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10-0728 (SFD)P.O. BOX 1504 78-495 CALLE TAMPICO LA QUINTA, CALIFORNIA 92253 Application Number: 10-00000728 Property Address: 81422 PEARY PL APN: 767-200-998-64 -330761- Application description: DWELLING - SINGLE FAMILY Property Zoning:, LOW DENSITY RESIDENTIAL Application valuation: 560448 Applicant: BUILDING & SAFETY DEPARTMENT BUILDING PERMIT DETACHED Architect or Eng!peer: Lic. No.: OOR SQUARE FOOT Owner: THE STEELE MCGEE LIVING TRUST 42850 -TCT CT INDIAN WELLS, CA 92210 (760)641-.9528 Contractor: RGM CONSTRUCTION.CO 43590 PALMILLA CIRCLE PALM DESERT, CA 92260 (760)219-4998 Lic. No.: 417891 VOICE (760) 777-7012 FAX (760) 777-7011 INSPECTIONS (760) 777-7153 Date: 11/15/10 ------------------------------------------------------------------------------------------------- - LICENSED CONTRACTOR'S DECLARATION WORKER'S COMPENSATION DECLARATION hereby affirm under penalty of perjury that 1 am licensed under. provisions of Chapter 9 (commencing with I hereby affirm under penalty of perjury one of the following declarations: nes Section 7000) of Division 3 of the Busid Professionals Code, and my License is in full force and effect. _ I have and will maintain a certificate of consent to self -insure for workers' compensation, as provided ' License Class: B License No.: 417891 for by Section 3700 of the Labor Code, for the performance of the work for which this permit is r: issued. Dater/D..Contractor: _ I have and will maintain workers' compensation insurance, as required by Section 3700 of the Labor �'-- Code, for the performance of the work for which this permit is issued. My workers' compensation OWNER -BUILDER DECLARATION insurance carrier and policy number are: I hereby affirm under penalty of perjury that f am exempt from the Contractor's State License Law for the Carrier GUARD INS Policy Number RGWC130882 following reason (Sec. 7031 .5, Business and Professions Code: Any city or county that requires a permit to _ I certify that, in the performance of the work for which this permit is issued, 1 shall not employ any construct, alter, improve, demolish, or repair any structure, prior to its issuance, also requires the applicant for the person in any manner so as to come subject to the workers' compensation laws of California, permit to file a signed statement that he or she is licensed pursuant to the provisions of the Contractor's State and agree that, if I shout com subject to the workers' compensation provisions of Section License Law (Chapter 9 (commencing with Section 7000) of Division 3 of the Business and Professions Code) or 3700 of the Labor C e, I Shall ort ith comply with those pr visions. that he or she is exempt therefrom and the basis for the alleged exemption. Any violation of Section 7031 .5 by any applicant for a permit subjects the applicant to a civil penalty of not more than five hundred dollars ($500).: - �� .—Date:I ` S^ �ppticant: (_ 1 1, as owner of the property, or my employees with wages as their sole compensation, will do the work, and the structure is not intended or offered for sale (Sec. 7044, Business and Professions Code: The WARNING: FAILURE TO SE E WORKERS' COMPENSATION COVERAGE IS UNLAWFUL, AND SHALL Contractors' State License Law does not apply to an owner of property who builds or improves thereon, SUBJECT AN EMPLOYER T CRIMINAL PENALTIES AND CIVIL FINES UP TO ONE HUNDRED THOUSAND and who does the work himself or herself through his or her own employees, provided that the DOLLARS ($100,000). IN ADDITION TO THE COST OF COMPENSATION, DAMAGES AS PROVIDED FOR IN. improvements are not intended or offered for sale. If, however, the building or improvement is sold within SECTION 3706 OF THE LABOR CODE, INTEREST, AND ATTORNEY'S FEES. one year of completion, the owner -builder will have the burden of proving that he or she did not build or improve for the, purpose of sale.). (_ 1 I, as owner of the property, am exclusively contracting with licensed contractors to construct the project (Sec. 7044, Business and Professions Code: The Contractors' State License Law does not apply to an owner of property who builds or improves thereon, and who contracts for the projects with a contractors) licensed pursuant to the Contractors' State License Law.). (_ 1 I am exempt under Sec. , 8.&P.C. for this reason Date: Owner: CONSTRUCTION LENDING AGENCY I hereby affirm under penalty of perjury that there is a construction lending agency for the performance of the work for which this permit is issued (Sec. 3097, Civ. C.). Lender's Name: Lender's Address: LQPERAIIT . APPLICANT ACKNOWLEDGEMENT IMPORTANT Application is hereby made to the Director of Building and Safety for a permit subject to the conditions and restrictions set forth on this application. 1 . Each person upon whose behalf thi§ application is made, each person at whose requesuand for whose benefit work is performed under or pursuant to any permit issued as a result of this application, the owner, and the applicant, each agrees to, and shall defend, indemnify and hold harmless the City of La Quinta, its officers, agents and employees for any act or omission related to the work being performed under or following issuance of this permit. 2. Any permit issued as a result of this application becomes null and void if work is not commenced within 180 days from date of issuance of such permit, or cessation of work for 180 days will subject permit to cancellation. ' 1 certify that I have read this application and state that the above information is correct. I agree to comply with all city and county ordinances and state laws relating to build' Str Ction. end hereby authnriie repre-sentatives of this county to enter upon the above-mentioned proper for;ns cti purposes. 'Date: / S/1Q Signature lApplicant or Abent)- Application Number . . . . . 10-00000728 Permit . . . BUILDING PERMIT Additional desc . Permit Fee . . . . 2222.50 Plan Check Fee 1444.63 Issue Date . . . . Valuation . . . . 560448 Expiration Date 5/14/11 Qty Unit Charge Per Extension BASE FEE 2039.50 61.00 ----------------------------------------------------------------------------- .3.0000 THOU BLDG 500,001-1,000,000 183.00 Permit . . . . . . ELEC-NEW RESIDENTIAL - Additional desc . Permit Fee . . . . 280.76 Plan Check Fee 7.0.19 Issue Date . . . . Valuation . . 0 Expiration Date 5/14/11 Qty Unit Charge Per Extension BASE FEE 15.00 6444.00 .0350 ELEC NEW RES - 1 OR 2 FAMILY. 225.54 1261.00 .0200 ELEC GARAGE OR NON-RESIDENTIAL 25.22 1.00 -----------------=--- 15.0000 ------------------------------------------------------- EA ELEC TEMPORARY POWER POLE 15.00 Permit . . . GRADING PERMIT Additional desc . Permit Fee . . 15.00 Plan Check Fee .00 Issue Date Valuation . . . . 0 Expiration Date 5/14/11 Qty. Unit Charge Per Extension ---------------------------------------------------------------------------- BASE FEE 15.00 Permit . . . . . MECHANICAL Additional desc . Permit Fee . . . . 201.00 Plan Check Fee 50.25 Issue Date . . . . Valuation . . . . 0 Expiration Date 5/14/11 Qty Unit Charge Per Extension BASE FEE 15.00 5.00 9.0000 EA MECH FURNACE <=100K 45.00 5.00 16.5000 EA MECH B./C >3-15HP/>100K-500KBTU 82.50 8.00 6.5000 EA MECH VENT FAN 52.00 1.00 ------------------------------=--------------------------------------------- 6.5000 EA MECH EXHAUST HOOD 6.50 LQPERMIT Application Number . . . . . 10-00000728 Permit . . . . . PLUMBING Additional desc . Permit Fee . . . . 286.50 Plan Check Fee 71.63 Issue Date Valuation . . . . 0 Expiration Date 5/14/11 Qty Unit Charge Per Extension BASE FEE 15.00 27.00 6.0000 EA PLB FIXTURE 162.00 1.00 15.0000 EA PLB BUILDING.SEWER 15.00 6.00 6.0000 EA PLB ROOF DRAIN 36.00 2.00 7.5000 EA PLB WATER HEATER/VENT 15.00 1.00 3.0000 EA PTB WATER INST/ALT/REP 3.00 - 1.00 9.0000 EA PLB LAWN SPRINKLER SYSTEM 9.00 22.00 .7500 EA PLB GAS PIPE >=5 16.50 1.00 15.0000 EA PLB GAS METER 15.00 ---------------------------------------------------------------------------- Special Notes and Comments 6444 SF SINGLE FAMILY RESIDENCE. R-3 OCC. TYPE V -B CONSTR. 2007 CODES. 2008 ENERGY.**PERMIT.DOES NOT INCLUDE BLOCK WALLS, FENCES, SWIMMING POOLS, SPA, BBQIS AND FIRE PIT** ---------------------------------------------------------------------------- Other Fees . . . . . . . ART IN PUBLIC PLACES -RES 901.12 BLDG STDS ADMIN (SB1473) 24.00 DIF COMMUNITY CENTERS -RES 74.00 DIF.CIVIC.CENTER - RES 995.00 ENERGY REVIEW FEE 144.46 DIF FIRE PROTECTION -RES 140.00 DIF LIBRARIES - RES 355.00 MULTI -SPECIES (MSHCP) FEE 1284.00 DIF PARK MAINT FAC - RES 22.00 DIF PARKS/REC - RES 892.00 STRONG MOTION (SMI) - RES 56.04 DIF STREET MAINT FAC -RES 67.00 DIF TRANSPORTATION - RES 1930.00 Fee summary Charged Paid Credited Due Permit Fee Total 3005.76 .00 .00 3005.76 Plan Check Total 1636.70 750.00 .00 886.70 Other Fee Total 6884.62 .00 .00 6884.62 Grand Total 11527.08 750.00 .00 10777.08 LQPERMIT lb- '7ag P.O. BOX 1504 APPLICATION ONLY Building�� 78 495 CALLE TAMPICO Address t� LA QUINTA, CALIFORNIA 92253 OwDer �7 UILDING: TYPE CONST �jL� OCC. GRP. ailing / Q Address A.P. Number 7 t'ItY Legal Description Project Description Contractor /• � Address , City Zip Tel. Sq. Ft. Size No. No. Dw. Stofies Units State Lic. & Classif. City Lic. # Arch., Engr., A�� Designer C�►'C/ C/ New Add ❑ Alter ❑ Repair ❑ Demolition ❑ dress Tel ,City State >? l Lic. # LICENSED CONTRACTOR'S DECLARATION I hereby affirm that I am licensed under provisions of Chapter 9 (commencing with Section 7000) of Division 3 of the Business and Professions Code, and my license is in full force and effect. SIGNATURE DATE OWNER -BUILDER DECLARATION I hereby affirm that I am exempt from the Contractor's License Law for the following reason: (Sec. 7031.5, Business and Professions Code: Any city or county which requires a permit to construct, alter, improve, demolish, or repair any structure, prior to its issuance also the applicant for such permit to lite a signed starement that he is licensed pursuant to the provisions of the Contractor's License Law, Chapter 9 (commencing with Section 7000) of Division 3 of the Business and Professions Code, or that he is exempt therefrom, and the basis for the alleged exemption. Any violation of Section 7031.5 by any applicant for a permit subjects the applicant to a civil penalty of not more than five hundred dollars ($500). Estimated Valuation L/ ✓ PERMIT AMOUNT Plan Chk. Dep. ` Plan Chk. Bal. ❑ I, as owner of the property, or my employees with wages as their sole compensation, will do the work, and the structure is not intended or offered for sale. (Sec. 7044, Business and Profes- Const. sions Code: The Contractor's License Law does not apply to an owner of property who builds or improves thereon and who does such work himself or through his own employees, provided that such improvements are not intended or offered for sale. If, however, the building or im- provement is sold within one' year of completion, the owner -builder will have the burden of proving that he did not build or improve for the purpose of sale). O I, as owner of the roe property, rty, am exclusively contracting with licensed contractors to construct the project. (Sec. 7044, Business and Professions Code: The Contractor's License Law does not apply to an owner of property who builds or improves thereon, and who contracts for such projects with a contractor(s) licensed pursuant to the Contractor's License Law) ❑ I am exempt under Sec. B. & P.C. for this reason Mech. Electrical Plumbing S.M.I. Grading Driveway Enc. Date Owner Infrastructure WORKER'S COMPENSATION DECLARATION hereby affirm that I have a certificate of consent to self -insure, or a certificate of Worker's Compensation Insurance, or a certified copy thereof. (Sec. 3800, Labor Code.) Policy No. Company ❑ Copy is filed with the city. ❑ Certified copy is hereby furnished. I I CERTIFICATE OF EXEMPTION FROM WORKERS' COMPENSATION INSURANCE (This section need not be completed it the permit is for one hundred dollars ($100) valuation or less). certify that in the performance of the work for which this permit is issued, I shall not employ any person in any manner so as to become subject to Workers' Compensation Laws of California. Date Owner TOTAL REMARKS I ". ; Ii. J .. — L NOTICE TO APPLICANT. If, after making this Certificate of Exemption you should become subject to the Workers' Compensation provisions of the Labor Code, you must forthwith comply with such provisions or this permit shall be deemed revoked. --- ZONE: BY: Minimum Setback Distances: CONSTRUCTION LENDING AGENCY Front Setback from Center Line I hereby affirm that there is a construction lending agency for the performance of the work for which this permit is issued. (Sec. 3097, Civil Code.) Rear Setback from Rear Prop.Line Lender's Name Side Street Setback from Center Line Lender's Address This is a building permit when properly tilled out, signed and validated, and is subject to expiration if work thereunder is suspended for 180 days. Side Setback from Property Line I certify that I have read this application and state that the above information is correct. I agree to comply with all city and county ordinances and state laws relating to building FINAL DATE INSPECTOR construction, and hereby authorize representatives of this city to enter the above-mentioned property for inspection purposes. Issued by: Date Permit Signature of applicant Date Mailing Address Validated by: City, State, Zip Validation: WHITE = BUILDING DEPARTMENT YELLOW = APPLICANT PINK = FINANCE Co hella Valley Unified School District 83-733 Avenue 55, Thermal, CA 92274 (760) 398-5909 — Fax (760) 398-1224 This Box For District Use Only DEVELOPER FEES PAID AREA: „ AMOUNT LEVEL ONE AMOUNT: LEVELTWOAMOUNT: MITIGATION AMOUNT: COMMAND. AMOUNT: DATE: RECEIPT: CHECK#: INITIALS: CERTIFICATE OF COMPLIANCE (California Education Code 17620) Project Name: Madison Club Date: November 15, 2010 Owner's Name: Steele -McGee Living Trust Phone No. Project Address: 81-422 Peary Place, LaQuinta Project Description: 1 SFD APN: 767-680-026 Tract #: Lot #'s: Type of Development: Residential XX Commercial Industrial Total Square Feet of Building Area: 6,444 sq. ft. Certification of Applicant/Owners: The person signing certifies that the above information is correct and makes this statement under penalty of perjury and further represents that he/she is authorized to sign on behaWb-Mb�ownq/developer. Dated: November 15, 2010 Signature: SCHOOL DISTRICT'S REQUIREMENTS FO THE ABOVE PROJECT HAVE BEEN OR WILL BE SATISFIED IN ACCORDANCE WITH ONE OF THE FOLLOWING: (CIRCLE ONE) Education Code 17620 Number of Sq.Ft. Amount per Sq.Ft. Amount Collected Gov. Code Project Agreement Existing Not Subject to Fee 65995 Approval Prior to 1/1/87 Requirement 6444 $2.97 $19,138.68 Building Permit Application Completed: Yes/No By: Jamie T. Brown, Asst. Supt., Business Services Certificate issued by: Laurie Howard, Secretary Signature:, NOTICE OF 90 DAY PERIOD FOR PROTEST OF FEES AND STATEMENT OF FEES Section 66020 of the Government Code asserted by Assembly Bill 3081, effective January 1, 1997, requires that this District provide (1) a written notice to the project appellant, at the time of payment of school fees, mitigation payment or other exactions ("Fees"), of the 90 -day period to protest the imposition of these Fees and (2) the amount of the fees. Therefore, in accordance with section 66020 of the Government code and other applicable law, this Notice shall serve to advise you that the 90 -day protest period in regard to such Fees or the validity thereof, commences with the payment of the fees or performance of any other requirements as described in section 66020 of the Government code. Additionally, the amount of the fees imposed is as herein set forth, whether payable at this time or in whole or in part prior to issuance of a Certificate of Occupancy. As in the latter, the 90 days starts on the date hereof. This Certificate of Compliance is valid for thirty (30) days from the date of issuance. Extension will be granted only for good cause, as determined by the School District, and up to three (3) such extensions may be granted. At such time as this Certificate expires, if a building permit has not been issued for the project that is the subject of this Certificate, the owner will be reimbursed all fees that were paid to obtain this Certificate of Compliance less 3% for administration fees to process the reimbursement. M V:c/mydocs/devfees'cerli ticate of compliance form updated 3-2007 3/9/07 http://maii.aol.com/3.2843-111/aol-1/en-us/mail/PrintMessage.aspx 11/9/10 7:55 AM ; �From: Brook Marshall < T.- Date:e Noov 9, 2010 6:43 arti ; November 8, 2010 Mr. Hugo Cervantes - • 51825 Avenida Velasco_ - La Quinta, CA 92253 Re: Lot 64A at 81422 Peary Place Final Design Review . Dear Mr. Cervantes: . The Madison Club Design Review. Committee'reviewed.the"Final. Design Review package submitted for Lot 64A. The majority of the comments have. been addressed however there are still some minor revisions and clarifications required .with respect to the rear yard. improvements. As many of the improvements propped in the rear of the lot are being considered through Variance requests it is important that . the committee receive all of the information�� requested below so that we can expeditiously approve the plans. tAt-this time a Pre Constnaction Meeting can'be held'in the feld and construction may be gin_Zwever_the_following-comments should-b-e-•rresolved prior to the request for setback inspection at the _lot. 1. The grading plan and site/landscape plans do not match with respect to some of the details and wall heights. Please provide an updated set of plans (I large and 1 reduced set is sufficient) so the committee can review all of the rear yard details. In addition, the Property Lines, Building Setback Lines, Transition Area Lines, Natural Area Lines and Community Streetscape indication should be listed on all plans (Civil, Architectural Site Plan, Landscape Plans}. As you are asking for Variances in the rear yard it imperative, that we receive this information as requested on previous letters. . 2. There are currently two fire pit areas on the site plan. One is located within the Transition Area and is acceptable. The other is currently located in the Natural Area and could have an impact on the neighboring lots. It was understood that this fire pit would be removed and the DRC still recommends this course of action. In addition, the walls around the lower patio in the Natural Area appear to be too high and could impact the golf course experience. The committee suggests that the wall should follow the slope of the stairs " and.be reduced in height. 3. A- Variance for the rear yard improvements, except the fire pit noted in item #2 above, has been partially approved however some revisions are required and all setback lines need to be shown fora full, final review and approval. The committee is requesting that ' wall adjacent to. the steps on the Golf Course be reduced in height. Some of the plan sheets submitted show the wall stepping down which is more consistent with what the committee would feel comfortable approving from an aesthetic point of view. Overall the committee would prefer to see all of the rear yard walls lowered to be closer to the deck height. It does not appear that fall protection ' is needed as the drop beyond the wall is approximately 2 feet. Please provide''updated plans as well`as a response. letter to help us better understand the final product to be constructed. 4. The side yard property wall adjacent to Lot 65A must be pulled back_ or should step down to three feet to meet the intent of tlie rear' yard view corridor as described in the guidelines. 5: , The request to extend the grass in the rear yard should be modified to reflect the grass extending to the top of slope and not extending down the slope into the golf course property. All grass should be kept within the property line boundaries as well. This will allow . . room on the slope for transitional planting which will create a visual buffer as viewed from the golf course. The exposed wood header details should be consistent throughout the plan seta Rough sawn details should be provided as the current structural plans appear to be in conflict with the architectural plans: T. Courtesy comment: The proposed slope within the pool does not appear to be user friendly. The committee suggests adding steps and a beach entry to allow for easy ingress and egress for.the owners. The committee is available to discuss this in person upon request.. Thank you for your submittal. We look forward to resolving the last remaining items with you quickly. As a reminder plans are due on the first and third Thursday of each month at the Madison Club Security Gate. Please contact Brook Marshall at (760) 219-8057 or by email at BrookO,dc.rr.com or ScottBirdwell at (760) 391-5072 with any questions: - - - - Sincerely Madison Club Design Review Committee cc: Gustavo Magana, Email: DRC File I r Page 1 of 1 .. SECURITY CHIMNEYS' CITY OF LA QUINii'A Factory -built CHIMNEY BUILDING & SAFETY DEPT. i3 12 to 24 inch' diameter z . INSTALLATION; _. AND, OPERATING' ' INSTRUCTIONS 77 Read these instructions and keep them for :future reference Listed UL -103 (Residential) Model SM chimney is intended for use with residential gas, solid and liquid fuel appliances at 1000°F (5400C) continuous temperature or less. -it's suitable for gravity Maximum temperature ratings :. venting I of masonry fireplaces and existing masonry 1700°F (927°C) 10.min. chimneys. 1400°F (760°C) 1 hr. 1000°F (540°C) Continuous For non-residential applications please use Security Chimneys model CI -50 SECURITY CHIMNEYS INTERNATIONAL LTD. . 