary system is operatingഀ
Exception: Multiple units controlled to sequence operation as a function of loadഀ
❑ 3. Minimum one temperature control device per systemഀ
❑ 4. Minimum one humidity control device per installed humidification/dehumidification systemഀ
❑ 5. Automatic Controls: Setback to 55 degrees F (heat) and 85 degrees F (cool); 7-day clock, 2-hour occupant override, 10-hourഀ
backupഀ
- Exception: Continuously operating zonesഀ
- Exception: 2 kW demand or less, submit calculationsഀ
❑ 6. Automatic shut-off dampers on exhaust systems and supply systems with airflow, >3,000 cfmഀ
❑ 7. Outside-air source for ventilation; system capable of reducing OSA to required minimumഀ
❑ 8. R-5 supply and return air duct insulation in unconditioned spaces R-8 supply and return air duct insulation outside theഀ
building R-8 insulation between ducts and the building exterior when ducts are part of a building assemblyഀ
- Exception: Ducts located within equipmentഀ
- Exception: Ducts with interior and exterior temperature difference not exceeding 15 degrees F.ഀ
❑ 9. Ducts sealed - longitudinal seams on rigid ducts; transverse seams on all ducts; UL 181A or 181 B tapes and masticsഀ
- Exception: Continuously welded and locking-type longitudinal joints and seams on ducts operating at staticഀ
pressures less than 2 inches w.g. pressure classificationഀ
❑ 10. Mechanical fasteners and sealants used to connect ducts and air distribution equipmentഀ
❑ 11. 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: 1ഀ
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 >1.5ഀ
in.ഀ
- Exception: Piping within HVAC equipmentഀ
- Exception: Fluid temperatures between 55 and 105 degrees Fഀ
- Exception: Fluid not heated or cooledഀ
- Exception: Runouts <4 ft in lengthഀ
❑ 12. Operation and maintenance manual provided to building ownerഀ
❑ 13. Balancing devices provided in accordance with IMC 603.15ഀ
❑ 14. Hot water distribution systems >=600 kBtu/h must have one of the following: a) controls that reset supply water temperatureഀ
by 25% of supply/retum delta T b) mechanical or electrical adjustable-speed pump drive(s) c) two-way valves at all heatingഀ
coils d) multiple-stage pumps e) other system controls that reduce pump flow by at least 50% based on load - calculationsഀ
requiredഀ
❑ 15. Hot water distribution systems -300 kBtu/h must have one of the following: a) controls that reset supply water temperatureഀ
by 25% of supply/return delta T b) mechanical or electrical adjustable-speed pump drive(s) c) two-way valves at all heatingഀ
coils d) multiple-stage pumps e) other system controls that reduce pump flow by at least 50% based on load - calculationsഀ
requiredഀ
❑ 16. Stair and elevator shaft vents are equipped with motorized dampersഀ
❑ 17. Three-pipe systems not usedഀ
Section 5: Compliance Statementഀ
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 designedഀ
to meet the 2003 IECC requirements in COMcheck Version 3.1 Release 1 and to comply with the mandatory requirements in theഀ
Requirements Checklist.ഀ
n ln.~a , q' Gt1u f o _ഀ
Principal Me hanical Designer-Name Signature Dateഀ
Vail's Front Door - The Chalets at the Lodge at Vail - Garage Page 4 of 6ഀ
COMcheck Software Version 3.1 Release 1ഀ
Mechanical Requirementsഀ
Descriptionഀ
2003 IECCഀ
Report Date:ഀ
Data filename: P:\2001-134-03\ADMIN\Mech_A\Elite\Residences-Garage.cckഀ
The following list provides more detailed descriptions of the requirements in Section 4 of the Mechanical Compliance Certificate.ഀ
Requirements Specific To: HVAC System 1ഀ
Hydronic heating and cooling coils must be equipped with a way to pressure test connections and measure and balance waterഀ
flow and pressure.ഀ
Requirements Specific To: HVAC System 2:ഀ
Requirements Specific To: Plant 1 :ഀ
1. The specified heating and/or cooling equipment is covered by the ASHRAE 90.1 Code and must meet the following minimumഀ
efficiency: Boiler Thermal Efficiency - 75% Etഀ
2. The specified heating equipment is covered by Federal minimum efficiency requirements. New equipment of this type can beഀ
assumed to meet or exceed ASHRAE 90.1 Code requirements for equipment efficiency. Used equipment must meet 80% Etഀ
@ maximum capacity.ഀ
3. Systems with multiple boilers have automatic controls capable of sequencing the operation of the boilers.ഀ
4. Hydronic heating systems comprised of a single boiler and >500 kBtu/h input design capacity include either a multistaged orഀ
modulating burner.ഀ
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 27ഀ
and 28 of 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 equipmentഀ
providing both heating and cooling must satisfy this provision for one function with the capacity for the other function as smallഀ
as possible, within available equipment options.ഀ
Exception: The equipment and/or system capacity may be greater than calculated loads for standby purposes. Standbyഀ
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 allowedഀ
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. 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 ofഀ
automatically setting back or shutting down systems during unoccupied hours using 7 different day schedulesc) have anഀ
accessible 2-hour occupant overrided) have a battery back-up capable of maintaining programmed settings for at least 10ഀ
hours without power.ഀ
- Exception: A setback or shutoff control is not required on thermostats that control systems serving areas that operateഀ
continuously.ഀ
- Exception: A setback or shutoff control is not required on systems with total energy demand of 2 kW (6,826 Btu/h) orഀ
less.ഀ
6. Outdoor-air supply systems with design airflow rates >3,000 cfm of outdoor air and all exhaust systems must have dampersഀ
that are automatically closed while the equipment is not operating.ഀ
7. The system must supply outside ventilation air as required by Chapter 4 of the International Mechanical Code. If the ventilationഀ
system is designed to supply outdoor-air quantities exceeding minimum required levels, the system must be capable ofഀ
reducing outdoor-air flow to the minimum required levels.ഀ
8. Air ducts must be insulated to the following levels:a) Supply and return air ducts for conditioned air located in unconditionedഀ
spaces (spaces neither heated nor cooled) must be insulated with a minimum of R-5. Unconditioned spaces include attics,ഀ
Vail's Front Door - The Chalets at the Lodge at Vail - Garage Page 5 of 6ഀ
crawl spaces, unheated basements, and unheated garages.b) Supply and return air ducts and plenums must be insulated to aഀ
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 theഀ
duct or plenum does not exceed 15 degrees F.ഀ
9. 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 beഀ
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 pressuresഀ
less than 2 inches w.g. pressure classification.ഀ
10. Mechanical fasteners and seals, mastics, or gaskets must be used when connecting ducts to fans and other air distributionഀ
equipment, including multiple-zone terminal units.ഀ
11. All pipes serving space-conditioning systems must be insulated as follows: Hot water piping for heating systems: 1 in. for pipesഀ
<=1 1/2-in. nominal diameter 2 in. for pipes >1 1/2-in. nominal diameter. Chilled water, refrigerant, and brine piping systems: 1ഀ
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: 1ഀ
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 rangeഀ
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 theഀ
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 theഀ
control valve and HVAC coil.ഀ
12. 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 sequenceഀ
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.ഀ
13. Each supply air outlet or diffuser and each zone terminal device (such as VAV or mixing box) must have its own balancingഀ
device. Acceptable balancing devices include adjustable dampers located within the ductwork, terminal devices, and supply airഀ
diffusers.ഀ
14. Hot water distribution systems with total system capacities of 600 kBtu/h and greater must have controls that:a) automaticallyഀ
reset the hot water supply temperature, based on heating load, by at least 25% of the design supply-to-return waterഀ
temperature difference orb) reduce pump flow by at least 50% of design flow rate by using- adjustable-speed drive(s) onഀ
pump(s} multiple-stage pumps allowing at least 1/2 of the total pump horsepower to be automatically turned off- control valvesഀ
designed to modulate or step down and close as a function of load- other approved means (supporting documentation orഀ
calculations must be submitted).ഀ
15. Hot water space-heating systems with a capacity exceeding 300 kBtu/h supplying heated water to comfort conditioningഀ
systems must include controls that automatically reset supply water temperatures by representative building loads (includingഀ
return water temperature) or by outside air temperature. Exceptions: - Where the supply temperature reset controls cannot beഀ
implemented without causing improper operation of heating, cooling, humidification, or dehumidification systems. - Hydronicഀ
systems that use variable flow to reduce pumping energy.ഀ
16. Stair and elevator shaft vents must be equipped with motorized dampers capable of being automatically closed during normalഀ
building operation and interlocked to open as required by fire and smoke detection systems. All gravity outdoor air supply andഀ
exhaust hoods, vents, and ventilators must be equipped with motorized dampers that will automatically shut when the spacesഀ
served are not in use. Exceptions: - Gravity (non-motorized) dampers are acceptable in buildings less than three stories inഀ
height above grade. - Ventilation systems serving unconditioned spaces.ഀ
17. Hydronic systems that use a common return system for both hot water and chilled water must not be used.ഀ
Vail's Front Door - The Chalets at the Lodge at Vail - Garage Page 6 of 6ഀ
Page 1 of 1ഀ
Bob Potzerഀ
From: Bob Potzerഀ
Sent: Wednesday, April 05, 2006 10:55 AMഀ
To: 'Ginger Jones'; 'Stanley Turnerഀ
Cc: Marcus Vahling; Tom Torzewskiഀ
Attachments: M102_BIND.dwgഀ
Ginger/Stanley,ഀ
Attached is the first floor drawing.ഀ
Here is what we have for the generator so far. Exact room size and layout will change as we coordinate but atഀ
least you have an idea. The exterior wall louver must be a minimum of 50 square feet total area since the newഀ
generator is so much larger. The location of the fan SFP-2 will move north to over the ramp. We will also have toഀ
coordinate the intake opening for the generator room and how we route it to the west edge of the building if theഀ
city requires that. David Solomon was dealing with that issue.ഀ
We need to know if we can route the tall duct as shown based on your current structural and ceiling heights.ഀ
Call with any questions or comment.ഀ
Robert A. Potzer, Mechanical Project Managerഀ
ABS Consultants, Inc.ഀ
1530 16th Street, Suite 400ഀ
Denver, Colorado 80202ഀ
.p)303.623.6200 .f)303.623.8435 e) Rpotzer ambsconsultants.comഀ
www.absconsultants.comഀ
4/5/2006ഀ
Vails Front Doorഀ
HVAC Load Analysisഀ
forഀ
Vail Resorts Development Companyഀ
I~fഀ
itഀ
18 86Mഀ
COMMRCIAL.ഀ
CHVAC. i i A Loeഀ
Prepared By:ഀ
ABSഀ
Wednesday, April 05, 2006ഀ
Chvac - Full Commercial HVA_ Loads Calculation Pr ram T Elite Software D p nt, Inc.ഀ
_ - -ഀ
ABS Consultants Inc Vഀ
,.Denver, CQ,=30204"~1464 ans Front Door ,ഀ
- - Page 2_fഀ
- -ഀ
General Project Data Inputഀ
neral Protect_1n~'t~rrnabon - - zഀ
- 1 N Tഀ
Project file name: P:\2001-134-03WDMIN\Mech A\Elite\Residences.CHVഀ
Project title:ഀ
Project date:ഀ
Weather reference city:ഀ
Client name:ഀ
Company name:ഀ
Barometric pressure:ഀ
Altitude:ഀ
Latitude:ഀ
Mean daily temperature range:ഀ
Starting & ending time for HVAC load calculations:ഀ
Number of unique zones in this project:ഀ
Vails Front Doorഀ
Wednesday, October 05, 2005ഀ
EAGLE, COLORADO, USAഀ
Vail Resorts Development Companyഀ
ABSഀ
23.496ഀ
in.Hg.ഀ
6539ഀ
feetഀ
40ഀ
Degreesഀ
36.1ഀ
Degreesഀ
lam - 12amഀ
27ഀ
Au: 1tnr~Default V&1~S w fi'r" aഀ
Calculations performed:ഀ
Both heating and cooling loadsഀ
Lighting requirements:ഀ
1.00ഀ
Watts per square footഀ
Equipment requirements:ഀ
0.50ഀ
Watts per square footഀ
People sensible load multiplier:ഀ
245ഀ
Btuh per personഀ
People latent load multiplier:ഀ
155ഀ
Btuh per personഀ
Zone sensible safety factor:ഀ
10ഀ
ovaഀ
Zone latent safety factor:ഀ
10ഀ
%ഀ
Zone heating safety factor:ഀ
20ഀ
ovaഀ
People diversity factor:ഀ
100ഀ
%ഀ
Lighting profile number:ഀ
0ഀ
Equipment profile number:ഀ
0ഀ
People profile number:ഀ
0ഀ
Building default ceiling height:ഀ
9.00ഀ
feetഀ
