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Andalusia TR 31681 (55 Series; Plan 2 Option) Revision 1 - Title 24TITLE 24 Energy Conservation Standards Compliance Report ANDALUSIA AT CORAL MOUNTAIN - 55 SERIES PLAN 2 with GUEST SUITE / OFFICE OPTIONS LA QUINTA December 6, 2006 w Madlin's Job Number: 26485A Prepared For: CORAL OPTION 1, LLC. P.O. BOX 1716 LA QUINTA, CA 92253 TELEPHONE (760) 777-7747 Madlin s .enterprises YTTTTTT Catherine M. Madlin, Certified Energy Analyst Post Office Box 1443 o Palm Springs, CA 92263 Phone 760-322-5004 / 760 q3r()UINTA, E-mail: Cmadlin@ao .�g �-DING sAFEV �EPY' [3u►& �� PP P Rov �t0t4 FOR cot4S Madlin s enterprises Catherine M. Madlin, Certified Energy Analyst - 760-322-5004 / 323-3644 Fax V V - .... Title 24 Energy Conservation Standards Compliance Report This proposed project has been reviewed for compliance with the 2005 State of California Energy Conservation Standards, Title 24, by Madlin s Enterprises. The building design described in this compliance report is in conformance with the standards as outlined in the attached compliance forms and documentation. Date: December 6, 2006 Job Number: 26485A Owner's Name: CORAL OPTION 1, LLC. Designer's Name: PEKAREK-CRANDELL, LLC Project Name: ANDALUSIA AT CORAL MOUNTAIN - 55 SERIES PLAN 2 w/ OPTIONAL GUEST SUITE or OFFICE Project Location: LA QUINTA Method of Compliance: MICROPAS V7.1 CERTIFIED COMPUTER PROGRAM Certified Energy Analyst Catherine M. Madlin r r- rr N R05-90-721 C A i3 E C R05-90-630 California Association of Building Energy Consultants Post Office Box 1443 w Palm Springs, CA 92263 Madlin s enterprises Catherine M. Madlin, Certified Energy Analyst - 760-322-5004 / 323-3644 Fax - ...... Post Office Box 1443 - Palm Springs, CA 92263-1443 - Cmadlin@aoLcom Table of Contents Coversheet Note to Plan Checker Title 24 Requirements — Typical All Plans Project Master Compliance Statement & Signature CF-1R Addendum A Summary of Requirements Mandatory Measures Checklist Title 24 Appendix IV Excerpts Title 24 Compliance Forms Plan 2 with Guest Suite Option — CHR Certificate of Compliance Plan 2 with Office Option — CHR Certificate of Compliance HVAC Load Calculations Plan 2 with Guest Suite Option — Four Cardinal Orientations Plan 2 with Office Option — Four Cardinal Orientations Addendums and Notes Radiant Barrier U-Factor & SHGC Label Requirements Lighting Mandatory Measures HVAC Ducts Mandatory Measures HERS Verification Items (TX Valve, Duct Testing, Certified EER) CF-6R Installation Certificate Requirements HVAC Manufacturer's Specifications Manufacturer's Specifications MadlinY.s enterprises Catherine M. Madlin, Certified Energy Analyst , 760-322-5004 / 323-3644 Fax , ... - - - Post Office Box 1443 Palm Springs, CA 92263-1443 - Cmadlin@aol. com ?Nate 7a (Plan Ckeeker This compliance report is issued to document the following: 1. Garage 2 converted to optional guest suite. 2. Garage 2 converted to optional office. All computer entries for the Plan 2 main house remain the same in this calculation. Please feel free to contract me if you have any questions regarding this report. Catherine M. Madlin Certified Energy Plans Examiner No R05-89-5123 Residential / NR05-88-5578 Nonresidential Certified Energy Analyst No. R05-90-630 Residential / NR05-90-721 Nonresidential Catherine M. Madlin, Certified Energy Analyst - 760-322-5004 / 323-3644 Fax Post Office Box 1443 — Palm Springs, CA 92263-1443 - Cmadlin@aoLcom MadlinY s enterprises TTTVTVV Typical Requirements All Plans • Project Master Compliance Statement • CF-1R Addendum A • Summary of Requirements • Mandatory Measures Checklist Project Master T24 Compliance Statement and Signatures CERTIFICATE OF COMPLIANCE: RESIDENTIAL ANDALUSIA AT CORAL MOUNTAIN — 55 SERIES LA QUINTA PLAN 2 with Guest Suite Option PLAN 2 with Office Option COMPLIANCE STATEMENT CF-1 R This certificate of compliance lists the building features and performance specifications needed to comply with Title-24, Parts 1 and 6 of the California Code of Regulations, and the administrative regulations to implement them. This certificate has been signed by the individual with overall design responsibility. DESIGNER or OWNER Name NOLAN SPARKS Company CORAL OPTION 1, LLC Address P.O. BOX 1716 LA QU I NTA, CA 92253 Phone 760-777-7747 License. Signed.. tol� ENFORCEMENT AGENCY Name Title Agency Phone Signed (date) DOCUMENTATION AUTHOR Name CATHERINE M. MADLIN Company MADLIN'S ENTERPRISES Address P.O. BOX1443 PALM SPRINGS, CA 92262 Phone 760-322-5004 Signed.. 12/5/2006 Certified Energy Analyst Catherine M. Madlin r r NR05-90-721 rr C A B I C R05-90-630 California Association of Building Energy Consultants Madlins' enterprises Catherine M. Madlin, Certified Energy Analyst W 760-322-5004 / 323-3644 Fax Post Office Box 1443 w Palm Springs, CA 92263-1443 w Cmadlin@aol.com V V V V V V . Compliance Form CF-1 R Addendum A Additional Remarks By Title 24 Documentation Author The attached compliance calculations are based on the largest glazing areas when different fenestration options are offered or occur due to elevation changes. The values and materials used in this compliance portfolio are the minimum required to show compliance with Title 24 Energy Conservation Standards. The owner or his/her authorized representative may install better materials or equipment without obtaining revised compliance calculations. The HVAC load calculations included in the compliance report are for permit purposes only. The licensed installing HVAC contractor is responsible for determining the HVAC design loads and equipment selection(s). The HVAC design shall be done in accordance with industry standards. The load calculation included in the Title 24 report considers ambient temperature load, solar gain, people and a fixed latent heat gain percentage. This basic load must be adjusted for additional design conditions and system/equipment performance. All contractors, subcontractors and their representatives at the job site are responsible to meet all Title 24 Energy Standards Mandatory Measures related to their work. Information about these requirements can be obtained at www.energy.ca.gov. Compliance Form CF-6R Installation Certificate is required to be completed by installing contractors during various phases of construction. These include the plumbing, HVAC, fenestration/glazing, and insulation contractors. The form is to be posted at the job site unless otherwise directed by the local enforcement agency. Documentation Author: Catherine M. Madlin Certfed Energy Plans Examiner No R05-89-5123 Residential / NR05-88-5578 Nonresidential Certified Energy Analyst No. R98-90-144 Residential / NR98-90-544 Nonresidential Madlin s enterprises Catherine M. Madlin, Certified Energy Analyst — 760-322-5004 / 323-3644 Fax - - - . - - - DESCRIPTION OF BUILDING COMPONENT MINIMUM COMPLIANCE REQUIREMENTS Job Name ANDALUSIA AT CORAL MOUNTAIN 55 SERIES PLAN 2 w/ OPTIONS Job Number / File Number / Compliance Method 26485A / Micro as V7.1 Computer Simulation Insulation: Roof / Ceiling R-38 Batts Roof Radiant Barrier Re uired at Roof — Installed Per Mfg Secs Insulation: Walls R-19 Batts + 1"EPS R-4.0 or Better 2x6 Studs R-19 Batts — House to Garage Firewall R-13 Batts — 2x4 Wall — Firewalls Insulation: Floor - Slab on Grade Not Required Insulation: H.VA.C. Ducts / Location R-4.2 / Attic (CEC Default Value H.V.A.C. Duct Testing Duct Testing Not Required For Compliance Glazing: Exterior Shading Overhangs as Shown on Plans Tliermal Mass Square Footage & % Not Required For Compliance HVAC System Efficiency Gas Heating Electric AC 80% AFUE / 13.0 SEER / 11.5 EER w/ TXV AC System Efficiency Heat Pump Units 8.0 HSPF / 13.0 SEER Domestic Hot Water Heater 1 75 Gallon Water Heater Energy Factor / Eff / Standby Loss 0.80 RE or Better R-12 Blanket on Tank Not Required For Compliance Recirculating Pump for DHW Yes with Time and Temperature Controls ird Party Certified Inspections for T24 Required for Verified EER Other Requirements Applicable Mandatory Measures Fenestration Type U Factor maximum SHGC maximum Tested Value Operable 0.38 0.35 Yes — NFRC Casement or Awning 0.38 0.35 Yes — NFRC Fixed 0.38 0.35 Yes — NFRC Patio Doors 0.40. 0.40 Yes — NFRC French Doors 0.38 0.35 Yes — NFRC Typical specifications: Dual Pane, Low E Coating, Any Frame Type, Anderson or Equal Product It is the responsibility of all contractors providing services and/or equipment for this project to read the Title 24 CF-1R. The Summary of Requirements table on this page is only provided to assist you in understanding the Title 24 requirements outlined on form CF-IR. If there is a discrepancy between the two documents, the CF-1R form takes precedence. (RESIDENTIAL KITCHEN LIGHTING WORKSHEET . WS-5R Madlin's Enterprises Project Title: Andalusia Plan 2 - Main House Date: 9/26/2005 Job: 25455A Luminaire Type High Efficacy? Watts x Quantity = High Efficacy Watts or Other Watts Incandescent No 75 x 3 = or 225 CFL-1 Yes 26 x 7 -182 or T5-18" Yes 13 x 8 = 104 or x = or x = or x = or x - or x - or x = or Total A 286 B COMPLIES IF >_ B I__ HVAC EQUIPMENT SCHEDULES Madlin's Enterprises Project Title: Andalusia Plan 2 Date: 1/11/2007 Job: 25455A Zone Name System Type FAU/AH Condenser Coil AFUE HSPF SEER EER Zone 1.1 Gas/Electric Split LY8S100C20 HIRD060SO6 ASFM6022A 80% NA 13.0 11.5 Zone 1.2 Gas/Electric Split LY8S100C20 HIRDO60SO6 ASFM6022A 80% NA 13.0 11.5 Zone 2 Heat Pump Split FR2RP018 EIRD018SO6 NA 8.0 13.0 NA Zone 1: Main House Zone 2: Guest House or Office Option MANDATORY MEASURES SUMMARY: RESIDENTIAL (Page l of 2) MF-IR Note: Low-rise residential buildings subject to the Standards must contain these measures regardless of the compliance approach used. More stringent compliance requirements from the Certificate of Compliance supersede the items mamea wim an astensK k-/ ueruw. When this checklist is incorporated into the permit documents, the features noted shall be considered by all parties as minimum component performance specifications for the mandatory measures whether they are shown elsewhere in the documents or on this checklist only. Instructions: Check or initial applicable boxes when completed or check NA if not applicable. DESCRIPTION NA Desi cr Enforce -went Building Envelope Measures: `/ • § 150(a): Minimum R-19 in wood frame ceiling insulation or equivalent U-factor in metal forme ceiling. ❑ LJ ❑ §I50(b): Loose fill insulation manufacturer's labeled R-Value: ❑ ❑ §150(c): Minimum R-13 wall insulation in wood framed walls or equivalent U-factor in metal frame walls (does not apply to exterior mass walls). ❑ ❑ §150(d): Minimum R-13 raised floor insulation in framed floors or equivalent U-factor. Q ❑ ❑ §150(e): Installation of Fireplaces, Decorative Gras Appliances and Gas Logs. 1. Masonry and factory -built fireplaces have: a_ closeable metal or glass door covering the entire opening of the firebox ❑ lr ❑ b. outside air intake with damper and control, flue damper and control ❑ ❑ 2. No continuous burning gas pilot lights allowed. Eli+ f ❑ §I50(f): Air retarding wrap installed to comply with § 151 meets requirements specified in the ACM Residential Manual. (d1 ❑ §I50(g): Vapor barriers mandatory in Climate Zones 14 and 16 only. 13 ❑ ❑ §1500) : Slab edge insulation - water absorption rate for the insulation material alone without facings no greater than 0.31/owater vapor pernicance rate no greater than 2.0 pernitinch. ❑ §118: Insulation specified or installed meets insulation installation quality standards. Indicate type and include CF-611 Form. ❑ [r]' ❑ §116-17: Fenestration Products, Exterior Doors, and Infiltration/Exfiltration Controls. 