2125 Monterey, Laval (Quebec) Canada H7L 3T6 (450) 973-9999 Rev. 4 / December 2008 PI SM A Technical Specifications Materials Flue : Type 430 Stainless steel Outside casing Type 430 stainless Steel or Aluminium -Zinc coated steel Insulation material : Lightweight blanket high temperature mineral fibre (2 inches thick) . Dimensions: 12 to 24 inches flue diameter Certification Listed UL -103 (Residential) Maximum temperature ratings 3111928 1700°F (927°C) 10 min. 1400°F (760°C) 1 h. 1000°F (540°C) Continuous. Clearances required 1 inch to combustible materials no clearance required to non-combustible materials Offset Chart SM Chiffimney,system Angle Size (in)inch 2 elbows 1 LENGTH BETWEEN ELBOWS 2 LENGTHS BETWEEN ELBOWS 12 18 24 36 12 & 36 18 & 36 24 & 36 36 &36 15 12 @ 18 Offset 225/32 529/32 77/16 9. 123/32 157/32 163/4 185/16 21 7/16 Rise 21 3/8 3231/32 383/4 449/16 561/8 6723/32 7317/32 795/16 9029/32 15 20 8 22 Offset 37/16 621/32 8 7/32 9 25/32 127/8 1531/32 . 1717/32 193/32 223/16 Rise 271/16 38518 44 13/32 507132 6125/32 733/ 8 793/16 84 31/32 969/16 15 24 Offset 313/16 615/16 815/32 101/32 131/8 161/4 1725/32 1911/32 227/16 Rise 29 4019/32 463/8 525/32 63 314 7511/32 81 5/32 8615116 9817/32 30 : 12 & 14 Offset 73/8 133/8 161/2 193/8 253/8 31 3/8 341/2 373/8 43318 Offset 1 2717/32 3729/32 431/32 485/16 5811/16 693/32 747/32 79 112 897/8 30 16 @ 20 Rise 8 318 14 3/8 17 318 20 3/8 26 3/8 32 3/8 35 318 383/8 44 3/8 Offset . 319/32 41 21/32 4627/32 521/16 627/16 7227/32 781/32 837/32 93518 30 22 g 24 Offset 10518 1 165/8 195/8. 22 5/8 1 28 5/8 1 345/8 37 518 405/8 1 465/8 Rise 3921/32 1 501/32 551/4 607/16 1 7027/32 1 81 7132 8613132 1 91 5/8 1 102 KEEP YOUR CHIMNEY CLEAN RECOMMENDATIONS Clearance The clearances stated in this guide are minimum requirements: if more ' space is available, use it. Minimum clearances mean leaving unobstructed air space. Do not fill these spaces with any material whatsoever, especially insulating material. If you insulate your attic later, be sure to maintain the necessary clearance: If you insulate your attic or chase•at the firestop use an approved shielded firestop (SMOFRS) or an " attic radiation shield (SMOARS) to keep the insulation away from the chimney at the required clearance. Inspection Contact local building or fire officials about restrictions, installation inspections and permits that may be required in your area. How you bum wood in your fireplace directly affects the formation of creosote. Smaller, hotter fires are better,than large, smouldering ones. Fast, effective start-ups are important, as is • the moisture content of the wood. Ideally, you should use seasoned wood with a moisture content of 20-25%. Ifyour wood is not completely seasoned, use more dry kindling and paper first to warm the chimney. The,hotter-the chimney, the better the draft. CHIMNEY OPERATION AND MAINTENANCE Wood burning can quickly create large deposits of creosote in the chimney. We recommend the following: 1. The chimney should be inspected at least once every 3 months during the heating season to determine' if a creosote or soot build-up has occurred. If creosote or soot has accumulated, it should be removed to reduce the risk of chimney fire. 2. Have your chimney cleaned by a qualified chimney sweep. If you want to clean your chimney yourself, use plastic or stainless steel brushes. 3. Do not expect chemical chimney cleaners to keep your chimney clean. Their use does not negate the necessity of periodically inspecting and cleaning your chimney. CHIMNEY FIRES If you are having a chimney fire, follow these. steps: 1. Block the fireplace opening with anon-combustible material (such as a steel sheet). 2. _ Alert your family to the possible danger. 3. 'If you require assistance, alert your fire department. 4. If possible, use a dry chemical fire extinguisher, baking soda or sand to control the fire. Do not use water as it may cause a dangerous steam explosion. 5. Check outside to ensure that sparks and hot embers that are y coming out of the chimney are not igniting the roof. r 6. Do not use the fireplace again until a qualified chimney sweep or, Fire Department Inspector has inspected your chimney. BEFORE 1. Does the company or individual have adequate liability ; insurance in case of dama e? National or state uild certified LOAD BEARING C HART 2. How long has the company been in business? 3. Does the company offer current references? 4. Is the company involved in any unresolved disputes? SM Maximum Height -- Diameter (mm) 305 1 355 406 457 508 559 610 (im) 12 r 14 16 18 20 22 24 Framing Square Dimension (in) 18 r 20 22' 24 26 28 30 SUPPORT TYPE Anchor plate (m) 19 16.5 14.5 13 12 11 10 (/1) 62 54 48 43 39 36 33 Roof support (m) (/1) 34.4 31.2 27.9 24.6 21.4 19.7 18 Strap Support (m) (%r) 18 1!. 16 15 12 11 10 9 CHIMNEY SIZING CHART CHIMNEY HEIGHT 100' 18 so DIAMETER SIZE 11�HEIGHT (H INCHEINCHES , S �i e Example:4 h Dotted line represents a sample of a fireplace opening of 24" wide by 30" high. The correct flue size for the sample is a 10" diameter ' chimney for a chimney height of 20 feet. 4.' Size . the chimney in accordance with the chimney sizing chart, also on page 2. 5. Use a maximum of two (2) offsets per chimney system. A support is required above each offset. 6. A chimney servicing a fireplace must not serve any other appliance. 7. The chimney must extend at least 3 ft •above its -point of contact with the roof and at least 2 ft higher than any wall, roof or adjacent building within 10 ft of it. 8. The maximum height of unguyed chimney above the roof is 5 ft. 9. Portions of the chimney that may extend through accessible spaces must be enclosed in all cases to avoid personal ..contact with the chimnev and damage to the chimnev. Except for installation in single . and two-story • family . dwellings, the enclosure must have a fire resistance rating equal to or greater than that of the floor or roof assemblies through which they pass. 10. Do not fill the air space around the chimney with insulation or any other material. Insulation placed in this area could cause adjacent combustibles to overheat. 11. Shroud installation is allowed only in accordance with your local department of Building and Safety. Please refer to 'Custom Chase Top and Custom Shroud construction sections of this manual for construction instructions. " 12. Chimney outlet must always extend at least 10" above a metal chase cover. NOTE : This chase cover must always be ventilated to allow dispersal of chase heat build-up. Refer to Custom Chase Top section of this manual for instructions on how to ventilate the chimney top. tl GENERAL INSTALLATION NOTES `a INSTALLATION NOTES V ` 1. The chimney. is intended for use with solid, liquid and gaseous fuel burning appliances. The clearance between the chimney and Allowable flue gas temperature: combustible material must not be less than 1 ". Do Maximum continuous 540°C (1000°F) not fill this area with insulation. r Brief forced firing 760°C (1400°F) Tested to 927°C (1700°F) f '2. For installations where the requirement is to provide'11V Oil chimney certified to UL -103, the minimum required clearance to combustible is 1 inches for a diameter of - Cellulose insulation in direct contact with a hot 12 to 24 inches. chimney can ignite and set fire to the combustible . 3. The maximum heights of .a chimney supported by the surroundings. Use an attic .radiation shield or enclose the chimney to maintain clearance to any various security supports are outlined on page 2. Use a wall band (WOBM2EF) every 8 feet- between supports_ for blown in or loose fill insulation (see figure 4) lateral support. 4.' Size . the chimney in accordance with the chimney sizing chart, also on page 2. 5. Use a maximum of two (2) offsets per chimney system. A support is required above each offset. 6. A chimney servicing a fireplace must not serve any other appliance. 7. The chimney must extend at least 3 ft •above its -point of contact with the roof and at least 2 ft higher than any wall, roof or adjacent building within 10 ft of it. 8. The maximum height of unguyed chimney above the roof is 5 ft. 9. Portions of the chimney that may extend through accessible spaces must be enclosed in all cases to avoid personal ..contact with the chimnev and damage to the chimnev. Except for installation in single . and two-story • family . dwellings, the enclosure must have a fire resistance rating equal to or greater than that of the floor or roof assemblies through which they pass. 10. Do not fill the air space around the chimney with insulation or any other material. Insulation placed in this area could cause adjacent combustibles to overheat. 11. Shroud installation is allowed only in accordance with your local department of Building and Safety. Please refer to 'Custom Chase Top and Custom Shroud construction sections of this manual for construction instructions. " 12. Chimney outlet must always extend at least 10" above a metal chase cover. NOTE : This chase cover must always be ventilated to allow dispersal of chase heat build-up. Refer to Custom Chase Top section of this manual for instructions on how to ventilate the chimney top. tl `a V ` s 4 4 STEP BY STEP INSTALLATIONS A - Installation with Traditional and Pre - Fabricated Masonry Fireplace Make sure a smooth. and level masonry platform is provided to accept the anchor plate. , In the case of a traditional masonry fireplace pour a minimum.of % in. refractory cement under the area of the anchor plate to provide the flat surface and seal the joint. For a pre -fabricated masonry fireplace that has a smooth and levelled surface, use High -Temp silicone to seal the joint. Mortar layer is not required in this case. Secure the anchor'plate using (4) 3/8 in. dia. X 2 in.'. anchor bolt on the platform. Put the first.chimney length on the anchor plate. Push it down firmly in place. Secure it to the anchor plate using (4)'h in. #8 stainless steel metal screw. (Figure 3) Note: the male coupling must be. on top- • Stack the next chimney length on the first length. Secure all chimney joints using (4)'/z in. #8 stainless steel metal screw. Try to spread out the (4) screws all around the joint as much as possible. r1 LJ uonunue -unui ine requlrea chimney neignt is reacnea. When going through a combustible floor always use'a shielded firestop (SMOFRS) below the floor opening. 5: At the attic level, install a shielded firestop plate (SMOFRS), from below and an attic radiation !shield . (SMOARS) from above if the attic is un -occupied and the chimney -is not enclosed (Figure 4a). In an occupied attic, . the chimney must be enclosed. • Use -only a.shielded firestop (SMOFRS) under the floor frame and enclose the . chimney at 1" clearance:. (Figure 4b). ROOF'FLASHING INSTALLATION ` Put the ventilated roof flashing in place. Seal the joint, Figure 4a,� between the roof and the flashing with roofing pitch. There must be a constant 1" airspace between the chimney and .the flashing (4 spacers supplied with flashing). For sloping roofs, place the flashing under the OCCUPIED ATTIC upper shingles and on top of the lower shingles. Nail the flashing to the roof using roofing nails. Always use Security Chimneys ventilated flashing unless you are CLEARANCE building a Custom Chase Top. (Refer to Custom Chase r Top section of this manual for building instructions) SCREWS Place the storm collar over the chimney and the flashing. Figure 4b' Make sure .that the, storm collar does not block the air - space between the flashing and the chimney. Tighten the collar with the bolt supplied making sure the joint is properly caulked (Figure 5). Fit the rain cap to the top of the chimney. Screw (4) #8 x'/Z 10 MIN. in. stainless steel screws in the joint. • aThe flashing may be painted to match the house colour CAULKING using metal paint. , 1"MIN. ~1 CLEARANCE Storm collar AMC LEVS NON -OCCUPIED ATTIC .UNENCLOSED , Amc RADIATION ' SHIELD (SM -ARS) SCREWS FRAMING AT 1 • CLEARANCE ` Figure 4a,� SHEILDED FIRESTGP S..�, ' ATnr LEVEL FNCl nccn OCCUPIED ATTIC CLEARANCE . SCREWS Figure 4b' FlREsroP S"M_. RSD MUM 10 MIN. ` • APPLY SILICONE CAULKING , 1"MIN. ~1 CLEARANCE Storm collar and flashing Figure 5 STEP BY STEP INSTALLATIONS B —Installation as a masonry chimney` + ., extension (bond beam application, chimney ,t restoration) .4 'Damaged masonry chimneys can be.restored by replacing the damaged part by a factory built SM chimney. The . .-following instructions are base 'on the City of lA department of. building and safety regulations. Please check with your local authority for special requirements in your'area Attachment to an existing masonry chimney l ;- usually require the.construction,of a concrete bond beam that will provide an uninterrupted transition between the existing chimney and the SM chimney system. :See figure 6 for general guidelines for the construction of. the bond r beam. ' t TERMINATION CAP SM_CU3H , FLASHING WITH 2'min °` STORM COLLAR SM_EPE AND SM—ECE 10 ' 39min ROOF SUPPORT .,' • ' ••'' 3/16' x •1" steel straps cast -In SM_=EF concirete bond beam WALL BAND , r Chedc w/Local Authorities S"M2EF ,� • for • achorogs to building TOP VI� . Reinforcment bare (top an bottom) 1' CLEARANCE r SM fact built anch late • 1' Min. gearorice �Y P TO CHASE FRAME , to combustibles set on bed of mortar secuerl CHASE anchored (1/4"bolts) Anchor bolts holding sill plate bond beam bond beam . , 4 1/2 CLEARANCE . . I . •. Formed concrete bond beam TO COMBUSiiBLE OUTSIDE CHASE WALLS _- 6' thidt minimum to provide Mortar bed uninterrupted transition , ANCHOR PLATE SM—APE OR - between masonry and DAMPER ANCHOR PLATE SM chimney SMJIPDE ANCHOR BOLT. SIDE VIEW' 1/2' reinforcing bars r , ' 10' long doweled 6" •. _` Existing Masonry Intomasonry chimneythe ; BOND BEAM CONSTRUCTION VARIABZ - DAMPER 'FIREPLACE THROAT _ t • d " Figure,6., - Masonry chimney extension (Bond Beam) OFFSET CHIMNEY'"'. If it is necessary, to offset the chimney in order, for it to pass ` through an upstairs cupboard or to clear a joist, do this by using 15° or 30° insulated elbows. A maximum of two offsets (4 elbows in all)'is allowed in a. chimney system. The chimney must not be inclined more than 30° from vertical. Check page 2 of this manual for the offset chart. The minimum chimney height wtien using 15° offsets is 10'. _ The minimum chimney height when using 30° offsets is 15'. The maximum length of unsupported offset chimney is 6'. If the offset chimney is longer than 6', then it must be supported at 6' intervals using a STRAP support (SMOES). INSTALLATION INSTRUCTIONS' When you reach the height at which the elbow will be installed, proceed as follows: ElInstallthe insulated offset elbow on the vertical chimney length. Turn it in the required direction and fasten it to the Chimney with (4) #8 x'/2 in. Stainless screw. _ Place the required offset chimney length on the elbow. P-1 Use another elbow to turn the chimney vertically. Again secure the elbow to the chimney with (4) #8 x '/2 in. Stainless screw. ' Install a support and the remaining'chimney as described on page 5 of this manual. } A support must always be installed right above each offset (two elbows) to support the chimney above the offset. 4 . • , TERMINATION CAP SM_CU3H FLUSHING WITH COLLAR SM-EPE AND SM-ECE ELBOWS SM_E30 STRAP SUPPORT OR SM_E15 S t MAX. OFFSETTING ROOF SUPPORT' CHIMNEY 3 FT. RO_SfSUP WITHOUT SUPPORT • SHOWED FIRESTOP ' (SM -M) i Figure 7 300 Offset through a wall r . If it is necessary to offset the chimney through a wall, create a framed opening in the wall and install a firestop on the inside , wall (SMOWRS30) or on'both sides of the wall. For framing dimensions refer to table 1, it provides necessary wall opening for a 4" thick wall (2x4 lumber and 1/2" finishing material, refer to . figure 8a). Any thicker wall will require to redispose the upper cross -member at an angle in order to maintain 1" air clearance to combustible materials (figure 8b). , Fix the firestop(s) in place using four (4) wood screws:• -CLEARANCE CLEARANCE 1 INCLINED' 1" MIN CROSSR / MEMBERZ THIS DRAWINGIS NOT TO SCALE. IT REPRESENTSTHIS THE CLEARANCE DRAWING IS REQUIRED TO SCALE. REPRESENTS THE CLEARAREQUIRED CLEARANCE !' 1" CLEARANCE --I 4" WALL LARGER WALL Figure 8a OVER 4" Figure 8b 30° wall firestop is designed to provide 1" clearance on a 4" thick wall (2x4 lumber with '/2' thick finishing material). Any larger wall thickness requires the upper cross -member to be inclined in order to maintain 1" clearance around the chimney. v 7 Wall 6pening openingfor 300 inclined SM'chimney - O Code Width inch Height inch •12 SM12WRS30 18'1/4 435/16 14 SM14WRS30 201/4 47 5/16 ' 16 SM16WRS30 •22.1/4 51 5/16 18 1 SM18WRS30 241/4 555/16 20 SM20WRS30 r 261/4 595/16 22. 'SM22WRS30 281/4 635/16 24, SM24WRS30 30'1/4 67 5/16 Table 1 WALL FRAMED OPENING WALL STUDS J ' FRAMED BOX (SAME SIZE W OOD AS JOISTS) v 7 ROOF SUPPORT The roof support has four (4) possible uses: It may be used to support a chimney at the roof level. It adjusts to any roof pitch. It may be used on, a floor, ceiling or roof above an offset to support the chimney above the offset. F it, may be used on a floor, ceiling Ior roof as a supplementary support when the chimney height exceeds that of the primary support. (See maximum length height supported) It may be used to support offset lengths when span exceeds 6'. I INSTALLATION INSTRUCTIONS - With the chimney extending through the hole in the roof, ceiling or floor and the radiation shield in place, proceed as follows: F1 I Slip the support down over the stainless steel. chimney + until its brackets rest on the roof or floor. Tighten the j collar around the chimney, then secure it by screwing (4) Yz' metal screws (supplied) through the holes located on each side of the collar bolts and into the chimney. Center the chimney and nail or screw the support to the roof or floor using.(8) - 2 1/2" nails•or (8) N°8 - 1 1/4" . wood screws. (Fig. 9) Install the remaining chimney lengths, until the required chimney height is reached. i RAIN CAP SAA CII�H % - it - ' 7 II � • ii - it - Custom Chase Top ' Custom Chase Tops can be built on site as an alternative to the ' ventilated flashings and storm collars provided by Security Chimneys. Such tops are often used with.a custom made shroud and considered to be more aesthetically pleasing then the -generic looking termination cap. ,CustomChase Tops must be built as described in these instructions and respect all clearances and air space presented on this page. Tops can be used with -Security Chimneys termination cap and/or with a custom made shroud. Check the next section of this manual for Custom, Shroud construction instructions. Chimney outlet must extend at lest 10 inches above the chase top. The clearance to the combustible framing is 1 inch., The clearance to the exterior combustible walls of the shroud is 4 '/2 inches. Failure . to respect these guidelines can result, in, an unsafe installation. I Custom flashing resting on spacers 1/2" above the chase top to 'allow air circulation (use at least 8 clips equally spaced around the perimeter) Minimum clearance to ibustible chase ne is 1 inch min. arance to outside se combustible Is is 4 '/z inches' iimum Figure 11 Spacers (see spacer design below) � o 2"• tYP 1/2" 0 Spacer design example. Always maintain 1/2"clearance_ • i 5/8" min. \ 1" min.. \. Figure 12 . . 10" Min. to chimney outlet Storm collar 1/2" above flashing Custom Shroud Construction In some areas, SM chimney systems can be installed with a decorative custom shroud termination. The use of Security Chimneys termination cap (SMOCU3H) is not mandatory under a custom shroud but the builder is responsible,for the design of a termination system that is not permeable to water infiltrations caused by rain, snow and high winds. Therefore, we strongly recommend the installation of a Security Chimneys termination cap (SMOCU3H) under a shroud to prevent potential problems with exposition to the elements. If termination cap is not used, install a 24 gauge stainless steel spark -arrester. A shroud must be constructed of non-combustible materials that can withstand exposure to the elements (Rain, snow, ice, UV, rays, etc.). Usually, materials like Stainless, .plated steels, copper, brick, stones or clay are suitable for this application. Please check with you local authorities for material approval. Shrouds built and installed as described in these instructions -are approved for use with SM chimney systems under UL 103 listed by Warnock Hersey ( certification # 311192 8 ). Three different shroud styles are certified with the SM chit-6ney System: mailbox, house and pyramid. Please follow the design guidelines presented below for the construction of a shroud., 'Notes : Multiple smaller -openings are allowed as long as total minimum opening areas are maintained. r Chimney outlet must always extend at least 10" above the base of the chase flashing cover 10 MAILBOX -• Diameter Diameter Pipe • Minimum single F Minimum single (in.) Opening open area (HxW) open area 14 Area (in') (in') 2x (HxW) (in') 12 113 226 452 14 154 308 616 16 201 402 804 18 254 508 1016 20 314 628 1256 22 380 760 1520 24 452 904 1808 14 27 27 38.50 Shroud length (L) must not 18 32 32 63.65 extend past the chimney more 22 38 38 , 95.10 then 1.5 times the inside TW diameter. + HH++24- : I K Figure 17 _H . I \ ' r Figure 18 `+H L Figure 13 i `• •' I V ' Dashed lines represent minimum dimensional design from figure x. This Figure 14 represents the minimum open area .that must be present. (See figure 13) 10 HOUSE-• Pipe Minimum single Minimum single Diameter (in.) Opening open area (HxW) open area Area (int) (in') 4x (HxW) (in') 12 113 113 452. 