Building default wall height:ഀ
1ഀ
0.00ഀ
feetഀ
n rnal Q rain Laadrഀ
Aഀ
"4ഀ
-ഀ
hr hr hr hr hrഀ
1 2 3 4 5ഀ
hrഀ
6ഀ
hrഀ
7ഀ
hrഀ
8ഀ
hrഀ
9ഀ
hrഀ
10ഀ
hrഀ
11ഀ
hrഀ
12ഀ
hrഀ
13ഀ
hrഀ
14ഀ
hrഀ
15ഀ
hrഀ
16ഀ
hrഀ
17ഀ
-hr hr hr hrഀ
18 19 20 21ഀ
hrഀ
22ഀ
hrഀ
23ഀ
hrഀ
24ഀ
1 C C C C Cഀ
2 C C C C cഀ
Cഀ
Cഀ
Cഀ
cഀ
Cഀ
cഀ
Cഀ
cഀ
Cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
cഀ
Cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
C c c cഀ
c c c Cഀ
cഀ
Cഀ
Cഀ
Cഀ
cഀ
Cഀ
3 C C C C Cഀ
4 C C c c Cഀ
Cഀ
Cഀ
Cഀ
cഀ
Cഀ
cഀ
Cഀ
Cഀ
cഀ
Cഀ
cഀ
Cഀ
cഀ
Cഀ
cഀ
Cഀ
cഀ
cഀ
Cഀ
cഀ
Cഀ
cഀ
Cഀ
cഀ
C C C Cഀ
c c C Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
5 C C C C cഀ
6 C C C C cഀ
Cഀ
cഀ
Cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
cഀ
Cഀ
cഀ
cഀ
cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
cഀ
Cഀ
cഀ
cഀ
C C C cഀ
c C c cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
7 C C C c cഀ
8 C C C C Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
cഀ
Cഀ
cഀ
Cഀ
cഀ
Cഀ
cഀ
Cഀ
cഀ
Cഀ
Cഀ
Cഀ
C c c cഀ
c C C Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
9 C C C C Cഀ
10, C C C C Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
cഀ
Cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
cഀ
c c C Cഀ
c C C Cഀ
cഀ
Cഀ
cഀ
Cഀ
cഀ
Cഀ
P:\2001-134-03WDMIN\Mech A\Elite\Residences.CHV Wednesday, April 05, 2006, 9:01 AMഀ
Chvac - Full Com rc al HVAC Loads Calcuiation Proq mഀ
ABS Consultants, Inaഀ
- - - -ഀ
-41ഀ
Eli Soft afe Develovment, Incaഀ
Vads Front Doorഀ
Denver, CO 80202-1464ഀ
- -ഀ
ഀ
Page 3ഀ
3ഀ
General Project Data Input (cont'd)ഀ
Bukldin (.:t?v~l E2es' n Gand`ltiar`isഀ
-ഀ
rഀ
'ഀ
-ഀ
Design Outdoor Outഀ
doorഀ
Indoorഀ
Indoorഀ
Grainsഀ
In/Outdoorഀ
Month Dry Bulb Wet Bulbഀ
Rel.Humഀ
Dry Bulbഀ
Diffഀ
Correctionഀ
August 86 57ഀ
50%ഀ
72ഀ
-32.38ഀ
-11ഀ
Winter -20ഀ
75ഀ
LMaster Rboftഀ
Roof ASHRAEഀ
Roofഀ
Darkഀ
Susp.ഀ
No. Roof#ഀ
U-Facഀ
Colorഀ
Ceilഀ
1 10ഀ
0.030ഀ
Noഀ
Noഀ
.ഀ
' x1 -ഀ
aP7ഀ
1ഀ
_ഀ
Waഀ
_ഀ
ASHRAEഀ
Wallഀ
- Wallഀ
fഀ
No. Groupഀ
U-Facഀ
Colorഀ
1 Gഀ
0.050ഀ
Dഀ
kഀ
Tഀ
s-G-ഀ
Glass Summer Winterഀ
Glassഀ
Interiorഀ
Interiorഀ
No. U-Factor U-Factorഀ
Shd.Coef.ഀ
Shadingഀ
Shd Coefഀ
1 0.450 0.450ഀ
0.350ഀ
3ഀ
0.000ഀ
P:\2001-134-03\ADMIN\Mech A\Elite\Residences.CHV Wednesday, April 05, 2006, 9:01 AMഀ
lChV2C -Full Commercial HVAC Loads Calculation Programഀ
ABS Consuttants,;tnc.ഀ
,Denver, CO 80242-1464ഀ
wilding Envelope Reportഀ
Envelo e ? Re art Usin~t~mmer U-r=actorsഀ
qy E _ഀ
Materiel;` 'Gross, Gas NetM=:ഀ
des Area" Area `Areaഀ
Wall 1 10,516.0 1,709.0 8,807.0ഀ
Tot.Wall 10,516.0 1,709.0 8,807.0ഀ
Glass 1 1,709.0 N/A 1,709.0ഀ
Tot.Glass 1,709.0 N/A 1,709.0ഀ
-ഀ
Totals 10,516.0ഀ
. Wa 1~ Glass a i~lഀ
- A Area AI`eaഀ
Elite Software Development, Inc.ഀ
Vails Front Doorഀ
Page 4 iiഀ
s -ഀ
~iJ ~1Area x Averageഀ
;Factor -Facfor U Factorഀ
0.050 440.350 0.050ഀ
N/A 440.350 0.050ഀ
0.450 769.050 0.450ഀ
N/A 769.050 0.450ഀ
_ഀ
1,209.400 0.115ഀ
Via{ vg N i A`V! G ~ sഀ
U-, ~a~cr _ l~Ffd~ - aഀ
N 2,660.0ഀ
247.5ഀ
2,412.5ഀ
0.050ഀ
0.450ഀ
0.350ഀ
NE 210.0ഀ
84.0ഀ
126.0ഀ
0.050ഀ
0.450ഀ
0.350ഀ
E 3,161.0ഀ
873.5ഀ
2,287.5ഀ
0.050ഀ
0.450ഀ
0.350ഀ
SE 210.0ഀ
84.0ഀ
126.0ഀ
0.050ഀ
0.450ഀ
0.350ഀ
S 2,280.0ഀ
152.5ഀ
2,127.5ഀ
0.050ഀ
0.450ഀ
0.350ഀ
SW 70.0ഀ
31.0ഀ
39.0ഀ
0.050ഀ
0.450ഀ
0.350ഀ
W 1,885.0ഀ
215.5ഀ
1,669.5ഀ
0.050ഀ
0.450ഀ
0.350ഀ
NW 40.0ഀ
- - - - -ഀ
21.0ഀ
-ഀ
19.0ഀ
0.050ഀ
0.450ഀ
0.350ഀ
Totals 10,516.0ഀ
1,709.0ഀ
-ഀ
8,807.0ഀ
ഀ
0.050ഀ
- -ഀ
0.450ഀ
0.350ഀ
P:\2001-134-03WDMIN\Mech_A\Elite\Residences.CHV Wednesday, April 05, 2006, 9:01 AMഀ
Chvac --Fu-11 Commercial HVAC Loads Calculation Programഀ
ABS Consultants; Inc.ഀ
Denver CO 80202-1464ഀ
- -ഀ
Building Summary Loadsഀ
Building peaks in August at 3pm.ഀ
EI Software Development, Inc.ഀ
Vails Front Doorഀ
t Dodo 5_ഀ
-ഀ
I Bffg Oaf Area Senഀ
.%Totഀ
Latഀ
Sehഀ
- Netഀ
%Nefഀ
IDescnptlans` . .,Quart Lass _ഀ
rഀ
Lostഀ
Gainഀ
trtഀ
Gaഀ
W "Gainഀ
Galinഀ
Roof 0 0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0ഀ
00ഀ
Wall 8,807 50,200ഀ
15.24ഀ
0ഀ
12,559ഀ
12,559ഀ
.ഀ
7.74ഀ
Glass 1,709 87,672ഀ
26.62ഀ
0ഀ
41,174ഀ
41,174ഀ
25.37ഀ
Floor Slab 0 0ഀ
ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Skin Loads 137,872ഀ
41.87ഀ
0ഀ
53,733ഀ
53,733ഀ
33.10ഀ
Lighting 12,995 0ഀ
0.00ഀ
0ഀ
48,775ഀ
48,775ഀ
30.05ഀ
Equipment 6,498 0ഀ
0.00ഀ
0ഀ
24,387ഀ
24,387ഀ
15.02ഀ
People 26 0ഀ
0.00ഀ
0ഀ
7,004ഀ
7,004ഀ
4.32ഀ
Partition 0 0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Cool. Pret. 0 0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Heat. Pret. 0 0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0ഀ
00ഀ
Cool. Vent. 0 0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
.ഀ
0ഀ
00ഀ
Heat. Vent. 0 0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
.ഀ
0ഀ
00ഀ
Cool.lnfil. 1,980 0ഀ
0.00ഀ
0ഀ
26,338ഀ
26,338ഀ
.ഀ
16.23ഀ
Heat.lnfil. 1,980 191,427ഀ
58.13ഀ
0ഀ
0ഀ
0ഀ
0ഀ
00ഀ
Draw-Thru Fan 0 0ഀ
0.00ഀ
0ഀ
2,082ഀ
2,082ഀ
.ഀ
1.28ഀ
Blow-Thru Fan 0 0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0ഀ
00ഀ
Reserve Cap. 0 0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
.ഀ
0ഀ
00ഀ
Reheat Cap. 0. 0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
.ഀ
0ഀ
00ഀ
Supply Duct 0 0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
.ഀ
0.00ഀ
Return Duct 0 0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0ഀ
00ഀ
Misc. Supply 0 0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
.ഀ
0ഀ
00ഀ
Misc...._Return 0 0ഀ
_ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
.ഀ
0.00ഀ
Building Totals 329,299 1ഀ
-ഀ
ഀ
00.00ഀ
ഀ
ഀ
-ഀ
ഀ
0 162,320ഀ
ഀ
ഀ
162,320ഀ
- _ഀ
100.00ഀ
ഀ
alഀ
Ventilation 0 0.00ഀ
0ഀ
0ഀ
0ഀ
.ഀ
0ഀ
00ഀ
Infiltration 191,427 58.13ഀ
0ഀ
26,338ഀ
26,338ഀ
.ഀ
16ഀ
23ഀ
Pretreated Air 0 0.00ഀ
0ഀ
0ഀ
0ഀ
.ഀ
0ഀ
00ഀ
Zone Loads 137,872 41.87ഀ
0ഀ
133,900ഀ
133,900ഀ
.ഀ
82ഀ
49ഀ
Plenum Loads 0 0.00ഀ
0ഀ
0ഀ
0ഀ
.ഀ
0ഀ
00ഀ
Fan & Duct Loads 0 0.00ഀ
0ഀ
2,082ഀ
2,082ഀ
.ഀ
1.28ഀ
Building Totals 329,299 100.00ഀ
- - -ഀ
0ഀ
162,320ഀ
162,320ഀ
-ഀ
100.00ഀ
Total Building Supply Air (based on a 17° TD):ഀ
11,067ഀ
CFMഀ
ഀ
Total Building Vent. Air (0.00% of Supply):ഀ
0ഀ
CFMഀ
Total Conditioned Air Space:ഀ
12,995ഀ
Sq.ftഀ
Supply Air Per Unit Area:ഀ
0.8516ഀ
CFM/Sq.ftഀ
Area Per Cooling Capacity:ഀ
960.6934ഀ
Sq.ftlTonഀ
Cooling Capacity Per Area:ഀ
0.0010ഀ
Tons/Sq.ftഀ
Heating Capacity Per Area:ഀ
25.34ഀ
Btuh/Sq.ftഀ
Total Heating Required With Outside Air:ഀ
329,299ഀ
Btuhഀ
Total Cooling Required With Outside Air:ഀ
13.53ഀ
Tonsഀ
r:V-UU1-1~54-U3WUMINWIech A\Elite\Residences.CHV Wednesday, April 05, 2006, 9:01 AMഀ
Permit #ഀ
Permit Dateഀ
~Jഀ
2003 IECCഀ
COMcheck Software Version 3.1 Release 1ഀ
Envelope Complianceഀ
Report Date: 04105/06ഀ
Data filename: P:\2001-134-03WDMIN\Mech_A\Elite\Residences.cckഀ
Section 1: Project Informationഀ
Project Title: Vail's Front Door - The Chalets at the Lodge at Vailഀ
Construction Site:ഀ
Vail, COഀ
Owner/Agent:ഀ
Vail Resorts Development Companyഀ
Section 2: General Informationഀ
Building Location (for weather data): Vail, Coloradoഀ
Climate Zone: 15ഀ
Heating Degree Days (base 65 degrees F): 9248ഀ
Cooling Degree Days (base 65 degrees F): 44ഀ
Project Type: New Constructionഀ
Glazing Area Percentage: 16%ഀ
Building Type Floor Areaഀ
Multifamily 8220ഀ
Section 3: Requirements Checklistഀ
Certificateഀ
REVIEV,LL'ഀ
COLORADO INSPECTIONഀ
AGENCYഀ
Designer/Contractor:ഀ
Jay Watsonഀ
ABS Consultants, Inc.ഀ
1530 16th Street, Suite 400ഀ
Denver, CO 80202ഀ
303-623-6200ഀ
jwatson@absconsultants.comഀ
Envelope PASSES: Design 12% better than code.ഀ
Climate-Specific Requirements:ഀ
Component Name/Description Gross Areaഀ
Cavity Cont.ഀ
Proposedഀ
Budgetഀ
orഀ
R-Value R-Valueഀ
U-Factorഀ
U-Factorഀ
Perimeterഀ
Exterior Wall 1: Wood Frame, Any Spacing 7681ഀ
19.0 2.2ഀ
0.059ഀ
0.064ഀ
Comments: See detail J on A600 for items included in continuous R-Value.ഀ
Window 1: Wood Frame:Double Pane with Low-E, Clear, SHGC 0.29 909ഀ
- -ഀ
0.450ഀ
0.520ഀ
Door 1: Glass, Clear, SHGC 0.29 336ഀ
- -ഀ
0.450ഀ
0.520ഀ
Door 2: Solid 21ഀ
ഀ
0.200ഀ
0.108ഀ
Basement Wall 1: Solid Concrete or Masonry - 8", Furring: Wood, 1600ഀ
13.0 10.0ഀ
0.051ഀ
0.087ഀ
Wall Ht 10.0, Depth B.G. 10.0ഀ
Comments: Refer to spec section 07212 2.01 A 3 for continuous insulation.ഀ
Floor 1: Slab-On-Grade: Unheated, Horizontal 4 ft. 160ഀ
15.0ഀ
ഀ
-ഀ
Comments: Refer to spec section 07212 2.01 A 2 for insulation.ഀ
(a) Budget U-factors are used for software baseline calculations ONLY, and are not code requirements.ഀ
Air Leakage, Component Certification, and Vapor Retarder Requirements:ഀ
❑ 1. All joints and penetrations are caulked, gasketed, weather-stripped, or otherwise sealed.ഀ
Vail's Front Door - The Chalets at the Lodge at Vail Page 1 of 7ഀ
❑ 2. Windows, doors, and skylights certified as meeting leakage requirements.ഀ
❑ 3. Component R-values & U-factors labeled as certified.ഀ
❑ 4. Stair, elevator shaft vents, and other dampers integral to the building envelope are equipped with motorized dampers.ഀ
❑ 5. Cargo doors and loading dock doors are weather sealed.ഀ
❑ 6. Recessed lighting fixtures are: (i) Type IC rated and sealed or gasketed; or (ii) installed inside an appropriate air-tightഀ
assembly with a 0.5 inch clearance from combustible materials and with 3 inches clearance from insulation material.ഀ
❑ 7. Building entrance doors have a vestibule and equipped with closing devices.ഀ
Exceptions:ഀ
Building entrances with revolving doors.ഀ
Doors that open directly from a space less than 3000 sq. ft. in area.ഀ
❑ 8. Vapor retarder installedഀ
Section 4: Compliance Statementഀ
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 toഀ
meet the 2003 IECC requirements in COMcheck Version 3.1 Release 1 and to comply with the mandatory requirements in theഀ
Requirements Checklist. Principal P~,~/~ഀ
Mign I~ Iഀ
Envelope De r-N a Signature I+ Dateഀ
Project Notes: 0CC C`ഀ
Calculation is for Building 1 only. Buildings 2, 3, 4, 5ഀ
& 6 are similar construction.ഀ
`7-..-ഀ
Vഀ
- pഀ
t ARC~~ഀ
Vail's Front Door - The Chalets at the Lodge at Vail Page 2 of 7ഀ
Permit #ഀ
Permit Dateഀ
06 COMcheck Software Version 3.1 Release 1ഀ
Mechanical Compliance Certificateഀ
2003 IECCഀ
Report Date: 04/05/06ഀ
Data filename: P:\2001-134-03\ADMIN\Mech_A\Elite\Residences.cckഀ
Section 1: Project Informationഀ
Project Title: Vail's Front Door - The Chalets at the Lodge at Vailഀ
Construction Site:ഀ
Vail, COഀ
Owner/Agent:ഀ
Vail Resorts Development Companyഀ
Designer/Contractor:ഀ
Jay Watsonഀ
ABS Consultants, Inc.ഀ
1530 16th Street, Suite 400ഀ
Denver, CO 80202ഀ
303-623-6200ഀ
jwatson@absconsultants.comഀ
Section 2: General Informationഀ
Building Location (for weather data): Vail, Coloradoഀ
Climate Zone: 15ഀ
Heating Degree Days (base 65 degrees F): 9248ഀ
Cooling Degree Days (base 65 degrees F): 44ഀ
Project Type: New Constructionഀ
Section 3: Mechanical Systems Listഀ
Quantity System Type & Descriptionഀ
2 HVAC System 1: Heating: Radiant Heater, Hot Water / Cooling: Hydronic Coil, Capacity <65 kBtu/h,ഀ
Water-Cooled Condenser / Single Zoneഀ
1 Plant 1: Heating: Hot Water Boiler, Capacity -600 kBtu/h, Gas / Cooling: Water Chiller, Capacity -50 - <150ഀ
tons, Condenser Water-Cooled, Rotary Screw or Scroll Chiller, with Centrifugal Fan Cooling Towerഀ
2 Storage Water Heater 1: Service Water Heater w/ Circulation Pumpഀ
Section 4: Requirements Checklistഀ
Requirements Specific To: HVAC System 1 :ഀ
❑ 1. Balancing and pressure test connections on all hydronic terminal devicesഀ
Requirements Specific To: Plant 1 :ഀ
❑ 1. Equipment minimum efficiency: Boiler Thermal Efficiency - 75% Etഀ
❑ 2. Equipment minimum efficiency: Chiller: COP 4.45, IPLV 4.50ഀ
❑ 3. Newly purchased heating equipment meets the efficiency requirements - used equipment must meet 80% Et @ maximumഀ
capacityഀ
❑ 4. Closed-circuit cooling tower has: a) automatic bypass valve for condenser water loop or b) dampers that shut-off air flowഀ
through the cooling towerഀ
❑ 5. Open-circuit cooling tower has automatic bypass valve for condenser water loopഀ
❑ 6. Open-circuit cooling tower with heat exchanger must have automatic shut-off controls for cooling towerഀ
❑ 7. Cooling tower performance >20.0 gpm/hpഀ
❑ 8. Systems with multiple boilers have automatic controls capable of sequencing boiler operationഀ
❑ 9. Hydronic heating systems comprised of a single boiler and >500 kBtu/h input design capacity include either a multistaged orഀ
modulating bumerഀ
Vail's Front Door - The Chalets at the Lodge at Vail Page 3 of 7ഀ
❑ 10. Air cooled condenser and cooling tower fan motors > 7.5 HP equipped with multiple-speed motors or single speed motorsഀ
and variable speed drivesഀ
Generic Requirements: Must be met by all systems to which the requirement is applicable:ഀ
❑ 1. Load calculations per 1997 ASHRAE Fundamentalsഀ
❑ 2. Plant equipment and system capacity no greater than needed to meet loadsഀ
- Exception: Standby equipment automatically off when primary system is operatingഀ