1. Doors and windows between conditioned and unconditioned spaces designed to limit air leakage. ❑ ❑ 2. Fenestration products (except field -fabricated) have label with certified U-factor, certified Solar Heat Gain Coefficient (SHGC), and infiltration certification. ❑ Ur ❑ 3. Exterior doors and windows weatherstripped; all joints and penetrations caulked and sealed. . ❑ ❑ Space Conditioning, Water Heating and Plumbing System Measures: §110-§ 113: HVAC equipment, water heaters, showerheads and faucets certified by the Energy Commission. ❑ Q� ❑ §150(h): Heating and/or cooling loads calculated in accordance with ASHRAE, SMACNA or ACCA. ❑ ❑ §150(i): Setback thermostat on all applicable heating and/or cooling systems. ❑ ❑ §150(j): Water system pipe and tank insulation and cooling systems line insulation. ❑ ❑ 1. Storage gas water heaters rated with an Energy Factor less than 0.58 must be externally wrapped with insulation having an installed thermal resistance of R-12 or EELtSr. ❑ (a ❑ 2. Back-up tanks for solar system, unfired storage tanks, or other indirect hot water tanks have R-12 external insulation or R-16 internal insulation and indicated on the exterior of the tank showing the R-value. ❑' ❑ ❑ 3. The following piping is insulated according to Table 150-AIB or Equation 150-A Insulation Thickness: 1. First 5 feet of hot and cold water pipes closest to water heater tank, non -recirculating systems, and entire length ofiecirculating sections of hot water pipes shall be insulated to Table 150B. ❑ [✓� ❑ 2. Cooling system piping (suction, chilled water, or brine lines), piping insulated between heating source and indirect hot water tank shall be insulated to Table 150-B and Equation 150-A. ❑ [.� ❑ 4. Steam hydronic heating systems or hot water systems >15 psi, meet requirements of Table 123-A. ❑ ❑ Residential Compliance Forms April2005 MANDATORY MEASURES SUMMARY: RESIDENTIAL (Page 2 of 2) MF-IR Space Conditioning, Water Heating and Plumbing System Measures: (continued) Enforoe- NA✓ Desi ner went 5. Insulation must be protected from damage, including that due to sunlight, moisture, equipment maintenance, and wind. ❑ 6. Insulation for chilled water piping and refrigerant suction piping includes a vapor retardant or is enclosed entirely in ❑. ❑ conditioned T Solar water -heating systems/collectors are certified by the Solar Rating and Certification Corporation. ❑ ❑ ' §150(m): Ducts and Fans 1. All ducts and plenums installed, sealed and insulated to meet the requirement of the CMC Sections 601, 602, 603, 604, 605 and Standard 6-5; supply4r and retum-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 18113 or aerosol sealant that meets the requirements of UL 723. If mastic or tape is used to seal openings ter than 1 /4 inch the combination of mastic and either mesh or tape shall be used. 2. 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 ❑ 52( ❑ 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. 3. Joints and seams of duct systems and their components shall not be sealed with cloth back rubber adhesive dud tapes ❑ Q ❑ unless such tape is used in combination with mastic and draw bands. 4. Exhaust fan systems have back draft or automatic dampers. ❑ l� ❑ 5. Gravity ventilating systems serving conditioned space have either automatic or readily accessible, manually operated ❑ 13' 0— dampers. 6. Protection of Insulation. 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 ❑ 1]0 ❑ retardant and provides shielding from solar radiation that can cause degradation of the material. 7. Flexible ducts cannot have porous inner cores. ❑ ❑ §114: Pool and Spa Heating Systems and Equipment. 1. A thermal efficiency that complies with the Appliance Efficiency Regulations, on -off switch mounted outside of the ❑ Q/ ❑ heater, weatherproof operating instructions no electric resistance heating and no pilot light. 2. System is installed with: a. at least 36" of pipe between filter and heater for future solar heating ❑ 01 ❑ b. cover for outdoor pools or outdoor spas ❑Eir ❑ 3. Pool system has directional inlets and a circulation pump time switch ❑ [a ❑ §I 15: Gas fired fan -type central furnaces, pool heaters, spa heaters or household cooking appliances have no continuously ❑ ❑ burning pilot light, (Exception: Non -electrical cooking appliances with pilot < 150 Btu/Irr §l 18(i): Cool Roof material meets specified criteria ❑ Residential Lighting Measures: § I50(k)I: HiGH EFFICACY LUMINAIRES OTHER THAN OUTDOOR HID: contain only high efficacy lamps as ��/ outlined in Table 150-C, and do not contain a medium screw base socket (E24/E26). Ballast for lamps 13 watts or greater El [3' ❑ are electronic and have an output frequency no less than 20 kHz §150(k)l: HIGH EFFICACY LUMINAIRES - OUTDOOR HID: contain only high efficacy lamps as outlined in Table ❑ ❑ 150-C luminaire has factory installed HID ballast §150(k)2: Permanently installed luminaires in kitchens shall be high efficacy luminaires. Up to 50 percent of the wattage, as determined in § 130 (c), of permanently installed luminaires in kitchens may be in luminaires that are not high efficacy ❑ d ❑ luminaires, provided that these luminaires are controlled by switches separate from those controlling the high efficacy luminaires. §15D(k)3: Permanently installed luminaires in bathrooms, garages, laundry rooms utility rooms shall be high efficacy luminaires. OR are controlled by an occupant sensor(s) certified to comply with Section 119(d) that does not turn on ❑ Lt7 ❑ automatically or have an always ono lion. §150(k)4: Permanently installed luminaires located other than in kitchens, bathrooms, garages, laundry rooms, and utility rooms shall be high efficacy luminaires (except closets less than 701 ): OR are controlled by a dimmer switch OR are ❑ d ❑ controlled by an occupant sensor that complies with Section I I9(d) that does not turn on automatically or have an always on option. §I50(k)5: Luminaires that are recessed into insulated ceilings are approved for zero clearance insulation cover (IC) and are ❑ d ❑ certified airtight to ASTM E283 and labeled as air tight (AT) to less than 2.0 CFM at 75 Pascals. §150(k)6: Luminaires providing outdoor lighting and permanently mounted to a residential building or to other buildings on the same lot shall be high efficacy luminaires (not including lighting around swimming pools/water features or other ElIi �.,,/ ❑ Article 680 locations) OR are controlled by occupant sensors with integral photo control certified to comply with Section 11 d. §i50(k)7: Lighting for parking lots for 8 or more vehicles shall have lighting that complies with Sec. 130, 132, and 147. E ❑ ❑ Li ghting for parking garages for 8 or more vehicles shall have lighting that complies with Sec. 130 131 and 146. §150(k)8: 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 OR are controlled by occupant sensor(s) certified to comply with L7 ❑ ❑ Section 119(d). Residental Compliance Forms April 2005 2005 Joint Appendices IV.2 Roofs and Ceilings Table IV. 1- U-factors of Wood Framed Attic Roofs Rated R-value of Continuous Insulation' R-value of Truss Attic None R-2 RA R-6 R-7 R-8 R-10 R-14 Spacing Insulation A B C D E F G H IV-6 16 in. OC None 1 0.300 0.186 0.135 0.106 0.096 0.087 0.074 0.057 R-11 2 0.079 0.067 0.059 0.053 0.050 0.047 0.043 0.037 R-13 3 0.071 0.061 0.054 0.049 0.046 0.044 0.040 0.035 R-19 .4 0.049 0.045 0.041 0.038 0.036 0.035 0.033 0.029 R-22 5 :.: • 0.043 0.039 0.036 0.034 0.033 0.032 0.030 0.026 R-25 6: 0.038 0.035 0.033 0.031 0.030 0.029 0.027 0.024 R-30 7 .. 0.032 0.030 0.028 0.027 0.026 0.025 0.024 0.022 R-38 8 0.026 0.024 0.023 0.022 0.022 0.021 0.020 0.019 R-49 9. 0.020 0.019 0.019 0.018 0.018 0.017 0.017 0.015 R-60 10. 0.017 0.016 0.016 0.015 0.015 0.015 0.014 0.013 4 ih. OC None 11 0.305 0.188 0.136 0.107 0.097 0.088 0.075 0.058 R-11 12 0.076 0.066 0.058 0.052 0.049 0.047 0.043 0.036 R-13 13- 0.068 0.059 0.053 0.048 0.045 0.043 0.040 0.034 R-19 14 0.048 0.044 0.040 0.037 0.036 0.034 0.032 0.028 R-22 15 0.042 0.039 0.036 0.033 0.032 0.031 0.029 0.026 R-25 16 _ 0.037 0.035 0.032 0.030 0.030 0.029 0.027 0.024 R-30 17: 0.032 0.030 0.028 0.027 0.026 0.025 0.024 0.022 18.:' 0.025 0.024 0.023 0.022 0.022 0.021 0.020 0.018 R-49 19. 0.020 0.019 0.019 0.018 0.018 0.017 0.017 0.015 R-60 20'. 0.016 0.016 0.015 0.015 0.015 0.015 0.014 0.013 Notes: 1. Continuous insulation shall be located at the ceiling, below the bottom chord of the truss and be uninterrupted by framing. 