14 154 154 616 16 201 201 804 18 254 254 1016 20- 314 314 1256 22 380 380 1520 24` 452 452 1808 Dashed lines represent minimum dimensional design from figure x. This represent the minimum open area 'that must be present. (See H figure 15) W Figure 15 1 1 I f S Figure 16 PYRAMID STYLE S HROUD Diameter W (in.) L (in.) H x K (in') Minimum opened (in.) bottom area for each side 12 25 25 28.30 14 27 27 38.50 16 30 30 50.30 18 32 32 63.65 20 36 36 78.55 22 38 38 , 95.10 24 40 40 113.10 L/� Dashed lines represent minimum W� dimensional design from figure x. This represents the minimum open area that must be present. (See figure ) + HH++24- : I K Figure 17 _H . I \ ' r Figure 18 10 F\74 y LEGACY REPORT Re►ss (ER -24692004 une 1, ICC Evaluation Service, Inc. Business/Regional Office ■ 5360 Workman Mill Road, Whittier, California 90601 ■ (562) 699-0543 Regional Office ■ 900 Montclair Road, Suite A, Birmingham, Alabama 35213 ■ (205) 599-9800 www.icc-es.org Regional Office • 4051 West Flossmoor Road, Country Club Hills, Illinois 60478 ■ (708) 799-2305 Legacy report on the 1997 Uniform Building Code TM DIVISION: 08—DOORS AND WINDOWS Section: 08620—Unit Skylights BRISTOLITE SKYLIGHTS BRISTOL FIBERLITE INDUSTRIES, dba BRISTOLITE SKYLIGHTS 401 EAST GOETZ AVENUE POST OFFICE BOX 251 O�G' SANTA ANA, CALIFOR I/�`NG $► - c.* •; , w�uc. 1.0 SUBJECT r Bristolite Skylights. •�`.,,��j 2.0 DESCRIPTION 1 Aro- 2.1 General: \ IDNO Bristolite Skylights are skylig tom_ glazing of approved plastic materials formed to a dome shape. Figure 1 and Tables 1 through 5 contain further information. All series are available in both curb -mounted and self -flashing models. See Table 1 for general description of the skylight models. 2.1.1 S Series: The S series uses 0.125 -inch -thick (3.2 mm), one-piece fiberglass domes fabricated in 3 -ounce (85 gram) fiberglass roving impregnated with polyester resin and classified as CC1 plastic. The self -flashing version is mounted to a 4 -inch -high (102 mm) frame with 23/; inch -wide (70 mm) mounting flange formed from 6063-T5 aluminum. The dome edge is covered by a continuous, No. 26 gage [0.019 inch (0.48 mm)], galvanized steel angle. See Table 3 for additional description. 2.1.2 AS Series: The AS Therm -o -weld series uses acrylic plastic domes, classified as CC2 plastic and recognized in evaluation report ER -2576. These domes are chemically fused to a fiberglass frame consisting of 3 ounces (85 grams) of fiberglass roving impregnated with polyester resin and classified as CC1 plastic. The self -flashing version is mounted to a 4 -inch -high (102 mm) frame with a 23/, -inch -wide (70 mm) mounting flange formed from 6063-T5 aluminum. See Tables 2 and 5 for additional description. 2.1.3 AL Series: The AL Alumi-lite series uses acrylic plastic domes, classified as CC2 plastic and recognized in evaluation report ER -2576. These domes are attached at the factory to a retaining frame fabricated from 6063 T5 aluminum. The self -flashing version is mounted to a 4 -inch - high (102 mm) frame with a 23/, -inch -wide (70 mm) mounting flange formed from 6063-T5 aluminum. See Tables 2 and 5 for additional information. 2.2 Installation: 2.2.1 Curb -mounted Units: The curb is minimum 2 -by -6 lumber, sized to the inside dimensions described in Table 2. This curb must allow the plastic dome edge to be at least 4 inches (102 mm) above the roof plane. The roof covering is fen removed. The opening is cut into the roof, and damage t rafters must be avoided. The curb is mounted to the roof dAlk to the satisfaction of the building official. 26 gage (0.48 mm) corrosion -resistant metal flashing, 14 i ches (356 mm) wide, is bent into an "L" shape with a 3'/2 inch 89 mm) vertical leg. Flashing is 5 to 6 inches (127 to 15 ) wider than the opening. The leg is cut at the curb w' ith the end tabs bent flat. These pieces are placed under shingles at the high end of the openings. A second flashing piece is prepared similarly, except the ends are cut and bent to wrap around the curb. The two pieces are coated on faying surfaces with mastic and bonded together. The sides of the opening are flashed with 12 -inch -wide (305 mm), L-shaped pieces lapped 3 inches (76 mm) under the previous piece and under the shingles. A bottom piece of flashing is placed. Each flashing piece is nailed to the curb at the joint. A continuous caulking bead is placed on top of the curb. The skylight is set on top of the curb and positioned to allow a'/; inch (6.4 mm) gap between the unit and the side of the curb. The unit is then nailed to the curb according to Table 4. Nail heads should be '/16 inch (1.6 mm) from curb to permit movement. 2.2.2 Self -flashing Units: Self -flashing units must not be installed on a wood shake or wood shingle roof. The opening is cut into the roof and damage to rafters must be avoided. The edges of the opening are framed with nominal 2 -inch - wide (51 mm) lumber. A 4 -to -5 -inch -wide (102 to 127 mm) band of roofing mastic, '/, inch (6.4 mm) thick, is applied around the opening. The unit is then set into the mastic and fastened according to Table 4. The flanges are covered on the sides and top with a roof covering. 2.3 Identification: Each skylight is identified by a label bearing the Bristolite Skylights name and address, the plastic dome thickness and classification, the evaluation report number (ER -2469), and a safety label warning of risk of fall. 3.0 EVIDENCE SUBMITTED Data in accordance with the ICC -ES Acceptance Criteria for Plastic Skylights (AC16), dated October 2003, and the ICC - ES Interim Criteria for Skylights with Plastic Frames (AC79), dated April 1994. ICC -ES legacy reports are not to be construed as representing aesthetics or any other attributes not specifically addressed, nor are they to be construed as an endorsement of rhe subject of the report or a recommendation for its use. There is no warranty by ICC Evaluation Service, Inc., express or implied, as to any finding or other matter in this report, or as to any product covered by the report. Copyright © 2004 Page 1 of 5 Page 2 of 5 ER -2469 4.0 FINDINGS That the Bristolite Skylights as described in this report comply with the 1997 Uniform Building Code"", subject to the following conditions: 4.3 The maximum roof wind -uplift load is 13 pounds per square foot (622 Pa). 4.4 The AS series is installed only where nonrated roof coverings are permitted. 4.1 Skylights are installed in accordance with this This report is subject to re-examination in two years. report, manufacturer's instructions and Section 2603.7 of the code. 4.2 The maximum roof live load is 20 pounds per square foot (958 Pa). TABLE 1 -GLOSSARY OF MODEL TYPES MODEL TYPE DESCRIPTION CURB MOUNTED SELF FLASHING ALUM. RETAINER CAP CC1 FIBERGLASS RETAINER SKIRT cc1 ONE-PIECE FIBERGLASS DOME CC2 ACRYLIC DOME OR PURAMID S -CM CC1 FIBERGLASS DOME X X X X X 5 S -SF CC1 FIBERGLASS DOME X X X X X 5 AS -CM THERM -O -WELD ACRYLIC DOME X X X X 0.125 X AS -SF THERM -O -WELD ACRYLIC DOME X X X X 0.125 X AL -CM ALUMI-LITE ACRYLIC DOME X X X 37 x 37 0.125 X AL -SF ALUMI-LITE ACRYLIC DOME X X X 42 x 42 0.125 X ACS -CM THERM -O -WELD ACRYLIC CIRCULAR X X X X 0.125 X ACS -SF THERM -O -WELD ACRYLIC CIRCULAR X X X X 0.150 X TABLE 2-BRISTOLITE ACRYLIC SKYLIGHTS INSIDE CURB OPENING -DOME THICKNESS -DOME RISE TYPES: AS -CM, AS -SF, ASL -CM, AL -SF, ACS -CM, ACS -SF MODEL SIZE (Nominal) AS -CM -P AND AS -SF -P' AS -CM, ACS -CM, AS -SF ACS -SF AL -CM, AL -SF AL -CM -P AND AL -SF -P' INSIDE CURB DIMENSIONS (inches) DOME THICKNESS (inch) DOME RISE (inches) 1414 X X X X 14'/4 x W/4 0.125 5 1919 X X X X 19x19 0.125 5 2222 X X X X 22'/2 x 22'/4 0.125 5 3030 X X X X 30'/4 x 30'/4 0.125 5 3737 X X X X 37 x 37 0.125 5 4242 X X X X 42 x 42 0.125 5 4646 X X X X 404 x 46'/4 0.125 5 4848 X X X X 48 x 48 0.150 5 5555 X X X X 55 x 55 0.187 6 7070 X X X X 70'/4 x 70'/4 0.250 7 7575 X X X X 75 x 75 0.250 8 8484 X X X X 84 x 84 0.250 9 9292 X X X X 92'/2 x 92'/2 0.250 10 2230 X X 22'/4 x 304 0.125 5 1422 X X 14'/4 x 22'/4 0.125 5 1446 X X 14'/4 x 46'/4 0.125 5 2237 X X 22'/4 x 37 0.125 5 2246 X X X X 22'/4 x 404 0.125 5 2272 X X X X 22'/4 x 72 0.125 8 2296 X X 22'/4 x 96 0.125 10 3037 X X 304 x 37 0.125 5 3046 X X X X 30'/4 x 46'/4 0.125 5 3069 X X X X 30'/4 x 69'/2 0.125 7 3096 X X 30'/4 x 96 0.125 10 3496 X X 34 x 96 0.150 10 36120 X X 36 x 120 0.250 12 3746 X X X X 37 x 46'/4 0.125 5 3775 X X 37 x 75 0.150 8 3859 X X 38 x 59 0.150 6 4669 X X X X 404 x 69% 0.150 7 4689 X X 461/4 x 891/2 0.150 9 4896 X X X X 48 x 96 0.150 10 Page 3 of 5 ER -2469 TABLE 2—BRISTOLITE ACRYLIC SKYLIGHTS—(Continued) INSIDE CURB OPENING—DOME THICKNESS—DOME RISE TYPES: AS -CM, AS -SF, ASL -CM, AL -SF, ACS -CM, ACS -SF MODEL SIZE AS -CM -P AND (Nominal) AS -SF -P' AS -CM, AS -SF ACS -CM, ACS -SF AL -CM, AL -SF AL -CM -P AND INSIDE CURB AL -SF -P' DIMENSIONS (inches) DOME THICKNESS (inch) DOME RISE (inches) 48120 X 5 X 48 x 120 0.250 12 5460 X X X 54 x 60 0.187 6 6096 X 0125 X 60 x 96 0.187 10 24 dia 7 X X 24 0.125 5 31 dia X X 0125 31 0.125 5 43 dia C.125 X 3037 10 43 0.125 5 54 dia 3096 36 18 X 3496 36 18 54 0.187 6 67 dia 3746 12 X 3775 14 67 0.187 7 91 dia X 91 0.250 9 For SI: 1 inch = 25.4 mm. '-P designates Pyramid Skylights. TABLE 3—BRISTOLITE FIBERGLASS SKYLIGHTS INSIDE CURB OPENING—DOME THICKNESS—DOME RISE TYPES: S -CM, S -SF MODEL SIZE (Nominal) STA. PROD. LINES S -CM S -SF INSIDE CURB DIMENSIONS (inches) DOME TAICKNESS (inch) DOME RISE (inches) 1414 X 14'/4 x 14'/4 0125 5 2222 X 22'/4 x 22'/4 0125 5 1422 X 14'/4 x 22'/4 0125 5 2246 X 22'/4 x 404 0125 5 2272 X 22'/4 x 72 0125 7 2296 X 22'/4 x 96 0125 10 3037 X 30'/4 x 37 0125 5 4896 X X 48 x 96 C.125 10 For SI: 1 inch = 25.4 mm. TABLE 4—MINIMUM NUMBER OF SKYLIGHT ATTACHMENT FASTENERS TABLE 5—FANIMUM NUMBER DOME RETAINER FRAME FASTENERS OF MODEL SIZE CURB -MOUNTED SELF -FLASHING (Nominal I.D.) AL -CM, AS -CM, S -SF, AS -SF, AL -SF, ACS -CM' ACS-SFZ MODEL SIZE AL -SF' (Nominal I.D.) AS -SF, S -SF, ACS -SF 1414 12 8 1414 4 Chemically Fused 1919 12 8 1919 4 2222 16 8 2222 8 3030 20 8 3030 8 3737 24 12 3737 12 4646 28 12 4646 12 4848 28 16 4848 12 5555 32 16 5555 16 7070 40 20 7070 16 7575 44 20 7575 16 8484 44 24 8484 20 9292 48 28 9292 20 1422 14 8 1422 6 1446 20 10 1446 8 2237 20 10 2237 8 2246 22 10 2246 8 2272 28 14 2272 10 2296 34 18 2296 12 3037 22 10 3037 10 3046 24 10 3046 10 3069 30 14 3069 12 3096 36 18 3096 14 3496 36 18 3496 16 36120 44 26 36120 1 20 3746 26 12 3746 12 3775 32 16 3775 14 3859 30 14 3859 14 Page 4 of 5 ER -2469 TABLE 4—MINIMUM NUMBER OF TABLE 5—MINIMUM NUMBER OF SKYLIGHT ATTACHMENT FASTENERS—(Continued) DOME RETAINER FRAME FASTENERS—(Continued) MODEL SIZE (Nominal I.D.) CURB -MOUNTED AL -CM, AS -CM, ACS -CM' SELF -FLASHING S -SF, AS -SF, AL -SF, ACS -SF' 4669 34 16 3689 40 20 4896 40 22 48120 44 28 5460 40 16 6096 42 22 24 dia. 9 8 31 dia 9 8 43 dia. 9 12 54 dia. 9 16 67 dia. 9 16 91 dia. 21 28 MODEL SIZE AL -SF' (Nominal I.D.) AS -SF, S -SF, ACS -SF 4669- 14 'Fasteners are 6d corrosion -resistant common nails. 4689 16 4896 16 48120 20 5460 16 6096 18 24 dia. N/A 31 dia. N/A 43 dia. N/A 54 dia. N/A 67 dia. N/A 91 dia: N/A For SI: 1 inch = 25.4 mm. For SI: 1 inch = 25.4 mm. 'Fasteners are 6d corrosion -resistant common nails. 'No. 8 stainless steel screws. 2Fasteners are 16d corrosion -resistant common nails. ACRYLIC DOME ALUM. PERCAP CONDENSATE PROVISION REIVE GASKET CAP FASTENER ANCHOR 7X (1 1/27 WIDE WOOD CURB BY OTHERS ALUM. 'CM' FRAME ROOFING 1 OTHERS ROUGH OPENING MODEL :A -CM ACRYLIC DOW ALUM. PERIMETER WNP� CONDENSATE PROWSION SANTOPRENE GASKET GAP FASTENER ALUM. Sr FRAME ANCHOR ROOFING BY OTHEn ROUGH OPENING MODEL AL -SF FIGURE 1 . FIGURE 1=(Continued) . Page 5 of 5 ER-2469 FIBERGLASS DOME BY OTHERS S 26NGAUGE eErRCSEALANT 1/8' STL. GALVANIZED POP RIVETS a STL. ANGLE l6'o.C. MAX. -3 S '> WIDE WOOD 1/4' OTH_RS OPENING MODEL: S-CM CONDENSATE PROVISION " f1BERGLASS DOME ---- FASTENER ALUM. 'Sr FRAME CONTINUOUS NO. 26 GAGE GALVANIZED STEEL ANGLE ANCHOR ROOFING BY OTHERS BY OTHERS; ROUGH OPENING.. la MODEL : S-SF ACRYLIC DOME ?HERM-O-W2'ECURB SEALANT ANCHORBY OTHET7S 2X (1 1/27 WIDE MOD ROOFICURB BY OTHERS BYOTHE ROUGH OPENING MODEL : AS--CM ACRYLIC DOME THERM-O-WELD' FRAME CONDENSATE PROVISION SAMOPRENE GASKET ALUM BRACKET FASTENER " ROOFING BY OTHERS. ALUM. Sf FRAME ROUGH OPENING ANCHOR MODEL : AS-SF FIGURE 1=(Continued) Sunpak MODEL S25 & S34 TM GAS-FIRED'INFRARED HEATER For Indoor or Outdoor Operation. ACCESS Sunpak heaters must be Installed In MOUNTING DOOR such a manner as to Insure the exhaust HOLES ° r / gases exit through the top vents of the heater and not out of the front grill. v NEC Cuss 2 24VAC Transformer-20VA ° (Supplied by Installer) 1 �� - 47'h" TOP VENT • �. /v �� ' t ` Exceeding 30° Tip ELECT.' q Angle of this arra will '�..� void warranty 120V F24VAC . j If any of the original wire as supplied with the appliance must be replaced, It must be replaced with wiring material GAS SERVICE having a temperature rating of at least SHUTOFF VALVE 105 degrees Centrigrade. h^ GAS PIPE Part No. Model Description Dimensions Type / ' 12001-2 S25 -NAT Sunpak 25,000 BTUH Heater 8"x8"x471/:" Natural Gas L f 12002-2 S34 -NAT Sunpak 34,000 BTUH Heater 8"x8"x47'/2" Natural Gas 30° MAX 12003-2 S25 -LP Sunpak 25,000 BTUH Heater 8"x&W71/2" . Propane Gas 1 .. + 12004-2 S34 -LP Sunpak 34,000 BTUH Heater 8"x8"x47'h" Propane Gas FRONT GRILL HORIZONTAL 1i r CEILING • • MINIMUM CLE E FROM .COMBUSTIBLES MUST BE MAINTAINED (see chart on opposite page) r ..�.!'� S _II I H =Height S = Spread of Heat iy SUNPAK will raise the comfort level 5-10° Fahrenheit ANGLE MOUNTING: Most models of the SUNPAK outdoors. The above coverage table was based on still heater may be angle -mounted to a maximum of 300 to breeze conditions. Under windy conditions, more heat accommodate mounting the heaters around the edges will be required. For example, a 5 mph breeze typically of the patio. Note that top clearance to combustibles will require twice as many heaters to achieve the same increases when heater is tipped from the horizontal. heat comfort level. It is recommended that a windswept NOTE: Where applied, the Uniform Mechanical Code patio be designed with wind breaks in order to stabilize requires that all portions of overhead radiant heaters the patio environment:, �}, are, located at least 8 feet above the floor. FOR YOUR SAFETY: If you smell gas: 1. Open windows. 2. DO NOT try to light any appliance 3. DO NOT use electrical switches 4. DO NOT use any telephone in your building S. Leave the building 6. Immediately call your local gas supplier after leaving the building. Follow the gas supplier's instructions. 7. If you cannot reach your gas supplier, call the Fire Department Fire Hazard Do not store or use gasoline or other flammable vapors and liquids in the vicinity of this or any appliance. Failure to follow these instructions can result in death, injury or property damage. Fire and Explosion Improper installation, adjustment, alteration, service or maintenance can result in death, injury or property damage. Read the installation, operation and service manual thoroughly before installing or servicing this Installation and replacement of gas piping, gas utilization equipment, or accessories, and repair and servicing of equipment shall. be performed by a qualified agency familiar will all precautions required regarding this type of equipment and that has complied with all requirements of the authority having ��SIBN ® CERTIfIEO Infrared Dynamics SUNPAK @ Gas -Fired, Unvented High -Intensity Infrared Heaters For use Indoor/Outdoor Commercial Outdoor Residential ONLY Installation, Operation & Maintenance Manual Model .S25 Model S34 Installer Please take the time to read and understand these instructions prior to any installation. Installer must be given a copy of this manual to the owner. Owner Keep this manual in a safe place in order to provide your serviceman with the necessary information. Infrared Dynamics, Inca 3830 Prospect Avenue Yorba Linda, CA 92886 Telephone: (714) 572-4050 Fax: (714) 572-6093 Toll Free: (888) 317-5255 www.sunpak.us © Copyright 2006 Infrared Dynamics, Inc P/N 65132-1/06 Printed in the U.S.A. Tableof • 1. Owner's Manual 2. Design Guide 3. Installation / Service Instructions 4. Replacement Parts 5. Trouble Shooting Guide 6. Warranty Prop. 65 - Carbon Monoxide - If not installed, operated and maintained in accordance with manufacturer's instructions, this product could expose you to substances in the fuel or from combustion, including Carbon Monoxide, which can cause death or serious illness and which are known to the State of California to cause cancer, birth defects or reproductive harm. Owner's Manual Before Starting Your Heater Before you start your heater examine the heater installation to determine that: • Areas immediately around the heater including the air inlet and flue areas are free from obstructions. • Physical support of the heater is sound. • There is no obvious deterioration of the heater. Starting and Shutting Down Your Heater Sunpak utilizes an automatic ignition system. Follow these important safeguards. • Never attempt to manually light the burner with a match or other source of flame. • Read and follow the operating instructions on the inside of heater door especially the item that reads as follows: Wait 5 minutes to clear out any gas. Then smell for gas. If you smell gas follow the instructions on the front of this manual regarding gas leaks. If you don't smell gas, go to the next step. • If a suspected malfunction occurs with your gas control system, such as the burner does not light when it should, refer to the section 'Shutting Down Your Heater'. 2 SUNPAK® INFRARED HEATERS Starting Your Heater Turn gas and 24 VAC electrical power "ON". The pilot and burner should light within 4 seconds. A flame sensor will shut off the spark. If the burner does not light within 15 seconds the flame sensor will shut "OFF" the gas valve. To relight the pilot and burner, shut "OFF" power. Wait 5 minutes. Turn power back "ON". If the heater will not light, turn the manual gas valve to "OFF" position and the electrical switch "OFF" to the heater and call your quality service agency or gas supplier. Shutting Down Your Heater Turn electrical power to the heater "OFF" Should you need to shut down your heater for service or maintenance, the manual gas valve next to the heater should also be turned "OFF". Performing Routine Maintenance Overtime, particularly during long periods of disuse, the heater can accumulate dirt and debris in and around the pilot and the burner. Routine maintenance should be performed at least once a year by a qualified service agency to insure the heater is operating properly. More frequent service may be required for heaters. located near waterfronts. Stainless Steel Heater Stainless steel does not "rust'; however air pollution can leave brown deposits on heaters. We recommend washing the outer stainless steel casing only with a mild detergent solution and wiping it dry with a soft cloth to bring back the original shine. The stainless steel may be expected to permanently darken around the top of the heater over time with extended use. Before You Remodel Should you plan to make any changes to the patio or building structure after heaters have been. installed, your heater installation must be reviewed by a qualified agency to insure that clearances from combustion material and ventilation requirements are maintained after alterations are complete. When plastic curtains or drops are used to enclose a patio you must take steps to insure that Sunpak heaters have the required permanent access to outside air. If a patio is to be partially enclosed a qualified agency familiar with this type of heating equipment must be consulted to insure the safe operation of this equipment. Heater Layout and Design Sunpak® heaters were specifically designed to provide heated comfort in an outdoor environment. They have been used on outdoor patios across the United States and Canada for over 20 years. When properly integrated into a patio design, Sunpak® heaters generally increase the comfort level 5 to 10 degrees Fahrenheit outdoors. The heating effectiveness will depend on air temperature, wind velocity and other factors. Whenever possible local Sunpak® installations should be reviewed to determine the effectiveness for regional environments. The environments in which Sunpak® heaters are utilized vary greatly. As an outdoor rated heater it has passed basic wind and rain tests. This does not mean the heater cannot be damaged by the environment or when operated in very windy conditions. For this reason it is strongly suggested that heaters be inspected and if necessary repaired annually or before each heating season. The variable environments in which Sunpak® heaters are applied means that these general guidelines are general by necessity and may need to be refined for local conditions. These guidelines are to be used in combination with the installation instructions. Patio Design Consideration Heater placement is critical for effective and efficient patio heating. If heaters are placed too close together or mounted too low, people become uncomfortable. If heaters are placed too far apart on a breezy, wind-swept patio the patio may never get warm. Sunpak® heaters work best if they are placed in areas of the greatest heat loss, such as the open side of a semi - protected patio area. The Sunpak®heater may be mounted at up to a 30 degree angle or face down. Note that the top clearances required from combustible material increases when heaters are at any angle. The heater must always be horizontal to the floor. Fire and Explosion Proper clearance for combustible materials must be maintained. See installation section of this manual for required clearances for different model and mounting options. Sunpak heaters may be laid out in a number of configurations depending on the structural constraints of the patio and heating requirements. One approach is to face heaters straight down over the table and seating areas. Another approach is to locate heaters to the side and to angle them inward. A third approach is to cluster the heaters in the center of the patio and angle heaters outward. It all depends on the needs of a particular patio. SUNPAKS INFRARED HEATERS Breezy conditions must be considered when heating any patio. Windbreaks can be extremely effective in increasing comfort and reducing heating costs. Windbreaks must be designed in such a way to allow for the necessary fresh air and ventilation for proper heater operation (see ventilation of installation section). Asphyxia / Carbon Monoxide Heater requires adequate combustion air and ventilation in order to operate safely. Improper ventilation can generate carbon monoxide or other harmful gases that could result in death or breathing difficulties. Small or enclosed patios may not be appropriate to for this type of heater. Sunpak heaters must always be operated in a location that allows uniform air pressure around the heater. If only part of the heater is located in a wind protected zone damage to the heater may occur. Time should be taken to observe how the wind will affect the heaters under local conditions. Damage to Heater Failure to operate heater in a uniform air pressurize environment or under erratic wind conditions can cause over -heating of controls, and damage to the front grill and burner.. Temperature Control A thermostat can be incorporated into the electrical circuit; however this may not be the best means of temperature control. Because the infrared heat warms people and objects, when used outdoors the heater may not increase the air temperature and thus the thermostat is never satisfied. When multiple heaters are used it is suggested shat they be put on individual switches to provide flexibility in heating. Typically all the heaters would be turned on to heat a cold patio, and then heaters would be turned off selectively as people settle in. A timer or master switch may be convenient to ensure the heaters are not turned on when the patio is not in use. SUNPAKS INFRARED HEATERS 15" MOUNTING ACCESS Sunpak hasten must be Installed In LLLL��►r s o /DOOR HOLES such a manner as to Insure the exhpust / gases exit through the top vents of the heater and not out of the front grill. NEC Cla.s s 24VAC 7t�atutbrtneaZOVA e (Supplied by Ital ftlw) 1 '. 