- Exception: Multiple units controlled to sequence operation as a function of loadഀ
❑ 3. Minimum one temperature control device per systemഀ
❑ 4. Minimum one humidity control device per installed humidification/dehumidification systemഀ
❑ 5. Thermostatic controls has 5 degrees F deadbandഀ
- Exception: Thermostats requiring manual changeover between heating and coolingഀ
❑ 6. Automatic Controls: Setback to 55 degrees F (heat) and 85 degrees F (cool); 7-day clock, 2-hour occupant override, 10-hourഀ
backupഀ
- Exception: Continuously operating zonesഀ
- Exception: 2 kW demand or less, submit calculationsഀ
❑ 7. Automatic shut-off dampers on exhaust systems and supply systems with airflow >3,000 cfmഀ
❑ 8. Outside-air source for ventilation; system capable of reducing OSA to required minimumഀ
❑ 9. R-5 supply and return air duct insulation in unconditioned spaces R-8 supply and return air duct insulation outside theഀ
building R-8 insulation between ducts and the building exterior when ducts are part of a building assemblyഀ
- Exception: Ducts located within equipmentഀ
- 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 181A or 181B tapes and masticsഀ
- Exception: Continuously welded and locking-type longitudinal joints and seams on ducts operating at staticഀ
pressures less than 2 inches w.g. pressure classificationഀ
❑ 11. Mechanical fasteners and sealants used to connect ducts and air distribution equipmentഀ
❑ 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: 1ഀ
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 >1.5ഀ
in.ഀ
- Exception: Piping within HVAC equipmentഀ
- Exception: Fluid temperatures between 55 and 105 degrees Fഀ
- Exception: Fluid not heated or cooledഀ
- Exception: Runouts <4 ft in lengthഀ
❑ 13. Operation and maintenance manual provided to building ownerഀ
❑ 14. Balancing devices provided in accordance with IMC 603.15ഀ
❑ 15. Hot water distribution systems >=600 kBtu/h must have one of the following: a) controls that reset supply water temperatureഀ
by 25% of supply/return delta T b) mechanical or electrical adjustable-speed pump drive(s) c) two-way valves at all heatingഀ
coils d) multiple-stage pumps e) other system controls that reduce pump flow by at least 50% based on load - calculationsഀ
requiredഀ
❑ 16. Chilled water distribution systems >=600 kBtu/h must have one of the following: a) controls that reset supply waterഀ
temperature by 25% of supply/return delta T b) mechanical or electrical adjustable-speed pump drive(s) c) two-way valves atഀ
all heating coils d) multiple-stage pumps e) other system controls that reduce pump flow by at least 50% based on load -ഀ
calculations requiredഀ
❑ 17. Newly purchased service water heating equipment meets the efficiency requirementsഀ
❑ 18. Water heater temperature controls: 110 degrees F for dwelling units or 90 degrees F for other occupanciesഀ
❑ 19. Hot water distribution systems >=300 kBtu/h must have one of the following: a) controls that reset supply water temperatureഀ
by 25% of supply/return delta T b) mechanical or electrical adjustable-speed pump drive(s) c) two-way valves at all heatingഀ
coils d) multiple-stage pumps e) other system controls that reduce pump flow by at least 50% based on load - calculationsഀ
requiredഀ
❑ 20. Chilled water distribution systems >=300 kBtu/h must have one of the following: a) controls that reset supply waterഀ
temperature by 25% of supply/return delta T b) mechanical or electrical adjustable-speed pump drive(s) c) two-way valves atഀ
all heating coils d) multiple-stage pumps e) other system controls that reduce pump flow by at least 50% based on load -ഀ
calculations requiredഀ
❑ 21. Stair and elevator shaft vents are equipped with motorized dampersഀ
❑ 22. Three-pipe systems not usedഀ
Section 5: Compliance Statementഀ
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 designedഀ
to meet the 2003 IECC requirements in COMcheck Version 3.1 Release 1 and to comply with the mandatory requirements in theഀ
Requirements Checklist.ഀ
ZdVഀ
Pr cniPr ipal Mechanical Designer-Name Signat a Dateഀ
Vail's Front Door - The Chalets at the Lodge at Vail Page 4 of 7ഀ
COMcheck Software Version 3.1 Release 1ഀ
Mechanical Requirementsഀ
Descriptionഀ
2003 IECCഀ
Report Date:ഀ
Data filename: P:\2001-134-03\ADMIN\Mech_A\Elite\Residences.cckഀ
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. Hydronic heating and cooling coils must be equipped with a way to pressure test connections and measure and balance waterഀ
flow and pressure.ഀ
Requirements Specific To: Plant 1 :ഀ
1. The specified heating and/or cooling equipment is covered by the ASHRAE 90.1 Code and must meet the following minimumഀ
efficiency: Boiler Thermal Efficiency - 75% Etഀ
2. The specified heating and/or cooling equipment is covered by ASHRAE 90.1 Code and must meet the following minimumഀ
efficiency: Chiller: COP - 4.45, IPLV - 4.50ഀ
3. The specified heating equipment is covered by Federal minimum efficiency requirements. New equipment of this type can beഀ
assumed to meet or exceed ASHRAE 90.1 Code requirements for equipment efficiency. Used equipment must meet 80% Etഀ
@ maximum capacity.ഀ
4. Closed-circuit cooling tower has either an automatic bypass valve for condenser water loop or dampers that shut-off air flowഀ
through the cooling tower.ഀ
5. Open-circuit cooling tower has automatic bypass valve for condenser water loop.ഀ
6. Open-circuit cooling tower with heat exchanger must have automatic shut-off controls for cooling tower.ഀ
7. New equipment of this type must have a performance rating of 20.0 gpm/hp in accordance with CTI ATC-105 and CTIഀ
STD-201.ഀ
8. Systems with multiple boilers have automatic controls capable of sequencing the operation of the boilers.ഀ
9. Hydronic heating systems comprised of a single boiler and >500 kBtu/h input design capacity include either a multistaged orഀ
modulating burner.ഀ
10. Each fan motor of 7.5 hp or larger in a separate piece of heat rejection equipment must have the capability to operate that fanഀ
at two-thirds of full speed or less, and must have controls that automatically change the fan speed to control the leaving fluidഀ
temperature or condensing temperature/pressure of the heat rejection device.ഀ
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 27ഀ
and 28 of 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 equipmentഀ
providing both heating and cooling must satisfy this provision for one function with the capacity for the other function as smallഀ
as possible, within available equipment options.ഀ
- Exception: The equipment and/or system capacity may be greater than calculated loads for standby purposes. Standbyഀ
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 allowedഀ
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 ofഀ
temperature where no heating or cooling is provided).ഀ
- Exception: Deadband capability is not required if the thermostat does not have automatic changeover capability betweenഀ
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 ofഀ
automatically setting back or shutting down systems during unoccupied hours using 7 different day schedulesc) have anഀ
Vail's Front Door - The Chalets at the Lodge at Vail Page 5 of 7ഀ
accessible 2-hour occupant overrided) have a battery back-up capable of maintaining programmed settings for at least 10ഀ
hours without power.ഀ
- Exception: A setback or shutoff control is not required on thermostats that control systems serving areas that operateഀ
continuously.ഀ
- Exception: A setback or shutoff control is not required on systems with total energy demand of 2 kW (6,826 Btu/h) orഀ
less.ഀ
7. Outdoor-air supply systems with design airflow rates >3,000 cfm of outdoor air and all exhaust systems must have dampersഀ
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 ventilationഀ
system is designed to supply outdoor-air quantities exceeding minimum required levels, the system must be capable ofഀ
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 unconditionedഀ
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 aഀ
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 theഀ
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 beഀ
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 pressuresഀ
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 distributionഀ
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 pipesഀ
<=1 1/2-in. nominal diameter 2 in. for pipes >1 1/2-in. nominal diameter. Chilled water, refrigerant, and brine piping systems: 1ഀ
in. insulation for pipes <=1 1/2-in. nominal diameter 1 112 in. insulation for pipes >1 1/2-in. nominal diameter. Steam piping: 1ഀ
1/2 in. insulation for pipes <=1 1/2-in. nominal diameter 3 in. insulation for pipes >1 112-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 rangeഀ
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 theഀ
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 theഀ
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 sequenceഀ
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 balancingഀ
device. Acceptable balancing devices include adjustable dampers located within the ductwork, terminal devices, and supply airഀ
diffusers.ഀ
15. Hot water distribution systems with total system capacities of 600 kBtu/h and greater must have controls that:a) automaticallyഀ
reset the hot water supply temperature, based on heating load, by at least 25% of the design supply-to-retum waterഀ
temperature difference orb) reduce pump flow by at least 50% of design flow rate by using- adjustable-speed drive(s) onഀ
pump(s)- multiple-stage pumps allowing at least 1/2 of the total pump horsepower to be automatically turned off- control valvesഀ
designed to modulate or step down and close as a function of load- other approved means (supporting documentation orഀ
calculations must be submitted).ഀ
16. Chilled water distribution systems with total system capacities of 600 kBtu/h and greater must have controls that:a)ഀ
automatically reset the chilled water supply temperature, based on cooling load, by at least 25% of the design supply-to-retumഀ
water temperature difference orb) reduce pump flow by at least 50% of design flow rate by using- adjustable-speed drive(s) onഀ
pump(sy multiple-stage pumps allowing at least 1 /2 of the total pump horsepower to be automatically turned off- control valvesഀ
designed to modulate or step down and close as a function of load- other approved means (supporting documentation orഀ
calculations must be submitted).ഀ
17. Service water heating equipment must meet minimum Federal efficiency requirements included in the National Applianceഀ
Energy Conservation Act and the Energy Policy Act of 1992, which meet or exceed ASHRAE 90.1 Code. New service waterഀ
heating equipment can be assumed to meet these requirements.ഀ
18. Water-heating equipment must be provided with controls that allow the user to set the water temperature to 110 degrees F forഀ
dwelling units and 90 degrees F for other occupancies. Controls must limit output temperatures of lavatories in public facilityഀ
restrooms to 110 degrees F.ഀ
19. Hot water space-heating systems with a capacity exceeding 300 kBtu/h supplying heated water to comfort conditioningഀ
systems must include controls that automatically reset supply water temperatures by representative building loads (includingഀ
return water temperature) or by outside air temperature. Exceptions: - Where the supply temperature reset controls cannot beഀ
implemented without causing improper operation of heating, cooling, humidification, or dehumidification systems. - Hydronicഀ
systems that use variable flow to reduce pumping energy.ഀ
20. Chilled water space-cooling systems with a capacity exceeding 300 kBtu/h supplying chilled water for comfort conditioningഀ
systems must include controls that automatically reset supply water temperatures by representative building loads (includingഀ
return water temperature) or by outside air temperature. Exceptions: - Where the supply temperature reset controls cannot beഀ
Vail's Front Door - The Chalets at the Lodge at Vail Page 6 of 7ഀ
implemented without causing improper operation of heating, cooling, humidification, or dehumidification systems. - Hydronicഀ
systems that use variable flow to reduce pumping energy.ഀ
21. Stair and elevator shaft vents must be equipped with motorized dampers capable of being automatically closed during normalഀ
building operation and interlocked to open as required by fire and smoke detection systems. All gravity outdoor air supply andഀ