2. In climate zones 1 and 16 the insulating R-value of continuous insulation materials installed above the roof waterproof membrane shall be multiplied times 0.8 before choosing the table column for determining assembly U-factor. This table contains thermal performance data (U-factors) for wood framed attics where the ceiling provides the air barrier and the attic is ventilated. Wood trusses are the most common construction for low-rise residential buildings and for Type V nonresidential buildings. While the sketch shows a truss system with a flat ceiling, the data in this table may be used for scissor trusses and other non -flat trusses. If the bottom chord is not flat, then the slope should not exceed 3:12 if blown insulation is used. This table may also be used with composite trusses that have a wood top and bottom chord and metal struts connecting them. For the majority of cases, values will be selected from column A of this table. Column A shall be used for the common situation where either batt or blown insulation is placed directly over the ceiling (and tapered at the edges). Builders or designers may increase thermal performance by adding a continuous insulation layer at the ceiling. The continuous insulation is typically a rigid polystyrene or polyisocyanurate foam insulation. Continuous insulation does not include the blown or batt insulation that is over the bottom chord of the truss (this is already accounted for in the U-factors published in Column A). When this table is used manually, the R-value of continuous insulation shall be equal to or greater than the R-value published in the continuous insulation columns. For instance if the insulation is R-3, the R-2 column shall be used. No interpolation is permitted when data from the table is selected manually. CEC approved ACM Joint Appendix IV - U-Factor, C-Factor, and Thermal Mass Data 2005 Joint Appendices Page IV-21 1V.3 Walls Table IV.9 - U-factors of Wood Framed Walls Rated R-value of Continuous Insulation Y Nominal Cavity Framing R-0 R-2 R-4 R-6 R-7 R-8 R-10 R-14 S Insulation Size A B C D E F G H 16 in. OC None Any 1 0.356 0.204 0.144 0.111 0.100 0.091 0.077 0.059 R-11 batt 2x4 2 0.110 0.087 0.073 0.063 0.059 0.056 0.050 0.041 R-13 batt 2x4 3 O.i02 0.081 0.068 0.059 0.056 0.052 0.047 0.039 R-15 batt 2x4 4 0.095 0.076 0.064 0.056 0.053 0.050 0.045 0.038 R-19 batt 1 2x6 5 OA74 0.063 0.055 0.049 0.046 0.044 0.040 0.034 R-21 batt 2x6 6 0.069 0.058 0.051 0.046 0.043 0.041 0.038 0.032 R-19 batt 2x8 7 0.065 0.057 0.050 0.045 0.043 0.041 0.038 0.033 R-22 batt 2x8 8 0.061 0.053 0.047 0.042 0.040 0.039 0.036 0.031 R-25 batt 2x8 9 0.057 0.050 0.044 0.040 0.038 0.037 0.034 0.030 R-30 batt 1 2x8 10 0.056 0.049 0.043 0,039 0.038 0.036 0.033 0.029 R-30 batt 2x10 11 0.047 0.042 0.038 0.035 0.034 0.032 0.030 0.027 R-38 batt 1 2x10 12 0.046 0.041 0.037 0.034 0.033 0.031 0.029 0.026 R-38 batt 2x12 13 0.039 0.035 0.032 0.030 0.029 0.028 0.026 0.023 Foamed 2x4 14 0.103 0.082 0.069 0.060 0.056 0.053 0.048 0.040 Plastic or Cellulose 2x6 15 0.071 0.060 0.052 b.047 0.044 0.042 0.039 0.033 Insulation3 2x8 16 0.056 0.049 0.043 0.039 0.038 0.036 0.033 0.029 2x10 17 0.045 0.040 0.036 0.033 0.032 0.031 0.029 0.025 2x12 18 0.038 0.034 0.031 0.029 0.028 0.027 0.025 0.023 24 in. OC None Any 19, 0.362 0.207 0.145 0.112 0.101 0.092 0.077 0.059 R-11 batt 2x4 20 0.106 0.085 0.072 0.062 0.058 0.055 0.049 0.041 R-13 batt 2x4 21 0.098 0.079 0.067 0.058 0.055 0.052 0.046 0.039 R-15 batt 2x4 22. 0.091 0.07$ 0.062 0.055 0.051 0.049 0.044 0.037 R-19 batt 2x6 .23 0.071 0.061 0.053 0.047 0.045 0.043 0.039 0.034 R-21 batt 2x6 24 ; 0.066 0.056 0.049 0.044 0.042 0.040 0.037 0.032 R-19 batt 2x8 25.. 0.063 0.055 0.049 0.044 0.042 0.040 0.037 0.032 R-22 batt 2x8 26. 0.058 0.051 0.046 0.041 0.040 0.038 0.035 0.030 R-25 batt 2x8 27. 0.055 0.048 0.043 0.039 0.037 0.036 0.033 0.029 R-30 batt 1 2x8 28 0.054 0.047 0.042 0.038 0.037 0.035 0.033 0.028 R-30 batt 2x10 - 29 0.045 0.041 0.037 0.034 0.033 0.031 0.029 0.026 R-38 batt 1 2x10 30 0.044 0.039 0.036 0.033 0.032 0.031 0.029 0.025 R-38 batt 2x12 31 0.037 0.034 0.031 0.029 0.028 0.027 0.025 0.023 Foamed 2x4 .32 0.099 0.080 0.067 0.059 0.055 0.052 0,047 0.039 Plastic or Cellulose 2x6 ::. 33 0.069 0.059 0.051 0.046 0.044 0.042 0.038 0.033 Insulation3 2x8 34 ' 0.054 0.048 0.043 0.039 0.037 0.035 0.033 0.029 2x10 ; 35 : 0.044 0.039 0.036 0.033 0.031 0.030 0.028 0.025 2x12 36 0.036 0.033 0.031 0.028 0.027 0.027 0.025 0.022 Notes 1. Higher density fiberglass batt is required in these cases. 2. Continuous insulation may be installed on either the inside or the exterior of the wall, or both. 3. Foamed plastic and cellulose shall fill the entire cavity. Cellulose shall have a binder to prevent sagging. ACM Joint Appendix IV - U-Factor, C-Factor, and Thermal Mass Data 2005 Joint Appendices Page 1V-54 IV.5 Miscellaneous Construction Table IV.28 - Opaque Doors Description U-factor (Btu/°F-ft�) A Uninsulated single -layer metal swinging doors or non -swinging doors, including single -layer 1 1.45 uninsulated access hatches and uninsulated smoke vents: Uninsulated double -layer metal swinging doors or non -swinging doors, including double -layer 2 0.70 uninsulated access hatches and uninsulated smoke vents: Insulated metal swinging doors, including fire -rated doors, insulated access hatches, and insulated 3 0.50 smoke vents: Wood doors, minimum nominal thickness of 1-3/4 in. (44 mm), including panel doors with minimum 4 0.50 panel thickness of 1-1/8 in. (28 mm), and solid core flush doors, and hollow core flush doors Any other wood door. 5 0.60 Source: ASHRAE 90.1-2001, Section A7. ACM Joint Appendix IV - U-Factor, C-Factor, and Thermal Mass Data Catherine M. Madlin, Certified Energy Analyst - 760-322-5004 / 323-3644 Fax Post Once Box 1443 Palm Springs, CA 92263-1443 w Cmadlin@aol. com Madlin s enterprises TVVTTTT Andalusia at Coral Mountain Plan 2 with Guest Suite Option CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF-1R Page 1 Project Title.......... ANDALUSIA.PLAN2.WG/GS.OFF Date..12/04/06 19:38:38 Project Address.... PLAN 2 WITH GH/OFF OPTION******* •••• ANDALUSIA, LA QUINTA *v7.10* Documentation Author... CATHERINE M. MADLIN ******* Building Permit Madlin's Enterprises P.O. Box 1443 Plan Check Date Palm Springs, CA 92262 760-322-5004 Field Check Date Climate Zone.. ..... 15 Compliance Method...... MICROPAS7 v7.10 for 2005 Standards by Enercomp, Inc. MICROPAS7 v7.10 File-26485A1 Wth-CTZ15S05 Program -FORM CF-1R User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2+OPTIONS MICROPAS7 ENERGY USE SUMMARY Energy Use Standard Proposed Compliance (kTDV/sf-yr) Design Design Margin Space Heating.......... 2.57 2.51 0.06 Space Cooling.......... 75.32 68.54 6.78 Water Heating.......... 7.71 10.35 -2.64 North Total 85.60 81.40 4.20 Space Heating.......... 2.57 2.77 -0.20 Space Cooling.......... 75.32 68.29 7.03 Water Heating.......... 7.71 10.35 -2.64 East Total 85.60 81.41 4.19 Space Heating.......... 2.57 2.50 0.07 Space Cooling.......... 75.32 69.00 6.32 Water Heating.......... 7.71 10.35 -2.64 South Total 85.60 81.85 3.75 Space Heating.......... 2.57 2.02 0.55 Space Cooling.......... 75.32 71.10 4.22 Water Heating.......... 7.71 10.35 -2.64 West Total 85.60 83.47 2.13 *** Building complies with Computer Performance *** *** HERS Verification Required for Compliance *** GENERAL INFORMATION HERS Verification.......... Conditioned Floor Area..... Building Type .............. Construction Type ......... Fuel Type .. .. .. Building Front Orientation. Number of Dwelling Units... Number of Building Stories. Weather Data Type.......... Required 3330 sf Single Family Detached New NaturalGas Cardinal - N,E,S,W 1 1 FullYear CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF-1R Page 2 Project Title.......... ANDALUSIA.PLAN2.WG/GS.OFF Date..12/04/06 19:38:38 MICROPAS7 v7.10 File-26485A1 Wth-CTZ15S05 Program -FORM CF-1R User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2+OPTIONS i i Zone Type 1.ZONE Residence 2.ZONE Residence Surface 1.ZONE 1 Wall 3 Wall 5 Wall 7 Wall 9 Wall 10 Wall 11 Wall 13 Door 14 RoofRad 2.ZONE 2 Wall 4 Wall 6 Wall 8 Wall 12 Door 15 RoofRad Surface 1.ZONE 16 SlabEdge 18 SlabEdge 2.ZONE 17 SlabEdge Floor Construction Type.... Slab On Grade Number of Building Zones... 2 Conditioned Volume......... .36303 cf Slab -On -Grade Area......... 3330 sf Glazing Percentage......... 19.2 % of floor area Average Glazing U-factor... 0.4 Btu/hr-sf-F Average Glazing SHGC....... 0.37 Average Ceiling Height..... 10.9 ft BUILDING ZONE INFORMATION Floor # of # of Cond- Thermo- Vent Vent Verified Area Volume Dwell Peop- it- stat Height Area Leakage or (sf) (cf) Units le ioned Type (ft) (sf) Housewrap 3058 33583 0.92 6.4 Yes Setback 2.0 Standard No 272 2720 0.08 0.6 Yes Setback 2.0 Standard No OPAQUE SURFACES U- Sheath- Solar Appendix Frame Area fact- Cavity ing Act Gains IV Location/ Type (sf) or R-val R-val Azm Tilt Reference Comments Wood 252 0.055 19 4 0 90 Yes IV.9 C5 2X6 Studs Wood 734 0.055 19 4 90 90 Yes IV.9 C5 Wood 308 0.055 19 4 180 90 Yes IV.9 C5 Wood 928 0.055 19 4 270 90 Yes IV.9 C5 Wood 339 0.074 19 0 0 90 No IV.9 A5 Wood 29 0.055 19 4 225 90 Yes IV.9 C5 Wood 208 0.055 19 4 315 90 Yes IV.9 C5 Other 24 0.500 0 0 0 90 No IV.28 A4 Wood 3057 0.025 38 0 n/a 0 Yes IV.1 A18 Wood 164 0.055 19 4 0 90 Yes IV.9 C5 2X6 Studs Wood 140 0.055 19 4 90 90 Yes IV.9 C5 Wood 176 0.055 19 4 180 90 Yes IV.9 C5 Wood 149 0.055 19 4 270 90 Yes IV.9 C5 Other 24 0.500 0 0 0 90 Yes IV.28 A4 Wood 272 0.025 38 0 n/a 0 Yes IV.1 A18 PERIMETER LOSSES Appendix Length F2 Insul Solar IV Location/ (ft) Factor R-val Gains Reference Comments 250 0.730 R-0 No IV.26 Al 36 0.730 R-0 No IV.26 Al 70 0.730 R-0 No IV.26 Al CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF-lR Page 3 Project Title.......... ANDALUSIA.PLAN2.WG/GS.OFF Date..12/04/06 19:38:38 MICROPAS7 v7.10 File-26485A1 Wth-CTZ15S05 Program -FORM CF-1R User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2+OPTIONS FENESTRATION SURFACES Exterior Area U- Act Shade Orientation (sf) factor SHGC Azm Tilt Type Location/Comments 1.ZONE 1 Door 2 Wind 3 Wind 4 Door 5 Wind 6 Wind 7 Wind 8 Wind 9 Wind 10 Wind 11 Wind 12 Door 13 Wind 14 Wind 15 Wind 16 Wind 17 Wind 18 Wind 19 Wind 20 Wind 21 Door 22 Wind 23 Wind 24 Wind 25 Wind 26 Wind 27 Door 28 Wind 29 Wind 30 Wind 31 Wind 32 Wind 33 Wind 34 Wind 35 Wind 36 Skyl 2.ZONE 37 Wind 38 Wind 39 Wind Back (S) 24.0 0.380 0.350 180 90 Standard W1/FR.DR Average Back (S) 25.0 0.380 0.350 180 90 Standard W2/Fixed Average Back (S) 10.0 0.380 0.350 180 90 Standard W3/Operable Average Back (S) 24.0 0.380 0.350 180 90 Standard W4/FR.DR Average Left (E) 9.0 0.380 0.350 90 90 Standard W5/Fixed Average Back (S) 12.0 0.380 0.350 180 90 Standard W6/Fixed Average Back (S) 20.0 0.380 0.350 180 90 Standard W7/Fixed Average Back (S) 8.0 0.380 0.350 180 90 Standard W8/Operable Average Back (SW) 6.0 0.380 0.350 225 90 Standard W9/Fixed Average Back (SW) 10.0 0.380 0.350 225 90 Standard W10/Fixed Average Back (SW) 4.0 0.380 0.350 225 90 Standard W11/Casement Average Back (S) 144.0 0.400 0.400 180 90 Standard W12/Patio Dr Average Right (W) 3.8 0.380 0.350 270 90 Standard W13/Fixed Average Right (W) 25.0 0.380 0.350 270 90 Standard W14/Fixed Average Right (W) 3.8 0.380 0.350 270 90 Standard W15/Fixed Average Right (W) 3.8 0.380 0.350 270 90 Standard W16/Fixed Average Right (W) 25.0 0.380 0.350 270 90 Standard W17/Fixed Average Right (W) 3.8 0.380 0.350 270 90 Standard W18/Fixed Average Right (W) 15.0 0.380 0.350 270 90 Standard W19/Casement Average Front (N) 6.0 0.380 0.350 0 90 Standard W20/Fixed