47'h" TOP VENT ELECT. Exceeding 300 Tip Angle of this unit will 120V 24VAC void warranty i If any of the original wire as supplied with the appliance must be replaced, H must be replaced with wiring material GAS SERVICE having a temperature rating of at least SHUTOFF VALVE 10S degrees Centrlgrade. 'h" GAS PIPE Part No. Model Description Dimensions Type / 12001-2 S25 -NAT Sunpak 25,000 BTUH Heater 8"x8"x47'h" Natural Gas 12002-2 S34 -NAT Sunpak 34,000 BTUH Heater 8"x8"x47'h" Natural Gas 30^ MAX 12003-2 S25 -LP Sunpak 25,000 BTUH Heater 8"x8"x47'h" Propane Gas 12004-2 S34 -LP Sunpak 34,000 BTUH Heater 8"x8"x47'h" Propane Gas FRONT GRILL HORIZONTAL CEILING MINIMUM CLEARANCE FROM COMBUSTIBLES MUST BE MAINTAINED (see chart on opposite page) 30° TIP HORIZONTAL S P. $ H = Height S = Spread or Heat SUNPAK will raise the comfort level 5-10° Fahrenheit outdoors. The above coverage table was based on still breeze conditions. Under windy conditions more heat will be required. It is recommended that a windswept patio be designed with wind breaks to stabilize the patio environment. Wind breaks shall NOT interfere with the ventilation of combustion air requirement of the heater(s). 4 ANGLE MOUNTING: Most models of the SUNPAK heater may be angle -mounted to a maximum of 300 to accommodate mounting the heaters around the edges of the patio. Note that the top clearance to combustibles increase when heater is tipped from the horizontal. NOTE: Local codes may have special requirement regarding head clearance requirements. Some local codes require all portions of overhead radiant heaters to be located at least 8 foot above the floor. SUNPAK® INFRARED HEATERS Sunpak® Infrared Heater Location Poor .. installation , Cold air flow S Installation Configurations Now— Maintain appropriate . • ��clearances. CLUSTER- placedHeaters are in groups, away from other using maximum 30 degree Maintain .. _ .. placedUNIFORMLY air flow clearances. SPACED Heaters are evenly along the roof with no angle. .`!NEW 1 Irl Cold air flow Maintain appropriate clearances. 5 OPPOSITE ARRANGEMENT Heaters are installed using the 30 degree maximum angle to face toward each other. Installation/Service Instruction Receiving Equipment On receipt of equipment it is suggested that a visual inspection be made for external damage to the carton. If the carton is damaged, a note should be made on the Bill of Lading when signing for the equipment. Remove the heater from the carton. If there is damage, report the damage to the carrier immediately. INSTALLATION INSTRUCTIONS Important Notice These instructions are intended for qualified personnel, specifically trained and experienced in the installation of this type of equipment and related system components. Some states or provinces require installation and service personnel to be licensed. If your state or province is such, be sure your contractor bears the appropriate license. Persons not qualified shall not attempt to fix this equipment nor attempt repairs according to these instructions. Asphyxia, Explosion or Fire Improper installation, adjustment, alteration, service or maintenance may create a hazard resulting in asphyxiation, explosion or fire, or damage to the equipment. Code Requirements Installation must be in accordance with local codes, or in the absence of local codes, with the latest edition of the National Fuel Gas Code, ANSI Z224 and National Electrical Code ANSI/NFPA 70, and for Canada, the latest edition of CAN/CGA-8149.1 and B149.2 and Canadian Electrical Code, CSA C22.1 Part 1 and Part 2. • Heaters to be installed in Aircraft hangars must be installed in accordance with American National Standards for Aircraft Hangars, ANSI/NFPA No. 409. • Heaters to be installed in Public Garages must be installed in accordance with NFPA No. 88A, Standards for Parking Structures. • Heaters must be installed so that minimum clearances marked on the heaters will be maintained from vehicles parked below the heater. • Each heater must be electrically grounded in accordance with the National Electrical Code, ANSI/NFPA 70, when an external electrical source is utilized. In Canada, the CSA Canadian Electrical Code, C22.1 Part 1 applies. Z SUNPAK® INFRARED HEATERS Gas Supply The gas inlet supply pressure and manifold pressure required for each heater are listed below. For gas supply line pressures in excess of/Z psig, consult with your representative or the factory. Gas Inlet Pressure Nat Gas Propane Maximum Pressure '/z psig 'h psig Minimum Pressure 6" W.C. 11" W.C. Manifold Pressure 5" W.C. 10" W.C. It is important that the gas piping system be adequately sized for all the gas appliances it serves. Clearances Each heater must be installed such that the following "Minimum Clearance to Combustible Materials' are maintained. Combustible materials include wood, compressed paper, plant fibers, plastic, Plexiglas or other materials capable of being ignited and burned. Such materials shall be considered combustible even though flame -proofed, fire retardant treated or plastered. Additional clearance may be required for glass, painted surfaces, vinyl siding or other materials which may be damaged by radiant or convection heat. Adequate space around each heater is required even when the materials surrounding the heater are non- combustible to provide adequate combustion air and ventilation of exhaust gases. Heaters should never be located in a ceiling recess or soffit. The stated clearance to combustible materials represents a surface temperature of 90°F (32°C) above room temperature. Building materials with a low heat tolerance may be subject to degradation at lower temperatures. It is the installer's responsibility to assure that adjacent materials are not subject to degradation. In locations used for storage of combustible materials, signs shall be posted to specify the maximum permissible stacking height to maintain required clearances from the heater to combustible materials. OPTIONAL MOUNTING KIT (#12006): Optional Mounting Kit is available from your heater supplier. Whether the mounting kit is used or not, minimum clearance from combustibles must be observed as follows: WARNING: The clearances shown below are also applicable to vehicles parked below heaters. Above clearance apply to models on either natural or LP gas. "Model S25 for LP gas for use in horizontal position only Input Side Rear Ceiling Below Mtg. _Model BTUH In In In In Angle S25 25,000 24" 12" 9" 48" HORIZ S34 34,000 24" 17" 13" 48" HORIZ "S25 25,000 24" 8" 14" 48" 300 MAX S34 34,000 24" 8" 18" 48" 300 MAX Above clearance apply to models on either natural or LP gas. "Model S25 for LP gas for use in horizontal position only 3 m 3 m m W lsuxlpeL MINIMUM CLEARANCE TO COMBUSTIBLE MATERIALS USING OPTIONAL MOUNTING KIT P/N 12006 3 a No. S25-12" No. S34-17" No. S25-9" No. S34-13" • SUNPAKS INFRARED HEATERS Ceil,n9 o , No. S2'5-12" No. S34-17" No. S25-14" No. S34-18" 30° Max. No. S25-9" No. S34-13" Facia Board 471 "to Inside of Bracket Base t uing to Outside of Bracket Base x 1 Channel Bar (2) 318 Bolts (1) 318 Sof 8" Model No. S25 or S34 Heater ELECTRICAL 2" l3AS- 1R1" �AL 47i" 24"- 7 rear view of heater Fire Sprinklers Fire Sprinklers must be located at an appropriate distance from each heater to avoid accidental activation of the sprinkler. Ethylene glycol or propylene glycol must never be used in fire sprinkler systems where heaters are present as these substances may become flammable when heated. A fire sprinkler professional must be consulted when heaters are installed where fire sprinklers are present to insure that heaters and the fire sprinkler system are properly integrated. Specific guidelines can be found in NFPA 13 regarding design and specifications for Fire Sprinkler Systems near heaters. Suspension Hazard Mounting kits and hanging supports must be able to withstand a minimum working load of 75 lbs (33 kg). Failure of the supports can result in death. Local codes regarding head clearance requirement must be observed. Heater Mounting and Support Heaters shall be mounted in a fixed position independent of gas and electrical supply line. Hangers and brackets shall be of noncombustible material. Heaters subject to vibration shall be provided with vibration isolating hangers. Suitable materials for hanging infrared heaters are steel pipe, steel channel, or fabricated hangers of at least 16 -gage material. Hanger and brackets must be secured with adequate anchor to a secure structure using good building practices. Additional bracing to protect against seismic forces may be required in seismically active areas. SUNPAK® INFRARED HEATERS Sharp Edges Every effort has been made to remove sharp edges from this heater; however care should be taken to avoid injury when reaching inside the heater during installation and when servicing this unit. Electrical 1. Provide only 24 VAC with a NEC Class 2 transformer. to the heaters. Each heater requires approximately 20VA or 0.8 amps. When.multiple heaters are connected to one transformer, the transformer must be sized to accommodate the entire load. A transformer must NEVER be located inside the heater control compartment. 2. Control wire used to electrically connect one or more heaters together.must have adequate capacity and insulation temperature rating for the total connected load. Use at least 18 GA wire up to 50 feet from heater to transformer or wall switch. Use a minimum of 16 GA wire for over 50 feet distance. 3. If any of the original wire supplied with the appliance must be replaced, it must be replaced with wiring material having a temperature rating of at least 105 degrees Centigrade. Electrical Shock Hazard Disconnect electrical power and gas supply before servicing This heater must be connected to a properly grounded electrical source. Failure to follow these instructions can result in death or electrical shock. Ventilation 1. It is required that areas above the heater be properly vented to allow for necessary combustion air and removal of combustion gases. 2. Heaters shall be provided with natural or mechanical means to supply and exhaust at least 4 cfm per 1,000 BTU per hour of heater, input. Exhaust opening for removing the flue products shall be above the level of the heaters. 3. Heater ventilation must comply with state and local codes. Gas Piping 1. A minimum pipe size of 1/2" is required for inlet piping. A'/2' leaver handled shut-off gas cock should be installed within 6 feet of the appliance for servicing the unit. 2. Check with local and state plumbing and heating codes regarding sizing of gas lines. 3. All gas pipe connections to the heater(s) must be sealed with a gas pipe compound resistant to liquefied petroleum gases. 4. Installation of a drip leg in the gas supply line. going to each heater is required to minimize the possibility of any loose scale or dirt within the gas supply line from entering the heater's control system. 5. When checking for gas leaks, do not use an open flame. Use a soap and water solution. 6. For gas supply line pressures in excess of 1/2 psig, consult the factory or your local representative. 7. Installation of 1/8" N.P.T. plugged tapping accessible for test gage connections is required upstream of the gas supply connections to the. heater. SUNPAK® INFRARED HEATERS Initial Start -Up Procedure 1. Before turning on the manual gas valve to the heater verify that the control system is working properly. a. Apply 24 VAC to the heater. b. There should be an audible click and the spark initiates at the pilot c. With the gas. turned off the heater should turn "OFF" or lockout in within 10 seconds (Synetek controls will cycle "ON" and "OFF" 3 times before lockout d. Turn electrical switch "OFF" 2. Turn "ON" the manual gas valve to the heater. a. Check for leaks using soapy water at all gas connections and joints. NEVER use a flame to check for leaks. b. Apply 24 VAC to heater c. Check for pilot ignition. A smooth flame front should roll down the length of the infrared burner. Flame should stabilize on the ceramic surface. d. The ceramics portion of the infrared burner should turn RED within 5 minutes (this may be difficult to see in bright sunlight). Field Wiring: 1.) 24 VAC t 20VA (.8 AMP) per heater (supplied by installer) 2.) Maintain electrical polarity when hooking up multiple heater 3.) Allow heaters to be switched by zones for heating flexibility 4.) 00 NOT attempt to install transformer inside heater Optional Line Voltage Low Voltage Switch or Timer Switch or Timer L1 , Hot r _o- _ 120 VAC I I I 24 VAC L2 External Transformer E NOTE: Some white smoke may appear during or just after the initial start-up of the heater. White smoke will dissipate with proceeding use. Additional Heaters reuqire prosy srzeW _00- 24 VAC transformer Servicing Instructions Turn off gas and electrical before attempting any service. to this appliance. Heater may be serviced by opening the door to control compartment. Rotate round disk on control door 90 degrees to open. Top of heater may be removed for servicing by removing six (6) screws holding top in place. The top should be,removed if the gas controls, burner or burner orifice is to be replaced. 1. Removal of Burner a. Remove grille by removing two (2) screws at one end of the grill near control door. Pull downward at the end and grill will be loose. The end of the grill is supported by two (2) pins that enter two (2) holes in the reflector's far end. b. Remove top of heater by removing six (6) screws holding top in place. C. The burner can be removed without removing the pilot -electrode assembly. However, extreme care should be taken. to prevent the burner from contacting the fragile electrode when removing or reinstalling the burner. To remove the pilot - electrode assembly, disconnect the orange wire from the module connected to the electrode. . Detach the pilot tubing. Remove the two screws holding the pilot -electrode in place. d. Remove burner clip securing mixer inside control compartment. Be careful not to damage white insulation pads. e. Remove 3/8" hex locknut located inside the burner orifice bracket holding piping assembly to burner. A 7/8" 12 -point wrench is recommended to loosen the 3/8" locknut. f. Remove two (2) screws holding the end of the burner. Carefully slide burner down and out. When reinstalling,, be sure both ends of the burner are beneath the reflector end flanges. g. To reinstall burner, reverse procedure. 2. Removal of RAM -3 Direct Spark Ignition Control a. Disconnect two 24 VAC power leads b. Disconnect two gas valve leads. c. Disconnect igniter lead from control d. Disconnect green ground lead from casing. e. Remove two (2) 8-32 x 1 1/4 screws and nuts holding control module in place. Screw heads are located on exterior front side of heater above control compartment door. f. If insufficient removal clearance, loosen control assembly and move out of way. SUNPAK® INFRARED HEATERS CONTROL DESCRIPTION SUNPAK $25 & S34' RAM -3 DIRECT SPARK IGNITION ORANGE 24VAC MODULE BLACK 2A FUSE SPARK GAP 1/84- t,1W) F y�T GREEN R BODY GROUND "AS w PILOT f ELECTRODE ASSEMBLY 0 IIyO VGAL E Trouble Shooting 1. If no spark from electrode; or if gas valve doesn't work then: a. Check power supply. There should be 24 VAC between the low voltage power wires. Use voltmeter between inlet 24 VAC wire and ground terminal at the electrode plate to measure 24 VAC. b. Check continuity. Use ohmmeter. For example, check resistance between valve wire and ground. Should show almost no resistance (O ohms) through valve. If high resistance, check wire connectors. c. Check spark gap. Spark gap should be 7/64° (.109") between electrode tip, and pilot hood. If gap is too large, spark will occur at wrong location. If gap is too small it may not be hot enough to light pilot burner. d. Be sure connectors are fully inserted into ignition control (See Wiring Diagram on rating plate). 2. If insufficient gas flow then: a. Manual gas valve not full "ON". Turn valve handle to full "ON" position. b. Burner orifice plugged. Remove heater top, remove burner orifice (use 1/2" hex wrench) and thoroughly clean. Spiders often crawl into orifice hole and make a web, blocking the orifice. SUNPAK@) INFRARED HEATERS RAM -3 Ignition Module orange Igniter wire Pilot Electrode Assembly RAM -3: 1. Seven (7) Second Black Trial for Ignition. 2. Disconnect. White o S-£- CO Power to Reset. I� High m Voltage O OUT O IN 24 VAC Solenoid Pressure Tap Gas Valve L1 -- Orange 120 VAC i 24 VAC L2 Black External 2 AMP Fuse ` Body Ground Transformer (supplied by installer) Synetek Ignition Module orange Igniter Wire Pilot Electrode Assembly High Syneteck: Voltage O 1. Five (5) Second SYNETEK CONTROLS INC Pre -purge. Black MODEL DS1142E 2. Three (3) Trials for Ignition. White oGreeonc LED osw.mn 2 nW., lOd;niA 3. Disconnect C2 F�� a Power to Reset. I `II u � m . OUT O IN O 24 VAC Solenoid Pressure Top Gas Valve L1 -- White 120 VAC 24 VAC L2Black External Body Ground Transformer (supplied by contractor) 11 , I � ,Heater Disassembly: 1. Remove six (6) screws to remove heater top. 2. Remove two (2) screws to loosen face grille and pull end down as shown 3. Disconnect gas fitting from burner. 4. Remove burner dip 5. Remove two (2) screws from far end of burner 6. Carefully remove burner 7. Reverse process to install burner. 8: Run inital Start-up Procedure �I SUNPAK® INFRARED HEATERS Sunpak Burner Replacement Disconnect Pilot Tubing Remove Burner Nut Remove Burner Clip Burner Angle Burner to clear casing before sliding bunrer out. Care should be taken not to damage pilot -electrode assembly 12 • u Sunpak Heater must be mounted correctly Incorrect Mounting ( Control End View) will Cause Angle Mounted Horizontal Mounted damage to heater Clearances must be r Combusttion gases exit ' \` Heater must be installed so , maintained for fire hazard 1 through both vents' (S) combustion gases exit 1 f and proper ventilation through the top vent / ,/ of the heater. , i / Hot Combustion gases Infrared / • \` , , ! \ Bumer, ( f Over 30° 301 MAX \ Gas \� Proper Installation with gas line/ - Radiant Heat -� ' to the rear. The Sunpak heaters / \ Heater is improperly mounted at must be in a location that allows / / � ` � greater than a 30 angle resulting in uniform air pressure around combustion gases spilling out of the, the entire heater. / I front, resulting in deterioration of the front grille. SUNPAKS INFRARED HEATERS BLUE GREEN BLACK ORANGE WHITE 8 HIG-1 VOLTAGE:J. TO STARTER 1,J t pelp 9 STARTER Hu;'I V.I IAGE 0 m 14 Sunpak Parts List Item Part Na, Deilerlptlon 32 22002 Assy, S Casing 2 32031 Door, S Casing Rear 3' 22003 Assy, S Reflector 4' 70041 Rivet, ASD42-1,t It 'A 5 22004-1 Assy, S25 Burner -_37 22004-2 Assy, S34 Burner 6' 70037 Screw. 8.32 x % SPSS 39 70038 Nut, 8-32 Hex Zn 8 90051-2 Module, RAM -3 24 volts 9 10 70035 22006 Screw, 8-32 x 2y. SPMS, Blk . Assy. Ctrl Door (less plate) 91' 70021 Screw, 48 x y WHSM 12 22024 Assy. Pilot -Elect. 2SH76 13' 50011 Gasket. Pilot la • 80031 Tubing, At b, x 14•' L 15 80027 Elbow, v!' Tubing x A MPT - 15 22021.1 Assy, Valve -Regular $25 Nat 22021-2 Assy, Valve -Regular S34 Nat 22021.3 Assy, Valve -Regular S25 LP 22021-4 Assy, Valve -Regular S34 LP ij 80032 Locknut.4 16 22009 Assy, S Casing Top 19' 70026 Screw, x8 x 'h SP -SS 20. 22010 Assy. Grill S 22 90056 Regulator. 5" W.C. Nat 90057 Regulator. IV W.C. LP 2354 Valve, 25V-H91CG-12 21 09-I Assy. Vatye-Nlpple 25 35001-44 Orifice, 25M -Nat _ 35001-38 Orifice. 34M -Nat 35001-53 Orifice. 25M -LP ' 35001-50 Orifice. 34M -LP Optional Mounting Kit 31 32043 Bar. ',,x 1 Channel 21-5/16"L 32 70007 Bolt. +,-16 x 1. Square Head 33 70013 Washer, lr Lock 3< 70059 Nut. ,S-16 black zinc -3$ •32041 Bracket. S Heater 36 70061 Screw. 1..-20 x 'n black zinc -_37 71023 Nut '.