exhaust hoods, vents, and ventilators must be equipped with motorized dampers that will automatically shut when the spacesഀ
served are not in use. Exceptions: - Gravity (non-motorized) dampers are acceptable in buildings less than three stories inഀ
height above grade. - Ventilation systems serving unconditioned spaces.ഀ
22. Hydronic systems that use a common return system for both hot water and chilled water must not be used.ഀ
Vail's Front Door - The Chalets at the Lodge at Vail Page 7 of 7ഀ
Vails Front Doorഀ
HVAC Load Analysisഀ
forഀ
Vail Resorts Development Companyഀ
REVIEWED BYഀ
JUL 10 2006ഀ
COLORADO INSPEC710Nഀ
AGEഀ
CHVAC. CpIIIC~RGIA,L,ഀ
HVAC LOADSഀ
Prepared By:ഀ
ABSഀ
Wednesday, April 05, 2006ഀ
Chvac - Full too rcial HVA Loads Calcu ation Pro~Lra47ഀ
Elite Software Development, lnc.dഀ
ABS Gansultants, )ems'ഀ
Vails Front Doorഀ
Page 2ഀ
Denver, CO 8GK: -1464ഀ
ഀ
[General Project Data Inputഀ
-6-66 al <Pr _ eci Cnforrna#ionഀ
Project file name:ഀ
P:\2001-134-03WDMIN\Mech A\Elite\Residences.CHVഀ
Project title:ഀ
Vails Front Doorഀ
Project date:ഀ
Wednesday, October 05, 2005ഀ
Weather reference city:ഀ
EAGLE, COLORADO, USAഀ
Client name:ഀ
Vail Resorts Development Companyഀ
Company name:ഀ
ABSഀ
Barometric pressure: 23.496 in.Hg.ഀ
Altitude: 6539 feetഀ
Latitude: 40 Degreesഀ
Mean daily temperature range: 36.1 Degreesഀ
Starting & ending time for HVAC load calculations: lam - 12amഀ
Number of unique zones in this project: 27ഀ
B 11 1 . l.I C~UIt V 46-eഀ
£ഀ
Calculations performed:ഀ
Both heating and cooling loadsഀ
Lighting requirements:ഀ
1.00ഀ
Watts per square footഀ
Equipment requirements:ഀ
0.50ഀ
Watts per square footഀ
People sensible load multiplier:ഀ
245ഀ
Btuh per personഀ
People latent load multiplier:ഀ
155ഀ
Btuh per personഀ
Zone sensible safety factor:ഀ
10ഀ
%ഀ
Zone latent safety factor:ഀ
10ഀ
%ഀ
Zone heating safety factor:ഀ
20ഀ
%ഀ
People diversity factor:ഀ
100ഀ
%ഀ
Lighting profile number:ഀ
0ഀ
Equipment profile number:ഀ
0ഀ
People profile number:ഀ
0ഀ
Building default ceiling height:ഀ
9.00ഀ
feetഀ
Building default wall height:ഀ
10.00ഀ
feetഀ
./'145= C.[.iCiZYQ4irf/"f 1' irYal+Pr.ഀ
we r.ഀ
1ഀ
2ഀ
3ഀ
4ഀ
5ഀ
6ഀ
7ഀ
8ഀ
9ഀ
10ഀ
rya..,,,ഀ
hrഀ
1ഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
cഀ
Cഀ
Cഀ
Cഀ
,ഀ
hrഀ
2ഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
cഀ
Cഀ
Cഀ
Cഀ
ഀ
hrഀ
3ഀ
Cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
ഀ
hrഀ
4ഀ
Cഀ
Cഀ
cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
ഀ
hrഀ
5ഀ
Cഀ
Cഀ
cഀ
Cഀ
Cഀ
Cഀ
cഀ
Cഀ
Cഀ
Cഀ
ഀ
hrഀ
6ഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
cഀ
Cഀ
Cഀ
Cഀ
hrഀ
7ഀ
cഀ
cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
hrഀ
8ഀ
cഀ
Cഀ
cഀ
cഀ
Cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
ഀ
hrഀ
9ഀ
cഀ
Cഀ
Cഀ
cഀ
Cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
ഀ
hrഀ
10ഀ
Cഀ
cഀ
cഀ
Cഀ
Cഀ
Cഀ
cഀ
Cഀ
Cഀ
Cഀ
hrഀ
11ഀ
Cഀ
cഀ
cഀ
Cഀ
Cഀ
Cഀ
cഀ
Cഀ
Cഀ
Cഀ
_ഀ
hrഀ
12ഀ
Cഀ
Cഀ
Cഀ
Cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
ഀ
hrഀ
13ഀ
cഀ
Cഀ
cഀ
Cഀ
cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
ഀ
hrഀ
14ഀ
cഀ
Cഀ
cഀ
cഀ
Cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
ഀ
hrഀ
15ഀ
Cഀ
Cഀ
Cഀ
Cഀ
cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
hrഀ
16ഀ
cഀ
Cഀ
cഀ
Cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
hrഀ
17ഀ
cഀ
cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
hrഀ
18ഀ
cഀ
cഀ
Cഀ
Cഀ
Cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
hrഀ
19ഀ
cഀ
cഀ
Cഀ
Cഀ
cഀ
cഀ
cഀ
Cഀ
Cഀ
Cഀ
hrഀ
20ഀ
cഀ
cഀ
Cഀ
Cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
hrഀ
21ഀ
cഀ
cഀ
cഀ
cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
hrഀ
22ഀ
cഀ
cഀ
cഀ
cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
hrഀ
23ഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
hrഀ
24ഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
P:\2001-134-03\ADMIN\Mech_A\Elite\Residences.CHV Wednesday, Apni u5, zuun, a:u Hewഀ
Chvac -Full Commercial HVAC Loads Calculation Programഀ
-ഀ
EJitie Softtivare DeveloLment Inc _ഀ
-ഀ
rഀ
ഀ
ASS Consultants, inc.ഀ
-ഀ
-ഀ
-ഀ
Vails Front Dooഀ
Page 3ഀ
Denver, CO 80202-1464ഀ
'ഀ
General Project Data Inputഀ
d)ഀ
(contഀ
~Buildir~g-Leve# Desi~rt-Condtions -ഀ
-ഀ
- ~ഀ
ഀ
Design Outdoorഀ
Outdoorഀ
Indoorഀ
Indoorഀ
Grainsഀ
In/Outdoorഀ
Month Dry Bulb Wet Bulbഀ
Rel Humഀ
Dry Bulbഀ
Diffഀ
Correctionഀ
August 86ഀ
57ഀ
50%ഀ
72ഀ
-32.38ഀ
-11ഀ
Winter -20ഀ
75ഀ
-ഀ
~ ,=iceഀ
I Master Roofsഀ
ഀ
-ഀ
_ഀ
Roof ASHRAEഀ
-ഀ
oofഀ
Roofഀ
Darkഀ
Susp.ഀ
No. Roof#ഀ
U-Facഀ
Colorഀ
Ceilഀ
1 10ഀ
0.030ഀ
Noഀ
Noഀ
Wall ASHRAEഀ
Wallഀ
Wallഀ
No Groupഀ
U-Facഀ
Colorഀ
1 Gഀ
0.050ഀ
Dഀ
Master GIaSSഀ
Glass Summerഀ
Winterഀ
Glassഀ
Interiorഀ
Interiorഀ
No. U -Factorഀ
U-Factorഀ
Shd Coef.ഀ
Shadingഀ
Shd.Coefഀ
1 0.450ഀ
0.450ഀ
0.350ഀ
3ഀ
0.000ഀ
P:\2001-134-03\ADMIN\Mech A\Elite\Residences.CHV Wednesday, April 05, 2uuES, a:ul HMഀ
I Chvac - Full Commercial HVAC Loads Calculation Programഀ
Elite Snfare Deve#opment Inc.ഀ
ABS Consultants, Inc.ഀ
Vails Front Doorഀ
Denver, CO 80202-1464ഀ
ഀ
-ഀ
-ഀ
- Page 4 jഀ
[Building Envelope Report _ഀ
-ഀ
Rഀ
f~sഀ
PEnvelq eഀ
i Summer U-Factoryഀ
y-ഀ
rഀ
,ഀ
_ഀ
~MateriaF`: - Grossഀ
Types Areaഀ
Glassഀ
Area,ഀ
Net -U=ഀ
rr - Facr_ഀ
Area xഀ
Factorഀ
IJ_ഀ
Averageഀ
UFaetarഀ
Wall 1ഀ
10,516.0ഀ
1,709.0ഀ
8,807.0ഀ
0.050ഀ
440.350ഀ
0.050ഀ
Tot.Wallഀ
10,516.0ഀ
1,709.0ഀ
8,807.0ഀ
N/Aഀ
440.350ഀ
0.050ഀ
Glass 1ഀ
1,709.0ഀ
N/Aഀ
1,709.0ഀ
0.450ഀ
769.050ഀ
0.450ഀ
Tot.Glassഀ
1,709.0ഀ
N/Aഀ
1,709.0ഀ
N/Aഀ
ഀ
.ഀ
ഀ
ഀ
769.050ഀ
ഀ
0.450ഀ
ഀ
Totalsഀ
_ഀ
ഀ
ഀ
10,516.0ഀ
ഀ
.ഀ
ഀ
.ഀ
1,209.400ഀ
0.115ഀ
1P S, ~t V x„ ~I~ 1.........ഀ
_ V~(ali Netഀ
r ~1 aJ Aഀ
G#a5 tഀ
`ഀ
s 'Auഀ
Difectlonഀ
Areaഀ
Area . ;ഀ
Aresഀ
Facttarഀ
-ഀ
terഀ
Sfഀ
Nഀ
2,660.0ഀ
247.5ഀ
2,412.5ഀ
.ഀ
0.050ഀ
.ഀ
0.450ഀ
0.350ഀ
NEഀ
210.0ഀ
84.0ഀ
126.0ഀ
0.050ഀ
0.450ഀ
0.350ഀ
Eഀ
3,161.0ഀ
873.5ഀ
2,287.5ഀ
0.050ഀ
0.450ഀ
0.350ഀ
SEഀ
210.0ഀ
84.0ഀ
126.0ഀ
0.050ഀ
0.450ഀ
0.350ഀ
Sഀ
2,280.0ഀ
152.5ഀ
2,127.5ഀ
0.050ഀ
0.450ഀ
0.350ഀ
SWഀ
70.0ഀ
31.0ഀ
39.0ഀ
0.050ഀ
0.450ഀ
0.350ഀ
Wഀ
1,885.0ഀ
215.5ഀ
1,669.5ഀ
0.050ഀ
0.450ഀ
0.350ഀ
NWഀ
40.0ഀ
21.0ഀ
19.0ഀ
0.050ഀ
0.450ഀ
0.350ഀ
Totalsഀ
10,516.0ഀ
1,709.0ഀ
8,807.0ഀ
0.050ഀ
0.450ഀ
0.350ഀ
P:\2001-134-03\ADMINNech_A\Elite\Residences.CHV Wednesday, April 05, 2005, 9:U1 Allഀ
Chvac -Full Commercial HY Loads Calculation Programഀ
ABS Consultants, Inc:ഀ
I 'Denver, CO `80202-1464ഀ
[building Summary Loadsഀ
Tഀ
~_Rഀ
Elite Software Develop ent, Inc.ഀ
Vails Front Doorഀ
Page 5,ഀ
Building peaks in August at 3pm.ഀ
ldg Load _ Areaഀ
Senഀ
%Totഀ
Latഀ
Senഀ
; Netഀ
Of. tഀ
.ഀ
Descriptions: ' Qഀ
uanഀ
Lossഀ
hvssഀ
Gഀ
Gainഀ
;Gainഀ
-ഀ
Gainഀ
ഀ
_ഀ
Roof 0ഀ
0ഀ
0.00ഀ
Tഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Wall 8,807ഀ
50,200ഀ
15.24ഀ
0ഀ
12,559ഀ
12,559ഀ
7.74ഀ
Glass 1,709ഀ
87,672ഀ
26.62ഀ
0ഀ
41,174ഀ
41,174ഀ
25.37ഀ
Floor Slab 0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Skin Loadsഀ
137,872ഀ
41.87ഀ
0ഀ
53,733ഀ
53,733ഀ
33.10ഀ
Lighting 12,995ഀ
0ഀ
0.00ഀ
0ഀ
48,775ഀ
48,775ഀ
30.05ഀ
Equipment 6,498ഀ
0ഀ
0.00ഀ
0ഀ
24,387ഀ
24,387ഀ
15.02ഀ
People 26ഀ
0ഀ
0.00ഀ
0ഀ
7,004ഀ
7,004ഀ
4.32ഀ
Partition 0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Cool. Pret. 0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Heat. Pret. 0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Cool. Vent. 0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Heat. Vent. 0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Cool.lnfil. 1,980ഀ
0ഀ
0.00ഀ
0ഀ
26,338ഀ
26,338ഀ
16.23ഀ
Heat.lnfil. 1,980ഀ
191,427ഀ
58.13ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Draw-Thru Fan 0ഀ
0ഀ
0.00ഀ
0ഀ
2,082ഀ
2,082ഀ
1.28ഀ
Blow-Thru Fan 0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Reserve Cap. 0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Reheat Cap. 0.ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Supply Duct 0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Return Duct 0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Misc. Supply 0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Misc. Return 0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
_ .ഀ
Building Totalsഀ
ഀ
329,299ഀ
100.00ഀ
ഀ
0ഀ
162,320ഀ
. 162,320ഀ
100.00ഀ
;&n Netഀ
Bolding Sewഀ
rഀ
1TV ~alഀ
~Fഀ
fഀ
fഀ
Lagsഀ
aഀ
_ഀ
..~4f~ഀ
arl 'ഀ
° aഀ
Ventilation 0ഀ
0.00ഀ
_ 0ഀ
0ഀ
0ഀ
0.00ഀ
Infiltration 191,427ഀ
58.13ഀ
0ഀ
26,338ഀ
26,338ഀ
16.23ഀ
Pretreated Air 0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Zone Loads 137,872ഀ
41.87ഀ
0ഀ
133,900ഀ
133,900ഀ
82.49ഀ
Plenum Loads 0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Fan & Duct Loads 0ഀ
0.00ഀ
0ഀ
2,082ഀ
2,082ഀ
1.28ഀ
ഀ
Buildin9 Totals 329,299ഀ
- - -ഀ
100.00ഀ
.ഀ
ഀ
0ഀ
ഀ
-ഀ
162,320ഀ
162,320ഀ
100.00ഀ
1/1y t ♦j 1rഀ
IC}~i L«ഀ
Hഀ
ala yt.... '§`t~' roy :W4I nt_.ഀ
Total Building Supply Air (based on a 17° TD):ഀ
11,067ഀ
CFMഀ
Total Building Vent. Air (0.00% of Supply):ഀ
0ഀ
CFMഀ
Total Conditioned Air Space:ഀ
12,995ഀ
Sq.ftഀ
Supply Air Per Unit Area:ഀ
0.8516ഀ
CFM/Sq.ftഀ
Area Per Cooling Capacity:ഀ
960.6934ഀ
Sq.ft/Tonഀ
Cooling Capacity Per Area:ഀ
0.0010ഀ
Tons/Sq.ftഀ
Heating Capacity Per Area:ഀ
25.34ഀ
Btuh/Sq.ftഀ
Total Heating Required With Outside Air:ഀ
329,299ഀ
Btuhഀ
Total Cooling Required With Outside Air:ഀ
13.53ഀ
Tonsഀ
P:\2001-134-03\ADMIN\Mech A\Elite\Residences.CHV Wednesday, April 05, 2006, 9:01 AMഀ
SECTION 08710ഀ
DOOR HARDWAREഀ
PART1 GENERALഀ
1.01 SECTION INCLUDESഀ
A. The Work includes but is not limited to the following:ഀ
1. Hardware for wood and hollow metal doors.ഀ
2. Thresholds, weatherstripping, seals and door gaskets.ഀ
3. Lock sets and latches (provided to suit function and anticipated degree of use).ഀ
4. Masterkeying capability.ഀ
5. It is the intention that the hardware specified shall be sufficient quantities necessary toഀ
complete the Work. Notify the Architect of omissions or discrepancies prior to Bid dateഀ
for clarifications or instructions. Adjustments to the Contract Sum will not be allowed forഀ
omissions not clarified prior to Bid opening.ഀ
1.02 RELATED SECTIONSഀ
A. Section 08110 - Standard Steel Doors and Frames: Furnish templates for door and frameഀ
preparation.ഀ
B. Section 08112 - Standard Steel Frames: Furnish templates for frame preparation.ഀ
C. Section 08211 - Flush Wood Doors: Furnish templates for frame preparation.ഀ
D. Section 08212 - Stile and Rail Wood Doors: Furnish templates for frame preparation.ഀ
E. Section 08410 - Aluminum Entrances and Storefronts: Furnish templates for frame preparation.ഀ
F. Section 09999 - Schedule: Door schedule.ഀ
G. Division 16 - Electrical: Power Supply to electrical hardware components.ഀ
1.03 REFERENCESഀ
Aഀ
Bഀ
C.ഀ
D.ഀ
E.ഀ
F.ഀ
G.ഀ
H.ഀ
American with Disabilities Act (ADA) - Accessibility Guidelines for Buildings and Facilities.ഀ
ANSI Al 17.1 - Specifications for Making Buildings and Facilities Accessible to and Usable byഀ
Physically Handicapped People.ഀ
AWI (Architectural Woodwork Institute) - Quality Standards.ഀ
BHMA - Builders Hardware Manufacturer's Association.ഀ
DHI - Door and Hardware Institute.ഀ
NAAMM - National Association of Architectural Metal Manufacturers.ഀ
NFPA 80 - Fire Doors and Window.ഀ
NFPA 101 - Code for Safety to Life from Fire in Buildings and Structures.ഀ
Door Hardware 08710 - 1 Vail's Front Door - Residentialഀ
Vail, Coloradoഀ
15 May 2006ഀ
L NFPA 252 - Fire Tests of Door Assemblies.ഀ
J. SDI - Steel Door Institute.ഀ
K. UL I OC - Safety Fire Tests of Door Assemblies.ഀ
L. UL 305 - Safety Panic Hardware.ഀ
1.04 SUBMITTALSഀ
A. Submit under provisions of Section 01300 - Submittals.ഀ
B. Shop Drawings: Indicate locations and mounting heights of each type of hardware, schedules,ഀ
name and manufacturer of each item, location of each hardware set cross referenced to indicationsഀ
on Drawings, both on floor plan and in door and frame schedule, explanation of all abbreviations,ഀ
symbols, and codes contained in schedule, door and frame sizes and materials, maximum allowableഀ
degree of swing and door handing, fire-ratings, electrical characteristics and connectionഀ
requirements.ഀ
C. Submit Manufacturer's cut sheets, parts lists and templates.ഀ
D. Samples: Upon request by Architect, submit one sample of each type of hardware, illustratingഀ
style, color and fmish.ഀ
E. Samples may be incorporated into the Work.ഀ
F. Manufacturer's Installation Instructions: Indicate special procedures and perimeter conditionsഀ
requiring special attention.ഀ
1.05 PROJECT RECORD DOCUMENTSഀ
A. Submit under provisions of Section 01700 - Contract Closeout.ഀ
B. Record actual locations of installed cylinders and their master key code.ഀ
1.06 OPERATION AND MAINTENANCE DATAഀ
A. Submit under provisions of Section 01730 - Operation and Maintenance Data.ഀ
B. Maintenance Data: Include data on operating hardware, lubrication requirements, and inspectionഀ
procedures related to preventative maintenance.ഀ
1.07 QUALITY ASSURANCEഀ
A. Perform Work in accordance with the following requirements:ഀ