Average Front (N) 48.0 0.500 0.500 0 90 Standard W21/Entry Dr Average Right (W) 12.5 0.380 0.350 270 90 Standard W22/Casement Average Front (N) 12.5 0.380 0.350 0 90 Standard W23/Casement Average Right (W) 6.0 0.380 0.350 270 90 Standard W24/Casement Average Right (W) 6.0 0.380 0.350 270 90 Standard W25/Casement Average Back (S) 15.0 0.380 0.350 180 90 Standard W26/Casement Average Right (W) 40.0 0.380 0.350 270 90 Standard W27/FR.DR Average Front (N) 15.0 0.380 0.350 0 90 Standard W28/Casement Average Right (W) 6.0 0.380 0.350 270 90 Standard W29/Casement Average Front (N) 2.3 0.380 0.350 0 90 Standard W30/Casement Average Left (E) 2.3 0.380 0.350 90 90 Standard W31/Fixed Average Left (E) 23.4 0.380 0.350 90 90 Standard W32/Casement Average Left (E) 14.0 0.380 0.350 90 90 Standard W33/Fixed Average Left (E) 4.0 0.380 0.350 90 90 Standard W34/Casement Average Left (E) 4.0 0.380 0.350 90 90 Standard W35/Casement Average Horz 1.0 1.720 0.830 0 0 None W36/Skylight Average Front (N) 36.0 0.380 0.350 0 90 Standard W37/Fixed Average Left (E) 4.5 0.380 0.350 90 90 Standard W38/Casement Average Left (E) 4.5 0.380 0.350 90 90 Standard W39/Casement Average CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF-1R Page 4 Project Title.......... ANDALUSIA.PLAN2.WG/GS.OFF Date..12/04/06 19:38:38 MICROPAS7 v7.10 File-26485A1 Wth-CTZ15S05 Program -FORM CF-1R User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2+OPTIONS OVERHANGS Window Overhang Area Left Right Surface (sf) Width Height Depth Height Extension Extension 1.ZONE 1 Door 24.0 3 8 6 2 n/a n/a 2 Window 25.0 5 5 6 2 n/a n/a 3 Window 10.0 5 2 6 7 n/a n/a 4 Door 24.0 3 8 6 2 n/a n/a 5 Window 9.0 2 4.5 16 4 n/a n/a 6 Window 12.0 4 3 14 3 n/a n/a 7 Window 20.0 4 5 14 7 n/a n/a 8 Window 8.0 4 2 14 12 n/a n/a 9 Window 6.0 2 3 20 3 n/a n/a 10 Window 10.0 2 5 20 7 n/a n/a 11 Window 4.0 2 2 20 12 n/a n/a 12 Door 144.0 12 12 16 2 n/a n/a 21 Door 48.0 6 8 3 1 n/a n/a SLAB SURFACES Area Slab Type (sf) 1.ZONE Standard Slab 3058 2.ZONE Standard Slab 272 HVAC SYSTEMS Verified Number Verified Verified Verified Verified Maximum System of Minimum Refrig Charge Adequate Fan Watt Cooling Type Systems Efficiency EER or TXV Airflow Draw Capacity 1.ZONE Furnace 2.0 0.800 AFUE n/a n/a n/a n/a n/a ACSplit 2.0 13.00 SEER 11.5 Yes No No No 2.ZONE HPSplit 1.0 8.00 HSPF n/a n/a n/a n/a n/a HPSplit 1.0 13.00 SEER No No No No No HVAC SIZING Verified Total Sensible Design Maximum Heating Cooling Cooling Cooling System Load Load Capacity Capacity Type (Btu/hr) (Btu/hr) (Btu/hr) (Btu/hr) 1.ZONE Furnace 62044 n/a n/a n/a ACSplit n/a 49824 61832 n/a CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF-1R Page 5 Prroiect Titl a_ _ _ _ _ _ _ _ _ _ AMnAT.TTCTA DT.AA71 T.v-_/cc nVV „-4-„ ,') inn 1n-1 , n _'Jn _'Jn MICROPAS7 v7.10 File-26485A1 Wth-CTZ15S05 Program -FORM CF-1R User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2+OPTIONS System Type 2.ZONE HPSplit HPSplit Tank Type 1 Large System 1 Large Total HVAC SIZING Verified Total Sensible Design Maximum Heating Cooling Cooling Cooling Load Load Capacity Capacity (Btu/hr) (Btu/hr) (Btu/hr) (Btu/hr) 9207 n/a n/a n/a n/a 4964 6160 n/a 71251 54788 67991 n/a Orientation of Maximum..... Front Facing 180 deg (S) Sizing Location... ....... INDIO Winter Outside Design...... 24 F Winter Inside Design....... 70 F Summer Outside Design...... 111 F Summer Inside Design....... 75 F Summer Range ............... 30 F DUCT SYSTEMS Verified Verified Verified System Duct Duct Duct Surface Buried Type Location R-value Leakage Area Ducts 1. ZONE Furnace ACSplit 2.ZONE HPSplit HPSplit Attic R-4.2 No No No Attic R-4.2 No No No Attic R-4.2 No No No Attic R-4.2 No No No WATER HEATING SYSTEMS Number Tank External Heater in Energy Size Insulation Type Distribution Type System Factor (gal) R-value Gas Recirc/TimeTemp 1 n/a 75 R-0 WATER HEATING SYSTEMS DETAIL Recovery Rated Efficiency Input u.bu n/a Standby Internal Tank Loss Insulation Fraction R-value 0.03 R-n/a Pilot Light 0 CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF-1R Page 6 Project Title.......... ANDALUSIA.PLAN2.WG/GS.OFF Date..12/04/06 19:38:38 MICROPAS7 v7.10 File-26485A1 Wth-CTZ15S05 Program -FORM CF-1R User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2+OPTIONS SPECIAL FEATURES AND MODELING ASSUMPTIONS *** Items in this section should be documented on the plans, *** *** installed to manufacturer and CEC specifications, and *** *** verified during plan check and field inspection. *** This building incorporates a HERS verified Refrigerant Charge test j or a HERS verified Thermostatic Expansion Valve (TXV). If a cooling system is not installed, then HERS verification is not necessary. This building incorporates HERS verified EER. This is a multiple orientation building. This printout is for the front facing North. This building incorporates a Radiant Barrier. i j This building incorporates a non-standard Water Heating System. HERS REQUIRED VERIFICATION *** Items in this section require field testing and/or *** *** verification by a certified home energy rater under *** *** the supervision of a CEC-approved HERS provider using *** *** CEC approved testing and/or verification methods and *** *** must be reported on the CF-4R installation certificate. *** This building incorporates a HERS verified Refrigerant Charge test or a HERS verified Thermostatic Expansion Valve (TXV). If a cooling system is not installed, then HERS verification is not necessary. This building incorporates HERS verified EER. REMARKS UPDATED COMPLIANCE CALCULATION TO ALLOW FOR OPTIONAL GUEST SUITE OR OFFICE IN PLACE OF GARAGE 2. NO CHANGES MADE TO MAIN HOUSE INPUT OR REQUIREMENTS. SEE COMPLIANCE FORM CF-lR ADDENDUM A FOR ADDITIONAL REQUIREMENTS AND REMARKS BY DOCUMENTATION AUTHOR. Catherine M. Madlin, Certified Energy Analyst - 760-322-5004 / 323-3644 Fax Post Office Box 1443 w Palm Springs, CA 92263-1443 o Cmadlin@aol.com MadlinI s enterprises vvvvvvv Andalusia at Coral Mountain Plan 2 with Office Option CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF-1R Page 1 Project Title.......... ANDALUSIA.PLAN2.ALT.OFF Date..01/11/07 12:52:59 Project Address........ PLAN 2 W/ OFF ALT ******* ANDALUSIA, LA QUINTA *v7.10* Documentation Author... CATHERINE M. MADLIN ******* Building Permit Madlin's Enterprises P.O. Box 1443 Plan Check Date Palm Springs, CA 92262 760-322-5004 Field C ec Date Climate Zone.. ..... 15 Compliance Method...... MICROPAS7 v7.10 for 2005 Standards by Enercomp, Inc. MICROPAS7 v7.10 File-26486B1 Wth-CTZ15S05 Program -FORM CF-1R User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2.OFF.OPT MICROPAS7 ENERGY USE SUMMARY Energy Use Standard Proposed Compliance (kTDV/sf-yr) Design Design Margin Space Heating.......... 2.57 2.47 0.10 Space Cooling.......... 75.81 69.11 6.70 Water Heating.......... 7.75 10.39 -2.64 North Total 86.13 81.97 4.16 Space Heating.......... 2.57 2.75 -0.18 Space Cooling.......... 75.81 68.80 7.01 Water Heating.......... 7.75 10.39 -2.64 East Total 86.13 81.94 4.19 Space Heating.......... 2.57 2.52 0.05 Space Cooling.......... 75.81 69.75 6.06 Water Heating.......... 7.75 10.39 -2.64 South Total 86.13 82.66 3.47 Space Heating.......... 2.57 2.05 0.52 Space Cooling.......... 75.81 71.04 4.77 Water Heating.......... 7.75 10.39 -2.64 West Total 86.13 83.48 2.65 *** Building complies with Computer Performance *** *** HERS Verification Required for Compliance *** GENERAL INFORMATION HERS Verification.......... Conditioned Floor Area..... Building Type .............. Construction Type ......... Fuel Type .. .. .. Building Front Orientation. Number of Dwelling Units... Number of Building Stories. Weather Data Type.......... Required 3316 sf Single Family Detached New NaturalGas Cardinal - N,E,S,W 1 1 FullYear CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF-1R Page 2 Project Title.......... ANDALUSIA.PLAN2.ALT.OFF. Date..01/11/07 12:52:59 MICROPAS7 v7.10 File-26486B1 Wth-CTZ15S05 Program -FORM CF-lR User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2.OFF.OPT Zone Type 1.ZONE Residence 2.ZONE Residence Surface 1.ZONE 1 Wall 3 Wall 5 Wall 7 Wall 9 Wall 10 wall 11 Wall 13 Door 14 RoofRad 2.ZONE 2 Wall 4 Wall 6 Wall 8 wall 12 Door 15 RoofRad Surface 1.ZONE 16 SlabEdge 18 SlabEdge 2.ZONE 17 SlabEdge Floor Construction Type.... Slab On Grade Number of Building Zones... 2 Conditioned Volume......... 36163 cf Slab -On -Grade Area......... 3316 sf Glazing Percentage......... 19.6 % of floor area Average Glazing U-factor... 0.4 Btu/hr-sf-F Average Glazing SHGC....... 0.37 Average Ceiling Height..... 10.9 ft BUILDING ZONE INFORMATION Floor # of # of Cond- Thermo- Vent Vent Verified Area Volume Dwell Peop it- stat Height Area Leakage or (sf) (cf) Units le ioned Type (ft) (sf) Housewrap 3058 33583 0.92 6.5 Yes Setback 2.0 Standard No 258 2580 0.08 0.5 Yes Setback 2.0 Standard No OPAQUE SURFACES U- Sheath- Solar Appendix Frame Area fact- Cavity ing Act Gains IV Location/ Type (sf) or R-val R-val Azm Tilt Reference Comments Wood 252 0.055 19 4 0 90 Yes IV.9 C5 2X6 Studs Wood 734 0.055 19 4 90 90 Yes IV.9 C5 Wood 308 0.055 19 4 180 90 Yes IV.9 C5 Wood 928 0.055 19 4 270 90 Yes IV.9 C5 Wood 33.9 0.074 19 0 0 90 No IV.9 A5 Wood 29 0.055 19 4 225 90 Yes IV.9 C5 Wood 208 0.055 19 4 315 90 Yes IV.9 C5 Other 24 0.500 0 0 0 90 No IV.28 A4 Wood 3057 0.025 38 0 n/a 0 Yes IV.1 A18 Wood 173 0.055 19 4 0 90 Yes IV.9 C5 2X6 Studs Wood 102 0.055 19 4 90 90 Yes IV.9 C5 Wood 176 0.055 19 4 180 90 Yes IV.9 C5 Wood 129 0.055 19 4 270 90 Yes IV.9 C5 Other 24 0.500 0 0 0 90 Yes IV.28 A4 Wood 258 0.025 38 0 n/a 0 Yes IV.1 A18 PERIMETER LOSSES Appendix Length F2 Insul Solar IV Location/ (ft) Factor R-val Gains Reference Comments 250 0.730 R-0 No IV.26 Al 36 0.730 R-0 No IV.26 Al 66 0.730 R-0 No IV.26 Al CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF-1R Page 3 Project Title.......... ANDALUSIA.PLAN2.ALT.OFF Date..01/11/07 12:52:59 MICROPAS7 v7.10 File-26486B1 Wth-CTZ15S05 Program -FORM CF-1R User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2.OFF.OPT FENESTRATION SURFACES Exterior Area U- Act Shade Orientation (sf) factor SHGC Azm Tilt Type Location/Comments 1.ZONE 1 Door Back (S) 24.0 0.380 0.350 180 90 Standard W1/FR.DR Average 2 Wind Back (S) 25.0 0.380 0.350 180 90 Standard W2/Fixed Average 3 Wind Back (S) 10.0 0.380 0.350 180 90 Standard W3/Operable Average 4 Door Back (S) 24.0 0.380 0.350 180 90 Standard W4/FR.DR Average 5 Wind Left (E) 9.0 0.380 0.350 90 90 Standard W5/Fixed Average 6 Wind Back (S) 12.0 0.380 0.350 180 90 Standard W6/Fixed Average 7 Wind Back (S) 20.0 0.380 0.350 180 90 Standard W7/Fixed Average i 8 Wind Back (S) 8.0 0.380 0.350 180 90 Standard W8/Operable Average 9 Wind Back (SW) 6.0 0.380 0.350 225 90 Standard W9/Fixed Average 10 Wind Back (SW) 10.0 0.380 0.350 225 90 Standard W10/Fixed Average 11 Wind Back (SW) 4.0 0.380 0.350 225 90 Standard W11/Casement Average 12 Door Back (S) 144.0 0.400 0.400 180 90 Standard W12/Patio Dr Average 13 Wind Right (W) 3.8 0.380 0.350 270 90 Standard W13/Fixed Average 14 Wind Right (W) 25.0 0.380 0.350 270 90 Standard W14/Fixed Average f 15 '16 Wind Right (W) 3.8 0.380 0.350 270 90 Standard W15/Fixed Average Wind Right (W) 3.8 0.380 0.350 270 90 Standard W16/Fixed Average 17 Wind Right (W) 25.0 0.380 0.350 270 90 Standard W17/Fixed Average 18 Wind Right (W) 3.8 0.380 0.350 270 90 Standard W18/Fixed Average 19 Wind Right (W) 15.0 0.380 0.350 270 90 Standard W19/Casement Average 20 Wind Front (N) 6.0 0.380 0.350 0 90 Standard W20/Fixed Average 21 Door Front (N) 48.0 0.500 0.500 0 90 Standard W21/Entry Dr Average 22 Wind Right (W) 12.5 0.380 0.350 270 90 Standard W22/Casement Average 23 Wind Front (N) 12.5 0.380 0.350 0 90 Standard W23/Casement Average 24 Wind Right (W) 6.0 0.380 0.350 270 90 Standard W24/Casement Average 25 Wind Right (W) 6.0 0.380 0.350 270 90 Standard W25/Casement Average 26 Wind Back (S) 15.0 0.380 0.350 180 90 Standard W26/Casement Average 27 Door Right (W) 40.0 0.380 0.350 270 90 Standard W27/FR.DR Average 28 Wind Front (N) 15.0 0.380 0.350 0 90 Standard W28/Casement Average 29 Wind Right (W) 6.0 0.380 0.350 270 90 Standard W29/Casement Average 30 Wind Front (N) 2.3 0.380 0.350 0 90 Standard W30/Casement Average 31 Wind Left (E) 2.3 0.380 0.350 90 90 Standard W31/Fixed Average 32 Wind Left (E) 23.4 0.380 0.350 90 90 Standard W32/Casement Average 33 Wind Left (E) 14.0 0.380 0.350 90 90 Standard W33/Fixed Average 34 Wind Left (E) 4.0 0.380 0.350 90 90 Standard W34/Casement Average 35 Wind Left (E) 4.0 0.380 0.350 90 90 Standard W35/Casement Average 36 Skyl Horz 1.0 1.720 0.830 0 0 None W36/Skylight Average 2.ZONE 37 Wind Front (N) 13.8 0.380 0.350 0 90 Standard W37/Fixed Average 38 Wind Front (N) 13.8 0.380 0.350 0. 90 Standard W38/Fixed Average 39 Wind Left (E) 13.8 0.380 0.350 90 90 Standard W39/Fixed Average 40 Wind Left (E) 13.8 0.380 0.350 90 90 Standard W40/Fixed Average CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF-1R Page 4 Project Title.......... ANDALUSIA.PLAN2.ALT.OFF Date..01/11/07 12:52:59 MICROPAS7 v7.10 File-26486B1 Wth-CTZ15S05 Program -FORM CF-1R User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2.OFF.OPT OVERHANGS Window Overhang Area Left Right Surface (sf) Width Height Depth Height Extension Extension 1.ZONE 1 Door 24.0 3 8 6 2 n/a n/a 2 Window 25.0 5 5 6 2 n/a n/a 3 Window 10.0 5 2 6 7 n/a n/a 4 Door 24.0 3 8 6 2 n/a n/a 5 Window 9.0 2 4.5 16 4 n/a n/a 6 Window 12.0 4 3 14 3 n/a n/a 7 Window 20.0 4 5 14 7 n/a n/a ". 8 Window 8.0 4 2 14 12 n/a n/a 9 Window 6.0 2 3 20 3 n/a n/a 10 Window 10.0 2 5 20 7 n/a n/a 11 Window 4.0 2 2 20 12 n/a n/a 12 Door 144.0 12 12 16 2 n/a n/a 21 Door 48.0 6 8 3 1 n/a n/a SLAB SURFACES Area Slab Type (sf) 1.ZONE Standard Slab 3058 2.ZONE Standard Slab 258 HVAC SYSTEMS Verified Number Verified Verified Verified Verified Maximum System of Minimum Refrig Charge Adequate Fan Watt Cooling Type Systems Efficiency EER or TXV Airflow Draw Capacity 1.ZONE Furnace 2.0 0.800 AFUE n/a n/a n/a n/a n/a ACSplit 2.0 13.00 SEER 11.5 Yes No No No 2.ZONE HPSplit 1.0 8.00 HSPF n/a n/a n/a n/a n/a HPSplit 1.0 13.00 SEER No No No No No HVAC SIZING Verified Total Sensible Design Maximum Heating Cooling Cooling Cooling System Load Load Capacity Capacity Type (Btu/hr) (Btu/hr) (Btu/hr) (Btu/hr) 1.ZONE Furnace 62044 n/a n/a n/a ACSplit n/a 49849 61863 n/a CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF-lR Page 5 Project Title.......... ANDALUSIA.PLAN2.ALT.OFF Date..01/11/07 12:52:59 MICROPAS7 v7.10 File-26486B1 Wth-CTZ15S05 Program -FORM CF-1R User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2.OFF.OPT System Type 2.ZONE HPSplit HPSplit Total HVAC SIZING Verified Total Sensible Design Maximum Heating Cooling Cooling Cooling Load (Btu/hr) Load (Btu/hr) Capacity (Btu/hr) Capacity (Btu/hr) 8959 n/a n/a n/a n/a 5465 6782 n/a 71003 55314 68645 n/a Orientation of Maximum..... Front Facing 180 deg (S) Sizing Location... ...... INDIO Winter Outside Design...... 24 F Winter Inside Design....... 70 F Summer Outside Design...... 111 F Summer Inside Design....... 75 F Summer Range ............... 30 F DUCT SYSTEMS Verified Verified Verified System Duct Duct Duct Surface Buried Type Location R-value Leakage Area Ducts 1.ZONE Furnace Attic R-4.2 No No No ACSplit Attic R-4.2 No No No 2.ZONE HPSplit Attic R-4.2 No No No HPSplit Attic R-4.2 No No No WATER HEATING SYSTEMS Number Tank External Heater in Energy Size Insulation Tank Type Type Distribution Type System Factor (gal) R-value 1 Large Gas Recirc/TimeTemp 1 n/a 75 R-0 WATER HEATING SYSTEMS DETAIL Standby Internal Tank Recovery Rated Loss Insulation Pilot System Efficiency Input Fraction R-value Light 1 Large 0.80 n/a 0.03 R-n/a 0 CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF-lR Page 6 Project Title.......... ANDALUSIA.PLAN2.ALT.OFF Date..01/11/07 12:52:59 MICROPAS7 v7.10 File-26486B1 Wth-CTZ15S05 Program -FORM CF-1R User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2.OFF.OPT SPECIAL FEATURES AND MODELING ASSUMPTIONS *** *** Items in this section should be documented on the plans, *** installed to manufacturer and CEC specifications, and *** i *** verified during plan check and field inspection. *** This building incorporates a HERS verified Refrigerant Charge test or a HERS verified Thermostatic Expansion Valve (TXV). If a i cooling system is not installed, then HERS verification is not necessary. This building incorporates HERS verified EER. I This is a multiple orientation building. This printout is for the front facing North. This building incorporates a Radiant Barrier. This building incorporates a non-standard Water Heating System. HERS REQUIRED VERIFICATION I *** Items in this section require field testing and/or *** *** verification by a certified home energy rater under *** *** the supervision of a CEC-approved HERS provider using *** *** CEC approved testing and/or verification methods and *** *** must be reported on the CF-4R installation certificate. *** This building incorporates a HERS verified Refrigerant Charge test or a HERS verified Thermostatic Expansion Valve (TXV). If a cooling system is not installed, then HERS verification is not necessary. This building incorporates HERS verified EER. REMARKS UPDATED COMPLIANCE CALCULATION TO ALLOW FOR OPTIONAL OFFICE IN PLACE OF GARAGE 2. NO CHANGES MADE TO MAIN HOUSE INPUT OR REQUIREMENTS. SEE COMPLIANCE FORM CF-1R ADDENDUM A FOR ADDITIONAL REQUIREMENTS AND REMARKS BY DOCUMENTATION AUTHOR. Ma d1iY S enterprises Catherine M. Madura, Certified Bneaxy Analyst If 760-322-5004 / 323-3644 (fax) ..... Y . H. VA. C. Load Calculation Catherine M. Madlin, Certified Energy Analyst - 760-322-5004 / 323-3644 Fax Post Office Box 1443 - Palm Springs, CA 92263-1443 - Cmadlin@aol. com MadlinY s enterprises vvvvvvv Andalusia at Coral Mountain Plan 2 with Guest suite Option HVAC SIZING HVAC Page 1 Project Title.......... ANDALUSIA.PLAN2.WG/GS.OFF Date..12/04/06 19:38:38 ProjJect Address PLAN 2 WIT H GH/OFF OP ******* TIO ••-•••-• N ANDALUSIA, LA QUINTA *v7.10* Documentation Author... CATHERINE M. MADLIN ******* Building Permit Madlin's Enterprises P.O. Box 1443 Plan Check Date Palm Springs, CA 92262 760-322-5004 Field C ec Date Climate Zone.. ..... 15 Compliance Method...... MICROPAS7 v7.10 for 2005 Standards by Enercomp, Inc. MICROPAS7 v7.10 File-26485A1 Wth-CTZ15S05 Program-HVAC SIZING User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2+OPTIONS GENERAL INFORMATION Floor Area. ................ Volume.. ........... Front Orientation.......... Sizing Location............ Latitude... .... ........ Winter Outside Design...... Winter Inside Design....... Summer Outside Design...... Summer Inside Design....... Summer Range.. ... ..... Interior Shading Used...... Exterior Shading Used...... Overhang Shading Used...... Latent Load Fraction....... 3330 sf 36303 cf Front Facing INDIO 33.7 degrees 24 F 70 F 111 F 75 F 30 F Yes Yes Yes 0.24 HEATING AND COOLING LOAD SUMMARY Heating Description (Btu/hr) 0 deg (N) Cooling (Btu/hr) Opaque Conduction and Solar...... 30332 12689 Glazing Conduction and Solar..... 11626 17562 Infiltration ..................... 14743 8073 Internal Gain .................... n/a 3210 Ducts ............................ 14549 12916 Sensible Load .................... 71251 54450 Latent Load ...................... n/a 13122 Minimum Total Load 71251 67573 Note: The loads shown are only one of the criteria affecting the selection of HVAC equipment. Other relevant design factors such as air flow requirements, outside air, outdoor design temperatures, coil sizing, availability of equipment, oversizing safety margin, etc., must also be considered. It is the HVAC designer's responsibility to consider all factors when selecting the HVAC equipment. HVAC SIZING I HVAC Page 2 Project Title.......... ANDALUSIA.PLAN2.WG/GS.OFF Date..12/04/06 19:38:38 MICROPAS7 v7.10 File-26485A1 Wth-CTZ15S05 Program-HVAC SIZING User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2+OPTIONS HEATING AND COOLING LOAD SUMMARY BY ZONE ZONE '1.ZONE' Floor Area ....................... 3058 sf Volume ........................... 33583 cf Heating Description (Btu/hr) Opaque Conduction and Solar...... 24996 Glazing Conduction and Solar..... 10840 Infiltration ..................... 13539 InternalGain .................... n/a Ducts............................ 12669 Sensible Load .................... 62044 Latent Load ...................... n/a Minimum Zone Load 62044 ZONE 12.ZONE' Floor Area ....................... 272 sf Volume........................... 2720 cf Heating Description (Btu/hr) Opaque Conduction and Solar...... 5336 Glazing Conduction and Solar..... 787 Infiltration ..................... 1204 InternalGain .................... n/a Ducts............................ 1880 Sensible Load .................... 9207 Latent Load ...................... n/a Minimum Zone Load 9207 Cooling (Btu/hr) 10926 16494 7414 2947 11748 49529 11937 ;::r. Cooling (Btu/hr) 1763 1068 659 263 1167 4921 1186 6107 HVAC SIZING HVAC Page 3 Project Title.......... ANDALUSIA.PLAN2.WG/GS.OFF Date..12/04/06 19:38:38 MICROPAS7 v7.10 File-26485A1 Wth-CTZ15S05 Program-HVAC SIZING User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2+OPTIONS GENERAL INFORMATION FloorArea ................. Volume........ ............ Front Orientation.......... Sizing Location............ Latitude... .... ....... Winter Outside Design...... Winter Inside Design., .... Summer Outside Design...... Summer Inside Design....... Summer Range. ..... Interior Shading Used...... Exterior Shading Used...... Overhang Shading Used...... Latent Load Fraction....... Description 3330 sf 36303 cf Front Facing 90 deg (E) INDIO 33.7 degrees 24 F 70 F Ill F 75 F 30 F Yes Yes Yes 0.24 HEATING AND COOLING LOAD SUMMARY Heating Cooling (Btu/hr) (Btu/hr) Opaque Conduction and Solar...... 30332 Glazing Conduction and Solar..... 11626 Infiltration ..................... 14743 Internal Gain.. .................. n/a Ducts............................ 14549 12194 18090 8073 3210 12926 Sensible Load .................... 71251 54493 Latent Load ...................... n/a 13133 Minimum Total Load 71251 67626 Note: The loads shown are only one of the criteria affecting the selection of HVAC equipment. Other relevant design factors such as air flow requirements, outside air, outdoor design temperatures, coil sizing, availability of equipment, oversizing safety margin, etc., must also be considered. It is the HVAC designer's responsibility to consider all factors when selecting the HVAC equipment. HVAC SIZING HVAC Page 4 Proiect T]tlA--------- AMMITATCTA DT.2fA77 TTi-/.tee nzz MICROPAS7 v7.10 File-26485A1 Wth-CTZ15S05 Program-HVAC SIZING User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2+OPTIONS HEATING AND COOLING LOAD SUMMARY BY ZONE ZONE '1.ZONE' FloorArea ....................... 3058 sf Volume ........................... 33583 cf Heating Description (Btu/hr) Opaque Conduction and Solar...... 24996 Glazing Conduction and Solar..... 10840 Infiltration ..................... 13539 InternalGain .................... n/a Ducts............................ 12669 Sensible Load .................... 62044 LatentLoad ...................... n/a Minimum Zone Load 62044 ZONE '2.ZONE' Floor Area ....................... 272 sf Volume........................... 2720 cf Heating Description (Btu/hr) Opaque Conduction and Solar...... 5336 Glazing Conduction and Solar..... 787 Infiltration ..................... 1204 Internal Gain .................... n/a Ducts ............................ 1880 Sensible Load .................... 9207 Latent Load ...................... n/a Minimum Zone Load 9207 Cooling (Btu/hr) 10285 16491 7414 2947 11548 48685 11733 60418 Cooling (Btu/hr) 1909 1598 659 263 1378 5808 1400 7207 HVAC SIZING HVAC Page 5 Project Title.......... ANDALUSIA.PLAN2.WG/GS.OFF Date..12/04/06 19:38:38 MICROPAS7 v7.10 File-26485A1 Wth-CTZ15S05 Program-HVAC SIZING User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2+OPTIONS GENERAL INFORMATION FloorArea ................. Volume...... ........... Front Orientation.......... Sizing Location............ Latitude... .. ........ Winter Outside Design...... Winter Inside Design....... Summer Outside Design...... Summer Inside Design....... Summer Range.. ..... ..... Interior Shading Used...... Exterior Shading Used...... Overhang Shading Used...... Latent Load Fraction....... Description 3330 sf 36303 cf Front Facing INDIO 33.7 degrees 24 F 70 F 111 F 75 F 30 F Yes Yes Yes 0.24 HEATING AND COOLING LOAD SUMMARY Opaque Conduction and Solar...... Glazing Conduction and Solar..... Infiltration ..................... Internal Gain .................... Ducts............................ Sensible Load .................... Latent Load ...................... Minimum Total Load 180 deg (S) Heating Cooling (Btu/hr) (Btu/hr) 30332 12735 11626 17774 14743 8073 n/a 3210 14549 12996 71251 54788 n/a 13204 71251 67991 Note: The loads shown are only one of the criteria affecting the selection of HVAC equipment. Other relevant design factors such as air flow requirements, outside air, outdoor design temperatures, coil sizing, availability of equipment, oversizing safety margin, etc., must also be considered. It is the HVAC designer's responsibility to consider all factors when selecting the HVAC equipment. HVAC SIZING HVAC Page 6 Project Title.......... ANDALUSIA.PLAN2.WG/GS.OFF Date..12/04/06 19:38:38 MICROPAS7 v7.10 File-26485A1 Wth-CTZ15S05 Program-HVAC SIZING User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2+OPTIONS HEATING AND COOLING LOAD SUMMARY BY ZONE ZONE '1.ZONE' Floor Area ....................... 3058 sf Volume ........................... 33583 cf Heating Cooling Description (Btu/hr) (Btu/hr) Opaque Conduction and Solar...... 24996 10939 Glazing Conduction and Solar..... 10840 16706 Infiltration ..................... 13539 7414 Internal Gain .................... n/a 2947 Ducts ............................ 12669 11818 Sensible Load .................... 62044 49824 Latent Load ...................... n/a 12008 Minimum Zone Load 62044 61832 ZONE 12.ZONE' Floor Area ....................... 272 sf Volume ........................... 2720 cf Heating Cooling Description (Btu/hr) (Btu/hr) Opaque Conduction and Solar...... 5336 1796 Glazing Conduction and Solar..... 787 1067 Infiltration ..................... 1204 659 Internal Gain .................... n/a 263 Ducts ............................ 1880 1177 Sensible Load .................... 9207 4964 Latent Load ...................... n/a 1196 Minimum Zone Load 9207 6160 HVAC SIZING HVAC Page 7 Project Title.......... ANDALUSIA.PLAN2.WG/GS.OFF Date..12/04/06 19:38:38 MICROPAS7 v7.10 File-26485A1 Wth-CTZ15S05 Program-HVAC SIZING User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2+OPTIONS GENERAL INFORMATION Floor Area ................. 3330 sf Volume.. ..... ........... 36303 cf Front Orientation.......... Front Facing 270 deg (W) Sizing Location............ INDIO Latitude... .... ....... 33.7 degrees Winter Outside Design...... 24 F Winter Inside Design....... 70 F Summer Outside Design...... 111 F Summer Inside Design....... 75 F Summer Range........ 30 F Interior Shading Used...... Yes Exterior Shading Used...... Yes Overhang Shading Used...... Yes Latent Load Fraction....... 0.24 HEATING AND COOLING LOAD SUMMARY Description Heating Cooling (Btu/hr) (Btu/hr) Opaque Conduction and Solar...... 30332 Glazing Conduction and Solar..... 11626 Infiltration ..................... 14743 Internal Gain .................... n/a Ducts ............................ 14549 12265 17875 8073 3210 12881 Sensible Load .................... 71251 54303 Latent Load ...................... n/a 13087 Minimum Total Load 71251 67391 Note: The loads shown are only one of the criteria affecting the selection of HVAC equipment. Other relevant design factors such as air flow requirements, outside air, outdoor design temperatures,* coil sizing, availability of equipment, oversizing safety margin, etc., must also be considered. It is the HVAC designer's responsibility to consider all factors when selecting the HVAC equipment. HVAC SIZING HVAC Page 8 Project Title.......... ANDALUSIA.PLAN2.WG/GS.OFF Date..12/04/06 19:38:38 MICROPAS7 v7.10 File-26485A1 Wth-CTZ15S05 Program-HVAC SIZING User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2+OPTIONS HEATING AND COOLING LOAD SUMMARY BY ZONE ZONE '1.ZONE' Floor Area....... ................ 3058 sf Volume........................... 33583 cf Heating Description (Btu/hr) Opaque Conduction and Solar...... 24996 Glazing Conduction and Solar..... 10840 Infiltration ..................... 13539 InternalGain .................... n/a Ducts............................ 12669 Sensible Load .................... 62044 Latent Load ...................... n/a Minimum Zone Load 62044 ZONE 12.ZONE' Floor Area ....................... Volume........................... 272 sf 2720 cf Heating Description (Btu/hr) Opaque Conduction and Solar...... 5336 Glazing Conduction and Solar..... 787 Infiltration ..................... 1204 Internal Gain .................... n/a Ducts............................ 1880 Sensible Load .................... 9207 LatentLoad ...................... n/a Minimum Zone Load 9207 Cooling (Btu/hr) 10354 16276 7414 2947 11503 48493 11687 Cooling (Btu/hr) 1911 1599 659 263 1378 5810 1400 7211 Catherine M. Madlin, Certified Energy Analyst - 760-322-5004 / 323-3644 Fax Post Office Box 1443 - Palm Springs, CA 92263-1443 -, Cmadlin@aol.com Madlin s enterprises vvvvvvv Andalusia at Coral Mountain Plan 2 with Office Option HVAC SIZING HVAC Page 1 Project Title.......... ANDALUSIA.PLAN2.ALT.OFF Date..01/11/07 12:52:59 Pro]ejct Address PLAN 2 W/ OFF ******* ........ ALT ANDALUSIA, LA QUINTA *v7.10* Documentation Author... CATHERINE M. MADLIN ******* Building Permit Madlin's Enterprises P.O. Box 1443 Plan Check Date Palm Springs, CA 92262 760-322-5004 Field C ec Date Climate Zone.. ..... 15 Compliance Method...... MICROPAS7 v7.10 for 2005 Standards by Enercomp, Inc. MICROPAS7 v7.10 File-26486B1 Wth-CTZ15S05 Program-HVAC SIZING User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2.OFF.OPT GENERAL INFORMATION Floor Area ................. 3316 sf Volume.. .. ..... 36163 cf Front Orientation.......... Front Facing Sizing Location........... INDIO Latitude ................... 33.7 degrees Winter Outside Design...... 24 F Winter Inside Design....... 70 F Summer Outside Design...... 111 F Summer Inside Design....... 75 F Summer Range.. .... ..... 30 F Interior Shading Used ...... Yes Exterior Shading Used...... Yes Overhang Shading Used...... Yes Latent Load Fraction....... 0.24 Description HEATING AND COOLING LOAD SUMMARY Heating (Btu/hr) Opaque Conduction and Solar...... 30023 Glazing Conduction and Solar..... 11801 Infiltration ..................... 14681 InternalGain .................... n/a Ducts............................ 14499 0 deg (N) Cooling (Btu/hr) 12561 18124 803.9 3210 13040 Sensible Load .................... 71003 54974 Latent Load ...................... n/a 13249 Minimum Total Load 71003 68223 Note: The loads shown are only one of the criteria affecting the selection of HVAC equipment.. Other relevant design factors such as air flow requirements, outside air, outdoor design temperatures, coil sizing, availability of equipment, oversizing safety margin, etc., must also be considered. It is the HVAC designer's responsibility to consider all factors when selecting the HVAC equipment. HVAC SIZING HVAC Page 2 Project Title.......... ANDALUSIA.PLAN2.ALT.OFF Date..01/11/07 12:52:59 MICROPAS7 v7.10 File-26486B1 Wth-CTZ15S05 Program-HVAC SIZING User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2.OFF.OPT HEATING AND COOLING LOAD SUMMARY BY ZONE ZONE '1.ZONE' Floor Area ....................... 