-20 38 32042 Bracket. S Wall 39 70060 Bolt. '. x I'." L lag blk zinc 'Not shown SUNPAK® INFRARED HEATERS. Trouble Shooting Guide No Spark to Pilot • Voltage under 24 VAC • Bad Fuse (Ram -3 Module Only) ' • improper spark gap (7/64" or .0.19") • Loose ground wire • Broken Electrode • Faulty Ignition. Module Burner Won't Light Air in gas line • Low gas pressure • Bad Gas Valve • Manual Gas Valve turned "OFF" Inconsistent Operation Variable gas pressure (improperly sized gas line) • Variable Voltage • Wind exceeding 10 mph • Tip angle exceeding 30 degrees • Debris inside burner • Erratic winds Deterioration of Front Grill Sunpak heater must be installed in such a manner as to.allow the products of combustion or hot gases to vent out the top of the heater. When operating normally, only radiant heat passes through the front grill. If conditions exist which force Rumbling Burner Noise • Rumbling burner noise, flare out of burner, and losses of radiant heat are_all symptoms of a damaged infrared burner. These symptoms may occur any time after the heater has warmed up. Under these conditions the burner has been damaged and must be replaced. Discontinue use of the heater until heater is repaired. '; 15 .. SUNPAK® INFRARED HEATERS Warranty THIS WARRANTY IS APPLICABLE TO THE ORIGINAL OWNER ONLY. In accordance with the warranty terms and conditions specified below. Infrared Dynamics (the warrantor) will furnish the ORIGINAL OWNER, 1) a replacement Infrared Dynamics' heater or 2) a replacement part for any component part which fails before one year when -used for residential use. When . the heater has been used for other than single family residential application the warranty shall be 90 days. Service and Labor Responsibility UNDER THIS LIMITED WARRANTY, THE WARRANTOR WILL PROVIDE ONLY A REPLACEMENT HEATER OR PART THEREOF. THE OWNER IS RESPONSIBLE FOR ALL OTHER COSTS. Such costs may include, but are not limited to: a. Labor charges for service, removal, or reinstallation of the heater or part thereof. b. Shipping and delivery charges for forwarding the new heater or replacement part from the nearest distributor and returning the claimed defective heater or part to such distributor. c. All cost necessary, or incidental for handling and administrative charges and for any materials and/or permits required .for installation of the replacement heater or part. LIMITATION ON IMPLIED WARRANTIES Implied warranties, including any warranty of merchantability imposed on the sale of this heater under state law are limited to one year duration for the heater or any of its parts. Some. states do not allow limitations on how.long an implied warranty lasts, so the above limitations may not apply to you. CLAIMS PRODCEDURE Any claim under this warranty should be initiated with the dealer who sold the heater, or with any other dealer handling the warrantor's products. If this is not practical, the owner should contact: Infrared Dynamics, 3830. Prospect Avenue, Yorba Linda, California 92886. Phone 1-888-317-5255 or visit our website: www.infradyne.com. 16 . INSTALLATION CERTIFICATE CF-611-MECH-05 Indoor Air Quality and Mechanical Ventilation (Page 1 of 5 Site Address: Enforcement Agency: Permit Number: Ventilation for Indoor Air Quality (IAQ): All dwelling units shall meet the requirements ofANSUASHRAE standard 62.2. Ref Title 24 Part 6 Section 150(0). Equation and table numbering on this CF -6R corresponds to the numbering for that information in the published ASHRAE Standard 62.2. WHOLE -BUILDING VENTILATION Ventilation Rate: A mechanical supply system, exhaust system, or combination thereof shall provide whole -building ventilation with outdoor air each hour at no less than the rate in equation 4.1a. For dwelling occupant densities known to be greater than (Nbr + 1), the rate shall be increased by 7.5 cfm for each additional person. Where: Enter Eq 4.I a Calculation: Aar* = conditioned floor area, (Eq. 4.1a) Qf01= 0.01 Anaor + 7.5(Nbr + 1) ft Aaoor = Nbr = number of bedrooms; not to be less than one Nbr = Qf,. = ventilation air requirement = fan flow rate, (cfm) Q&n = Delivered Ventilation: The effective ventilation rate of an intermittent system is the combination of its delivered capacity, its fractional on-time, cycle time, and the ventilation effectiveness from Table 4.2. This calculation only applies to intermittent systems. Where: Enter Eq 4.2 Calculation Q = ventilation air requirement from Eq. 4.1 a (above) (if applicable). f r daily fractional on-time, (%) Qr = e = ventilation effectiveness (from Table 4.2) f Qf = fan flow rate during the on -cycle (cfm) e Qf = Table 4.2 — Ventilation Effectiveness for Intermittent Fans Daily Fractional On -Time, f Ventilation effectiveness, E f <_ 35% 0.33 35%:5 f < 60% 0.50 60%:5 f < 80% 0.75 80%:S f 1.0 Fan runs at least once every three hours 1.0 Whole -Building Ventilation Rate Summary Select the method used to provide Whole - Building Ventilation and enter the required fan flow rate (cfm). Select one: ❑ Continuous fan flow (cfm) _ ❑ Intermittent fan flow (cfm) _ Use the fan flow rate from this summary for selection of the whole -building ventilation fan and for the duct design for the whole -building ventilation system. Provide the system design information in applicable sections below. LOCAL VENTILATION EXHAUST Local mechanical exhaust fans shall be installed in each kitchen and bathroom. The minimum airflow rates shall be at least the amount indicated in tables 5.1 and 5.2. Table 5.1 Table 5.2 Intermittent Local Ventilation Exhaust Airflow Rates Continuous Local Ventilation Exhaust Airflow Rates Application Airflow Notes Application Airflow Notes Vented range hood Based on Kitchen Kitchen 100 cfm required if exhaust fan Kitchen 5 ACH Volume flow is less than. 5 ACH Bathroom 50 cfm Bathroom 20 cfm 2008 Residential Compliance Forms August 2009 L� INSTALLATION CERTIFICATE CF-6R-MECH-05 Indoor Air Quality and Mechanical Ventilation (Page 2 of 5 Site Address: Enforcement Agency:Permit Number: VENTILATION SYSTEM DESIGN — Fan selection and duct design criteria for compliance The airflow rates required refer to the delivered airflow of the system as installed and tested using a flow hood flow grid, or other airflow measuring device. Alternatively, the airflow rating at apressure of 0.25 in. w.c. of a certified fan may be used to demonstrate compliance without testing of the airflow of the installed system, provided the system duct sizing meets the prescriptive requirements of Table 7. 1, or manufacturer's design criteria. Other methods may be used to provide the required ventilation rates when approved by a licensed design professional, subject to confirmation of delivered ventilation airflow of the installed system. Central Fan Integrated (CFI) ventilation systems shall demonstrate compliance by.reld testing of the delivered ventilation airflow of the installed system. WHOLE -BUILDING VENTILATION SYSTEM DESIGN - Identify the ventilation system design criteria (select one criteria from this column) Requirements for installer to demonstrate compliance with Airflow Test code Required. Enter the installed ventilation air -moving equipment information and the installed ventilation duct system ❑ Prescriptive design (Table 7.1) information in the tables below, and certify on the CF -6R that no the installed system conforms to the Table 7.1 prescriptive design criteria. Central forced air system fans used in Central Fan Integrated ventilation systems shall demonstrate, in air distribution mode, ❑ Central Fan Integrated (CFI) a watt draw less than 0.58 W/CFM per Standards §151(f)l1. yes c Submit a CF-6R-MECH-22-HERS form for each forced air unit used for a CFI system. HERS verification is required. _ Enter the installed ventilation air -moving equipment information and the installed ventilation duct system ❑ Engineered Design information in the tables below, and certify on the CF -6R that yes the installed system conforms to the engineered ventilation system design approved by the enforcement agency. . Enter the installed ventilation air -moving equipment information and the installed ventilation duct system ❑ Manufacturer's design criteria information in the tables below, and certify on the CF -6R that no the installed system conforms to the manufacturer's ventilation system duct design criteria. LOCAL VENTILATION SYSTEM DESIGN - Identify the ventilation system design criteria (select one criteria from this column) Requirements for installer to demonstrate compliance with Airflow Test code Required. Enter the installed ventilation air -moving equipment information and the installed ventilation duct system ❑ Prescriptive design (Table 7.1) information in the tables below, and certify on the CF -6R that no the installed system conforms to the Table 7.1 prescriptive design criteria. Enter the installed ventilation air -moving equipment information and the installed ventilation duct system ❑ Engineered Design information in the tables below, and certify on the CF -6R that yes the installed system conforms to the engineered ventilation system design approved by the enforcement agency. Enter the installed ventilation air -moving equipment information and the installed ventilation duct system ❑ Manufacturer's design criteria information in the tables below, and certify on the CF -6R that no the installed system conforms to the manufacturer's ventilation system duct design criteria. 2008 Residential Compliance Forms August 2009 INSTALLATION CERTIFICATE CF-6R-MECH-05 Indoor Air Quality and Mechanical Ventilation (Page 3 of 5 Site Address: Enforcement Agency: Permit Number: Table 7.1 Prescriptive Duct Sizing Requirements System Diameter, in Flex Duct Smooth Duct Fan Rating cfin 0.25 in. w. 50 80 100 125 50 80 100 125 Sound Rating' Sone Maximum Allowable Duct Length (ft) Fan (Watt per C v Diameter, in Flex Duct Smooth Duct 3 X X X X 5 X X X 4 70 3 X X 105 35 5 X 5 NL 70 35 20 NL 135 85 55 6 NL NL 125 95 NL NL NL 145 7 and above NL NL NL NL NL NL NL NL This table assumes no elbows. Deduct 15 ft of allowable duct length for each turn, elbow, or fitting. Interpolation and extrapolation in Table 7.1 is not allowed. For airflow values not listed, use the next higher value. This table is not applicable for airflow > 125 cfm. NL = no limit on duct length of this size. X = not allowed, any length of duct of this size with assumed turns, elbows, fittings will exceed the rated pressure drop. INSTALLED VENTILATION AIR -MOVING EQUIPMENT INFORMATION Ventilation devices and equipment shall be tested and rated by HVI procedures for airflow and sound. Sound rating maximum is I.0 sone for all continuous dutyfans; 1.0 sone for intermittent duty whole -building fans; and 3.0 sone for intermittent duty local exhaust fans. Refer to the Residential Compliance Manual section 4.6 for information about exclusions to these sound rating requirements. In the tahle holnw list the tan eauinment installed that meets the requirement for whole-buildinje ventilation and local ventilation exhaust. Fan or System Calculate System Name or Location' Type (WBV or LVE) Required Airflow; CF Fan Manufacturer Name Fan Model Numbers Certified Airflow6 CF Sound Rating' Sone Fan Watts Fan (Watt per C v 1) Enter the Fan or System Identification Name or Location Name or System Identifier (e.g. "Bath02" ' MastBath", "Kitchen0l '). 2) What type of ventilation requirement is the fan specified to meet? WBV (whole -building ventilation) or LVE (local ventilation exhaust). 3) Enter the required ventilation airflow values determined by the calculations or tables in the WHOLE -BUILDING VENTILATION and/or LOCAL VENTILATION EXHA UST sections at the beginning of this Installation Certificate (CFM). At least one fan must be designated for use for compliance with the "Whole -Building Ventilation" requirement. 4) Enter the fan manufacture's name. 5) Enter the fan model number or series number. 6) Enter the fan's Certified Airflow rating at 0.25 inch w.c. (CFA4). Fans rated at less than 0.25 inch w.c. (e.g. 0.1 inch w.c.) cannot be used to comply with the ventilation requirements using the prescriptive design criteria in Table 7.1. This certified airflow rating value must be equal to or greater than the required airflow from column 3 of this table when demonstrating compliance using the prescriptive design criteria in Table 7.1. 7) Enter the fan's certified sound rating (Sone) corresponding to the certified airflow rating that was entered in column 6 of this table for the fan. 8) Enter the fan watt draw corresponding to the certified airflow rate that was entered in column 6 of this table for the fan. 9) Divide the Watt value from column 8 by the Certified Airflow value (CFM from column 6. Fans are required to be rated for operation at less than 1.2 Watt/CFM. 2008 Residential Compliance Forms August 2009 u INSTALLATION CERTIFICATE CF-6R-MECH-05 Indoor Air Quality and Mechanical Ventilation (Page 4 of 5 Site Address: Enforcement Agency: Permit Number: INSTALLED VENTILATION DUCT SYSTEM INFORMATION Airflows required by the standard refer to delivered airflow of the installed system as determined by testing with a flow hood, flow grid, or other measuring device. Alternatively, the installed equipment's HVI airflow rating at a pressure of 0.25 inch w.c. may be used, provided the system can be inspected to confirm the duct sizing meets the prescriptive requirements of Table 7. 1, or manufacturer's duct docion rritorin Fan or System Name or Location' Compliance Method T P or M Required Airflovv' CF Airflow Test° CF Duct Type 5 Number of Elbows and Fittin s6 Actual Duct Length? ft Allowable Duct Lengths ft Pass . or Fail' i }I 1 1. Enter the Fan or System Identification Name, or Location Name, or System Identifier. These should be the same identifiers as shown in the INSTALLED VENTILA TION AIR -MO VING EQUIPMENT INFOR 4TION table column 1 above. 2. Enter the method for demonstrating compliance with the ventilation airflow requirements. Enter "T"for Tested; "P"for Prescriptive Table 7.1 design criteria (inspection); "M"for Manufacturer's duct design criteria (inspection). Note: the building official may require submittal of manufacturer's published design criteria documentation if compliance is to be demonstrated by inspection of the installation for conformance to manufacturer's design criteria. 3. Enter the required ventilation airflow values determined by the calculations or tables in the WHOLE -BUILDING VENTILATION and/or LOCAL VENTILATION EXHA UST sections at the beginning of this Installation Certificate (CFtl9). These should be the same airflow values that were entered for each corresponding fan in column 3 of the INSTALLED VENTILATIONAIR-MOVING EQUIPMENT INFOR 4TIONtableabove. 4. If complying by a method that requires an Airflow Test of the installed system, enter the result from the Airflow Test for the installed system (CFM). S. Enter duct type for the installed system. Choices are "Flex" or "Smooth" if using Table 7.1 for compliance. 6. Enter total number of elbows or fittings or abrupt turns in the ventilation duct for the installed system. 7. Enter the installed system's actual total duct length (ft,'. 8. If complying by use of the prescriptive design criteria or manufacturer's design criteria, enter the Maximum Allowable Duct Length (fl) for the system as determined by Table 7.1 or manufacturer's duct design criteria. 9. If complying by airflow test, the system passes if the Tested Airflow4 equals or exceeds the Required Airflow3. If complying by demonstrating conformance to prescriptive design criteria or manufacturer's design criteria, the system passes if actual total duct lengthfrom column 7 is less than the maximum allowed lengthfrom column 8. Enter: Pass or Fail 2008 Residential Compliance Forms August 2009 INSTALLATION CERTIFICATE CF-61t-MECII-05 Indoor Air Quality and Mechanical Ventilation a e 5 of Site Address: Enforcement Agency: Permit Number: OTHER REQUIREMENTS The items listed below (6.1 through 6.8) correspond to the information given in ASHRAE 62.2 Section 6 "Other Requirements". Refer also to Chapter 4.6 of the Residential Compliance Manual (Section 4.6.5) for information describing these "Other Requirements". The signature of the Responsible Person in the declaration statement below certifies that the building complies with these requirements specified in ASHRAE 62.2 Section 6.1 through 6.8 if applicable. ❑ 6.1 Transfer Air ❑ 6.2 Instructions and Labeling ❑ 6.3 Cloths Dryers ❑ 6.4 Combustion and solid -fuel burning appliances ❑ 6.5 Garages ❑ 6.6 Ventilation Opening Area ❑ 6.7 Minimum filtration ❑ 6.8 Air Inlets ❑ Prescriptive Designs: For ventilation systems that utilize prescriptive design criteria, the signature of the Responsible J Person in the declaration statement below certifies that the installed system conforms to the prescriptive ventilation system design criteria from Table 7.1 of Standard 62.2 and manufacturer's installation specifications. ❑ Engineered Designs: For ventilation systems that utilize engineered design criteria, the signature of the Responsible Person in the declaration statement below certifies that the installed system conforms to the engineered ventilation system design documentation approved by the enforcement agency. ❑ Manufacturer's design criteria: For ventilation systems that utilize manufacturer's design criteria, the signature of the Responsible Person in the declaration statement below certifies that the installed system conforms to the manufacturer's published duct system design criteria and installation specifications. DECLARATION STATEMENT • I certify under penalty of perjury, under the laws of the State of California, the information provided on this form is true and correct. I am eligible under Division 3 of the Business and Professions Code to accept responsibility for construction, or an authorized representative of the person responsible for construction (responsible person). • I certify that the installed features, materials, components, or manufactured devices identified on this certificate (the installation) conforms to all applicable codes and regulations, and the installation is consistent with the plans and specifications approved by the enforcement agency. • I reviewed a copy of the Certificate of Compliance (CF -1R) form approved by the enforcement agency that identifies the specific requirements for the installation. I certify that the requirements detailed on the CF -1R that apply to the installation have been met. • I will ensure that a completed, signed copy of this Installation Certificate shall be posted, or made available with the building permit(s) issued for the building, and made available to the enforcement agency for all applicable inspections. I understand that a signed copy of this Installation Certificate is required to be included with the documentation the builder provides to .the buildine owner at occupancy. Company Name: (Installing Subcontractor or General Contractor or Builder/Owner) Responsible Person's Name: Responsible Person's Signature: CSLB License: Date Signed: Position With Company (Title): 2008 Residential Compliance Forms August 2009 BUILDING ENERGY ANALYSIS REPORT PROJECT: McGee Residence The Madison Club Lot 64A La Quinta, CA 92253 Project Designer:. HC Design -Custom Home Designs & Consulting << 51-825 Avenida Velasco iI O G La Quinta, Ca 92253 (760) 771-6658 CITY OF LA QUINTA ; BUILDING & SAFETY DEPT. - APPR®VED . Report Prepared by: FOR CONSTRUCTION Jon Scott ' Scott Design and Title 24, In ; , DATE Vag 0 By ` 77-085 Michigan Drive _ �D.72-4�> Palm Desert, Ca 92211 (760) 200-4780 Job Number: Date: 10/6/2010 RE C EI�TEI� OCT 082010 BY: The EnergyPro computer program has been used to perform the calculations summarized in this compliance report. This program has approval and is authorized by the California Energy Commission for use with both the Residential and Nonresidential 2008 Building Energy Efficiency Standards. This program developed by EnergySoft, LLC — www.energysoft.com. EnergyPro 5.1 by EnergySoft User Number- 6712 RunCode: 2010-10-06712:04:42 /D: 81-422 'fG" 1: -If , 9 .0 L_J 1� PERFORMANCE CERTIFICATE: Residential Part 1 of 5 CF -1 R Project Name McGee Residence Building Type o single Family ❑ Addition Alone ❑ Multi Family ❑ Existing+ Addition/Alteration Date 10/6/2010 Project Address The Madison Club Lot 64A La Quinta California Energy Climate Zone CA Climate Zone 15 Total Cond. Floor Area 6,509 Addition n/a # of Stories 1 FIELD INSPECTION ENERGY CHECKLIST ❑ Yes ❑ No HERS Measures -- If Yes, A CF -4R must be provided per Part 2 of 5 of this form. ❑ Yes ❑ No Special Features -- If Yes, see Part 2 of 5 of this form for details. INSULATION Construction Type Area Special Cavity Features see Part 2 of 5)' Status Roof Wood Framed Attic R-38 6,465 Radiant Barrier New Wall Wood Framed R-21 4,685 New Slab Unheated Slab -on -Grade None 5,953 Perim = 519' New Door Opaque Door None 24 New FENESTRATION U- Exterior Orientation Area Factor SHGC Overhang Sidefins Shades Status Rear (N) 163.0 0.330 0.38 none none Bug Screen New Left (VV) 33.0 0.330 0.38 none none Bug Screen New Skylight 8.0 0.800 0.39 none none None New Skylight 8.0 0.800 0.39 none none None New Rear (NE) 587.0 0.330 0.38 none none Bug Screen New Right (SE) 256.5 0.330 0.38 none none Bug Screen New Front (SM 136.5 0.330 0.38 none none Bug Screen New Left (NM 90.0 0.330 0.38 none none Bug Screen New Skylight 8.0 0.800 0.39 none none None New Skylight 12.0 0.800 0.39 none none None New Skylight 8.0 0.800 0.39 none none None New HVAC SYSTEMS Qty. Heating Min. Eff Cooling Min. Eff Thermostat Status 1 Central Furnace 80% AFUE Split Air Conditioner 14.0 SEER Setback New 1 Central Furnace 80% AFUE Split Air Conditioner 14.0 SEER Setback New 1 Central Furnace 80% AFUE Split Air Conditioner 14.0 SEER Setback New HVAC DISTRIBUTION Location Heating Duct Cooling Duct Location R -Value Status HVAC 1 Ducted Ducted Attic, Ceiling Ins, vented 8.0 New HVAC 2 Ducted Ducted Attic, Ceiling Ins, vented 8.0 New HVAC 3 Ducted Ducted Attic, Ceiling Ins, vented 8.0 New WATER HEATING Qty. Type Gallons Min. Eff Distribution Status 2 Large Gas 100 0.99 All Pipes Ins New I Energ Pro 5.1 by Energ Soft User Number.