1. ADA (Americans with Disabilities Act).ഀ
2. ANSI A117.1 - Specifications for Making Buildings and Facilities Accessible to andഀ
Usable by Physically Handicapped People.ഀ
3. NFPA 80.ഀ
4. NFPA 101.ഀ
5. NFPA 252.ഀ
6. UL 10C.ഀ
6. UL 305.ഀ
Door Hardware 08710 - 2 Vail's Front Door - Residentialഀ
Vail, Coloradoഀ
15 May 2006ഀ
B. Single Source Responsibility: Obtain each type of hardware (latch and locksets, hinges, closers,ഀ
etc.) from a single Manufacturer.ഀ
1.08 QUALIFICATIONSഀ
A. Manufacturer: Company specializing in manufacturing the products specified in this Section withഀ
minimum five (5) years experience.ഀ
B. Hardware Supplier: All hardware to be furnished by Rob Riddle, Alpine Builders Hardware, P.O.ഀ
Box 2404, Edwards, Colorado 81623 (970) 926-7233 who will be available to Owner, Architectഀ
and Contractor, at reasonable times during the course of the Work, for consultation.ഀ
1.09 REGULATORY REQUIREMENTSഀ
A. Conform to applicable Code for requirements applicable to fire-rated doors and frames.ഀ
B. Conform to applicable sections of Chapter 5 of NFPA 101.ഀ
C. Products Requiring Electrical Connection: Listed and classified by Underwriters' Laboratories,ഀ
Inc. as suitable for the purpose specified and indicated.ഀ
1.10 DELIVERY, STORAGE, AND HANDLINGഀ
A. Deliver, store, protect and handle products to site under provisions of Section 01600 - Materialഀ
and Equipment.ഀ
B. Package hardware items individually; label and identify each package with door opening code toഀ
match hardware schedule.ഀ
C. Protect hardware from theft by cataloging and storing in secured area.ഀ
D. Deliver keys with identifying tags to Owner by security shipment direct from hardware supplier.ഀ
1.11 COORDINATIONഀ
A. Coordinate Work under provisions of Section 01040 - Project Contract Coordination.ഀ
B. Coordinate Work with other directly affected Sections involving Manufacturer or fabrication ofഀ
internal reinforcement for door hardware and recessed items.ഀ
C. Coordinate Owner's keying requirements during course of Work.ഀ
1.12 WARRANTYഀ
A. Provide the following warranties under provisions of Section 01700 - Contract Closeout.ഀ
1. Ten (10) year warranty on closers.ഀ
2. Two (2) year warranty on remaining hardware.ഀ
B. Warranty: Submit Manufacturer warranty and ensure forms have been completed in Owner'sഀ
name and registered with Manufacturer. Include coverage for all hardware.ഀ
Door Hardware 08710 - 3 Vail's Front Door - Residentialഀ
Vail, Coloradoഀ
15 May 2006ഀ
1.13 MAINTENANCE MATERIALSഀ
A. Provide maintenance materials under provisions of Section 01730 - Operation and Maintenanceഀ
Data.ഀ
B. Provide special wrenches and tools applicable to each different or special hardware component.ഀ
C. Provide maintenance tools and accessories supplied by hardware component Manufacturer.ഀ
PART 2 PRODUCTSഀ
2.01 ACCEPTABLE MANUFACTURERSഀ
A. Refer to "3.05 SCHEDULES" located at end of this Section for approved Manufacturers andഀ
approved substitutes listing.ഀ
2.02 KEYINGഀ
A. Grouped, keyed and supplied as per Owner's direction. Hardware supplier to verify with Ownerഀ
for keying requirements.ഀ
B. Except as otherwise indicated, key to new master-key system.ഀ
C. Keys.ഀ
1. Keys shall be made of nickel silver.ഀ
2. Stamp all keys to read "DO NOT DUPLICATE".ഀ
D. Supply keys in the following quantities:ഀ
1. 6 master keys.ഀ
2. 3 grand master keys.ഀ
4. 15 construction keys.ഀ
6. 2 change keys for each lock.ഀ
2.03 KEY CABINETഀ
A. Cabinet Construction: Sheet steel construction, piano hinged door with cylinder-type lock, masterഀ
keyed to building system.ഀ
B. Cabinet Size: Size for Project keys plus 50 percent growth.ഀ
C. Provide hooks for keys.ഀ
D. Horizontal metal strips for key hook labeling with clear plastic strip cover over labels.ഀ
E. Finish: Baked enamel; color as selected by Architect.ഀ
F. Install in location where directed by Owner.ഀ
2.04 FINISHESഀ
A. Finishes: Identified in schedule at end of this Section.ഀ
Door Hardware 08710 - 4 Vail's Front Door - Residentialഀ
Vail, Coloradoഀ
15 May 2006ഀ
PART 3 EXECUTIONഀ
3.01 EXAMINATIONഀ
A. Verify site conditions under provisions of Section 01040 - Project Contract Coordination.ഀ
B. Verify that doors and frames are ready to receive Work and dimensions are as instructed by theഀ
Manufacturer.ഀ
C. Verify that electric power is available to power operated devices and of the correct characteristics.ഀ
3.02 INSTALLATIONഀ
A. All hardware shall be installed by this supplier Rob Riddle, Alpine Builders Hardware, P.O. Boxഀ
2404, Edwards, Colorado 81623 (970) 926-7233.ഀ
B.ഀ
B. Use templates provided by hardware item Manufacturer.ഀ
C. Conform to ANSI A117.1 and ADA Guidelines for positioning requirements for the physicallyഀ
handicapped.ഀ
3.03 ADJUSTINGഀ
A. Adjust Work under provisions of Section 01700 - Contract Closeout.ഀ
B. Adjust hardware for smooth operation.ഀ
3.04 PROTECTION OF FINISHED WORKഀ
A. Protect finished Work under provisions of Section 01500 - Construction Facilities and Temporaryഀ
Controls.ഀ
B. Do not permit adjacent Work to damage hardware or finish.ഀ
3.05 SCHEDULESഀ
A. Legend:ഀ
Manufacturerഀ
(BYO) By othersഀ
(HAG) Hagerഀ
(IVE) Ivesഀ
(LCN) LCNഀ
(PEM) Pemkoഀ
(RKY Rocky Mountain Hardwareഀ
(SCH) Schlageഀ
(SRB) Stone River Bronzeഀ
(DEL) Deltanaഀ
(VON) Von Duprinഀ
Door Hardware 08710 - 5 Vail's Front Door - Residentialഀ
Vail, Coloradoഀ
15 May 2006ഀ
I. Furnish all items in Stone River Bronze 70, Natural, No Patina, Nickel Bronze, Plateഀ
Series Chalet, Bronze Texture - Medium Texture, unless indicated otherwise.ഀ
2. Use two pair of butts at doors 7'- 6" and over.ഀ
3. At pairs of closet doors use set E18 in lieu of set E14.ഀ
4. At pairs of Entry Doors use set E24 in lieu of E 19ഀ
5. At swinging balcony and deck doors use set E27 in lieu of set E21.ഀ
6. At wine storage doors use set E28 in lieu of set E17.ഀ
7. Use hardware set E12 in lieu of set E9 if door is not fire rated.ഀ
8. Verify all lock functions with Owner prior to ordering.ഀ
9. All out-swinging doors with locksets shall be non-removable pin (NRP) hinges.ഀ
10. Install closers out of corridors in less public side of door.ഀ
11. Supplier to verify that all necessary parts for installation are ordered.ഀ
12. All Emtek passage sets, privacy sets, and deadbolts shall be furnished with necessaryഀ
parts for complete installation.ഀ
HW SET: E1ഀ
EACH OPENING TO HAVE:ഀ
3ഀ
EAഀ
HINGEഀ
BB 11914.5 X 4.5 NRPഀ
1ഀ
EAഀ
PANIC HARDWAREഀ
98L X 17ഀ
1ഀ
EAഀ
RIM CYLINDERഀ
20-057 ICXഀ
1ഀ
EAഀ
COREഀ
23-030ഀ
1ഀ
EAഀ
CLOSER/STOPഀ
1461 CUSH DSഀ
1ഀ
EAഀ
KICK PLATEഀ
8400 10" X 2" LDWഀ
2ഀ
EAഀ
SEALSഀ
319CS @ JAMBSഀ
Iഀ
EAഀ
SEALSഀ
S88D @ HEADഀ
1ഀ
EAഀ
DOOR SWEEPഀ
345ANBഀ
1ഀ
EAഀ
THRESHOLDഀ
272A (OR AS DETAILED)ഀ
VERIFY FINഀ
ISH REQUIRED AT DOORS E001 a WITH ARCHITECTഀ
Door Hardware 08710 - 6ഀ
630 HAGഀ
626 VONഀ
626 SCHഀ
626 SCHഀ
689 LCNഀ
630 IVEഀ
AL PEMഀ
DKB PEMഀ
AL PEMഀ
AL PEMഀ
Vail's Front Door - Residentialഀ
Vail, Coloradoഀ
15 May 2006ഀ
HW SET: E2ഀ
EACH OPENING TO HAVE:ഀ
3 EAഀ
HINGEഀ
BB 1279 4.5 X 4.5ഀ
652ഀ
HAGഀ
1 EAഀ
STOREROOM LOCKഀ
ND80TD SPAഀ
626ഀ
SCHഀ
1 EAഀ
COREഀ
23-030ഀ
626ഀ
SCHഀ
1 EAഀ
CLOSER/STOPഀ
1461 CUSH DSഀ
689ഀ
LCNഀ
1 EAഀ
KICK PLATEഀ
8400 10" X 2" LDWഀ
630ഀ
IVEഀ
I SETഀ
SEALSഀ
S88D HEAD AND JAMBSഀ
DKBഀ
PEMഀ
HW SET: E3ഀ
EACH OPENING TO HAVE:ഀ
3ഀ
EAഀ
HINGEഀ
BB 1279 4.5 X 4.5ഀ
652ഀ
HAGഀ
1ഀ
EAഀ
STOREROOM LOCKഀ
ND80TD SPAഀ
626ഀ
SCHഀ
1ഀ
EAഀ
COREഀ
23-030ഀ
626ഀ
SCHഀ
1ഀ
EAഀ
WALL STOPഀ
WS407CCVഀ
630ഀ
IVEഀ
1ഀ
EAഀ
SILENCERഀ
SR64ഀ
GRYഀ
IVEഀ
HW SET: E4ഀ
EACH OPENING TO HAVE:ഀ
1 EA RIM CYLINDER 20-057 ICX 626 SCHഀ
1 EA CORE 23-030 626 SCHഀ
BALANCE OF HARDWARE BY DOORഀ
MANUFACTURERഀ
HARDWARE SUPPLIER TO VERIFY TYPE AND QUANTITY OF CYLINDERS REQUIRED WITH DOORഀ
MANUFACTURERഀ
HW SET: E5ഀ
EACH OPENING TO HAVE:ഀ
3ഀ
EAഀ
HINGEഀ
1ഀ
EAഀ
FIRE EXIT HARDWAREഀ
1ഀ
EAഀ
RIM CYLINDERഀ
1ഀ
EAഀ
COREഀ
1ഀ
EAഀ
SURFACE CLOSERഀ
1ഀ
EAഀ
KICK PLATEഀ
1ഀ
EAഀ
WALL STOPഀ
1ഀ
SETഀ
SEALSഀ
HW SET: E6ഀ
SET NOT USEDഀ
Door Hardwareഀ
BB 1279 4.5 X 4.5ഀ
22NL-Fഀ
20-057 ICXഀ
23-030ഀ
1461 RW/62A DS (INSTALL PARALLEL ARM)ഀ
8400 10" X 2" LDWഀ
WS407CCVഀ
S88D HEAD AND JAMBSഀ
08710 - 7ഀ
652 HAGഀ
689 VONഀ
626 SCHഀ
626 SCHഀ
689 LCNഀ
630 IVEഀ
630 IVEഀ
DKB PEMഀ
Vail's Front Door - Residentialഀ
Vail, Coloradoഀ
15 May 2006ഀ
HW SET: E7ഀ
EACH OPENING TO HAVE:ഀ
3ഀ
EAഀ
HINGEഀ
BB 1279 4.5 X 4.5ഀ
652ഀ
HAGഀ
1ഀ
EAഀ
STOREROOM LOCKഀ
ND80TD SPAഀ
626ഀ
SCHഀ
1ഀ
EAഀ
COREഀ
23-030ഀ
626ഀ
SCHഀ
1ഀ
EAഀ
SURFACE CLOSERഀ
1461 RW/62A DS (INSTALL REGULAR ORഀ
689ഀ
LCNഀ
PARALLEL ARM AS REQUIRED)ഀ
1ഀ
EAഀ
KICK PLATEഀ
8400 10" X 2" LDWഀ
630ഀ
IVEഀ
1ഀ
EAഀ
WALL STOPഀ
WS407CCV (WHERE REQUIRED)ഀ
630ഀ
IVEഀ
1ഀ
SETഀ
SEALSഀ
S88D HEAD AND JAMBSഀ
DKBഀ
PEMഀ
HW SET: E8ഀ
EACH OPENING TO HAVE:ഀ
3 EA HINGEഀ
BTBB1279 4.5 X 4.5ഀ
646 HAGഀ
1 EA LOCKSETഀ
ENTRY EXTERIOR SET 09 MORTISE LOCKഀ
SRBഀ
ENTRANCE SGL CYL X A3010b 3" X 10"ഀ
W/BOTTOM HUB X PK KNOB (UL LISTED)ഀ
1 EA SURFACE CLOSERഀ
1461 RW/62A DS (INSTALL REGULAR ARM)ഀ
RAL LCNഀ
1 EA WALL STOPഀ
WS407CCV (WHERE REQUIRED)ഀ
619 IVEഀ
1 SET SEALSഀ
S88D X HSS2000 HEAD AND JAMBSഀ
DKB PEMഀ
FINISH OF CLOSER AS SELECTED Bഀ
Y ARCHITECT - COORDINATE SEAL WITH DOORഀ
MANUFACTURERഀ
HW SET.• E8Bഀ
EACH OPENING TO HAVE:ഀ
3 EAഀ
HINGEഀ
BTBB 1279 4.5 X 4.5ഀ
646ഀ
HAGഀ
1 EAഀ
PASSAGE SETഀ
AL10S NEPഀ
619ഀ
SCHഀ
1 EAഀ
DEADBOLTഀ
EMTEL LOW PROFILE DEADBOLTഀ
26ഀ
EMTഀ
1 EAഀ
SURFACE CLOSERഀ
1461 RW/62A DS (INSTALL REGULAR ARM)ഀ
RALഀ
LCNഀ
1 EAഀ
WALL STOPഀ
WS407CCV (WHERE REQUIRED)ഀ
619ഀ
IVEഀ
1 SETഀ
SEALSഀ
S88D X HSS2000 HEAD AND JAMBSഀ
DKBഀ
PEMഀ
FINISH OF CLOSER AS SELECTED BY ARCHITECT - COORDINATE SEAL WITH DOORഀ
MANUFACTഀ
URERഀ
HW SET: E9ഀ
EACH OPENING TO HAVE:ഀ
3 EA HINGEഀ
BTBB 1279 4.5 X 4.5ഀ
646 HAGഀ
1 EA PASSAGE SETഀ
PASSAGE SET 02M MORTISE LOCK X A3010b 3"ഀ
SRBഀ
X 10" W/BOTTOM HUB X PK KNOB (UL LISTED)ഀ
1 EA SURFACE CLOSERഀ
1461 RW/62A DS (INSTALL REGULAR ARM)ഀ
RAL LCNഀ
1 EA WALL STOPഀ
WS407CCV (WHERE REQUIRED)ഀ
619 IVEഀ
1 SET SEALSഀ
S88D X HSS2000 HEAD AND JAMBSഀ
DKB PEMഀ
FINISH OF CLOSER AS SELECTED Bഀ
Y ARCHITECT - COORDINATE SEAL WITH DOORഀ
MANUFACTURERഀ
Door Hardwareഀ
08710 - 8ഀ
Vail's Front Door - Residentialഀ
Vail, Coloradoഀ
15 May 2006ഀ
HW SET.• E9Bഀ
EACH OPENING TO HAVE:ഀ
3 EAഀ
HINGEഀ
BTBB1279 4.5 X 4.5ഀ
646ഀ
HAGഀ
1 EAഀ
PASSAGE SETഀ
AL10S NEPഀ
619ഀ
SCHഀ
1 EAഀ
SURFACE CLOSERഀ
1461 RW/62A DS (INSTALL REGULAR ARM)ഀ
RALഀ
LCNഀ
I EAഀ
WALL STOPഀ
WS407CCV (WHERE REQUIRED)ഀ
619ഀ
IVEഀ
1 SETഀ
SEALSഀ
S88D X HSS2000 HEAD AND JAMBSഀ
DKBഀ
PEMഀ
FINISH OF CLOSER AS SELECTED Bഀ
Y ARCHITECT - COORDINATE SEAL WITH DOORഀ
MANUFACTഀ
URERഀ
HW SET: E10ഀ
EACH OPENING TO HAVE:ഀ
6ഀ
EAഀ
HINGEഀ
BB 1279 4.5 X 4.5ഀ
652ഀ
HAGഀ
1ഀ
EAഀ
DUST PROOF STRIKEഀ
DP2ഀ
626ഀ
IVEഀ
1ഀ
PRഀ
AUTO FLUSH BOLTഀ
FB31Pഀ
630ഀ
IVEഀ
1ഀ
EAഀ
STOREROOM LOCKഀ
ND80TD SPA XQ07-351 7/8" FLAT LIPഀ
626ഀ
SCHഀ
1ഀ
EAഀ
COREഀ
23-030ഀ
626ഀ
SCHഀ
1ഀ
EAഀ
COORDINATORഀ
COR SERIES X FILLER BARഀ
628ഀ
IVEഀ
2ഀ
EAഀ
CLOSER BRACKETSഀ
MB1/MB2 (AS REQUIRED)ഀ
628ഀ
IVEഀ
1ഀ
EAഀ
ASTRAGALഀ
357SP X S88Dഀ
600ഀ
PEMഀ
2ഀ
EAഀ
SURFACE CLOSERഀ
1461 RW/62A DS (INSTALL PARALLEL ARM)ഀ
689ഀ
LCNഀ
2ഀ
EAഀ
KICK PLATEഀ
8400 10" X 2" LDWഀ
630ഀ
IVEഀ
2ഀ
EAഀ
WALL STOPഀ
WS407CCV (WHERE REQUIRED)ഀ
630ഀ
IVEഀ
1ഀ
SETഀ
SEALSഀ
S88D HEAD AND JAMBSഀ
DKBഀ
PEMഀ
HW SET: El Iഀ
SET NOT USEDഀ
HW SET: E12ഀ
EACH OPENING TO HAVE:ഀ
3 EA HINGE BTBB 1279 4 X 4 646 HAGഀ
1 EA PASSAGE SET 02555 OVAL PLATE PK KNOB O1 PASSAGE SRBഀ
TUBULAR LATCHഀ
1 EA SURFACE CLOSER 1461 RW/62A DS (INSTALL REGULAR ARM) RAL LCNഀ
1 EA DOOR STOP 61 (WHERE REQUIRED) 619 IVEഀ
FINISH OF CLOSER AS SELECTED BY ARCHITECTഀ
Door Hardware 08710 - 9 Vail's Front Door - Residentialഀ
Vail, Coloradoഀ
15 May 2006ഀ
HW SET: E12Bഀ
EACH OPENING TO HAVE:ഀ
3 EAഀ
HINGEഀ
BTBB 1279 4 X 4ഀ
646ഀ
HAGഀ
1 EAഀ
PASSAGE SETഀ
EMTEK MILANO LEVER WITH OVAL ROSETTEഀ
26ഀ
EMTഀ
1 EAഀ
SURFACE CLOSERഀ
1461 RW/62A DS (INSTALL REGULAR ARM)ഀ
RALഀ
LCNഀ
1 EAഀ
DOOR STOPഀ
61 (WHERE REQUIRED)ഀ
619ഀ
IVEഀ
FINISH OF CLOSER AS SELECTED Bഀ
Y ARCHITECTഀ
HW SET: E13ഀ
EACH OPENING TO HAVE:ഀ
3ഀ
EAഀ
HINGEഀ
1ഀ
EAഀ
PASSAGE SETഀ
1ഀ
EAഀ
DOOR STOPഀ
1ഀ
SETഀ
SEALSഀ
1ഀ
EAഀ
DOOR BOTTOMഀ
HW SET.• E13Bഀ
EACH OPENING TO HAVEഀ
3 EAഀ
HINGEഀ
1 EAഀ
PASSAGE SETഀ
1 EAഀ
DOOR STOPഀ
1 SETഀ
SEALSഀ
1 EAഀ
DOOR BOTTOMഀ
HW SET: E14ഀ
EACH OPENING TO HAVE:ഀ
3 EA HINGEഀ
1 EA PASSAGE SETഀ
1 EA DOOR STOPഀ
HW SET: E14Aഀ
EACH OPENING TO HAVE:ഀ
3 EA SWING CLEAR HINGEഀ
I EA PASSAGE SETഀ
1 EA DOOR STOPഀ
Door Hardwareഀ
BTBB 1279 4 X 4ഀ
646ഀ
HAGഀ
02555 OVAL PLATE PK KNOB O1 PASSAGEഀ
SRBഀ
TUBULAR LATCHഀ
61 (WHERE REQUIRED)ഀ
619ഀ
IVEഀ
S88D HEAD AND JAMBSഀ
DKBഀ
PEMഀ
411 ARLഀ
ALഀ
PEMഀ
BTBB 1279 4 X 4ഀ
646ഀ
HAGഀ
EMTEK MILANO LEVER WITH OVAL ROSETTEഀ
26ഀ
EMTഀ
61 (WHERE REQUIRED)ഀ
619ഀ
IVEഀ
S88D HEAD AND JAMBSഀ
DKBഀ
PEMഀ
411ARLഀ
ALഀ
PEMഀ
BTBB 1279 4 X 4ഀ
02555 OVAL PLATE PK KNOB 01 PASSAGEഀ