3058 sf Volume............................ 33583 cf Heating Cooling Description (Btu/hr) (Btu/hr) Opaque Conduction and Solar...... 24996 10926 Glazing Conduction and Solar..... 10840 16494 Infiltration ..................... 13539 7414 Internal Gain .................... n/a 2966 Ducts ............................ 12669 11754 Sensible Load .................... 62044 49555 Latent Load ...................... . n/a 11943 Minimum Zone Load 62044 61497 ZONE 12.ZONE' Floor Area ....................... 258 sf Volume ........................... 2580 cf Heating Cooling Description (Btu/hr) (Btu/hr) Opaque Conduction and Solar...... 5026 1635 Glazing Conduction and Solar..... 961 1630 Infiltration ..................... 1142 625 Internal Gain .................... n/a 244 Ducts ............................ 1830 1285 Sensible Load .................... 8959 5419 Latent Load ...................... n/a 1306 Minimum Zone Load 8959 6725 HVAC SIZING HVAC Page 3 Project Title.......... ANDALUSIA.PLAN2.ALT.OFF Date..01/11/07 12:52:59 MICROPAS7 v7.10 File-26486B1 Wth-CTZ15S05 Program-HVAC SIZING User#-MP0207 User-Madlin's Enterprises Run=ANDALUSIA.PLAN2.OFF.OPT GENERAL INFORMATION FloorArea ................. Volume....... ........... Front Orientation.......... Sizing Location............ Latitude... ... ....... Winter Outside Design...... Winter Inside Design....... Summer Outside Design...... Summer Inside Design....... Summer Range.. ...... Interior Shading Used Exterior Shading Used...... Overhang Shading Used...... Latent Load Fraction....... Description 3316 sf 36163 cf Front Facing INDIO 33.7 degrees 24 F 70 F 111 F 75 F 30 F Yes Yes Yes 0.24 HEATING AND COOLING LOAD SUMMARY Heating (Btu/hr) Opaque Conduction and Solar...... 30023 Glazing Conduction and Solar..... 11801 Infiltration ..................... 14681 Internal Gain .................... n/a Ducts ............................ 14499 90 deg (E) Cooling (Btu/hr) 12102 18121 8039 3210 12896 Sensible Load .................... 71003 54368 Latent Load ............. n/a 13103 Minimum Total Load 71003 67471 Note: The loads shown are only one of the criteria affecting the selection of HVAC equipment. Other relevant design factors such as air flow requirements, outside air, outdoor design temperatures, coil sizing, availability of equipment, oversizing safety margin, etc., must also be considered. It is the HVAC designer's responsibility to consider all factors when selecting the HVAC equipment. HVAC SIZING HVAC Page 4 Project Title.......... ANDALUSIA.PLAN2.ALT.OFF Date..01/11/07 12:52:59 MICROPAS7 v7.10 File-26486B1 Wth-CTZ15S05 Program-HVAC SIZING User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2.OFF.OPT HEATING AND COOLING LOAD SUMMARY BY ZONE ZONE '1.ZONE' FloorArea ....................... Volume 3058 sf ........................... 33583 cf Heating Description (Btu/hr) Opaque Conduction and Solar...... 24996 Glazing Conduction and Solar..... 10840 Infiltration ..................... 13539 Internal Gain .................... n/a Ducts ............................ 12669 Sensible Load .................... 62044 Latent Load ...................... n/a Minimum Zone Load 62044 ZONE '2.ZONE' Floor Area ....................... Volume 258 sf ........................... 2580 cf Heating Description (Btu/hr) Opaque Conduction and Solar...... 5026 Glazing Conduction and Solar..... 961 Infiltration ..................... 1142 Internal Gain .................... n/a Ducts............................ 1830 Sensible Load .................... 8959 Latent Load ...................... n/a Minimum Zone Load 8959 Cooling (Btu/hr) 10285 16491 7414 2966 11554 48710 11739 60450 Cooling (Btu/hr) 1817 1629 625 244 1342 5658 1364 7022 HVAC SIZING HVAC Page 5 Project Title.......... ANDALUSIA.PLAN2.ALT.OFF Date..01/11/07 12:52:59 MICROPAS7 v7.10 File-26486B1 Wth-CTZ15S05 Program-HVAC SIZING User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2.OFF.OPT GENERAL INFORMATION FloorArea ................. Volume........ ........... Front Orientation.......... Sizing Location............ Latitude... .. ....... Winter Outside Design.... Winter Inside Design....... Summer Outside Design...... Summer Inside Design....... Summer Range.. ... ..... Interior Shading Used...... Exterior Shading Used...... Overhang Shading Used...... Latent Load Fraction....... Description 3316 sf 36163 cf Front Facing INDIO 33.7 degrees 24 F 70 F 111 F 75 F 30 F Yes Yes Yes 0.24 HEATING AND COOLING LOAD SUMMARY 180 deg (S) Heating Cooling (Btu/hr) (Btu/hr) Opaque Conduction and Solar...... 30023 Glazing Conduction and Solar..... 11801 Infiltration ..................... 14681 Internal Gain .................... n/a Ducts............................ 14499 12609 18335 8039 3210 13120 Sensible Load.... .............. 71003 55314 Latent Load....... ............... n/a 13331 Minimum Total Load 71003 68645 Note: The loads shown are only one of the criteria affecting the selection of HVAC equipment. Other relevant design factors such as air flow requirements, outside air, outdoor design temperatures, coil sizing, availability of equipment, oversizing safety margin, etc., must also be considered. It is the HVAC designer's responsibility to consider all factors when selecting the HVAC equipment. HVAC SIZING HVAC Page 6 Project Title.......... ANDALUSIA.PLAN2.ALT.OFF. Date..01/11/07 12:52:59 MICROPAS7 v7.10 File-26486B1 Wth-CTZ15S05 Program-HVAC SIZING User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2.OFF.OPT HEATING AND COOLING LOAD SUMMARY BY ZONE ZONE '1.ZONE' Floor Area ....................... 3058 sf Volume ........................... 33583 cf Heating Description (Btu/hr) Opaque Conduction and Solar...... 24996 Glazing Conduction and Solar..... 10840 Infiltration ..................... 13539 InternalGain .................... n/a Ducts ............................ 12669 Sensible Load .................... 62044 Latent Load ...................... n/a Minimum Zone Load 62044 ZONE 12.ZONE' Floor Area ....................... 258 sf Volume ........................... 2580 cf Heating Description (Btu/hr) Opaque Conduction and Solar...... 5026 Glazing Conduction and Solar..... 961 Infiltration ..................... 1142 Internal Gain .................... n/a Ducts............................ 1830 Sensible Load .................... 8959 LatentLoad ...................... n/a Minimum Zone.Load 8959 Cooling (Btu/hr) 10939 16706 7414 2966 11824 49849 12014 61863 Cooling (Btu/hr) 1670 1629 625 244 1296 5465 1317 6782 HVAC SIZING HVAC Page 7 Project Title........... ANDALUSIA.PLAN2.ALT.OFF Date..01/11/07 12:52:59 MICROPAS7 v7.10 File-26486B1 Wth-CTZ15S05 Program-HVAC SIZING User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2.OFF.OPT GENERAL INFORMATION FloorArea ................. Volume.. ......... Front Orientation.......... Sizing Location............ Latitude.. .... ....... Winter Outside Design...... Winter Inside Design....... Summer Outside Design...... Summer Inside Design....... Summer Range.. ... ..... Interior Shading Used...... Exterior Shading Used...... Overhang Shading Used...... Latent Load Fraction....... Description 3316 sf 36163 cf Front Facing INDIO 33.7 degrees 24 F 70 F 111 F 75 F 30 F Yes Yes Yes 0.24 HEATING AND COOLING LOAD SUMMARY Heating (Btu/hr) Opaque Conduction and Solar...... 30023 Glazing Conduction and Solar..... 11801 Infiltration ..................... 14681 InternalGain .................... n/a Ducts ............................ 14499 270 deg (W) Cooling (Btu/hr) 12177 17906 8039 3210 12852 Sensible Load .................... 71003 54184 Latent Load.. .................... n/a 13058 Minimum Total Load 71003 67243 Note: The loads shown are only one of the criteria affecting the selection of HVAC equipment. Other relevant design factors such as air flow requirements, outside air, outdoor design temperatures, coil sizing, availability of equipment, oversizing safety margin, etc., must also be considered. It is the HVAC designer's responsibility to consider all factors when selecting the HVAC equipment. HVAC SIZING HVAC Page 8 Project Title.......... ANDALUSIA.PLAN2.ALT.OFF Date..01/11/07 12:52:59 MICROPAS7 v7.10 File-26486B1 Wth-CTZ15S05 Program-HVAC SIZING User#-MP0207 User-Madlin's Enterprises Run-ANDALUSIA.PLAN2.OFF.OPT HEATING AND COOLING LOAD SUMMARY BY ZONE ZONE '1.ZONE' Floor Area.... ................... 3058 sf Volume ........................... 33583 cf Heating Cooling Description (Btu/hr) (Btu/hr) Opaque Conduction and Solar...... 24996 10354 Glazing Conduction and Solar..... 10840 16276 Infiltration .............. 13539 7414 Internal Gain .................... n/a 2966 Ducts ............................ 12669 11508 Sensible Load .................... 62044 48518 Latent Load ...................... n/a 11693 j Minimum Zone Load 62044 60211 ZONE 12.ZONE' Floor Area ....................... 258 sf Volume ........................... 2580 cf Heating Cooling Description (Btu/hr) (Btu/hr) Opaque Conduction and Solar...... 5026 1823 ! Glazing Conduction and Solar..... 961 1630 Infiltration ..................... 1142 625 Internal Gain .................... n/a 244 Ducts ............................ 1830 1344 Sensible Load .................... 