- 6712 RunCode: 2010-10-06712:04.42 ID: Page 3 of 39 C n fu PERFORMANCE CERTIFICATE: Residential Part 1 of 5 CF -1 R Project Name McGee Residence Building Type m Single Family ❑ Addition Alone ❑ Multi Family ❑ Existing+ Addition/Alteration Date 10/6/2010 Project Address The Madison Club Lot 64A La Quinta California Energy Climate Zone CA Climate Zone 15 Total Cond. Floor Area 6, 509 Addition n/a # of Stories 1 FIELD INSPECTION ENERGY CHECKLIST IZI Yes ❑ No HERS Measures -- If Yes, A CF -4R must be provided per Part 2 of 5 of this form. ❑ Yes ❑ No Special Features -- If Yes, see Part 2 of 5 of this form for details. INSULATION Area Special Construction Type Cavity Features see fart 2 of 5 Status FENESTRATION U- Exterior Orientation Area Factor SHGC Overhang Sidefins Shades Status Front (S) 12.5 0.330 0.38 none none Bug Screen New HVAC SYSTEMS Ot . Heating Min. Eff Cooling Min. Eff Thermostat Status 1 Central Furnace 80% AFUE Split Air Conditioner 14.0 SEER Setback New 1 Central Furnace 80% AFUE Split Air Conditioner 14.0 SEER Setback New HVAC DISTRIBUTION Duct Location Heating Cooling Duct Location R -Value Status HVAC 4 Ducted Ducted Attic, Ceiling Ins, vented 8.0 New HVAC 5 Ducted Ducted Attic, Ceiling Ins, vented 8.0 New WATER HEATING Ot . Type Gallons Min. Eff Distribution Status Energ Pro 5.1 by Energ Soft User Number. 6712 RunCode: 2010-10-06T12:04:42 ID: Page 4 of 39 1� C PERFORMANCE CERTIFICATE: Residential Part 2 of 5) CF -1 R Project Name Building Type • ® Single Family ❑ Addition Alone 7DateMcGee Residence ❑ Multi Family ❑ Existing+ Addition/Alteratio6/2010 SPECIAL FEATURES INSPECTION CHECKLIST The enforcement agency should pay special attention to the items specified in this checklist. These items require special written justification and documentation, and special verification to be used with the performance approach. The enforcement agency determines the adequacy of the justification, and may reject a building or design that otherwise complies based on the adequacy of - the special justification and documentation submitted. The DHW System Bradford -White Corp. MN-1-100TON is a non-NAECA large storage gas water heater. Verify DHW details: ` The HVAC System HVAC 1 must serve only Sleeping Areas. The non -closable area between zones cannot exceed 40 sf and each zone must be controlled with a separate thermostat. In addition the air flow requirements and fan watt draw requirements in Residential Appendix RA -6 must be met. HIGH MASS Design - Verify Thermal Mass: 812.0 ft2 Covered Slab Floor, 3.500" thick at Master Bedrrom Wood HIGH MASS Design - Verify Thermal Mass: 429.0 ft2 Exposed Slab Floor, 3.500" thick at Master Bedrrom Wood The HVAC System HVAC 2 must serve only Living Areas. The non -closable area between zones cannot exceed 40 sf and each zone must be controlled with a se aTte thermostat. In addition the air flow reuirements and fan watt draw requirements in Residential Appendix RA -6 must be met. HIGH MASS Design - Verify Thermal Mass: 812.0 ft2 Covered Slab Floor, 3.500" thick at Kitchen, Great & Dining HIGH MASS Design - Verify Thermal Mass: 429.0 ft2 Exposed Slab Floor, 3.500" thick at Kitchen, Great & Dining The HVAC System HVAC 3 must serve only Sleeping Areas. The non -closable area between zones cannot exceed 40 sf and each zone must be controlled with a separate thermostat. In addition the air flow requirements and fan watt draw requirements in Residential Appendix RA -6 must be met. HIGH MASS Design - Verify Thermal Mass: 766.0 ft' Covered Slab Floor, 3.500" thick at Master Bedroom Carpet HIGH MASS Design - Verify Thermal Mass: 96.0 ft2 Exposed Slab Floor, 3.500" thick at Master Bedroom Carpet The HVAC System HVAC 4 must serve only Living Areas. The non -closable area between zones cannot exceed 40 sf and each zone must be controlled with a separate thermostat. In addition the air flow requirements and fan waft draw requirements in Residential Appendix RA -6 must be met. HIGH MASS Design - Verify Thermal Mass: 460.0 ft2 Covered Slab Floor, 3.500" thick at Guest Bedroom HIGH MASS Design - Verify Thermal Mass: 520.0 ft2 Covered Slab Floor, 3.500" thick at Guest Casita HERS REQUIRED VERIFICATION Items in this section require field testing and/or verification by a certified HERS Rater. The inspector must receive a completed CF -4R form for each of the measures listed below for final to be given. The Cooling System Carrier 24ACB460158CVX090 includes credit for a 11.0 EER Condenser. A certified HERS rater must field verify the installation of the correct Condenser. The HVAC System HVAC 1 incorporates HERS Verified Refrigerant Charge or a Charge Indicator Display. The HVAC System HVAC 1 incorporates HERS verified Duct Leakage. HERS field verification and diagnostic testing is required to verify that duct leakage meets the specified criteria. The Cooling System Carrier 24ACB460158CVX090 includes credit for a 11.0 EER Condenser. A certified HERS rater must field verify the installation of the correct Condenser. The HVAC System HVAC 2 incorporates HERS Verified Refrigerant Charge or a Charge Indicator Display. - The HVAC System HVAC 2 incorporates HERS verified Duct Leakage. HERS field verification and diagnostic testing is required to verify that duct leakage meets the specified criteria. The Cooling System Carrier 24ACA436158CVX070 includes credit for a 11.2 EER Condenser. A certified HERS rater must field verify the installation of the correct Condenser. The HVAC System HVAC 3 incorporates HERS Verified Refrigerant Charge or a Charge Indicator Display. The HVAC System HVAC 3 incorporates HERS verified Duct Leakage. HERS field verification and diagnostic testing is required to verify that duct leakage meets the specked criteria. The Cooling System Carrier 24ACA448158CVX090 includes credit for a 11.2 EER Condenser. A certified HERS rater must field verify the installation of the correct Condenser. The HVAC System HVAC 4 incorporates HERS Verified Refrigerant Charge or a Charge Indicator Display. The HVAC System HVAC 4 incorporates HERS verified Duct Leakage. HERS field verification and diagnostic testing is required to verify that duct leakage meets the specified criteria. EnemyPro 5.1 by EnemySoft User Number: 6712 RunCode: 2010-10-06T12:04:42 ID: Page 5 of 39 I - 4 � } lit • • • PERFORMANCE CERTIFICATE: Residential Part 2 of 5) CF -1 R Project Name McGee Residence Building Type ®Single Family ❑Addition Alone ❑ Multi Family ❑ Existing+ Addition/Alteration Date 10/6/2010 SPECIAL FEATURES INSPECTION CHECKLIST The enforcement agency should pay special attention to the items specified in this checklist. These items require special written justification and documentation, and special verification to be used with the performance approach. The enforcement agency determines the adequacy of the justification, and may reject a building or design that otherwise complies based on the adequacy of the special justification and documentation submitted. HIGH MASS Design - Verify Thermal Mass: 120.0 ft2 Exposed Slab Floor, 3.500" thick at Guest Casita The HVAC System HVAC 5 must serve only Sleeping Areas. The non -closable area between zones cannot exceed 40 sf and each zone must be controlled with a se arate thermostat. In addition the air Bow requirements and fan watt draw requirements in Residential Appendix RA -6 must be met. HIGH MASS Design - Verify Thermal Mass: 100.0 ft2 Covered Slab Floor, 3.500" thick at Hallway & Entry HIGH MASS Design - Verify Thermal Mass: 644.0 ft2 Exposed Slab Floor, 3.500" thick at Hallway & Entry HIGH MASS Design - Verify Thermal Mass: 163.0 ft2 Covered Slab Floor, 3.500" thick at Hallway, Office & Service HIGH MASS Design - Verify Thermal Mass: 602.0 ft2 Exposed Slab Floor, 3.500" thick at Hallway, Office & Service The Roof R-38 Roof(R.38.2x14.16) includes credit for a Radiant Barrier that is Continuous meeting eligibility and installation criteria as specified in Residential Appendix RA4.2.2. HERS REQUIRED VERIFICATION Items in this section require field testing and/or verification by a certified HERS Rater. The inspector must receive a completed CF -4R form for each of the measures listed below for final to be given. The Cooling System Carrier 24ACB460158CVX090 includes credit for a 11.0 EER Condenser. A certified HERS rater must field verify the installation of the correct Condenser. The HVAC System HVAC 5 incorporates HERS Verified Refrigerant Charge or a Charge Indicator Display. The HVAC System HVAC 5 incorporates HERS verified Duct Leakage. HERS field verification and diagnostic testing is required to verify that duct leakage meets the specified criteria. EnemyPro 5.1 by EnemySoft User Number: 6712 RunCode: 2010-10-06712:04:42 ID: Pa - e 6 of 39 • C • PERFORMANCE CERTIFICATE: Residential' _ (Part 3 of 5) CF -TR Project Name Building Type m Single Family ❑ Addition Alone Date McGee Residence 1 ❑ Multi Family ❑ Existing+ Addition/Alteration 10/6/2010 ANNUAL ENERGY USE SUMMARY Standard Proposed Margin TDV kBtu/ft2- r Space Heating 3.49 3.57 -0.08 Space Cooling 61.00 53.81 7.19 Fans 12.59 14.53 -1.94 Domestic Hot Water 5.60 3.04- 2.56 Pumps 0.00 0.00 0.00 Totals 82.68 74.95 7.73 Percent Better Than Standard: 9.3% BUILDING COMPLIES - HERS VERIFICATION REQUIRED Fenestration Building Front Orientation: (Sw) 204 deg Ext. Walls/Roof Wall Area Area Number of Dwelling Units: 1.00 (S K9 1,675 149 Fuel Available at Site: Natural Gas (Nw) 1,337 123 Raised Floor Area: 0 (NE) 1,780 750 Slab on Grade Area: 5,953 (SE) 1,195 257 Average Ceiling Height: 10.9 Roof 6,509 44 Fenestration Average U -Factor: 0.33 TOTAL: 1,323 Average SHGC: 0.38 Fenestration/CFA Ratio: 20.3% REMARKS STATEMENT OF COMPLIANCE This certificate of compliance lists the building features and specifications needed to comply with Title 24, Parts 1 the Administrative Regulations and Part 6 the Efficiency Standards of the California Code of Regulations. The documentation author hereby certifies that the documentation is accurate and complete. Documentation Author Company Scott Design and Title 24, Inc, 10/62010 Address 77-085 Michigan Drive Name Jon Scott Cit State/Zip Palm Desert, Ca 92211 Phone (760) 200-4780 Signed Date The individual with overall design responsibility hereby certifies that the proposed building design represented in this set of construction documents is consistent with the other compliance forms and worksheets, with the specifications, and with any other calculations submitted with this permit application, and recognizes that compliance using duct design, duct sealing, verification of refrigerant charge, insulation installation quality, and building envelope sealing require installer testing and certification and field verification by an approved HERS rater. Designer or Owner (per Business & Professions Code) Company HC Design -Custom Home Designs & Consu Address 51-825 Avenida Velasco Name Hugo Cervantes City/State/Zip La Quinta, Ca 92253 Phone (760) 771-6658 Signed License # Date EnemyPro 5.1 by Enem ySoft User Number: 6712 RunCode: 2010-10-06T12:04:42 ID: Pa e 7 of 39 V CERTIFICATE OF COMPLIANCE: Residential (Part 4 of 5) CF -1 R Project Name McGee Residence Building Type m Single Family ❑ Addition Alone ❑Multi Family ❑Existing+ Addition/Alteration Date 1101612010 OPAQUE SURFACE DETAILS J' Surface Type Area U- Insulation Joint Appendix Factor Cavity Exterior Frame Interior Frame Azm Tilt Status 4 Location/Comments Roof 1,241 0.026 R-38 0 20 New 4.2.1-A9 Master Bedroom Wood Wall 329 0.069 R-21 17 -90 New • 4.3.1-A6 Master Bedroom Wood Wall 77 0.069 R-21 107 90 New 4.3.1-A6 Master Bedroom Wood Wall 155 0.069 R-21 197 90 New 4.3.1-A6 Master Bedroom Wood Wall 556 0.069 R-21 287 90 New 4.3.1-A6 Master Bedroom Wood Slab 812 0.730 None 0 180 New 4.4.7-A 1 Master Bedroom Wood Slab 429 0.730 None 0 180 New 4.4.7-A 1 Master Bedroom Wood Roof 1,781 0.026 R-38 204 20 New 4.2.1-A9 Kitchen, Great & Dining Wall 375 0.069 R-21 24 90 New 4.3.1-A6 Kitchen, Great & Dining Wall 60 0.069 R-21 114 90 New 4.3.1-A6 Kitchen, Great & Dining Wall 387 0.069 R-21 204 90 New 4.3.1-A6 Kitchen, Great & Dining Wall 91 0.069 R-21 294 90 New 4.3.1-A6 Kitchen, Great & Dining Slab 812 0.730 None 0 180 New 4.4.7-A1 Kitchen, Great & Dining Slab 429 0.730 None 0 180 New 4.4.7-A1 _ ' Kitchen, Great & Dining Roof 862 0.026 R-38 0 20 New 4.2.1-A9 Master Bedroom Carpet Wall 1 2461 0.069 R-21 24 90 New 14.3.1-A6 Master Bedroom Carpet FENESTRATION SURFACE DETAILS ID Type Area LI -Factor' SHGC Azm Status Glazing Type Location/Comments 1 Window 27.5 0.330 NFRC 0.38 NFRC 17 New ' Architectural Madison Club Win Master Bedroom Wood 2 Window 27.5 0.330 NFRC- 0.38 NFRC .17 New Architectural Madison Club Win Master Bedroom Wood 3 Window 108.0 0.330 NFRC 0.38 NFRC .17 New Architectural Madison Club Wine Master Bedroom Wood 4 Window 5.0 0.330 NFRC 0.38 NFRC 287 New Architectural Madison Club Win Master Bedroom Wood , 5 Window 5.0 0.330 NFRC 0.38 NFRC 2871 New Architectural Madison Club Wnc Master Bedroom Wood 6 Window 5.0 0.330 NFRC 0.38 NFRC 2871 New Architectural Madison Club Win Master Bedroom Wood 7 Window 5.0 0.3301 NFRC 0.38 1 NFRC 2871 New Architectural Madison Club Wnc Master Bedroom Wood 8 Skylight 8.0 0.800 NFRC 0.39 1 NFRC 2041 New Double Metal Tinted Skylight Kitchen, Great & Dining 9 Skylight 8.0 0.800 NFRC 0.39 NFRC 204 New Double Metal Tinted Skylight Kitchen, Great & Dining 10 Window 135.0 0.330 NFRC 0.38 NFRC 24 New Architectural Madison Club Win Kitchen, Great & Dining 11 Window 72.0 0.330 NFRC 0.38 NFRC 24 New Architectural Madison Club Win Kitchen, Great & Dining 12 Window 230.0 0.330 NFRC 0.38 NFRC 24 New Architectural Madison Club Win Kitchen, Great & Dining 13 Window 8.0 0.330 NFRC 0.38 NFRC 24 New Architectural Madison Club Win Kitchen, Great & Dining 14 Window 8.0 0.330 NFRC 0.38 NFRC 24 New Architectural Madison Club Win Kitchen, Great & Dining 15 Window 8.0 0.330 NFRC 0.38 NFRC 24 New Architectural Madison Club Win Kitchen, Great & Dining 16 Window 8.0 073-30TNFRC ' 0.38 NFRC 24 New I Architectural Madison Club Win Kitchen, Great & Dining (1) Ll -Factor Type: 116-A = Default Table from Standards, NFRC = Labeled Value 2 SHGC Type: 116-B = Default Table from Standards, NFRC = Labeled Value EXTERIOR SHADING DETAILS ID Exterior Shade Type SHGC Window H t Wd Ove hang Left Fin . Right Fin Len H t LExt 'RExt Dist Len H t Dist Len H t 1 Bug Screen 0.76 2 Bug Screen 0.76 3 Bug Screen 0.76 4 Bug Screen 0.76 5 Bug Screen 0.76 6 Bug Screen 0.76 7 Bug Screen 0.76 8 None 1.00 9 None 1.00 10 Bug Screen 0.76 11 Bug Screen 0.76 12 Bug Screen 0.76 13 Bug Screen 0.76 14 Bug Screen 0.76 15 Bug Screen 0.76 16 IBug Screen 0.76 1 rE-n-ergyPro 5.1 by EnergySoft User Number. 6712 RunCode: 2010-10-06T12:04:42 ID: Page 8 of 39 J' C. t CERTIFICATE OF COMPLIANCE: Residential Part 4 of. 5 CF -1 R Project Name McGee Residence Building Type m Single Family ❑ Addition Alone ❑ Multi Family ❑ Existing+ Addition/Alteration Date 1101612010 OPAQUE SURFACE DETAILS Surface Type Area U- Insulation Joint Appendix Factor Cavity Exterior Frame Interior Frame Azm Tilt Status 4 Location/Comments Wall 332 0.069 R-21 114 90 New 4.3.1-A6 Master Bedroom Carpet Wall 155 0.069 R-21 204 .90 New 4.3.1-A6 Master Bedroom Carpet Wall 128 0.069 R-21 294 -90 New 4.3.1-A6 Master Bedroom Carpet Slab 766 0.730 None 0 180 New 4.4.7-A1 Master Bedroom Carpet Slab 96 - 0.730 None 0 180 New 4.4.7-A1 Master Bedroom Carpet Roof 460 0.026 R-38 0 20 New 4.2.1-A9 Guest Bedroom Wall 76 0.069 R-21 114 90 New 4.3.1-A6 Guest Bedroom Wall 55 0.069 R-21 294 90 New 4.3.1-A6 Guest Bedroom Slab 460 0.730 None 0 180 New 4.4.7-A1 Guest Bedroom Roof 640 • 0.026 R-38 0 20 New 4.2.1-A9 Guest Casita Wall 801 0.069 R-21 24 90 New 4.3.1-A6 Guest Casita Wall 100 0.069 R-21 114 90 New 4.3.1-A6 Guest Casita - Wall 174 0.069 R-21 144 90 New 4.3.1-A6 Guest Casita Wall 202 0.069 R-21 204 90 New 4.3.1-A6 Guest Casita Wall 172 0.069 R-21 294 90 New 4.3.1-A6 Guest Casita - Slab 520 0.730 None 0 180 New 4.4.7-A 1 Guest Casita FENESTRATION SURFACE DETAILS ID Type ,Area LI -Factor SHGCz Azm Status Glazing Type Location/Comments 17 Window 124.2 0.330 NFRC 0.38 NFRC 1141 New Architectural Madison Cub WinKitchen, Great & Dining 18 Window 8.0 . 0.330 NFRC 0.38 NFRC 204 New Architectural Madison Cub Win Kitchen, Great & Dining 19 Window 8.0 0.330 NFRC 0.38 NFRC 204 New Architectural Madison Cub Win Kitchen, Great & Dining 20 Window 8.0 0.330 NFRC 0.38 NFRC 204 New. Architectural Madison Cub Win Kitchen, Great & Dining 21 Window 108.0 0.330 NFRC 0.38 NFRC 24 New Architectural Madison Grub Win Master Bedroom Carpet 22 Window 5.0 0.330 NFRC 0.38 NFRC 24 New Architectural Madison Club Win Master Bedroom Carpet 23 Window 5.0 0.330 NFRC 0.38 1 NFRC 24 New Architectural Madison Club Win Master Bedroom Carpet 24 Window 5.0 0.330 NFRC 0.38 NFRC 114 New Architectural Madison Club Win Master Bedroom Carpet 25 Window 5.0 0.330 NFRC 0.38 NFRC 114 New Architectural Madison Club Win Master Bedroom Carpet 26 Window _ 33.3 0.330 NFRC 0.38 NFRC 114 New Architectural Madison Glub Win Master Bedroom Carpet 27 Window 54.0 0.330 NFRC -0.38 NFRC 114 New Architectural Madison Club Win Guest Bedroom 28 Window 6.0 0.330 NFRC 0.38 NFRC 294 New Architectural Madison Club Win Guest Bedroom 29 Window 5.0 0.330 NFRC 0.38 NFRC 114 New Architectural Madison Club Win Guest Casita 30 Window 5.0 0.330 NFRC 0.38 NFRC 204 New Architectural Madison Club Win Guest Casita 31 Window 5.0 0.330 NFRC 0.38 NFRC .204 New Architectural Madison Club Wil Guest Casita 32 Window 6.0 0.330 NFRC 0.38 NFRC - 294 New Architectural Madison Club WhI Guest Casita (1) U -Factor Type: 116-A = Default Table from Standards, NFRC = Labeled Value 2 SHGC Type: 116-B = Default Table from Standards, NFRC = Labeled Value EXTERIOR SHADING DETAILS ID Exterior Shade Type SHGC Window H t Wd Ove hang Left. Fin Ri ht Fin Len H t LExt RExt Dist Len Hot Dist I Len H t 17 Bug Screen 0.76 -18 Bug Screen 0.76 19 Bug Screen 0.76 20 Bug Screen 0.76 21 Bug Screen 0.76 ' 22 Bug Screen 0.76 23 Bug Screen '0.76 24 Bug Screen 0.76 25 Bug Screen 0.76 26 Bug Screen 0.76 27 Bug Screen 0.76 28 Bug Screen, 0.76 29 Bug Screen 0.76 30 Pug, Screen 0.76 31 1Bug Screen 0.76 ' 32 JBugr Screen 0.76 EnergyPro 5.1 by EnergySoR User Number: 6712 RunCode: 2010-10-06712:04:42 ID: Page 9 of39 17A CERTIFICATE OF COMPLIANCE: Residential . (Part 4 of 5) CF -1 R Project Name McGee Residence Building Type m Single Family ❑ Addition Alone ❑ Multi Family ❑ Existing+ Addition/Alteration Date 10/6/2010 OPAQUE SURFACE DETAILS Surface Type Area . U- Insulation 'Joint Appendix Factor Cavity Exterior Frame Interior Frame Azm Tilt Status -4 Location/Comments Slab 120 0.730 None 0 180 New 4.4.7-A1 • Guest Casita Roof 716 0.026 R-38 204 20 New 4.2.1-A9 Hallway & Entry Wall' 40 0.069 R-21 114 90 New 4.3.1-A6 Hallway & Entry Wall 2401 0.069 R-21 204 90 New 4.3.1-A6 Hallway & Entry Wall 115 0.069 R-21 294 90 New 4.3.1-A6 Hallway& Entry Slab 100 0.730 None 0 . 180 New 4.4.7-A1 Hallway & Entry Slab 644 <0.730 None 0 180 New 4.4.7-A1 Hallway & Entry Roof 765 0.026 R-38 0 20 New 4.2.1-A9 ;. Hallway, Office & Service Wall 80 0.069 R-21 114 90 New 4.3.1-A6 Hallway, Office & Service Wall 316 0.069 R-21 197 90 New 4.3.1-A6 : Hallway, Office & Service Door 24 0.500 None 197 90 New 4.5.1-A4 Hallway, Office & Service Wall 48 0.069 R-21 204 90 New 4.3.1-A6 Halfway, Office & Service. Wall 97 0.069 R-21 287 90 New 4.3.1-A6 Halfway, Office & Service Slab 163 0.730 None 0 .180 New 4.4.7-A1 Hallway, Office & Service Slab 602 0.730 None 0 180 New 4.4.7-A1 Halfway, Office & Service FENESTRATION SURFACE DETAILS • ID T e Area LI -Factor SHGC Azm Status GlazingType Location/Comments 33 Window 24.0 0.330 NFRC 0.38 NFRC 294 New Architectural Madison Club Win Guest Casita 34 Window 54.0 0.330 NFRC 0.38 NFRC 294 New Architectural Madison Club Win Guest Casita 35 Sk li ht 8.0 0.800 NFRC 0.39 NFRC 204 New Double Metal Tinted Skylight Hallway& Entry 36 Skylight 12.0 0.800 NFRC 0.39 NFRC 204 New Double Metal Tinted Skylight Hallway & Entry 37 Skylight 8.0 0.800 NFRC 0.39 NFRC 204 New Double Metal Tinted Skylight Hallway & Entry 38 Window 12.5 0.330 NFRC 0.38 NFRC 204 New Architectural Madison Club Win Hallway & Entry 39 Window 48.0 0.330 NFRC 0.38 NFRC 204 New Architectural Madison Club Wnc Hallway & Entry 40 Window 10.0 0.330 NFRC 0.38 NFRC 204 New Architectural Madison Club Winc Hallway & Entry 41 Window 30.0 0.330 NFRC 0.38 NFRC 114 New Architectural Madison Club Win Hallway, Office & Service 42 Window 12.5 0.330 NFRC 0.38 NFRC 197 New Architectural Madison Club Wiric Hallway, Office & Service 43 Window 32.0 0.330 NFRC 0.38 NFRC 204 New Architectural Madison Club Winc Hallway, Office & Service 44 Window 13.0 0.330 NFRC 0.38 NFRC 287 New Architectural Madison Club Winc Hallway, Office & Service (1) 41.1 -Factor Type: 116-A = Default Table from Standards, NFRC = Labeled Value 2 SHGC Type: 116-B = Default Table from Standards, NFRC = Labeled Value EXTERIOR SHADING DETAILS' •ID Window Exterior Shade Type SHGC H t Wd ..Ove hang 'Lett Fin Ri ht Fin Len H t LExt RExt Dist Len Hot Dist Len H t 33 Bug Screen 0.76 34 Bug Screen 0.76 35 None 1.00 36 , None 1.00 37 None 1.00 38 Bug Screen 0.76 39 Bug Screen 0.76 '40 Bug Screen 0.76 41 Bug Screen 0.76 42 Bug Screen 0.76 43 Bug Screen 0.76 44 Bug Screen 0.76 'f rE-nergyPro 5.1 by EnergySoft User Number.' 6712 RunCode: 2010-10-06712:04:42 ID: Pae 10 of 39 - ii • r7 L --A CERTIFICATE OF COMPLIANCE: Residential Part 5 of 5 CF -1 R Project Name McGee Residence Building Type ® Single Family ❑ Addition Alone ❑ Multi Family ❑ Existing+ Addition/Alteration Date 1101612010 BUILDING ZONE INFORMATION System Name Zone Name Floor Area ft New Existina I Altered Removed Volume Year Built HVAC 1 MasterBedfrom Wood 1,241 14,892 HVAC 2 Kitchen, Great & Dining 1,797 21,564 HVAC 3 Master Bedroom Carpet 862 8,620 HVAC 4 Guest Bedroom 460 4,600 Guest Casita 640 6,400 HVAC 5 Hallway & Entry 744 7,440 Hallway, Office & Service 765 7,650 Totals 6,509 0 01 0 HVAC SYSTEMS System Name Qty. I Heating Type Min. Eff. Cooling Type Min. Eff. Thermostat Type Status HVAC 1 1 Central Furnace 80% AFUE Split Air Conditioner 14.0 SEER Setback New HVAC 2 1 Central Furnace 80% AFUE Split Air Conditioner 14.0 SEER Setback New HVAC 3 1 Central Fumace 80% AFUE Split Air Conditioner 14.0 SEER Setback New HVAC 4 1 Central Furnace 80% AFUE Split Air Conditioner 14.0 SEER Setback New HVAC 5 1 Central Furnace 80% AFUE I Split Air Conditioner 14.0 SEER Setback New HVAC DISTRIBUTION System Name Heating Duct Coolin Duct Location R -Value Ducts Tested? Status HVAC 1 Ducted Ducted Attic, Ceiling Ins, vented 8.0 m New HVAC 2 Ducted Ducted Attic, Ceiling Ins, vented 8.0 0 New HVAC 3 Ducted Ducted Attic, Ceiling Ins, vented 8.01 d New HVAC 4 Ducted Ducted Attic, Ceiling Ins, vented 8.01 El INew HVAC 5 Ducted Ducted Attic, Ceiling Ins, vented 8.01 m INew WATER HEATING SYSTEMS S stem Name Qty. Type Distribution Rated Input Btuh Tank Cap. al Energy Factor or RE Standby Loss or Pilot Ext. Tank Insul. R- Value Status Bradford -White Corp. MN- 2 Large Gas All Pipes Ins 85,000 100 0.99 0.00% 0.0 New MULTI -FAMILY WATER HEATING DETAILS HYDRONIC HEATING SYSTEM PIPING Control E E 2Pipe w a Hot Water Piping Length ff o' .