TUBULAR LATCHഀ
61 (WHERE REQUIRED)ഀ
646 HAGഀ
SRBഀ
619 IVEഀ
BT1260 4" 646 HAGഀ
EMTEK MILANO LEVER WITH OVAL ROSETTE EMTഀ
61 (WHERE REQUIRED) 619 IVEഀ
08710 - 10ഀ
Vail's Front Door - Residentialഀ
Vail, Coloradoഀ
15 May 2006ഀ
HW SET: EI4Bഀ
EACH OPENING TO HAVE:ഀ
3 EA HINGEഀ
1 EA PASSAGE SETഀ
1 EA DOORSTOPഀ
HW SET: E15ഀ
EACH OPENING TO HAVE:ഀ
6 EA HINGEഀ
2 EA SURFACE BOLTഀ
1 EA ENTRY SETഀ
2 EA DOORSTOPഀ
HW SET: E1 5Bഀ
EACH OPENING TO HAVE:ഀ
6ഀ
EAഀ
HINGEഀ
2ഀ
EAഀ
SURFACE BOLTഀ
1ഀ
EAഀ
PASSAGE SETഀ
1ഀ
EAഀ
DEADBOLTഀ
2ഀ
EAഀ
DOORSTOPഀ
HW SET: E16ഀ
EACH OPENING TO HAVE:ഀ
3 EA HINGEഀ
I EA PRIVACY SETഀ
1 EA DOORSTOPഀ
HW SET: El"ഀ
EACH OPENING TO HAVE:ഀ
3 EA SWING CLEAR HINGEഀ
I EA PRIVACY SETഀ
1 EA DOORSTOPഀ
Door Hardwareഀ
BTBB 1279 4 X 4 646 HAGഀ
EMTEK MILANO LEVER WITH OVAL ROSETTE ENTഀ
61 (WHERE REQUIRED) 619 IVEഀ
BTBB 1279 4 X 4ഀ
SB18 12"ഀ
02555 OVAL PLATE PK KNOB 03 ENTRYഀ
TUBULAR LATCH W/ DEADBOLT SGL CYL 45ഀ
DEADBOLTഀ
61 (WHERE REQUIRED)ഀ
646 HAGഀ
SRBഀ
SRBഀ
619 IVEഀ
BTBB1279 4 X 4 646 HAGഀ
S131812" SRBഀ
EMTEK MILANO LEVER WITH OVAL ROSETTE EMTഀ
EMTEL LOW PROFILE DEADBOLT 26 EMTഀ
61 (WHERE REQUIRED) 619 IVEഀ
BTBB 1279 4 X 4ഀ
02555 OVAL PLATE PK KNOB 02 PRIVACYഀ
TUBULAR LATCHഀ
61 (WHERE REQUIRED)ഀ
646 HAGഀ
SRBഀ
619 IVEഀ
BT1260 4" 646 HAGഀ
EMTEK MILANO LEVER WITH OVAL ROSETTE EMTഀ
61 (WHERE REQUIRED) 619 IVEഀ
08710-11ഀ
Vail's Front Door - Residentialഀ
Vail, Coloradoഀ
15 May 2006ഀ
HW SET: E17ഀ
EACH OPENING TO HAVE:ഀ
3 EA HINGEഀ
1 EA ENTRY SETഀ
1 EA DOOR STOPഀ
HW SET: E17Aഀ
EACH OPENING TO HAVEഀ
3 EAഀ
SWING CLEAR HINGEഀ
1 EAഀ
PASSAGE SETഀ
1 EAഀ
DEADBOLTഀ
1 EAഀ
DOOR STOPഀ
HW SET: E17Bഀ
EACH OPENING TO HAVEഀ
3 EAഀ
HINGEഀ
1 EAഀ
PASSAGE SETഀ
I EAഀ
DEADBOLTഀ
1 EAഀ
DOORSTOPഀ
HW SET: E18ഀ
EACH OPENING TO HAVE:ഀ
6 EA HINGEഀ
2 EA DUMMYഀ
2 EA ROLLER LATCHഀ
2 EA DOOR STOPഀ
Door Hardwareഀ
BTBB 1279 4 X 4ഀ
02555 OVAL PLATE PK KNOB 03 ENTRYഀ
TUBULAR LATCH W/ DEADBOLT SGL CYL 45ഀ
DEADBOLTഀ
61 (WHERE REQUIRED)ഀ
646 HAGഀ
SRBഀ
619 IVEഀ
BT1260 4" 646 HAGഀ
EMTEK MILANO LEVER WITH OVAL ROSETTE EMTഀ
EMTEL LOW PROFILE DEADBOLT 26 EMTഀ
61 (WHERE REQUIRED) 619 IVEഀ
BTBB 1279 4 X 4 646 HAGഀ
EMTEK MILANO LEVER WITH OVAL ROSETTE EMTഀ
EMTEL LOW PROFILE DEADBOLT 26 EMTഀ
61 (WHERE REQUIRED) 619 IVEഀ
BTBB 1279 4 X 4ഀ
02555 OVAL PLATE PK KNOB 06 SINGLEഀ
DUMMYഀ
RL32ഀ
61 (WHERE REQUIRED)ഀ
08710 - 12ഀ
646 HAGഀ
SRBഀ
630 IVEഀ
619 IVEഀ
Vail's Front Door - Residentialഀ
Vail, Coloradoഀ
15 May 2006ഀ
HW SET: E19ഀ
EACH OPENING TO HAVE:ഀ
3 EAഀ
HINGEഀ
BTBB 1279 4 X 4 646ഀ
HAGഀ
1 EAഀ
LOCKSETഀ
EXTERIOR A3011/AG GRIP INTERIOR A2510b/PKഀ
SRBഀ
KNOB 09 MORTISE LOCK ENTRANCE SGL CYLഀ
EXTERIOR 3" X 11" INTERIOR 2-1/2" X 10"ഀ
1 EAഀ
DOOR STOPഀ
61 (WHERE REQUIRED) 619ഀ
IVEഀ
1 SETഀ
KERF-IN WEATHERSTRIPഀ
S109D HEAD AND JAMBS DKBഀ
PEMഀ
1 EAഀ
DOOR BOTTOMഀ
234APK ALഀ
PEMഀ
1 EAഀ
MARBLE THRESHOLDഀ
BY OTHERSഀ
BYOഀ
1 EAഀ
DOOR BELLഀ
BY ELECTRICIANഀ
BYOഀ
1 EAഀ
DOOR BELL BUTTONഀ
DOOR BELL KET W/02555 PLATE LIGHTEDഀ
SRBഀ
BUTTONഀ
HW SET: E20ഀ
EACH OPENING TO HAVE:ഀ
3 EAഀ
HINGEഀ
BTBB 1279 4 X 4 NRPഀ
646 HAGഀ
1 EAഀ
LOCKSETഀ
ENTRY EXTERIOR SET 09 MORTISE LOCKഀ
SRBഀ
ENTRANCE SGL CYL X A3010b 3" X 10"ഀ
W/BOTTOM HUB X PK KNOBഀ
I SETഀ
KERF-IN WEATHERSTRIPഀ
S109D HEAD AND JAMBSഀ
DKB PEMഀ
1 EAഀ
DOOR BOTTOMഀ
234APKഀ
AL PEMഀ
1 EAഀ
WOOD THRESHOLDഀ
BY OTHERSഀ
BYOഀ
HW SET: E20Bഀ
EACH OPENING TO HAVE:ഀ
3ഀ
EAഀ
HINGEഀ
BTBB 1279 4 X 4 NRPഀ
646ഀ
HAGഀ
1ഀ
EAഀ
PASSAGE SETഀ
EMTEK MILANO LEVER WITH OVAL ROSETTEഀ
EMTഀ
1ഀ
EAഀ
DEADBOLTഀ
EMTEL LOW PROFILE DEADBOLTഀ
26ഀ
EMTഀ
1ഀ
SETഀ
KERF-IN WEATHERSTRIPഀ
S109D HEAD AND JAMBSഀ
DKBഀ
PEMഀ
1ഀ
EAഀ
DOOR BOTTOMഀ
234APKഀ
ALഀ
PEMഀ
1ഀ
EAഀ
WOOD THRESHOLDഀ
BY OTHERSഀ
BYOഀ
HW SET: E21ഀ
EACH OPENING TO HAVE:ഀ
ALL HARDWARE BY SLIDING DOOR MANUFACTURERഀ
Door Hardwareഀ
08710 - 13ഀ
Vail's Front Door - Residentialഀ
Vail, Coloradoഀ
15 May 2006ഀ
HW SET: E22ഀ
EACH OPENING TO HAVE:ഀ
3ഀ
EAഀ
HINGEഀ
BTBB 1279 4 X 4ഀ
646ഀ
HAGഀ
1ഀ
EAഀ
LOCKSETഀ
ENTRY EXTERIOR SET 09 MORTISE LOCKഀ
SRBഀ
ENTRANCE SGL CYL X A3010b 3" X 10"ഀ
W/BOTTOM HUB X PK KNOBഀ
1ഀ
EAഀ
DOOR STOPഀ
61 (WHERE REQUIRED)ഀ
619ഀ
IVEഀ
1ഀ
SETഀ
KERF-IN WEATHERSTRIPഀ
S109D HEAD AND JAMBSഀ
DKBഀ
PEMഀ
1ഀ
EAഀ
DOOR BOTTOMഀ
234APKഀ
ALഀ
PEMഀ
1ഀ
EAഀ
WOOD THRESHOLDഀ
BY OTHERSഀ
BYOഀ
HW SET.• E22Bഀ
EACH OPENING TO HAVE:ഀ
3 EAഀ
HINGEഀ
BTBB 1279 4 X 4ഀ
646ഀ
HAGഀ
1 EAഀ
PASSAGE SETഀ
EMTEK MILANO LEVER WITH OVAL ROSETTEഀ
EMTഀ
1 EAഀ
DEADBOLTഀ
EMTEL LOW PROFILE DEADBOLTഀ
26ഀ
EMTഀ
1 EAഀ
DOOR STOPഀ
61 (WHERE REQUIRED)ഀ
619ഀ
IVEഀ
1 SETഀ
KERF-IN WEATHERSTRIPഀ
S109D HEAD AND JAMBSഀ
DKBഀ
PEMഀ
1 EAഀ
DOOR BOTTOMഀ
234APKഀ
ALഀ
PEMഀ
1 EAഀ
WOOD THRESHOLDഀ
BY OTHERSഀ
BYOഀ
HW SET: E2ഀ
3ഀ
EACH OPENING TO HAVE:ഀ
4 EAഀ
HINGEഀ
BTBB 1279 4 X 4 NRPഀ
646ഀ
HAGഀ
1 EAഀ
SURFACE BOLTഀ
SB 18 CUT TO REQUIRED LENGTHഀ
SRBഀ
1 EAഀ
DEADBOLTഀ
45 17 FUNCTIONഀ
SRBഀ
1 EAഀ
LOCKSETഀ
ENTRY EXTERIOR SET 09 MORTISE LOCKഀ
SRBഀ
ENTRANCE SGL CYL X A3010b 3" X 10"ഀ
W/BOTTOM HUB X PK KNOBഀ
1 EAഀ
DOOR STOPഀ
61 (WHERE REQUIRED)ഀ
619ഀ
IVEഀ
1 SETഀ
KERF-IN WEATHERSTRIPഀ
S109D HEAD AND JAMBSഀ
DKBഀ
PEMഀ
I EAഀ
DOOR BOTTOMഀ
234APKഀ
ALഀ
PEMഀ
1 EAഀ
WOOD THRESHOLDഀ
BY OTHERSഀ
BYOഀ
HW SET: E24ഀ
EACH OPENING TO HAVE:ഀ
6 EAഀ
HINGEഀ
BTBB 1279 4 X 4ഀ
646ഀ
HAGഀ
1 EAഀ
DUMMY SETഀ
EXTERIOR A3011/AG GRIP INTERIOR A2510b/PKഀ
SRBഀ
KNOB 06F(A) EXTERIOR 3" X 11" INTERIOR 2-ഀ
1/2" X 10"ഀ
1 EAഀ
LOCKSETഀ
EXTERIOR A3011/AG GRIP INTERIOR A2510b/PKഀ
SRBഀ
KNOB 09 MORTISE LOCK ENTRANCE SGL CYLഀ
EXTERIOR 3" X 11" INTERIOR 2-1/2" X 10"ഀ
1 EAഀ
ASTRAGALഀ
BY DOOR MANUFACTURERഀ
BYOഀ
Door Hardwaഀ
reഀ
08710 - 14 Vail's Front Doorഀ
- Residentialഀ
Vഀ
ail, Coഀ
loradoഀ
15 May 2006ഀ
2ഀ
EAഀ
DOOR STOPഀ
61 (WHERE REQUIRED)ഀ
1ഀ
SETഀ
KERF-IN WEATHERSTRIPഀ
S109D HEAD AND JAMBSഀ
2ഀ
EAഀ
DOOR BOTTOMഀ
234APKഀ
1ഀ
EAഀ
MARBLE THRESHOLDഀ
BY OTHERSഀ
1ഀ
EAഀ
DOOR BELLഀ
BY ELECTRICIANഀ
1ഀ
EAഀ
DOOR BELL BUTTONഀ
DOOR BELL KET W/02555 PLATE LIGHTEDഀ
BUTTONഀ
HW SET: E25ഀ
EACH OPENING TO HAVE:ഀ
6ഀ
EAഀ
HINGEഀ
BTBB 1279 4 X 4 NRPഀ
2ഀ
EAഀ
SURFACE BOLTഀ
SB18 12"ഀ
1ഀ
EAഀ
ENTRY SETഀ
02555 OVAL PLATE PK KNOB 03 ENTRYഀ
TUBULAR LATCH W/ DEADBOLT SGL CYL 45ഀ
DEADBOLTഀ
1ഀ
EAഀ
ASTRAGALഀ
BY DOOR MANUFACTURERഀ
2ഀ
EAഀ
DOOR STOPഀ
61 (WHERE REQUIRED)ഀ
1ഀ
SETഀ
KERF-IN WEATHERSTRIPഀ
S109D HEAD AND JAMBSഀ
2ഀ
EAഀ
DOOR BOTTOMഀ
234APKഀ
1ഀ
EAഀ
WOOD THRESHOLDഀ
BY OTHERSഀ
HW SET: E26ഀ
EACH OPENING TO HAVE:ഀ
1 EA POCKET DOOR HARDWARE 9850ഀ
1 EA POCKET DOR LOCK DEL-SDLA325U15Aഀ
HW SET: E27ഀ
EACH OPENING TO HAVE:ഀ
1 EA LOCKSETഀ
HW SET: E28ഀ
EACH OPENING TO HAVE:ഀ
3 EA STRAP HINGEഀ
I EA ENTRY SETഀ
1 EA DOORSTOPഀ
Door Hardwareഀ
PELLA A151 It 1-1/2" X 11" WITH TOP HUB 30ഀ
MULTI POINT SGL CYL (LEVER AS SELECTEDഀ
BY INTERIOR DESIGNER)ഀ
BALANCE OF HARDWARE BY DOORഀ
MANUFACTURERഀ
SHNG 12ഀ
02555 OVAL PLATE PK KNOB 03 ENTRYഀ
TUBULAR LATCH W/ DEADBOLT SGL CYL 45ഀ
DEADBOLTഀ
61 (WHERE REQUIRED)ഀ
08710 - 15ഀ
619 IVEഀ
DKB PEMഀ
AL PEMഀ
BYOഀ
BYOഀ
SRBഀ
646 HAGഀ
SRBഀ
SRBഀ
BYOഀ
619 IVEഀ
DKB PEMഀ
AL PEMഀ
BYOഀ
HAGഀ
15A DELഀ
SRBഀ
RKYഀ
SRBഀ
619 IVEഀ
Vail's Front Door - Residentialഀ
Vail, Coloradoഀ
15 May 2006ഀ
HW SET: E29ഀ
EACH OPENING TO HAVE:ഀ
6ഀ
EAഀ
HINGEഀ
BTBB 1279 4 X 4ഀ
646 HAGഀ
2ഀ
EAഀ
DUMMYഀ
4" RING PULL X 02555 ESCUTCHEONഀ
SRBഀ
2ഀ
EAഀ
ROLLER LATCHഀ
RL32ഀ
630 IVEഀ
2ഀ
EAഀ
DOOR STOPഀ
61 (WHERE REQUIRED)ഀ
619 IVEഀ
HW SET: E30ഀ
EACH OPENING TO HAVE:ഀ
3ഀ
EAഀ
HINGEഀ
BB 1279 4.5 X 4.5ഀ
652ഀ
HAGഀ
1ഀ
EAഀ
STOREROOM LOCKഀ
ND96TD SPAഀ
*ഀ
SCHഀ
1ഀ
EAഀ
COREഀ
23-030ഀ
*ഀ
SCHഀ
1ഀ
EAഀ
SURFACE CLOSERഀ
1461 RW/PA (INSTALL REGULAR ARM)ഀ
689ഀ
LCNഀ
1ഀ
EAഀ
KICK PLATEഀ
8400 10" X 2" LDWഀ
*ഀ
IVEഀ
1ഀ
EAഀ
WALL STOPഀ
WS407CCVഀ
630ഀ
IVEഀ
1ഀ
SETഀ
SEALSഀ
319CS HEAD & JAMBSഀ
ALഀ
PEMഀ
1ഀ
EAഀ
DOOR BOTTOMഀ
216APK (NOTCH FOR FRAME STOP)ഀ
ALഀ
PEMഀ
1ഀ
EAഀ
THRESHOLDഀ
272A (OR AS DETAILED)ഀ
ALഀ
PEMഀ
* VERIFY FIഀ
NISH REQUIRED WITH ARCHITECTഀ
HW SET: E31ഀ
EACH OPENING TO HAVE:ഀ
ALL HARDWARE BY GATE MANUFACTURERഀ
HW SET: E32ഀ
EACH OPENING TO HAVE:ഀ
3ഀ
EAഀ
HINGEഀ
BB1191 4.5 X 4.5 NRPഀ
630ഀ
HAGഀ
1ഀ
EAഀ
STOREROOM LOCKഀ
ND96TD SPAഀ
626ഀ
SCHഀ
1ഀ
EAഀ
COREഀ
23-030ഀ
626ഀ
SCHഀ
1ഀ
EAഀ
CLOSER/STOPഀ
1461 CUSH DSഀ
689ഀ
LCNഀ
1ഀ
EAഀ
KICK PLATEഀ
8400 10" X 2" LDWഀ
630ഀ
IVEഀ
2ഀ
EAഀ
SEALSഀ
319CS @ JAMBSഀ
ALഀ
PEMഀ
1ഀ
EAഀ
SEALSഀ
S88D @ HEADഀ
DKBഀ
PEMഀ
1ഀ
EAഀ
DOOR SWEEPഀ
345ANBഀ
ALഀ
PEMഀ
1ഀ
EAഀ
THRESHOLDഀ
272A (OR AS DETAILED)ഀ
ALഀ
PEMഀ
Door Hardware 08710 - 16 Vail's Front Door - Residentialഀ
Vail, Coloradoഀ
15 May 2006ഀ
HW SET: E33ഀ
EACH OPENING TO HAVE:ഀ
3ഀ
EAഀ
HINGEഀ
1ഀ
EAഀ
FIRE EXIT HARDWAREഀ
1ഀ
EAഀ
SURFACE CLOSERഀ
1ഀ
EAഀ
KICK PLATEഀ
1ഀ
EAഀ
WALL STOPഀ
Iഀ
SETഀ
SEALSഀ
HW SET: E34ഀ
BB 1279 4.5 X 4.5ഀ
652ഀ
HAGഀ
98L-F-BE X 996L-BE X 17ഀ
689ഀ
VONഀ
1461 RW/62A DS (INSTALL PARALLEL ARM)ഀ
689ഀ
LCNഀ
8400 10" X 2" LDWഀ
630ഀ
IVEഀ
WS407CCVഀ
630ഀ
IVEഀ
S88D HEAD AND JAMBSഀ
DKBഀ
PEMഀ
EACH OPENING TO HAVE:ഀ
2 EA HINGEഀ
1 EA DUMMYഀ
1 EA ROLLER LATCHഀ
BTBB 1279 4 X 4ഀ
4" RING PULL X 02555 ESCUTCHEONഀ
RL32ഀ
646 HAGഀ
SRBഀ
630 IVEഀ
HW SET: E35ഀ
EACH OPENING TO HAVE:ഀ
3 EA HINGE BTBB1279 4 X 4 NRPഀ
1 EA ENTRY SET 02555 OVAL PLATE PK KNOB 03 ENTRYഀ
TUBULAR LATCH W/ DEADBOLT SGL CYL 45ഀ
DEADBOLTഀ
I EA DOOR STOP 61 (WHERE REQUIRED)ഀ
I SET KERF-IN WEATHERSTRIP S109D HEAD AND JAMBSഀ
I EA DOOR BOTTOM 234APKഀ
1 EA WOOD THRESHOLD BY OTHERSഀ
HW SET: E37ഀ
EACH OPENING TO HAVE:ഀ
3 EA HINGEഀ
1 EA ENTRY SETഀ
1 EA DOORSTOPഀ
1 SET SEALSഀ
1 EA DOOR BOTTOMഀ
Door Hardwareഀ
BTBB 1279 4 X 4ഀ
02555 OVAL PLATE PK KNOB 03 ENTRYഀ
TUBULAR LATCH W/ DEADBOLT SGL CYL 45ഀ
DEADBOLTഀ
61 (WHERE REQUIRED)ഀ
S88D HEAD AND JAMBSഀ
411 ARLഀ
END OF SECTIONഀ
646 HAGഀ
SRBഀ
619 IVEഀ
DKB PEMഀ
AL PEMഀ
BYOഀ
646 HAGഀ
SRBഀ
619 IVEഀ
DKB PEMഀ
AL PEMഀ
08710 - 17 Vail's Front Door - Residentialഀ
Vail, Coloradoഀ
15 May 2006ഀ
OAFഀ
CONSUApril 5ഀ
, 2006ഀ
Building Safety & Inspection Servicesഀ
Town of Vailഀ
Vail, Coloradoഀ
Attn: Electrical Plan Reviewerഀ
REVIEWED BYഀ
U L 10 2006ഀ
COLORADO INSPECTIONഀ
AGENCYഀ
~°0~ഀ
Re: Vail's Front Door - Buildings A, C & D - Garage, Ski Club & Skier Servicesഀ
Subj: IECC Lighting Complianceഀ
To whom it may concern:ഀ
Buildings A, C and D are all served from a common electrical service. The IECC Lighting Complianceഀ
calculations for these buildings were prepared in three parts to allow for a streamlined review process.ഀ
Please see the attached sets of calculations for details of each building.ഀ
Buildings A and D are shown to be in compliance. Building C is shown as not in compliance. When allഀ
three buildings are looked at together they comply:ഀ
Building Allowed Watts Actual Wattsഀ
"A" 17,461ഀ
16,702ഀ
"C" 15,821ഀ
16,963ഀ
"D" 34,940ഀ
32,817ഀ
Total 68,222ഀ
66,482ഀ
Lighting design for this electrical service Complies with IECC 805, +2.6%.ഀ
Should there be any questions, please contact us.ഀ
Sഀ
TonE. Co sultants, Inc.ഀ
Bou ult, P.E.ഀ
Partnerഀ
[REB/mwr]ഀ
P{ ~ rഀ
P:\2001-134-03\ADMIN\Elec A\Corr\Mwr-Ltr-2006-4-5 Bldg A-C-D IECC Compliance Letter.Docഀ
1530 16TH STREET, SUITE 400ഀ
DENVER, COLORADO 80202ഀ
303-623-6200 FAX 623-8435ഀ
APP 0 7 2006 0,ഀ
TOWN OF VAIL !ഀ
Permit #ഀ
Permit Dateഀ
COMcheck Software Version 3.1 Release 1ഀ
Lighting Compliance Certificateഀ
2003 IECCഀ
Report Date: 04/05/06ഀ
Data filename: P:\2001-134-03\ADMIN\Elec_A\Schedules\Building C - Ski Club\Bldg-C-SkiClub.cckഀ
Section 1: Project Informationഀ
Project Title: Vail's Front Door - Building C - Ski Clubഀ
Construction Site: Owner/Agent:ഀ
Section 2: General Informationഀ
Building Use Description by: Activity Typeഀ
Project Type: New Constructionഀ
Activity Tvoefslഀ
Corridor, Restroom, Support Areaഀ
Storage, Industrial and Commercialഀ
Kitchenഀ
Lobby - Otherഀ
Convention, Conference or Meeting Centerഀ
Officeഀ
Exercise Centerഀ
Section 3: Requirements Checklistഀ
Designer/Contractor:ഀ
`,~1~\\\'strri~~ll! S f5i 11 /I[1~f1/!/~yഀ
Floor Areaഀ
+ca CAഀ
2863 eഀ
3599ഀ
2447ഀ
r +ഀ
9ഀ
180ഀ
1087ഀ
`•'+ti.ഀ
y% tf ~'••••.•'*iഀ
1999ഀ
Nഀ
235ഀ
3953ഀ
APR 0 3 10016ഀ
Interior Lighting:ഀ
❑ 1. Total actual watts must be less than or equal to total allowed watts.ഀ
Allowed Watts Actual Watts Compliesഀ
15821 16963 NOഀ
❑ 2. Exit signs 5 Watts or less per side.ഀ
Exterior Lighting:ഀ
❑ 3. Efficacy greater than 45 lumens/W.ഀ
Exceptions:ഀ
Specialized lighting highlighting features of historic buildings; signage; safety or security lighting; low-voltage landscapeഀ
lighting.ഀ
Controls, Switching, and Wiring:ഀ
❑ 4. Independent controls for each space (switch/occupancy sensor).ഀ
Exceptions:ഀ
Areas that must be continuously illuminated.ഀ
❑ 5. Master switch at entry to hotel/motel guest room.ഀ
❑ 6. Individual dwelling units separately metered.ഀ
❑ 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;ഀ
Page 1 of 4ഀ
e 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.ഀ
❑ 8. Automatic lighting shutoff control in buildings larger than 5,000 sq.ft.ഀ
❑ 9. Photocell/astronomical time switch on exterior lights.ഀ
Exceptions:ഀ
Lighting intended for 24 hour use.ഀ