� Q — System Name Len th Pipe Diameter Insul. Thick. Qt . HP Plenum Outside Buried ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ EnergyPro, 5.1 by Ene m ySoft User Number. 6712 RunCode: 2010-10-06T12:04:42 ID: Pae 11 of 39 r MANDATORY MEASURES SUMMARY: Residential Pae 1 of 3 MF -1 R Project Name cGee'Residence Date 10/6/2010 NOTE: Low-rise residential buildings subject to the Standards must comply with all applicable mandatory measures listed, regardless of the compliance approach used. More stringent energy measures listed on the Certificate of Compliance (CF -1 R, CF -1 R -ADD, or CF - 1 R -ALT Form) shall supersede the items marked with an asterisk (') below. This Mandatory Measures Summary shall be incorporated into the permit documents, and the applicable features shall be considered by all parties as minimum component performance specifications whether they are shown elsewhere in _the documents or in this summary. Submit all applicable sections of the MF -1 R Form with plans. Building Envelope Measures: 116(a)l: Doors and windows between conditioned and unconditioned spaces are manufactured to limit air leakage. §116(a)4: Fenestration products (except field -fabricated windows) have a label listing the certified U -Factor, certified Solar Heat Gain Coefficient SHGC , and infiltration that meets the requirements of 10-111 (a). 117: Exterior doors and windows are weather-stripped; all joints and penetrations are caulked and sealed. 118(a): Insulationspecified or installed meets Standards for Insulating Material. Indicate type and include on CF -613 Form. §118(i): The thermal emittance and solar reflectance values of the cool roofing material meets the requirements of §118(i) when the installation of a Cool Roof is specified on the CF -1 R Form. 150(a): Minimum R-19 insulation in wood -frame ceiling orequivalent U -factor. 150(b): Loose fill insulation shall conform with manufacturer's installed design labeled R -Value. *§1 50 c : Minimum R-13 insulation in wood -frame wall orequivalent U -factor. *§150(d): Minimum R-13 insulation in raised wood -frame floor orequivalent U -factor. d §150(f): Air retarding wrap is tested labeled, and installed according to ASTM E11677-95(2000) when specified on the CF -1R Form. 150 : Mandatory Vapor barrier installed in Climate Zones 14 or 16. §150(1): Water absorption rate for slab edge insulation material alone without facings is no greater than 0.3%; water vapor permeance rate is no greater than 2.0perm/inch and shall be protected from physical damage and UV light deterioration. Fire laces, Decorative Gas Appliances and Gas Log Measures: 150 e 1 A: Masonry or factory -built fireplaces have a closable metal or glass door covering the entire opening of the firebox. §150(e)1 B: Masonry or factory -built fireplaces have a combustion outside air intake, which is at least six square inches in area and is equipped with a with a readily accessible, operable, and tight -fitting damper and or a combustion -air control device. §150(e)2: Continuous burning pilot lights and the use of indoor air for cooling a firebox jacket, when that indoor air is vented to the .outside of the building, are prohibited. Space Conditioning, Water Heating and Plumbing System Measures: §110-§113: HVAC equipment, water heaters, showerheads, faucets and all other regulated appliances are certified by the Energy Commission. §113(c)5: Water heating recirculation loops serving multiple dwelling units and High -Rise residential occupancies meet the air release valve, backflow prevention, pump isolation valve, and recirculation loop connection requirements of §113(c)5. §115: Continuously burning pilot lights are prohibited for natural gas: fan -type central furnaces, household cooking appliances - (appliances with an electrical supply voltage connection with pilot lights that consume less than 150 Btu/hr are exempt), and pool and , spa heaters. ` 150(h): Heating and/or cooling loads are calculated in accordance with ASHRAE, SMACNA or ACCA. 150(i): Heating systems are equipped with thermostats that meet the setback requirements of Section 112(c). §1500)1A: Storage gas water heaters rated with an Energy Factor no greater than the federal minimal standard are externally wrapped with insulation having an installed thermal resistance of R-12 or greater. §1500)1 B: Unfired storage tanks, such as storage tanks or backup tanks for solar water -heating system, or other indirect hot water tanks have R-12 external insulation or R-16 internal insulation where the internal insulation R -value is indicated on the exterior of the. tank. §1500)2: First 5 feet of hot and cold water pipes closest to water. heater tank, non -recirculating systems, and entire length of recirculating sections'of hot water pipes are insulatedper Standards Table 150-B. §1500)2: Cooling system piping (suction, chilled water, or brine lines),and piping insulated between heating source and indirect hot water tank shall be insulated to Table 150-B and Equation 150-A. §1500)2: Pipe insulation for steam hydronic heating systems or hot water systems >15 psi, meets the requirements of Standards Table 123-A. 150 ' 3A: Insulation is protected from damage; includ . ing that due to sunlight, moisture, a ui meni'maintenance and wind. §1500)3A: Insulation for chilled water piping and refrigerant suction lines includes a vapor retardant or is enclosed entirely in conditioned space. §1500)4: Solar water -heating systems and/or collectors are certified by the Solar Rating and Certification Corporation. EnergyPro 5.1 by EnergySoft User Number: 6712 RunCode: 2010-10-06T12:04:42 ID: Page 12 of 39 4 4 MANDATORY MEASURES SUMMARY: Residential (Page 2 of 3 MF -1 R Project Name Date cGee Residence 10/6/2010 §150(m)1: All air -distribution system ducts and plenums installed, are sealed and insulated to meet the requirements of CMC Sections 601, 602, 603, 604, 605 and Standard 6-5; supply -air and return -air ducts and plenums are insulated to a minimum installed level of R- 4.2 or enclosed entirely in conditioned space. Openings shall be sealed with mastic, tape or other duct -closure system that meets the applicable requirements of UL 181, UL 181 A, or UL 181 B or aerosol sealant that meets the requirements of UL 723. If mastic or tape is used to seal openings reater than 1/4 inch, the combination of mastic and either mesh or tape shall be used §150(m)1: Building cavities, support platforms for air handlers, and plenums defined or constructed with materials other than sealed sheet metal, duct board or flexible duct shall not be used for conveying conditioned air. Building cavities and support platforms may contain ducts. Ducts installed in cavities and support platforms shall not be compressed to cause reductions in the cross-sectional area of the ducts. §150(m)2D: Joints and seams of duct systems and their components shall not be sealed with cloth back rubber adhesive duct tapes unless such tape is used in combination with mastic and draw bands. 150(m)7: Exhaust fans stems have back draft or automatic dampers. §150(m)8: Gravity ventilating systems serving conditioned space have either automatic or readily accessible, manually operated dampers. §150(m)9: Insulation shall be protected from damage, including that due to sunlight, moisture, equipment maintenance, and wind. Cellular foam insulation shall be protected as above or painted with a coating that is water retardant and provides shielding from solar radiation that can cause degradation of the material. 150(m)10: Flexible ducts cannot have porous inner cores. §150(o): All dwelling units shall meet the requirements of ANSI/ASHRAE Standard 62.2-2007 Ventilation and Acceptable Indoor Air Quality in Low -Rise Residential Buildings. Window operation is not a permissible method of providing the Whole Building Ventilation required in Section 4 of that Standard. Pool and Spa Heating Systems and Equipment Measures: §114(a): Any pool or spa heating system shall be certified to have: a thermal efficiency that complies with the Appliance Efficiency Regulations; an on-off switch mounted outside of the heater; a permanent weatherproof plate or card with operating instructions; and shall not use electric resistance heating ora pilot light. §114(b)1: Any pool or spa heating equipment shall be installed with at least 36" of pipe between filter and heater, or dedicated suction and return lines, or built-up connections for future solar heating. 114(b)2: Outdoor pools ors as that have a heat pump or gas heater shall have a cover. §114(b)3: Pools shall have directional inlets that adequately mix the pool water, and a time switch that will allow all pumps to be set or programmed to run only during off-peak electric demand periods. 150 : Residential pool systems orequipment meet the pump sizing, flow rate, piping, filters, and valve requirements of §150 Residential Lighting Measures: §150(k)1: High efficacy luminaires or LED Light Engine with Integral Heat Sink has an efficacy that is no lower than the efficacies contained in Table 150-C and is not a low eff icacy luminaire asspecified by §150(k)2. 150(k)3: The wattage of permanently installed luminaires shall be determined asspecified by §130(d). §150(k)4: Ballasts for fluorescent lamps rated 13 Watts or greater shall be electronic and shall have an output frequency no less than 20 kHz. §150(k)5: Permanently installed night lights and night lights integral to a permanently installed luminaire or exhaust -fan shall contain only high efficacy lamps meeting the minimum efficacies contained in Table 150-C and shall not contain a line -voltage socket or line - voltage lamp holder; OR shall be rated to consume no more than five watts of power as determined by §130(d), and shall not contain a medium screw -base socket. 150(k)6: Lighting integral to exhaust fans, in rooms other than kitchens, shall meet the applicable requirements of §150(k). 150(k)7: All switching devices and controls shall meet the requirements of §150(k)7. §150(k)8: A minimum of 50 percent of the total rated wattage of permanently installed lighting in kitchens shall be high efficacy. EXCEPTION: Up to 50 watts for dwelling units less than or equal to 2,500 ft2 or 100 watts for dwelling units larger than 2,500 ft2 may be exempt from the 50% high efficacy requirement when: all low efficacy luminaires in the kitchen are controlled by a manual on occupant sensor, dimmer, energy management system (EMCS), or a multi -scene programmable control system; and all permanently installed luminaries in garages, laundry rooms, closets greater than 70 square feet, and utility rooms are high efficacy and controlled by a manual -on occupant sensor. §150(k)9: Permanently installed lighting that is internal to cabinets shall use no more than 20 watts of power per linear foot of illuminated cabinet. EnergyPro 5.1 by EnergySoft User Number. • 6712 RunCode: 2010-10-06T12:04:42 ID: Page 13 of 39 r 4 MANDATORY MEASURES SUMMARY: Residential (Page 3 of 3 MF -1 R Project Name Date cGee Residence 1 10/6/2010 §150(k)l0: Permanently installed luminaires in bathrooms, attached and detached garages, laundry rooms, closets and utility rooms shall be high efficacy. EXCEPTION 1: Permanently installed low efficacy luminaires shall be allowed provided that they are controlled by a manual -on occupant sensor certified to comply with the applicable requirements of §119. EXCEPTION 2: Permanently installed low efficacy luminaires in closets less than 70 square feet are not required to be controlled by a manual -on occupancy sensor. §150(k)l 1: Permanently installed luminaires located in rooms or areas other than in kitchens, bathrooms, garages, laundry rooms, closets, and utility rooms shall be high efficacy luimnaires. EXCEPTION 1: Permanently installed low efficacy luminaires shall be allowed provided they are controlled by either a dimmer switch that complies with the applicable requirements of §119, or by a manual - on occupant sensor that complies with the applicable requirements of §119. EXCEPTION 2: Lighting in detached storage building less than 1000 square feet located on a residential site is not required to comply with §150 k 11. §150(k)l2: Luminaires recessed into insulated ceilings shall be listed for zero clearance insulation contact (IC) by Underwriters Laboratories or other nationally recognized testing/rating laboratory; and have a label that certifies the lumiunaire is airtight with air leakage less then 2.0 CFM at 75 Pascals when tested in accordance with ASTM E283; and be sealed with a gasket or caulk between the luminaire housing and ceiling. §150(k)l3: Luminaires providing outdoor lighting, including lighting for private patios in low-rise residential buildings with four or more dwelling units, entrances, balconies, and porches, which are permanently mounted to a residential building or to other buildings on the same lot shall be high efficacy. EXCEPTION 1: Permanently installed outdoor low efficacy luminaires shall be allowed provided that they are controlled by a manual on/off switch, a motion sensor not having an override or bypass switch that disables the motion sensor, and one of the following controls: a photocontrol not having an override or bypass switch that disables the photocontrol; OR an astronomical time clock not having an override or bypass switch that disables the astronomical time clock; OR an energy management control system (EMCS) not having an override or bypass switch that allows the luminaire to be always on EXCEPTION 2: Outdoor luminaires used to comply with Exceptionl to §150(k)l3 may be controlled by a temporary override switch which bypasses the motion sensing function provided that the motion sensor is automatically reactivated within six hours. EXCEPTION 3: Permanently installed luminaires in or around swimming pool, water features, or other location subject to Article 680 of the California Electric Code need not be high efficacy luminaires. §150(k)14: Internally illuminated address signs shall comply with Section 148; OR not contain a screw -base socket, and consume no more than five watts of power as determined according to §130(d). §150(k)l5: Lighting for parking lots and carports with a total of for 8 or more vehicles per site shall comply with the applicable requirements in Sections 130, 132, 134, and 147. Lighting for parking garages for 8 or more vehicles shall comply with the applicable requirements of Sections 130, 131, 134 and 146. §150(k)l6: Permanently installed lighting in the enclosed, non -dwelling spaces of low-rise residential buildings with four or more dwelling units shall be high efficacy luminaires. EXCEPTION: Permanently installed low efficacy luminaires shall be allowed provided that they are controlled by an occupant sensors certified to comply with the applicable requirements of 119. EnergyPro 5.1 by EnergySoft User Number: 6712 RunCode: 2010-10-06T12:04:42 ID: Page 14 of 39 4 HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY Project Name cGee Residence Date 10/6/2010 System Name HVAC 1 Floor Area 1,241 ENGINEERING CHECKS SYSTEM LOAD Number of Systems 1 COIL CFM Total Room Loads 833 Return Vented Lighting Return Air Ducts Return Fan Ventilation 0 Supply Fan Supply Air Ducts TOTAL SYSTEM LOAD COOLING PEAK COIL HTG. PEAK Heating System Sensible Latent CFM Sensible Output per System 71,000 14,348 2,386 401 14,585 Total Output Btuh 71,000 0 Output Btuh/s ft 57.2 713 717 Cooling System 0 0 Output per System 57,500 0 0 0 0 Total Output Btuh 57,500 3,086 2,386 -3,086 Total Output ons 4.8 7131 717 Total Output Btuh/s ft 46.3 Total Output s ft/Ton 259.0 1 18,861 12,932 Air System CFM per System 2,000 HVAC EQUIPMENT SELECTION Alrflow cfm 2,000 Carrier 24ACB460/ 58CVX090 38,956 7,421 71,000 Alrflow cfm/s ft 1.61 Airflow cfm/Ton 417.4 Outside Air % 0.0% Total. Adjusted System Output 38,956 (Adjusted for Peak Design conditions) TIME OF SYSTEM PEAK 7,421 Aug 3PM 71,000 Jan 1 AM Outside Air cfm/s ft 0.00 Note: values above given at ARI conditions HEATING SYSTEM PSYCHROMETRICS Airstream Temperatures at Time of Heating Peak 26 OF Outside Air 0 cfm 72 OF 72 OF 105 OF 106 OF Heating Coil Supply Fan ° 106 F 2,000 cfm ROOM 72 OF COOLING SYSTEM PSYCHROMETICS Airstream Temperatures at Time of Cooling Peak 112/78°F Outside Air 0 cfm 70159 IF 70/59°F 52/51°F 53/52°F ;.. Cooling Coil Supply Fan 54 / 52 OF 2,000 cfm 51.1 % ROpM '; 70 / 59 OF EnergyPro 5.1 by EnergySoff User Number: 6712 RunCode: 2010-10-06T12:04:42 ID: Page 15 of 39 r L. r L_ HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY Project Name cGee Residence Date 10/6/2010 System Name HVAC 2 Floor Area 1,797 ENGINEERING CHECKS SYSTEM LOAD Number of Systems 1 COIL COOLING PEAK CFM Sensible Total Room Loads 1,814 29,536 Return Vented Lighting 0 Return Air Ducts 1,468 Return Fan 0 Ventilation 0 0 Supply Fan 3,086 Supply Air Ducts 1 1,468 TOTAL SYSTEM LOAD 35,559 COIL HTG. Latent CFM 3,097 646 0 0 3,097 PEAK Heating System Sensible Output per System 71,000 23,204 Total Output Btuh 71,000 Output Btuh/s ft 39.5 1,140 Cooling System 0 Output per System 57,500 0 Total Output Btuh 57,500 -3,086 Total Output ons 4.8 1,140 Total Output Btuh/s ft) 32.0 Total Output s ft/Ton 375.0 22,399 Air System CFM per System 2,000 HVAC EQUIPMENT SELECTION Airflow cfm 2,000 Carrier 24ACB460/ 58C\/X090 38,582 8,172 71,000 Airflow cfm/s ft 1.11 Airflow cfm/Ton 417.4 Outside Air % 0.0% Total Adjusted System Output 38,582 (Adjusted for Peak Design conditions) TIME OF SYSTEM PEAK 8,172 Aug 3 PM 71,000 Jan 1 AM Outside Air cfm/s ft 0.00 Note: values above given at ARI conditions HEATING SYSTEM PSYCHROMETRICS Airstream Tem eratures at Time of Heating Peak 26 OF Outside Air 0 cfm 71 OF 71 OF 105 OF 106 OF Heating Coil Supply Fan ° 2,000 cfm 106 F ROOM '0 72 OF COOLING SYSTEM PSYCHROMETICS Airstream Temperatures at Time of Cooling Peak 112 / 78 OF Outside Air 0 cfm 71/59°F 71 / 59 OF 53 / 52 OF 54152 OF Cooling Coil Supply Fan 2,000 cfm 52.7% 55 / 53 OF I ROOM 'j 70/59°F EnergyPro 5.1 by EnergySoR User Number. 6712 RunCode: 2010-10-06T12:04:42 ID: Page 16 of 39 4 4 HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY Project Name cGee Residence Date 10/6/2010 System Name HVAC 3 Floor Area 862 ENGINEERING CHECKS SYSTEM LOAD Number of Systems 1 COIL COOLING CFM Sensible Total Room Loads 606 12,053 Return Vented Lighting 0 Return Air Ducts 599 Return Fan 0 Ventilation 0 0 Supply Fan 0 Supply Air Ducts 599 TOTAL SYSTEM LOAD 13,255 PEAK COIL HTG. PEAK Heating System Latent CFM Sensible Output perSystem 51,000 1,902 286 11,872 Total Output Btuh 51,000 Output Btuh/s ft 59.2 583 CoolingSystem 0 Output perSystem 35,500 01 0 0 Total Output Btuh) 35,500 1,902 0 Total Output ons 3.0 583 Total Output Btuh/s ft) 41.2 Total Output s ft/Ton 291.4 13,039 Air System CFM perSystem 1,200 HVAC EQUIPMENT SELECTION Airflow cfm 1,200 Carrier 24ACA436/58CVX070 25,057 3,388 51,000 1 51,000 Jan 1 AM Airflow cfm/s ft 1.39 Airflow cfm/Ton 405.6 Outside Air % 0.0% Total Adjusted System Output 1 25,0571 3,3881 (Adjusted for Peak Design conditions) TIME OF SYSTEM PEAK Aug 3 PM Outside Air cfm/s ft 0.00 Note: values above given at ARI conditions HEATING SYSTEM PSYCHROMETRICS Airstream Temperatures at Time of Heating Peak 26 OF Outside Air 0 cfm 72 OF 72 OF 111 OF 111 OF I Heating Coil Supply Fan o 1,200 cfm 111 F ROOM M 72 OF COOLING SYSTEM PSYCHROMETICS Airstream Temperatures at Time of Cooling Peak 112/78°F Outside Air 0 cfm 70 / 58 OF 70/58°F 51/50°F 51150°F 0, N : 1.. .1. . Cooling Coil Supply Fan 51 / 50 OF 1,200 cfm 49.3% 1::R0 OM is 70 / 58 OF EnergyPro 5.1 by EnergySoft User Number: 6712 RunCode: 2010-10-06712:04:42 /D: Page 17o HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY Project Name cGee Residence Date 10/6/2010 System Name HVAC 4 Floor Area 1,100 ENGINEERING CHECKS SYSTEM LOAD Number of Systems 1 COIL COOLING PEAK CFM Sensible Total Room Loads 827 16,412 Return Vented Lighting 0 Return Air Ducts 816 Return Fan 01 Ventilation 0 0 Supply Fan 0 Supply Air Ducts 816 TOTAL SYSTEM LOAD 1 18,043 7 COIL HTG. Latent CFM 3,006 291 0 0 3,006 PEAK Heating System Sensible Output per System 71,000 12,666 Total Out ut Btuh 71,000 Output Btuh/s ft 64.5 622 Cooling System 0 Output per System 47,500 0 Total Output Btuh) 47,500 0 Total Output ons 4.0 622 Total Output (Btuh/s ft) 43.2 Total Output s ft/Ton 277.9 13,911 Air System CFM per system 1,600 HVAC EQUIPMENT SELECTION Airflow cfm 1,600 Carrier 24ACA448/58CVX090 33,376 4,762 71,000 71,000 Jan 1 AM Airflow cfm/s ft 1.45 Airflow cfm/Ton 404.2 Outside Air % 0.0% Total Adjusted System Output 33,375 (Adjusted for Peak Design conditions) TIME OF SYSTEM PEAK 4,762 Aug 3PM Outside Air cfm/s ft 0.00 Note: values above given at ARI conditions HEATING SYSTEM PSYCHROMETRICS Airstream Temperatures at Time of Heating Peak 26 OF Outside Air 0 cfm 72 OF 72 of 113 of 113 OF f fi G Heating Coil Supply Fan 113 OF 1,600 cfm ROOM 72 OF I COOLING SYSTEM PSYCHROMETICS Airstream Temperatures at Time of Cooling Peak 112/78OF Outside Air 0 cfm 70/59°F 70/59OF 51/50°F /-� 51/50°F Cooling Coil Supply Fan 1,600 cfm 49.8% 51 / 50 of FROOM 70/58°F EnergyPro 5.1 by EnergySoft User Number: 6712 RunCode: 2010-10-08712:04:42 ID: Page 18 of 39 4 HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY Project Name cGee Residence Date 10/6/2010 System Name HVAC 5 Floor Area 1,509 ENGINEERING CHECKS SYSTEM LOAD Number of Systems 1 COIL CFM Total Room Loads 1,182 Return Vented Lighting Return Air Ducts Return Fan Ventilation 0 Supply Fan Supply Air Ducts TOTAL SYSTEM LOAD COOLING PEAK COIL HTG. PEAK Heating System Sensible Latent CFM Sensible Output perSystem 71,000 19,572 3,529 446 16,159 Total Output (Btuh) 71,000 0 Output Btuh/s ft 47.1 973 794 Cooling System 0 0 Output perSystem 57,500 0 0 0 0 Total Output (Btuh) 57,500 3,086 3,529 -3,086 Total Output (Tons) 4.8 973 794 Total Output (Btuh/s ft) 38.1 Total Output s ft/Ton 314.9 1 24,604 14,661 Air System CFM perSystem 2,000 HVAC EQUIPMENT SELECTION Airflow cfm 2,000 Carrier 24ACB460/ 58CVX090 38,138 8,615 71,000 71,000 I Jan 1 AM Airflow cfm/s ft 1.33 Airflow cfm/Ton 417.4 Outside Air % 0.0% Total Adjusted System Output 38,138 (Adjusted for Peak Design conditions) TIME OF SYSTEM PEAK 8,615 Aug 3 PM Outside Air cfm/s ft 0.00 Note: values above given at ARI conditions HEATING SYSTEM PSYCHROMETRICS Airstream Temperatures at Time of Heating Peak 26 OF Outside Air 0 cfm 72 °F 72 OF 105 OF 106 OF t(a)�; Heating Coil Supply Fan ° 106 F .,, 2,000 cfm �_A__ RUDM M1 .. 72 OF i. COOLING SYSTEM PSYCHROMETICS Airstream Temperatures at Time of Cooling Peak 112/78°F Outside Air 0 cfm 70/59°F 70/59°F 53/52°F ^^ 54/52°F Cooling Coil Supply Fan 54 ! 52 OF 2,000 cfm - M53.0 % ROOM 70!59°F EnergyPro 5.1 by EnergySoR User Number. 6712 RunCode: 2010-10-06T12:04:42 ID: Page 19 of 39 C 1�1 ROOM HEATING PEAK LOADS Project Name McGee Residence Date 10/6/2010 ROOM INFORMATION DESIGN CONDITIONS Room Name Master Bedrrom Wood Floor Area 1,241.0 ft2 Indoor Dry Bulb Temperature 72 OF Time of Peak Jan 1 AM Outdoor Dry Bulb Temperature 26 OF Conduction Area R-38 Roof(R.38.2x14.16) 1,241.0 X R-21 Wall (W.19.2x6.16) 11117.0 X Architectural Madison Club Windows 183.0 X Slab -On -Grade perm = 106.0 X X X X X X X X X X X X X X X X X X X X X X X X X X X X Items shown with an asterisk (') denote conduction through an interior surface to Infiltration:[ 1.00 X 1.064 X 1,241 X Schedule Air Sensible Area Ceiling Fraction U -Value 0.0260 X 0.0690 X 0.3300 X 0.7300 X X X X X X X X X X X X X X X X X X X X X X X X X X X X another room 12.00 X 0.265 Height ACH AT *F 46 = 46 = Btu/hr 1,484 3,545 46 = 2,778 46 = = 3,559 = = = = = = = = = = = = = = = = = = = = = = = = = = Page Total /60] X 46 AT 11,367 = 3,218 TOTAL HOURLY HEAT LOSS FOR ROOM 14,585 EnergyPro 5.1 by EnergySoft User Number: 6712 RunCode: 2010-10-06T12:04:42 ID: Page 25 of 39 1� ROOM HEATING PEAK LOADS Project Name McGee Residence Date 10/6/2010 ROOM INFORMATION DESIGN CONDITIONS Room Name Kitchen, Great & Dining Floor Area 1, 797.0 ft2 Indoor Dry Bulb Temperature 72 OF Time of Peak Jan 1 AM Outdoor Dry Bulb Temperature 26 OF Conduction Area U -Value 1,781.0 X 0.0260 X 16.0 X 0.8000 X 912.8 X 0.0690 X 617.2 X 0.3300 X perim = 106.0 X 0.7300 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X I X X X X X through an interior surface to another room X 1,797 X 12.00 X 0.265 Area Ceiling Height ACH AT `F Btu/hr 46 = 2,130 46 = 589 46 = 2,897 46 = 9,369 46 = 3,559 = = = = = = = = = = = = = = = = = = = = = = = = = = Page Total 18,545 /60] X 46 = 4,660 AT R-38 Roof(R.38.2x14.16) Double Metal Tinted Skylight R-21 Wall (W. 19.2x6.16) Architectural Madison Club Windows Slab -On -Grade Items shown with an asterisk (') denote conduction Infiltration:[ 1.00 X 1.064 Schedule Air Sensible Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 23,204 EnergyPro 5.1 by EnergySoR User Number: 6712 RunCode: 2010-10-06T12:04.42 ID: Page 26 of 39 • • C ROOM HEATING PEAK LOADS Project Name McGee Residence Date 10/6/2010 ROOM INFORMATION DESIGN CONDITIONS Room Name Master Bedroom Carpet Floor Area 862.0 ft2 Indoor Dry Bulb Temperature 72 OF Time of Peak Jan 1 AM Outdoor Dry Bulb Temperature 26 OF Conduction Area U -Value 862.0 X 0.0260 X 860.7 X 0.0690 X 161.3 X 0.3300 X perim = 102.0 X 0.7300 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X through an interior surface to another room X 862 X _ 10.00 X 0.318 Area Ceiling Height ACH AT *F Btu/hr R-38 Roof(R.38.204.16) 46 = = 1,031 R-21 Wall (W. 19.2x6.16) 46 2,732 Architectural Madison Club Windows 46 = 2,449 Slab -On -Grade 46 = = = 3,425 = = = = = = = = = = = = = = = = = = = = = = = = = Page Total /60] X 46 AT Items shown with an asterisk (`) denote conduction Infiltration:[ 1.00 X 1.064 Schedule Air Sensible Fraction 9,637 = 2,235 TOTAL HOURLY HEAT LOSS FOR ROOM 11,872 EnergyPro 5.1 by EnergySoR User Number: 6712 RunCode: 2010-10-06712:04:42 ID: Page 27 of 39 • • WOM HEATING PEAK LOADS Project Name7101612010 McGee Residence ate ROOM INFORMATION DESIGN CONDITIONS Room Name Guest Bedroom Floor Area 460.0 ft2 Indoor Dry Bulb Temperature 72 OF Time of Peak Jan 1 AM Outdoor Dry Bulb Temperature 26 OF Conduction Area U -Value AT *F Btu/hr 0.0260 X 46 = 550 0.0690 X 46 = 416 0.3300 X 46 = 911 0.7300 X 46 = 672 X = X = X = X = X = X = X = X = X = X = X = X = X = X = X = X = X = X = X = X = X = X = X = X = X = I X = I X = another room Page Total 2,548 10.00 X 0.318 /60] X 46 = 1,193 Height ACH AT R-38 Roof(R.38.2x14.16) 460.0 X R-21 Wall (W. 19.2x6.16) 131.0 X X X Architectural Madison Club Windows 60.0 Slab -On -Grade perim = 20.0 X X X X X X X X X X X X X X X X X X X X X X X X X X X Items shown with an asterisk (") denote conduction Infiltration:[ 1.00 X 1.064 Schedule Air Sensible Fraction through an interior surface to X 460 X Area Ceiling TOTAL HOURLY HEAT LOSS FOR ROOM 3,741 EnergyPro 5.1 by EnergySoft User Number: 6712 RunCode: 2010-10.06712:04:42 ID: Page 28 of 39 C WOM HEATING PEAK LOADS Project Name710/6/2010 McGee Residence ate ROOM INFORMATION DESIGN CONDITIONS Room Name Guest Casita Floor Area 640.0 ft2 Indoor Dry Bulb Temperature 72 OF Time of Peak Jan 1 AM Outdoor Dry Bulb Temperature 26 OF Conduction 1.064 Area 640.0 X 728.0 X 99.0 X perm = 80.0 X X X U -Value X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X AT °F = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = 46 Btu/hr R-38 Roof(R.38.2x14.16) 0.0260 46 765 R-21 Wall (W. 19.2x6.16) 0.0690 46 2,311 Architectural Madison Club Windows 0.3300 46 1,503 Slab -On -Grade 0.7300 46 2,686 X X X X X X X X X X X X X X X X X X X X X X X X X Items shown with an asterisk (') denote conduction Infiltration:[ 1.00 X Schedule Air Sensible Fraction through an interior surface to X 640 X Area Ceiling another room 10.00 X 0.318 Height ACH Page Total /60] X AT 7,265 = 1,660 TOTAL HOURLY HEAT LOSS FOR ROOM 8,925 EnergyPro 5.1 by EnergySoft User Number.- 6712 RunCode: 2010-10-06T12:04:42 /D: Page 29 of 39 C ROOM HEATING PEAK LOADS Project Name7101612010 ate McGee Residence ROOM INFORMATION DESIGN CONDITIONS Room Name Hallway & Entry Time of Peak Jan 1 AM Floor Area 744.0 ft2 Outdoor Dry Bulb Temperature 26 OF Indoor Dry Bulb Temperature 72 OF Conduction Area U -Value AT *F Btu/hr R-38 Roof(R.38.2x 14.16) 716.0 X 0.0260 X 46 = 856 Double Metal Tinted Skylight 28.0 X 0.8000 X 46 = 1,030 R-21 Wall (W. 19.2x6.16) 394.5 X 0.0690 X . 46 = 1,252 Architectural Madison Club t/Vindows 70.5 X 0.3300 X 46 = 1,070 Slab -On -Grade perm = 47.0 X 0.7300 X 46 = 1,578 X X = X X o X X X X = X X = X X = X X = X X = X X = X X = X X X X = X X = X X = X X = X X = X X X X = X X = X X X X = X X = X X = X X I= X X = X X Items shown with an asterisk (') denote conduction through an interior surface to another room Page Total 5,787 Infiltration:[ 1.00 X 1.064 X 744 X 10.00 X 0.318 /0] X 46 = 1,929 Schedule Air Sensible Area Ceiling Height ACH AT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 7,717 EnergyPro 5.1 by EnergySoft User Number- 6712 RunCode: 2010-10-06712:04:42 ID: Page 30 of 39 I -J 'ROOM HEATING PEAK LOADS Project Name McGee Residence Date 10/6/2010 ROOM INFORMATION DESIGN CONDITIONS Room Name Hallway, Office & Service Floor Area 765.0 ft2 Indoor Dry Bulb Temperature 72 OF Time of Peak Jan 1 AM Outdoor Dry Bulb Temperature 26 OF Conduction Area R-38 Roof(R.38.204.16) 765.0 X R-21 Wall (W. 19.2x6.16) 540.5 X Architectural Madison Club Windows 87.5 X Wood Door 24.0 X Slab -On -Grade peri = 58.0 X X X X X X X X X X X X X X X X X X X X X X X X X X X Items shown with an asterisk (') denote conduction through an interior surface to Infiltration:[ 1.0o X 1.064 X 765 X Schedule Air Sensible Area Ceiling Fraction U -Value 0.0260 X 0.0690 X 0.3300 X 0.5000 X 0.7300 X X X X X X X X X X X X X X X X X X X X X X X X X X X another room 10.00 X 0.318 Height ACH AT *F Btu/hr = 915 = 1,716 = 1,328 = 552 = 1,948 = = = = = - = = = = 6,458 46 = 1,984 46 46 46 46 46 Page Total /60] X AT TOTAL HOURLY HEAT LOSS FOR ROOM 8,442 EnergyPro 5.1 by EnergySoft User Number: 6712 RunCode: 2010-10-06T12:04:42 ID: Page 31 of 39 r • �t'ESIDENTIAL ROOM COOLING LOAD SUMMARY Project Name7101612010 ate McGee Residence ROOM INFORMATION DESIGN CONDITIONS Room Name Master Bedrrom Wood Outdoor Dry Bulb Temperature 112 OF Floor Area 1,241.0 ftZ Outdoor Wet Bulb Temperature 78 °F Indoor Dry Bulb temperature 70 Of Outdoor Daily Range: 34 OF Opaque Surfaces Orientation Area U -Factor CLTD' Btu/hr R-38 Roof(R.38.2x14.16) (N) 1,241.01 X 0.0260 X 56.0 = 1,807 R-21 Wall (W. 19.2x6.16) (N) 329.0 X 0.0690 X 25.3 = 574 R-21 Wall (W. 19.2x6.16) (E) 77.0 X 0.0690 X 32.2 = 171 R-21 Wall (W. 19.2x6.16) (S) 155.0 X 0.0690 X 27.9 = 298 R-21 Wall (W. 19.2x6.16) (149 556.0 X 0.0690 X 32.0 = 1,226 X X = X X = X X = X X = Page Total 4,076 Items shown with an asterisk (') denote conduction through an interior surface to another room. 1. Cooling Load Temperature Difference (CLTD) Shaded Unshaded Fenestration Orientation Area GLF Area GLF Btu/hr J2-1 (N) 0.0 X 20.7 + 27.5 X 25.3 = 696 J2-2 (N) 0.0 X 20.7 + 27.5 X 25.3 = 696 10-3 (N) 0.0 X 20.7 + 108.0 X 25.3 = 2,734 L1-4 (W) 0.0 X 20.7 + 5.0 X 39.4 = 197 K1-5 0.0 X 20.7 + 5.0 X 39.4 = 197 H2-6 (tM 0.0 X 20.7 + 5.0 X 39.4 = 197 H1-7 (IAS 0.0 X 20.7 + 5.0 X 39.4 = 197 X + X = X 1 +1 X = Page Total 4,614 Internal Gain Btu/hr- tu/hrOccu ants Occupants 4.0 Occupants X 230 Btuh/occ.=L 920 Equipment 1.0 Dwelling Unit X 1,600 Btu = 1,600 Infiltration: 1.064 X 0.94 X 67.91 X 42 = 2,839 Air Sensible CFM ELA AT TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 14,348 Latent Gain Btu/hr Occupants 4.0 Occupants X 200 Btuh/occ. _ 800 Infiltration: 4,771 X 0.94 X 67.91 X 0.00523 = 1,586 Air Sensible CFM ELA AW TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 2,386 EnerovPro 5.1 bv EnemySoft User Number. 6712 RunCode: 2010-10-06T12:04:42 ID: Page 32 of 39 a I'R'ESIDENTIAL ROOM COOLING LOAD SUMMARY I McGee Residence ROOM INFORMATION 10/6/2010 Room Name Kitchen, Great & Dining I Outdoor Dry Bulb Temperature 112 OF Floor Area 1, 797.0 ftZ Outdoor Wet Bulb Temperature 78 OF Indoor Dry Bulb Temperature 70 OF Outdoor Daily Range: 34 OF Opaaue Surfaces R-38 Roof(R.38.2x14.16) R-21 Wall (W. 19.2x6.16) R-21 Wall (W. 19.2x6.16) R-21 Wall (W. 19.2x6.16) R-21 Wall (W. 19.2x6.16) Orientation (SE) I's K9 Area X X X X X X X X X U -Factor• X X - X X X X X X X CLTD' = = = = = = = = = 1,781.0 0.0260 56.0 375.0 0.0690 26.2 59.8 0.0690 31.9 387.0 0.0690 28.7 91.0 0.0690 31.5 20.7 72.0 27.2 0.0 20.7 230.0 27.2 0.0 20.7 8.0 27.2 0.0 20.7 8.0 Page Total Items shown with an asterisk (') denote conduction through an interior surface to another room. 1. Cooling Load Temperature Difference (CLTD) Shaded Unshaded Fanactratinn SK03-8 SK02-9 9-10 G1-11 7-12 P4-13 P3-14 P2-15 Pi -16 nrientatinn (SW) (S619 (NE) (NE) (NE) (NE) (NE) (NE) (NE) Area X X X X X X X X X GLF + + + + + + + + + Area X X X X X X X X X GLF = = = = = = = = = 0.0 30.9 8.0 83.7 0.0 30.9 8.0 83.7 0.0 20.7 135.0 27.2 0.0 20.7 72.0 27.2 0.0 20.7 230.0 27.2 0.0 20.7 8.0 27.2 0.0 20.7 8.0 27.2 0.0 20.7 8.0 27.2 0.0 20.7 8.0 27.2 Page Total Btu/hr Z593 678 132 765 198 4, Btu/hr 670 670 3,674 1,960 6,260 218 218 218 Occupants 4.0 Occupants X 230 Btuh/occ. 920 Equipment 1.0 Dwelling Unit X 1,600 Btu = 1,600 Infiltration: 1.064 X 0.94 X 98.33 X 42 = 4,110 Air Sensible CFM ELA AT TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 29,536 Latent Gain Btu/hr Occupants 4.0 Occupants X 200 Btuh/occ. = 800 Infiltration: 4,771 X 0.94 X 98.33 X 0.00523 = 2.297 Air Sensible CFM ELA AW •TOTAL HOURLY LATENT HEAT GAIN FOR r C • L� RESIDENTIAL ROOM COOLING LOAD SUMMARY Project Name Date McGee Residence 10/6/2010 ROOM INFORMATION DESIGN CONDITIONS Room Name Kitchen, Great & Dining Outdoor Dry Bulb Temperature 1120 Floor Area 1,797.0 ftZ Outdoor Wet Bulb Temperature 78 OF Indoor Dry Bulb Temperature 70 OF Outdoor Daily Range: 34 OF Opaque Surfaces Orientation Area U -Factor CLTD' Btu/hr X X = X X = X X = X X = X X = X X = X X = X X = X X I= Page Total 0 items shown with an asterisk (`) denote conduction through an interior surface to another room. 1. Cooling Load Temperature Difference (CLTD) Shaded Unshaded Fenestration Orientation Area GLF Area GLF Btulhr 8-17 (SE) 0.0 X 20.7 + 124.2 X 30.8 = 3,825 P7-18 (SV19 0.0 X 20.7 + 8.0 X 25.4 = 203 P6-19 (SW) 0.0 X 20.7 + 8.0 X 25.4 = 203 P5-20 (SM 0.0 X 20.7 + 8.0 X 25.4 = 203 X + X = X + X = X + X = X + X = X 1 +1 X = Page Total 4,434 Internal Gain Btu/hr Occupants 4.0 Occupants X 230 Btuh/occ. = 920 Equipment 1.0 Dwelling Unit X 1,600 Btu = 1,600 Infiltration: 1.064 X 0.94 X 98.33 X 42 = 4,110 Air Sensible CFM ELA AT TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 29,536 Latent Gain Btu/hr Occupants 4.0 Occupants X 200 Btuh/occ. = 800 Infiltration: 4,771 X 0.94 X 98.33 X 0.00523 = 2,297 Air Sensible CFM ELA AW TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 3,097 EnemvPro 5.1 by EnemvSoft User Number: 6712 RunCode: 2010-10-06T12:04:42 ID: Page 34 of 39 C 0 A5SIDENTIAL ROOM COOLING LOAD SUMMARY Project Name Date McGee Residence 11 10/6/2010 ROOM INFORMATION DESIGN CONDITIONS Room Name Master Bedroom Carpet Outdoor Dry Bulb Temperature 112 OF Floor Area 862.0 ft2 Outdoor Wet Bulb Temperature 78 OF Indoor Dry Bulb Temperature 70 OF I Outdoor Daily Range: 34 OF Opaque Surfaces Orientation Area U -Factor CLTD' Btu/hr R-38 Roof(R.38.204.16) (N) 862.0 X 0.0260 X 56.0 = 1,255 R-21 Wall (W.19.2x6.16) (NE) 246.0 X 0.0690 X 26.2 = 445 R-21 Wall (W.19.2x6.16) (SE) 331.7 X 0.0690 X 31.9 = 731 R-21 Wall (W.19.2x6.16) (SIM 155.0 X 0.0690 X 28.7 = 307 R-21 Wall (W. 19.2x6.16) (NKK 128.0 X 0.0690 X 31.5 = 278 X X = X X = X X = X X = Page Total 1 3,016 Items shown with an asterisk (') denote conduction through an interior surface to another room. 1. Cooling Load Temperature Difference (CLTD) Shaded Unshaded Fenestration Orientation Area GLF Area GLF Btu/hr 6-21 (NE) 0.0 X 20.7 + 108.0 X 27.2 = 2,940 E3-22 (NE) 0.0 X 20.7 + 5.0 X 27.2 = 136 E2-23 (NE) 0.0 X 20.7 + 5.0 X 27.2 = 136 F2-24 (SE) 0.0 X 20.7 + 5.0 X 30.8 = 154 F3-25 (SE) 0.0 X 20.7 + 5.0 X 30.8 = 154 E1-26 (SE) 0.0 X 20.7 + 33.3 X 30.8 = 1,025 X + X = X + X = X + X - Page Total 4,545 Internal Gain Btu/hr Occupants 4.0 Occupants X 230 Btuh/occ. = 920 Equipment 1Dwelling Unit X 1,600 Btu Infiltration: 1.064 X 0.94 X 47.17 X 42 = 1,972 Air Sensible CFM ELA AT TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 12,053 Latent Gain Btu/hr Occupants 4.0 Occupants X 200 Btuh/occ. = 800 Infiltration: 4,771 X 0.94 X 47.17 X 0.00523 = 1,102 Air Sensible CFM ELA AW TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 1,902 EnemvPro 5.1 by Ene Soft User Number. 6712 RunCode: 2010-10-06T12:04:42 ID: Pa a 35 of 39 0 RESIDENTIAL ROOM COOLING LOAD SUMMARY Project Name Date McGee Residence 1 10/6/2010 ROOM INFORMATION DESIGN CONDITIONS Room Name Guest Bedroom Outdoor Dry Bulb Temperature 112 OF Floor Area 460.0 ft2 Outdoor Wet Bulb Temperature 78 OF Indoor Dry Bulb Temperature 70 OF Outdoor Daily Range: 34 OF Opaque Surfaces Orientation Area U -Factor CLTD' Btu/hr R-38 Roof(R.38.2x14.16) (N) 460.0 X 0.0260 X 56.0 = 670 R-21 Wall (W. 19.2x6.16) (SE) 76.0 X 0.0690 X 31.9 = 167 R-21 Wall (W. 19.2x6.16) (NKK 55.0 X 0.0690 X 31.5 = 120 X X = X X = X X = X X = X X = X X = Page Total 957 Items shown with an asterisk (') denote conduction through an interior surface to another room. 1. Cooling Load Temperature Difference (CLTD) Shaded Unshaded Fenestration Orientation Area GLF Area GLF Btu/hr 3-27 (SE) 0.0 X 20.7 + 54.0 X 30.8 = 1,663 81-28 (NW) 0.0 X 20.7 + 6.0 X 37.7 = 226 X + X = X + X = X + X = X + X = X + X = X + X = X 1 +1 XI - Page Total 1,689 Internal Gain Btu/hr Occupants 4.0 Occupants X 230 Btuh/occ. = 920 Equipment 1.0 Dwelling Unit X 1,600 Btu Infiltration: 1.064 X 0.94 X 25.17 X 42 = 1,052 Air Sensible CFM ELA AT TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 6,418 Latent Gain Btu/hr Occupants 4.0 Occupants X 200 Btuh/occ. = 800 Infiltration: 4,771 X 0.94 X 25.17 X 0.00523 = 588 Air Sensible CFM ELA AW TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 1,388 EnemvPro 5.1 by EnemySoft User Number. 6712 RunCode: 2010-10-06712:04:42 ID: Page 36 of 39 • • 'R'E'SIDENTIAL ROOM COOLING LOAD SUMMARY Project Name Date McGee Residence 10/6/2010 ROOM INFORMATION DESIGN CONDITIONS Room Name Guest Casita Outdoor Dry Bulb Temperature 112 OF Floor Area 640.0 ft2 Outdoor Wet Bulb Temperature 78 OF Indoor Dry Bulb Temperature 70 OF Outdoor Daily Range: 34 OF Opaque Surfaces Orientation Area U -Factor CLTD' Btu/hr R-38 Roof(R.38.204.16) (N) 640.0 X 0.0260 X 56.0 = 932 R-21 Wall (W. 19.2x6.16) (NE) 80.0 X 0.0690 X 26.2 = 145 R-21 Wall (W.19.2x6.16) (SE) 100.0 X 0.0690 X 31.9 = 220 R-21 Wall (W. 19.2x6.16) (SE) 174.0 X 0.0690 X 30.0 = 360 R-21 Wall (W.19.2x6.16) IS K9 202.0 X 0.0690 X 28.7 = 400 R-21 Wall (W. 19.2x6.16) (NI/10 172.0 X 0.0690 X 31.5 = 374 X X = X X = X X = Page Total 2,431 Items shown with an asterisk (') denote conduction through an interior surface to another room. 1. Cooling Load Temperature Difference (CLTD) Shaded Unshaded Fenestration Orientation Area GLF Area GLF Btu/hr D1-29 (SE) 0.0 X 20.7 + 5.0 X 30.8 = 154 C4-30 (SM 0.0 X 20.7 + 5.0 X 25.4 = 127 C3-31 (SW) 0.0 X 20.7 + 5.0 X 25.4 = 127 C2-32 (NV19 0.0 X 20.7 + 6.0 X 37.7 = 226 C1-33 (NVIQ 0.01 X 20.7 + 24.0 X 37.7 = 906 2-34 (NVIq 0.0 X 20.7 + 54.0 X 37.7 = 2,038 X + X = X + X = X +1 X = Page Total 3,579 Internal Gain Btu/hr Occupants 4.0 Occupants X 230 Btuh/occ. = L920 Equipment 1.0 Dwelling Unit X 1,600 Btu = 1,600 Infiltration: 1.064 X 0.94 X 35.02 X 42 = 1,464 Air Sensible CFM ELA AT TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 9,993 Latent Gain Btu/hr Occupants 4.0 Occupants X 2001 Btuh/occ. = 800 Infiltration: 4,771 X 0.94 X 35.02 X 0.00523 = 818 Air Sensible CFM ELA AW TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 1,618 EnemvPro 5.1 by EnemySoft User Number: 6712 RunCode: 2010-10-06T12:04:42 ID: Page 37 of 39 ` WSIDENTIAL ROOM COOLING LOAD SUMMARY Project Name710/6/2010 ate McGee Residence ROOM INFORMATION DESIGN CONDITIONS Room Name Hallway& Entry Outdoor Dry Bulb Temperature 112 OF Floor Area 744.0 ft2 Outdoor Wet Bulb Temperature 78 OF Indoor Dry Bulb Temperature 70 OF Outdoor Daily Range: 34 OF Opaque Surfaces Orientation Area U -Factor CLTD' Btu/hr R-38 Roof(R.38.204.16) (SIM 716.0 X 0.0260 X 56.0 = 1,042 R-21 Wall (W. 19.2x6.16) (SE) 40.0 X 0.0690 X 31.9 = 88 R-21 Wall (W. 19.2x6.16) (SIM 239.5 X 0.0690 X 28.7 = 474 R-21 Wall (W. 19.2x6.16) (NIM 115.0 X 0.0690 X 31.5 = 250 X X = X X = X X = X X = X X = Page Total 1,854 Items shown with an asterisk (") denote conduction through an interior surface to another room. 1. Cooling Load Temperature Difference CLTD) Shaded Unshaded Fenestration Or, Area GLF Area GLF Btu/hr SK05-35 (SW, 0.0 X 30.9 + 8.0 X 83.7 = 670 SK06-36 (SW 0.0 X 30.9 + 12.0 X 83.7 = 1,005 SK05-37 (SW, 0.0 X 30.9 + 8.0 X 83.7 = 670 A 1-38 (SW 0.0 X 20.7 + 12.5 X 25.4 = 318 1-39 IS 0.01 X 20.7 + 48.0 X 25.4 = 1,220 Q 1-40 (SW 0.0 X 20.7 + 10.0 X 25.4 = 254 X + X = X + X = X +1 X = Page Total 1 4,136 Internal Gain Btu/hr Occupants 4.0 Occupants X 230 Btuh/oCC. = 920 Equipment 1.0 Dwelling Unit X 1,600 Btu = 1,600 Infiltration: 1.064 X 0.94 X 40.71 X 42 = 1,702 Air Sensible CFM ELA AT i TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 10,212 Latent Gain Btu/hr Occupants 4.0 Occupants X 200 Btuh/occ. = 800 Infiltration: 4,771 X 0.94 X 40.71 X 0.00523 = 951 Air Sensible CPV1 ELA AW TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 1,751 EnemvPro 5.1 by EnemySoft User Number- 6712 RunCode: 2010-10-06T12:04:42 /D: Pacie 38 of 39 r � v • RESIDENTIAL ROOM COOLING LOAD SUMMARY Project Namee Dat McGee Residence 10/6/2010 ROOM INFORMATION DESIGN CONDITIONS Room Name Hallway, Office & Service Outdoor Dry Bulb Temperature 112 OF Floor Area 765.0 ft2 Outdoor Wet Bulb Temperature 78 OF indoor Dry Bulb Temperature 70 OF Outdoor Daily Range: 34 OF Opaque Surfaces Orientation Area U -Factor CLTD' Btu/hr R-38 Roof(R.38.2x 14.16) (N) 765.0 X 0.0260 X 56.0 = 1,114 R-21 Wall (W. 19.2x6.16) (SE) 80.0 X 0.0690 X 31.9 = 176 R-21 Wall (W. 19.2x6.16) (S) 315.5 X 0.0690 X 27.9 = 607 Wood Door (S) 24.0 X 0.5000 X 27.9 = 335 R-21 Wall (W. 19.2x6.16) (SK9 48.0 X 0.0690 X 28.7 = 95 R-21 Wall (W. 19.2x6.16) (W1 97.01 X 0.0690 X 32.0 = 214 X X = X X = X X = Page Total 2,541 Items shown with an asterisk (') denote conduction through an interior surface to another room. 1. Cooling Load Temperature Difference (CLTD) Shaded Unshaded Fenestration Orientation Area GLF Area GLF Btu/hr N2-41 (SE) 0.0 X 20.7 + 30.0 X 30.8 = 924 N1-42 (S) 0.0 X 20.7 + 12.5 X 24.1 = 301 P1-43 (SW1 0.0 X 20.7 + 32.0 X 25.4 = 813 M1-44 0.0 X 20.7 + 13.0 X 39.4 = 512 X + X = X + X = X + X = X + X = X +1 X = Page Total 2,549 Internal Gain Btu/hr Occupants 4.0 Occupants X 230 Btuh/occ. = L920 Equipment 1.0 Dwelling Unit X 1,600 Btu = 1,600 Infiltration: 1.064 X 0.94 X 41.86 X 42 = 1,750 Air Sensible CFM ELA AT TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 9,360 Latent Gain Btu/hr Occupants 4.0 OCcuparits X 200 Btuh/occ. = 800 Infiltration: 4,771 X 0.94 X 41.86 X 0.00523 = 978 Air Sensible CFM ELA AW TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 1,778 EnerovPro 5.1 bv EnemySoft User Number: 6712 RunCode: 2010-10-06712:04:42 ID: Page 39 of 39