❑ 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.ഀ
Page 2 of 4ഀ
aഀ
Permit #ഀ
Permit Dateഀ
COMcheck Software Version 3.1 Release 1ഀ
Lighting Application Worksheetഀ
2003 IECCഀ
Report Date:ഀ
Data filename: P:\2001-134-03\ADMIN\Elec A\Schedules\Building C - Ski Club\Bldg-C-SkiClub.cckഀ
Section 1: Allowed Lighting Power Calculationഀ
Aഀ
Bഀ
Cഀ
Dഀ
Area Categoryഀ
Floor Areaഀ
Allowedഀ
Allowed Wattsഀ
(ft2)ഀ
Watts / ft2ഀ
(B x C)ഀ
Corridor, Restroom, Support Areaഀ
3599ഀ
0.9ഀ
3239ഀ
Storage, Industrial and Commercialഀ
2447ഀ
0.8ഀ
1958ഀ
Kitchenഀ
180ഀ
1.2ഀ
216ഀ
Lobby - Otherഀ
1087ഀ
1.3ഀ
1413ഀ
Allowance: Decorative / Fix. ID: LTG9ഀ
52(a)ഀ
1ഀ
52(b)ഀ
Allowance: Decorative / Fix. ID: LTG5ഀ
240(a)ഀ
1ഀ
240(b)ഀ
Allowance: Decorative / Fix. ID: LTG4ഀ
795(a)ഀ
1ഀ
480(b)ഀ
Convention, Conference or Meeting Centerഀ
1999ഀ
1.3ഀ
2599ഀ
Allowance: Decorative / Fix. ID: LTG3ഀ
200(a)ഀ
1ഀ
200(b)ഀ
Allowance: Decorative / Fix. ID: LTG2ഀ
108(a)ഀ
1ഀ
108(b)ഀ
Allowance: Decorative / Fix. ID: LTG1ഀ
1684(a)ഀ
1ഀ
1500(b)ഀ
Officeഀ
235ഀ
1.1ഀ
258ഀ
Exercise Centerഀ
3953ഀ
0.9ഀ
3558ഀ
Total Allowed Watts =ഀ
(a) Area claimed must not exceed the illuminated area permitted for this allowance type.ഀ
(b) Allowance is (B x C) or the actual wattage of the fixtures given in Section 2, whichever is less.ഀ
Section 2: Actual Lighting Power Calculationഀ
A B Cഀ
Fixture ID : Description / Lamp / Wattage Per Lamp / Ballast Lamps/ # ofഀ
Fixture Fixturesഀ
15821ഀ
Dഀ
Fixtureഀ
Watt.ഀ
Eഀ
(C X D)ഀ
Compact Fluorescent 1: Al: 6" DOWNLIGHT / Triple 4-pin 42W / Electronicഀ
1ഀ
37ഀ
35ഀ
1295ഀ
Compact Fluorescent 2: A4: 4" DOWNLIGHT / Triple 4-pin 18W / Electronicഀ
1ഀ
4ഀ
18ഀ
72ഀ
Compact Fluorescent 3: A5: 7" DOWNLIGHT / Triple 4-pin 42W / Electronicഀ
1ഀ
3ഀ
37ഀ
111ഀ
HID 1: A6: HID FLOODLIGHT/ Metal Halide 70W / Electronicഀ
1ഀ
14ഀ
45ഀ
630ഀ
Incandescent 2: A7: MR16 LOW VOLTAGE / 37W MR16ഀ
1ഀ
54ഀ
32ഀ
1728ഀ
Incandescent 3: A8: 4" APERATURE MR16 / 37W MR16ഀ
1ഀ
15ഀ
37ഀ
555ഀ
Compact Fluorescent 4: A9: 6" WALL WASHER / Triple 4-pin 32W / Electronicഀ
1ഀ
8ഀ
35ഀ
280ഀ
Compact Fluorescent 5: A10: CF CYLINDER / Triple 4-pin 32W / Electronicഀ
1ഀ
6ഀ
35ഀ
210ഀ
Compact Fluorescent 6: 131: 6" SHOWERLIGHT / Twin Tube 24/26/27W /ഀ
1ഀ
2ഀ
30ഀ
60ഀ
Electronicഀ
Incandescent 4: D1: 6" IND WALL WASHER / Incandescent 75Wഀ
1ഀ
8ഀ
35ഀ
280ഀ
T8 / T12 Fluorescent 1: F1: 4' UPLIGHT / 48" T8 28W (Super T8) / Electronicഀ
1ഀ
1ഀ
28ഀ
28ഀ
T8 / T12 Fluorescent 2: F2: 3' UPLIGHT / 36" T8 25W / Electronicഀ
1ഀ
2ഀ
25ഀ
50ഀ
T8 / T12 Fluorescent 3: F3: 2x4 TROFFER / 48" T8 28W (Super T8) / Electronicഀ
3ഀ
3ഀ
84ഀ
252ഀ
T8 / T12 Fluorescent 4: F4: 4' STRIP / 48" T8 28W (Super T8) / Electronicഀ
2ഀ
17ഀ
56ഀ
952ഀ
T8 / T12 Fluorescent 5: F8: 8' TANDEM STRIP / 48" T8 28W (Super T8) /ഀ
4ഀ
2ഀ
112ഀ
224ഀ
Electronicഀ
T8 / T12 Fluorescent 6: G: 4' WRAP / 48" T8 28W (Super T8) / Electronicഀ
2ഀ
33ഀ
56ഀ
1848ഀ
T8 / T12 Fluorescent 7: L: LOCKER UPLIGHT / 48" T8 28W (Super T8) /ഀ
1ഀ
149ഀ
28ഀ
4172ഀ
Electronicഀ
T8 / T12 Fluorescent 8: L1: LOCKER UPLIGHT / 36" T8 25W / Electronicഀ
1ഀ
22ഀ
25ഀ
550ഀ
Page 3 of 4ഀ
s Incandescent 7: LTG1: 20 LAMP - 25W IND DECO FIXTURE / Incandescent 25Wഀ
1ഀ
3ഀ
500ഀ
1500ഀ
Compact Fluorescent 7: LTG2: BAR PENDANT / Quad 2-pin 18W / Electronicഀ
1ഀ
6ഀ
18ഀ
108ഀ
Incandescent 9: LTG3: GREAT DECO FIXTURE / Incandescent 25Wഀ
2ഀ
8ഀ
50ഀ
400ഀ
Incandescent 10: LTG4: 6 LAMP - 40W IND DECO FIXTURE / Incandescent 40Wഀ
6ഀ
2ഀ
240ഀ
480ഀ
Incandescent 11: LTG5: ELEVATOR LOBBY / Incandescent 40Wഀ
3ഀ
2ഀ
120ഀ
240ഀ
Compact Fluorescent 8: LTG6: DECOR RR SCONCE / Quad 2-pin 13W /ഀ
1ഀ
6ഀ
13ഀ
78ഀ
Electronicഀ
Compact Fluorescent 9: LTG7: LOCKER RR SCONCE / Quad 2-pin 13W /ഀ
2ഀ
2ഀ
26ഀ
52ഀ
Electronicഀ
Compact Fluorescent 10: LTG9: CORRIDOR WALL SCONCE / Quad 2-pin 13W /ഀ
1ഀ
4ഀ
13ഀ
52ഀ
Electronicഀ
Incandescent 17: S1: VANITY WALL SCONCE / Incandescent 60Wഀ
2ഀ
2ഀ
120ഀ
240ഀ
T8 / T12 Fluorescent 9: S2: STAIR LANDING SCONCE / 48" T8 28W (Super T8) /ഀ
2ഀ
6ഀ
56ഀ
336ഀ
Electronicഀ
Incandescent 18: S3: ELEVATOR PIT / Incandescent 60Wഀ
1ഀ
3ഀ
60ഀ
180ഀ
Total Actual Watts =ഀ
16963ഀ
Section 3: Compliance Calculationഀ
If the Total Allowed Watts minus the Total Actual Watts is greater than or equal to zero, the building complies.ഀ
Total Allowed Watts = 15821ഀ
Total Actual Watts = 16963ഀ
Project Compliance = -1142ഀ
Page 4 of 4ഀ
2003 IECCഀ
REVIEWED BYഀ
J U L 10 2006ഀ
COLORADO INSPECTIONഀ
AGENCYഀ
COMcheck Software Version 3.1 Release 1ഀ
Permit #ഀ
Permit Dateഀ
Envelope Compliance Certificateഀ
Report Date: 04/05/06ഀ
Data filename: P:\2001-134-03\ADMIN\Mech_A\Elite\Garage-DockOffice.cckഀ
Section 1: Project Informationഀ
Project Title: Vail's Front Door - Bldg. A (Garage) - Dock Officeഀ
Construction Site:ഀ
Vail, COഀ
Owner/Agent:ഀ
Vail Resorts Development Companyഀ
Section 2: General Informationഀ
Building Location (for weather data): Vail, Coloradoഀ
Climate Zone: 15ഀ
Heating Degree Days (base 65 degrees F): 9248ഀ
Cooling Degree Days (base 65 degrees F): 44ഀ
Project Type: New Constructionഀ
Glazing Area Percentage: 7%ഀ
Building Type Floor Areaഀ
Office 340ഀ
Section 3: Requirements Checklistഀ
Climate-Specific Requirements:ഀ
Designer/Contractor:ഀ
Jay Watsonഀ
ABS Consultants, Inc.ഀ
1530 16th Street, Suite 400ഀ
Denver, CO 80202ഀ
303-623-6200ഀ
jwatson@absconsultants.comഀ
Component Name/Descriptionഀ
Gross Area Cavityഀ
Cont.ഀ
Proposedഀ
Budgetഀ
or R-Valueഀ
R-Valueഀ
U-Factorഀ
U-Factorഀ
Perimeterഀ
Roof 1: Structural Slabഀ
340 -ഀ
10.0ഀ
0.089ഀ
0.045ഀ
Exterior Wall 1: Solid Concrete or Masonry 8", Furring: Noneഀ
710ഀ
13.0ഀ
0.067ഀ
0.064ഀ
Window 1: Wood Frame:Double Pane with Low-E, Clear, SHGC 1.00ഀ
48ഀ
ഀ
1.100ഀ
0.520ഀ
Floor 1: Slab-On-Grade: Unheatedഀ
71ഀ
ഀ
-ഀ
ഀ
(a) Budget U-factors are used for software baseline calculations ONLY, and are not code requirementsഀ
Air Leakage, Component Certification, and Vapor Retarder Requirements:ഀ
❑ 1. All joints and penetrations are caulked, gasketed, weather-stripped, or otherwise sealed.ഀ
❑ 2. Windows, doors, and skylights certified as meeting leakage requirements.ഀ
❑ 3. Component R-values & U-factors labeled as certified.ഀ
❑ 4. Stair, elevator shaft vents, and other dampers integral to the building envelope are equipped with motorized dampers.ഀ
❑ 5. Cargo doors and loading dock doors are weather sealed.ഀ
❑ 6. Recessed lighting fixtures are: (i) Type IC rated and sealed or gasketed; or (ii) installed inside an appropriate air-tightഀ
Vail's Front Door - Bldg. A (Garage) - Dock Office Page 1 of 6ഀ
assembly with a 0.5 inch clearance from combustible materials and with 3 inches clearance from insulation material.ഀ
❑ 7. Building entrance doors have a vestibule and equipped with closing devices.ഀ
Exceptions:ഀ
Building entrances with revolving doors.ഀ
Doors that open directly from a space less than 3000 sq. ft. in area.ഀ
❑ 8. Vapor retarder installed.ഀ
Section 4: Compliance Statementഀ
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 toഀ
meet the 2003 IECC requirements in COMcheck Version 3.1 Release 1 and to comply with the mandatory requirements in theഀ
Requirements Checklist.ഀ
rincipal Envelope Det igrier-4Ame Signature Dateഀ
Project Notes:ഀ
Energy Calc is for Dock Office only.ഀ
Vail's Front Door - Bldg. A (Garage) - Dock Office Page 2 of 6ഀ
Permit #ഀ
Permit Dateഀ
COMcheck Software Version 3.1 Release 1ഀ
Mechanical Compliance Certificateഀ
2003 IECCഀ
Report Date: 04/05/06ഀ
Data filename: P:\2001-134-03\ADMIN\Mech_A\Elite\Garage-DockOffice.cckഀ
Section 1: Project Informationഀ
Project Title: Vail's Front Door - Bldg. A (Garage) - Dock Officeഀ
Construction Site: Owner/Agent: Designer/Contractor:ഀ
Vail, CO Vail Resorts Development Company Jay Watsonഀ
ABS Consultants, Inc.ഀ
1530 16th Street, Suite 400ഀ
Denver, CO 80202ഀ
303-623-6200ഀ
jwatson@absconsultants.comഀ
Section 2: General Informationഀ
Building Location (for weather data): Vail, Coloradoഀ
Climate Zone: 15ഀ
Heating Degree Days (base 65 degrees F): 9248ഀ
Cooling Degree Days (base 65 degrees F): 44ഀ
Project Type: New Constructionഀ
Section 3: Mechanical Systems Listഀ
Quantity System Type & Descriptionഀ
1 HVAC System 1: Heating: Other, Electric / Single Zoneഀ
Section 4: Requirements Checklistഀ
Requirements Specific To: HVAC System 1 :ഀ
Generic Requirements: Must be met by all systems to which the requirement is applicable:ഀ
❑ 1. Load calculations per 1997 ASHRAE Fundamentalsഀ
❑ 2. Plant equipment and system capacity no greater than needed to meet loadsഀ
- Exception: Standby equipment automatically off when primary system is operatingഀ
- Exception: Multiple units controlled to sequence operation as a function of loadഀ
❑ 3. Minimum one temperature control device per systemഀ
❑ 4. Minimum one humidity control device per installed humidification/dehumidification systemഀ
❑ 5. Automatic Controls: Setback to 55 degrees F (heat) and 85 degrees F (cool); 7-day clock, 2-hour occupant override, 10-hourഀ
backupഀ
- Exception: Continuously operating zonesഀ
- Exception: 2 kW demand or less, submit calculationsഀ
❑ 6. Automatic shut-off dampers on exhaust systems and supply systems with airflow >3,000 cfmഀ
❑ 7. Outside-air source for ventilation; system capable of reducing OSA to required minimumഀ
❑ 8. R-5 supply and return air duct insulation in unconditioned spaces R-8 supply and return air duct insulation outside theഀ
building R-8 insulation between ducts and the building exterior when ducts are part of a building assemblyഀ
- Exception: Ducts located within equipmentഀ
- Exception: Ducts with interior and exterior temperature difference not exceeding 15 degrees F.ഀ
❑ 9. Ducts sealed - longitudinal seams on rigid ducts; transverse seams on all ducts; UL 181A or 181B tapes and masticsഀ
Vail's Front Door - Bldg. A (Garage) - Dock Office Page 3 of 6ഀ
- Exception: Continuously welded and locking-type longitudinal joints and seams on ducts operating at staticഀ
pressures less than 2 inches w.g. pressure classificationഀ
❑ 10. Mechanical fasteners and sealants used to connect ducts and air distribution equipmentഀ
❑ 11. Operation and maintenance manual provided to building ownerഀ
❑ 12. Balancing devices provided in accordance with IMC 603.15ഀ
❑ 13. Stair and elevator shaft vents are equipped with motorized dampersഀ
Section 5: Compliance Statementഀ
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 designedഀ
to meet the 2003 IECC requirements in COMcheck Version 3.1 Release 1 and to comply with the mandatory requirements in theഀ
Requirements Checklist.ഀ
TAXഀ
Principal Me hanical Designer-Name Signature Dateഀ
Vail's Front Door - Bldg. A (Garage) - Dock Office Page 4 of 6ഀ
COMcheck Software Version 3.1 Release 1ഀ
Mechanical Requirementsഀ
Descriptionഀ
2003 IECCഀ
Report Date:ഀ
Data filename: P:\2001-134-03\ADMIN\Mech_A\Elite\Garage-DockOffice.cckഀ
The following list provides more detailed descriptions of the requirements in Section 4 of the Mechanical Compliance Certificate.ഀ
Requirements Specific To: HVAC System 1 :ഀ
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 27ഀ
and 28 of 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 equipmentഀ
providing both heating and cooling must satisfy this provision for one function with the capacity for the other function as smallഀ
as possible, within available equipment options.ഀ
- Exception: The equipment and/or system capacity may be greater than calculated loads for standby purposes. Standbyഀ
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 allowedഀ
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. 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 ofഀ
automatically setting back or shutting down systems during unoccupied hours using 7 different day schedulesc) have anഀ
accessible 2-hour occupant overrided) have a battery back-up capable of maintaining programmed settings for at least 10ഀ
hours without power.ഀ
- Exception: A setback or shutoff control is not required on thermostats that control systems serving areas that operateഀ
continuously.ഀ
- Exception: A setback or shutoff control is not required on systems with total energy demand of 2 kW (6,826 Btu/h) orഀ
less.ഀ
6. Outdoor-air supply systems with design airflow rates >3,000 cfm of outdoor air and all exhaust systems must have dampersഀ
that are automatically closed while the equipment is not operating.ഀ
7. The system must supply outside ventilation air as required by Chapter 4 of the International Mechanical Code. If the ventilationഀ
system is designed to supply outdoor-air quantities exceeding minimum required levels, the system must be capable ofഀ
reducing outdoor-air flow to the minimum required levels.ഀ
8. Air ducts must be insulated to the following levels:a) Supply and return air ducts for conditioned air located in unconditionedഀ
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 aഀ
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 theഀ
duct or plenum does not exceed 15 degrees F.ഀ
9. 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 beഀ
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 pressuresഀ
less than 2 inches w.g. pressure classification.ഀ
10. Mechanical fasteners and seals, mastics, or gaskets must be used when connecting ducts to fans and other air distributionഀ
equipment, including multiple-zone terminal units.ഀ
11. 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 sequenceഀ
Vail's Front Door - Bldg. A (Garage) - Dock Office Page 5 of 6ഀ
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.ഀ
12. Each supply air outlet or diffuser and each zone terminal device (such as VAV or mixing box) must have its own balancingഀ
device. Acceptable balancing devices include adjustable dampers located within the ductwork, terminal devices, and supply airഀ
diffusers.ഀ
13. Stair and elevator shaft vents must be equipped with motorized dampers capable of being automatically closed during normalഀ
building operation and interlocked to open as required by fire and smoke detection systems. All gravity outdoor air supply andഀ
exhaust hoods, vents, and ventilators must be equipped with motorized dampers that will automatically shut when the spacesഀ
served are not in use. Exceptions: - Gravity (non-motorized) dampers are acceptable in buildings less than three stories inഀ
height above grade. - Ventilation systems serving unconditioned spaces.ഀ
Vail's Front Door - Bldg. A (Garage) - Dock Office Page 6 of 6ഀ
rഀ
mme Elite Develop Dഀ
Consultants 80202 1 464 rcial Loads Calculation Program Vails F osoD areGarage Dment, Inc.ഀ
A, Inc. BSഀ
nver, CO -eഀ
Pa i 2ഀ
- - - - g -ഀ
General Project Data Inputഀ
General Project Informationഀ
Project file name: P:\2001-134-03WDMIN\Mech_A\Elite\Garage-DockOffice.CHVഀ
Project title: Vails Front Door - Garage Dock Officeഀ
Project date: Wednesday, October 05, 2005ഀ
Weather reference city: EAGLE, COLORADO, USAഀ
Client name: Vail Resorts Development Companyഀ
Company name: ABSഀ
Barometric pressure: 23.496 in.Hg.ഀ
Altitude: 6539 feetഀ
Latitude: 40 Degreesഀ
Mean daily temperature range: 36.1 Degreesഀ
Starting & ending time for HVAC load calculations: lam - 12amഀ
Number of unique zones in this project: 1ഀ
Buildin Default Valuesഀ
Calculations performed:ഀ
Heating loads onlyഀ
Lighting requirements:ഀ
2.00ഀ
Watts per square footഀ
Equipment requirements:ഀ
1.00ഀ
Watts per square footഀ
People sensible load multiplier:ഀ
245ഀ
Btuh per personഀ
People latent load multiplier:ഀ
155ഀ
Btuh per personഀ
Zone sensible safety factor:ഀ
10ഀ
%ഀ
Zone latent safety factor:ഀ
10ഀ
%ഀ
Zone heating safety factor:ഀ
20ഀ
%ഀ
People diversity factor:ഀ
100ഀ
%ഀ
Lighting profile number:ഀ
0ഀ
Equipment profile number:ഀ
0ഀ
People profile number:ഀ
0ഀ
Building default ceiling height:ഀ
9.00ഀ
feetഀ
Building default wall height:ഀ
10.00ഀ
feetഀ
Internal O ratin Load Profiles C = 100ഀ
hrഀ
hrഀ
hrഀ
hrഀ
hrഀ
hrഀ
hrഀ
hrഀ
hrഀ
hrഀ
hrഀ
hrഀ
hrഀ
hrഀ
hrഀ
hrഀ
hrഀ
hrഀ
hrഀ
hrഀ
hrഀ
hrഀ
hrഀ
hrഀ
1ഀ
2ഀ
3ഀ
4ഀ
5ഀ
6ഀ
7ഀ
8ഀ
9ഀ
10ഀ
11ഀ
12ഀ
13ഀ
14ഀ
15ഀ
16ഀ
17ഀ
18ഀ
19ഀ
20ഀ
21ഀ
22ഀ
23ഀ
24ഀ
1ഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
2ഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
3ഀ
Cഀ
Cഀ
Cഀ
cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
cഀ
cഀ
Cഀ
Cഀ
cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
4ഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
5ഀ
Cഀ
cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
6ഀ
Cഀ
Cഀ
cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
7ഀ
cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
cഀ
cഀ
cഀ
cഀ
cഀ
cഀ
Cഀ
cഀ
cഀ
Cഀ
Cഀ
6ഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
9ഀ
Cഀ
cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
cഀ
cഀ
Cഀ
Cഀ
10,ഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
cഀ
cഀ
Cഀ
Cഀ
Cഀ
Cഀ
Cഀ
cഀ
cഀ
Cഀ
Cഀ
P:\2001-134-03WDMIN\Mech_A\Elite\Garage-DockOffice.CHV Wednesday, March 29, 2006, 3:53 PMഀ
Chvac - Full Commercial HVAC Loads Calculation Programഀ
Elite Software Development, Inc.ഀ
ABS Consultants, Inc.ഀ
Aഀ
Vails Front Door Garage Dock Officeഀ
Denver. CO 80202-1464ഀ
-ഀ
- -ഀ
- - -ഀ
- -ഀ
Page 3ഀ
General Project Data Input (cont'd)-ഀ
Building-Level Design_Conditionsഀ
Design Outdoor Outdoorഀ
Indoorഀ
Indoorഀ
Grainsഀ
In/Outdoorഀ
Month Dry Bulb Wet Bulbഀ
Rel.Humഀ
Dഀ
ry Bulbഀ
Diffഀ
Correctionഀ
August 86 57ഀ
50%ഀ
72ഀ
-32.38ഀ
-11ഀ
Winter -20ഀ
75ഀ
Master Roofsഀ
Roof ASH RAEഀ
Roofഀ
Darkഀ
S usp.ഀ
No. Roof#ഀ
U-Facഀ
Colorഀ
Ceilഀ
1 12ഀ
0.100ഀ
Noഀ
Yesഀ
Master Wallsഀ
Wall ASHRAEഀ
Wallഀ
Wallഀ
No. Groupഀ
U-Facഀ
Colorഀ
1 Dഀ
0.067ഀ
Mഀ
'Master Glassഀ
Glass Summer Winterഀ
Glassഀ
Interiorഀ
Interiorഀ
No. U-Factor U-Factorഀ
Shd.Coef.ഀ
Shadingഀ
Shd.Coefഀ
1 1.100 1.100ഀ
1.000ഀ
3ഀ
0.000ഀ
Master Shading Devicesഀ
_ഀ
Dist Dist Dist Distഀ
Distഀ
Distഀ
Htഀ
Dist Distഀ
Htഀ
Horiz Beyond Beyond Overhഀ
Rightഀ
R-Finഀ
Ofഀ
Left L-Finഀ
Ofഀ
Shade Overh Right Left Aboveഀ
Finഀ
Beyondഀ
Rightഀ
Fin Beyondഀ
Leftഀ
No. Projects W.Edge W.Edge Windഀ
Projഀ
W.Edgeഀ
Finഀ
Proj W.Edgeഀ
Finഀ
1 20.00 20.00 20.00 1.00ഀ
0.00ഀ
0.00ഀ
0.00ഀ
0.00 0.00ഀ
0.00ഀ
P:\2001-134-03\ADMIN\Mech_A\Elite\Garage-DockOffice.CHV Wednesday, March 29, 2006, 3:53 PMഀ
CO 80 02 1464, HVAC Loads Calcutatian Program-ഀ
ulta nts, S eonsഀ
-ഀ
VaiEIF ost Door - Garage oDock O~ffi eഀ
Building Summary Loadsഀ
Bldg Load Areaഀ
Senഀ
%Totഀ
Latഀ
Senഀ
Netഀ
%Netഀ
Descriptions Quanഀ
Lossഀ
Lossഀ
Gainഀ
Gainഀ
Gainഀ
Gainഀ
Roof 340ഀ
3,876ഀ
24.15ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Wall 662ഀ
5,056ഀ
31.51ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Glass 48ഀ
6,019ഀ
37.51ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Floor Slab 0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Skin Loadsഀ
14,952ഀ
93.17ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Lightingഀ
680ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Equipmentഀ
340ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Peopleഀ
1ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Partitionഀ
0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Cool. Pret.ഀ
0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Heat. Pret.ഀ
0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Cool. Vent.ഀ
0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Heat. Vent.ഀ
14ഀ
1,096ഀ
6.83ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Cool.lnfil.ഀ
0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Heat.lnfil.ഀ
0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Draw-Thru Fanഀ
0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Blow-Thru Fanഀ
0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Reserve Cap.ഀ
0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Reheat Cap.ഀ
0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Supply Ductഀ
0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Return Ductഀ
0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Misc. Supplyഀ
0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Misc. Returnഀ
0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Building Totalsഀ
16,047ഀ
100.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
Buildingഀ
S rnary - -ഀ
Senഀ
Lassഀ
%Totഀ
Lossഀ
Ventilationഀ
1,096ഀ
6.83ഀ
Infiltrationഀ
0ഀ
0.00ഀ
Pretreated Airഀ
0ഀ
0.00ഀ
Zone Loadsഀ
14,952ഀ
93.17ഀ
Plenum Loadsഀ
0ഀ
0.00ഀ
Fan & Duct Loadsഀ
0ഀ
0.00ഀ
Building Totalsഀ
16,047 100.00ഀ
Latഀ
Senഀ
Net Tഀ
%oNetlഀ
Gainഀ
Gainഀ
Gainഀ
Gain iഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
0ഀ
0ഀ
0ഀ
0.00ഀ
0 0 0 0.00ഀ
Check Figuresഀ
Total Building Supply Air (based on a 15° TD): 1,175 CFMഀ
Total Building Vent. Air (1.16% of Supply): 14 CFMഀ
Total Conditioned Air Space:ഀ
340ഀ
Sq.ftഀ
Supply Air Per Unit Area:ഀ
3.4569ഀ
CFM/Sq.ftഀ
Area Per Cooling Capacity:ഀ
0.0000ഀ
Sq.ft/Tonഀ
Cooling Capacity Per Area:ഀ
0.0000ഀ
Tons/Sq.ftഀ
Heating Capacity Per Area:ഀ
47.20ഀ
Btuh/Sq.ftഀ
Total Heating Required With Outside Air:ഀ
16,047ഀ
Btuhഀ
Total Cooling Required With Outside Air:ഀ
0.00ഀ
Tonsഀ
P:\2001-134-03WDMIN\Mech_A\Elite\Garage-DockOffice.CHV Wednesday, March 29, 2006, 3:53 PMഀ
vah c - Full Commercial HVAC Loads Calculation Programഀ
Elite Software Development, Inc.ഀ
BS Consultants. Inc.ഀ
ഀ
Vails Front Door - Gaഀ
rage Dock Officeഀ
CO 80202-1464ഀ
Denver,ഀ
Page 4ഀ
Building Envelope Reportഀ
Envelope Report Using Summer U-Factorsഀ
I Materialഀ
Grossഀ
Glassഀ
Netഀ
-U-ഀ
Area xഀ
Averageഀ
Typesഀ
Areaഀ
Areaഀ
Areaഀ
Factorഀ
-Factorഀ
Uഀ
U-Factorഀ
Roof 1ഀ
340.0ഀ
0.0ഀ
340.0ഀ
0.100ഀ
_ഀ
34.000ഀ
0.100ഀ
Tot. Roofഀ
340.0ഀ
0.0ഀ
340.0ഀ
N/Aഀ
34.000ഀ
0.100ഀ
Wall 1ഀ
710.0ഀ
48.0ഀ
662.0ഀ
0.067ഀ
44.354ഀ
0.067ഀ
Tot.Wallഀ
710.0ഀ
48.0ഀ
662.0ഀ
N/Aഀ
44.354ഀ
0.067ഀ
Glass 1ഀ
48.0ഀ
N/Aഀ
48.0ഀ
1.100ഀ
52.800ഀ
1.100ഀ
Tot.Glassഀ
48.0ഀ
N/Aഀ
48.0ഀ
N/Aഀ
52.800ഀ
1.100ഀ
Totalsഀ
1,050.0ഀ
131.154ഀ
0.125ഀ
Wallഀ
Wallഀ
Glassഀ
Wall Netഀ
Wall Avgഀ
Glass Avg -ഀ
Glass Avgഀ
Directionഀ
Areaഀ
Areaഀ
Areaഀ
U-Factorഀ
U-Factorഀ
Shd.Coefഀ
Nഀ
710.0ഀ
48.0ഀ
662.0ഀ
0.067ഀ
1.100ഀ
1.000ഀ
NEഀ
0.0ഀ
0.0ഀ
0.0ഀ
0.000ഀ
0.000ഀ
0.000ഀ
Eഀ
0.0ഀ
0.0ഀ
0.0ഀ
0.000ഀ
0.000ഀ
0.000ഀ
SEഀ
0.0ഀ
0.0ഀ
0.0ഀ
0.000ഀ
0.000ഀ
0.000ഀ
Sഀ
0.0ഀ
0.0ഀ
0.0ഀ
0.000ഀ
0.000ഀ
0.000ഀ
SWഀ
0.0ഀ
0.0ഀ
0.0ഀ
0.000ഀ
0.000ഀ
0.000ഀ
Wഀ
0.0ഀ
0.0ഀ
0.0ഀ
0.000ഀ
0.000ഀ
0.000ഀ
NWഀ
0.0ഀ
0.0ഀ
0.0ഀ
0.000ഀ
0.000ഀ
0.000ഀ
Totalsഀ
710.0ഀ
48.0ഀ
662.0ഀ
0.067ഀ
1.100ഀ
1.000ഀ
P:\2001-134-03\ADMIN\Mech_A\Elite\Garage-DockOffice.CHV Wednesday, March 29, 2006, 3:53 PMഀ
COMcheck Software Version 3.2.0ഀ
2003 IECCഀ
REVIEWED BYഀ
J U L 1 0 2006ഀ
COLORADO INSPECTIONഀ
AGENCYഀ
Permit #ഀ
Permit Dateഀ
Lighting Compliance Certificateഀ
Report Date: 04/05/06ഀ
Data filename: P:\2001-134-03\ADMIN\Elec_A\Schedules\Building A - Garage\Bldg-A-Parking-mtv.cckഀ
Section 1: Project Informationഀ
Project Title: Vail,s Front Door Building A - Parkingഀ
Construction Site: Owner/Agent:ഀ
Section 2: General Informationഀ
Building Use Description by:ഀ
Project Type: New Constructionഀ
Building Type Floor Areaഀ
Parking Garage 92279ഀ
Section 3: Requirements Checklistഀ
Interior Lighting:ഀ
❑ 1. Total actual watts must be less than or equal to total allowed watts.ഀ
Allowed Watts Actual Watts Compliesഀ
27684 27624 YESഀ
❑ 2. Exit signs 5 Watts or less per side.ഀ
Exterior Lighting:ഀ
Designer/Contractor:ഀ
Marcus Vahlingഀ
ABS Consultants Inc.ഀ
❑ 3. Efficacy greater than 45 lumens/W.ഀ
Exceptions:ഀ
Specialized lighting highlighting features of historic buildings; signage; safety or security lighting; low-voltage landscapeഀ
lighting.ഀ
Controls, Switching, and Wiring:ഀ
❑ 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 hotel/motel guest room.ഀ
❑ 6. Individual dwelling units separately metered.ഀ
❑ 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 use less than 0.6 Watts/sq.ft.ഀ
Page 1 of 3ഀ
APR. 0 3 2006ഀ
❑ 8. Automatic lighting shutoff control in buildings larger than 5,000 sq.ft.ഀ
❑ 9. Photocell/astronomical time switch on exterior lights.ഀ
Exceptions:ഀ
Lighting intended for 24 hour use.ഀ
❑ 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 Statementഀ
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 toഀ
meet the 2003 IECC, Chapter 8, requirements in COMcheck Version 3.2.0 and to comply with the mandatory requirements in theഀ
Re uirements Ch Vckst.ഀ
p~~jjഀ
Principal Lighting Designer-Name Sign - Dateഀ
Page 2 of 3ഀ
Permit #ഀ
Permit Dateഀ
COMcheck Software Version 3.2.0ഀ
Lighting Application Worksheetഀ
2003 IECCഀ
Report Date:ഀ
Data filename: P:\2001-134-03\ADMIN\Elec_A\Schedules\Building A - Garage\Bldg-A-Parkin g-mtv.cckഀ
Section 1: Allowed Lighting Power Calculationഀ
A B C Dഀ
Floor Area Allowed Allowed Wattsഀ
Watts / ft2ഀ
Parking Garage 92279 0.3 27684ഀ
Total Allowed Watts = 27684ഀ
Section 2: Actual Lighting Power Calculationഀ
Aഀ
Fixture ID : Description / Lamp / Wattage Per Lamp / Ballastഀ
Bഀ
Lamps/ഀ
Fixtureഀ
Cഀ
# ofഀ
Fixturesഀ
Dഀ
Fixtureഀ
Watt.ഀ
Eഀ
(C X D)ഀ
HID 1: A: GARAGE FIXTURE/ Metal Halide 15OW / Electronicഀ
1ഀ
49ഀ
170ഀ
8330ഀ
HID 2: B: GARAGE CUT OFF / Metal Halide 15OW / Electronicഀ
1ഀ
37ഀ
170ഀ
6290ഀ
HID 3: C: LOADING / Metal Halide 175W / Electronicഀ
1ഀ
29ഀ
232ഀ
6728ഀ
HID 4: D: LOADING / Metal Halide 175W / Electronicഀ
1ഀ
4ഀ
232ഀ
928ഀ
HID 5: E: TUNNEL / Metal Halide 150W / Electronicഀ
1ഀ
26ഀ
170ഀ
4420ഀ
HID 6: WP: TUNNEL / Metal Halide 175W / Electronicഀ
1ഀ
4ഀ
232ഀ
928ഀ
Total Actual Watts =ഀ
27624ഀ
Section 3: Compliance Calculationഀ
If the Total Allowed Watts minus the Total Actual Watts is greater than or equal to zero, the building complies.ഀ
Total Allowed Watts = 27684ഀ
Total Actual Watts = 27624ഀ
Project Compliance = 59.7ഀ
Page 3 of 3ഀ