8959 5666 Latent Load ...................... n/a 1365 Minimum Zone Load 8959 7031 Madlin's enterprises Catherine M. Madlirz, Certi, fled Energy Analyst v 760-322-5004 / 323-3644 (fax) ... `. v . . Addendums and Notes Madlin s enterprises Catherine M. Madlin, Certified Energy Analyst v- 760-322-5004 / 323-3644 Fax Post Office Box 1443 v' Palm Springs, CA 92263-1443 - Cmadlin@aol.com Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt Residential Lighting - Mandatory Measures High Efficacy Luminaires A luminaire is the lighting industry's term for light fixture. A luminaire consists of the housing, power supply (ballast), lamp, fle nd in some cases a lens. A lamp is the lighting industry's term for a lig:b inaires can be designed to be recessed into the �giling, sub by a rod o hair, or surface mounted on the wall or ceilinm A high efficacy I i �on a6onta�ns only high efficacy lamps and must t con -� c hvent al ► e ' m) screw -based socket. Typically, high ►ca I al in, pin -based sockets, like compact or linear fluorescent V Ia a hough other types such as screw sockets specifically rated for fig i rty discharge lamps (like metal halide lamps) may also be eligible for xtenor use. Luminaires with modular components that allow conversion between screw -based and pin -based sockets without changing the luminaire housing or wiring shall not be considered high efficacy luminaires. These requirements prevent low efficacy lamps being retrofitted in high efficacy luminaires. Also, compact fluorescent luminaires with permanently installed ballasts that are capable of operating a range of lamp wattages, the highest operating input wattage of the rated lamp/ballast combination must be use for determining the luminaire wattage. There are two qualifying requirements for a high efficacy luminaire: t-t e lumens per watt for the lamp be above a specified thr8shold th �eJ onic ballasts be used in certain applications. Electronic Ballasts Additionally, fluo t a po r rating of 13 W or more shall have an-eiL-ctror�ic Ila ha a tes a lamp at a frequency of 20 kHz or more. All ro mmon �valle ctro c ballasts meet this requirement. Outdoor lipliRaire With Hugh intensity discharge (HID) lamps (like metal halide or high - tt=esss ium) containing hardwired electromagnetic HID ballasts with HID Inedium base sockets and lamps meeting the minimum efficacy requirements in Table 6-1 are considered high efficacy. At the present time, pin based compact fluorescent lamps that are operated with electronic ballasts typically have four -pin lamp holders. Pin -based compact fluorescent lamps with two -pin lamp holders typically will indicate that the ballast is magnetic. However, there are new compact fluorescent lamp holders being considered by the lighting industry. Madfin' enterprises VVVVVTV Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt Residential Lighting — Mandatory Measures Lumens per Watt The lumen is the unit of visible light To be rated as high efficacy, a lamp must produce a certain number of lumens for each watt of electrical power it consumes. Efficacy is therefore measured in lumens per watt. Almost all fluorescent lamps equipped with electronic ballasts qualify as high efficacy light sources; incandescent lamps (I ud' y screw -in incandescent lamps, like regular `A' or reflector lamps, or q a leglen lamps, or low voltage lamps, like halogen MR la pq--do riot classifie s high efficacy, a lamp must meet the requi e` lisiR d i abl 1 (d6tvKented in Table 150-C of the Standards): �UUU1 situp' the powc u bhey ballast is ignored when determining the Ien tt es of compliance with the residential lighting dqu erll' t ab 6-1— Hi h Efficacy Lamps Lamp power Required tamp efficacy < 15 W 40 knW 15.40 W 50 knw >40 W 60 kn/W Note: the wattage of the ballast is not included when determining lamp efficacy. Mercury vapor lamps do not usually meet the requirements; metal halide or compact fluorescent lamps (CFLs) are good replacements. For other lam type such as LEDs you should check with the lamp manufacturer and prova documents showing that the lamp meets the requirements. To calculate the efficacy of a lamp, find out from t ,rriari a urer -Mny lumens it produces, then divide this nu t�eT�h fated attags the lamp. Do not include any watts consu y e ballast. Stand 4s require that all permanently installed luminaires be high efficacy a by the Standards, with some exceptions described later in this ch pter. Permanently installed luminaires include, but are not limited to those luminaires installed in, on, or hanging from the ceilings or walls (including ceiling fan lights); in or on built-in cabinets (including kitchen, nook, wet bar, and other built-in cabinets); and those mounted to the outside of the buildings. Permanently installed luminaires do not include lighting that is installed in appliances by the manufacturers including refrigerators, stoves, microwave ovens, or exhaust hoods. Madlin' enterprises Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt ResidentialLighting — Mandatory Measures Typical efficacy of lamps 1001 90 80 E 70 60 (D E CL .T 50 0 4 30 20 10 100 0 10 20 30 40 50 60 70 80 90 lamp power (W) Lamp types: — Metal halide lamp (T-S) Compact fluorescent lamp Minimum requirement — — — — — -- Mercury vapor lamp ---------- Incandescent lamp Halogen MR16 lamp Figure 6-1— Typical Lamp Efficacies Madlin s ente�pmes Catherine M. Madlin, Certified Energy Analyst W 760-322-5004 / 323-3644 Fax Post Office Box 1443 v' Palm Springs, CA 92263-1443 v' Cmadlin@aol.com V T V T V V T Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt Residential Lighting — Mandatory Measures Kitchens §I-Wk)2. The Standards define a residential kitchen tope °a room or area used for food storage and preparation and washing dishes' u ' sociated counter tops and cabinets, refrigerator, stowr,�, oven, nd floor a definition goes on to say, 'Adjacent areas a c r idered�ICitonen if the i for the adjacent areas is on the s `�swi dh as a I1g ting a the ki n". The intent of th n li ling tand.rd is �o insure the builder provides the �ccu h �ergy�e I .i lig 'ng. The permanently installed lighting should rov�p ' light�e Is or basic kitchen tasks without the need for gm bng r�,rith�perta�ble (plug-in) lighting. \\! j A 6esigicommendation may be to utilize the Illuminating Engineering Society j Aorth America (IESNA) guidelines that at least 30 footcandles of light be provided for seeing tasks in kitchens. Seeing tasks include, but are not limited to, the basic kitchen tasks as preparing meals and washing dishes. These tasks typically occur on accessible kitchen countertops, the tops of ranges and in sinks, where food preparation, recipe reading, cooking, cleaning and related meal preparation activities take place, as well as at the front of kitchen cabinets so that the contents of the cabinet are discemable. Although the design should achieve 30 footcandles on most counter -height, horizontal work surfaces, there may be a few work surfaces where the lighting levels fall below this value and i the fronts of kitchen cabinets may also be below this value. Even in these locations, the lighting level provided should not fall below the IESNA- recommended lower value for non -critical seeing tasks ofJ0 foocandlest�/ ji"' of counters that are not work surfaces, such as a comer u ems catni et, may have a lighting level below 20 footcandles and ' th�requirbm s of the standard, because meal preparatio ik o o in�e�areas. The Standards require that at le s If lights s in a 'tchen must be consumed by H h effica unpin i es (r rnb tha low voltage halogen MR lamps do not c�uNtms 't fica lie q sigh efficacy luminaires typically nsum RW1 ,er a oth Flu naires,'about three -fourths of the luminaires in th"�'hbn e�i el igh efficacy. See Form WS-5R, Residential itcV"heet, Appendix A, which is completed to determine if kitchcomplies with the Standards. ocy luminaires must be switched on a separate circuit from the high efficacy luminaires. These could include low -voltage halogen MR lamps or reflector lamps used to provide decorative spotlighting. Lighting in areas adjacent to the kitchen, such as dining and nook areas and even family rooms, is considered to be kitchen lighting if it is not separately switched from the kitchen lighting. The switches may be mounted on the same faceplate, but as long as the lights can be switched independently, these areas do not count as being in the kitchen. Madfin' enterprises VTTVTT♦ Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt Residential Lighting.— Mandatory Measures Bathrooms, Garages, Laundry Rooms and Utility Rooms §150(k)3 Lighting in bathrooms, garages, laundry rooms and/or utility rooms must be high efficacy,, or must be controlled by a manual -on occupant sensor. A bathroom is a room containing a shower, tub t, or a sink that is used for personal hygiene. If a sink used for per , nA gi�ta is a room Q than a bathroom, such as bedroom, where o 8D galls' r ott* partitions separate the sink area from the rest of the r,,e�d a�i th light g forYhe sink area is switched separately from [o4m ar a li ing1, bnlh` a uminaire(s) that are lighting the sink area must ind s�b roo 1 ghtj requirements. In this case, lighting of the sink area �o ani h ' associated counters, cabinets, and mirrors. one circuit of luminaires may be attached to the same manual -on occupant sensor. At least one high -efficacy luminaire should be installed so that it can be left off the occupant sensor circuit to ensure that all of the luminaires don't switch off while someone is in the bath. Even dual technology sensors may not detect a motionless and silent occupant. Garages, laundry rooms and utility rooms can be lit entirety by high efficacy lighting. Linear fluorescent luminaires are typically between 1.5 and 4 times as efficient as CFLs, and should be used unless there is insufficient space. Luminaires should be mounted close to washer/dryer hookups and overwork surfaces to ensure shadow free illumination. Garages present an opportunity to reduce energy use by p inth k hting. The end of the garage furthest from the door to the pus o end as a . work area, and can be provided with high effica u a separately from the rest of the space. Although not required, occupar t ens b sed in conjunction with high efficacy lighg to a�di ttt lowpest�poss`1�1e energy use. If there are any y concerns a tea " -r� ; d ant `sensors in conjunction with low -efficacy lumr in spa "Coe e following two options: • \, addition to the low efficacy luminaires controlled by a manual - on occupant sensor, leave one high efficacy luminaire on a separate manual switch. • Install all high efficacy luminaires in the space; high efficacy luminaires do not require an occupant sensor to meet the requirements of the Standards. Madfin' enterprises VTVVVVV Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt Residential Lighting — Mandatory Measures Other Rooms §lWk)4 Permanently installed lighting in other rooms must be high efficacy, or a manual - on occupant sensor or a dimmer must control it. ! "Other rooms" includes hallways, dining rols, ily ms and bedrooms — the rooms in which peopl ar�lrnost,a rare of intenor ign both in terms of fashion and the usability the' livi �spa�g. Exce lion 3 to 1 • `4 cif �tpermanently�`jjinstalled luminaires that are p § t not high c t mini s n allowed in closets less than 70 square feet. �e ire ay controlled by a simple toggle switch, manual -on �parl{ erg r, o an automatic -on occupant sensor. ank)peop el .commonly add their own portable lighting. Unfortunately, portable hting often means highly inefficient incandescent floor -standing luminaires that can consume 190 watts or more for older lamps. Permanently installed lighting should reduce the need for such high wattage portable sources by creating variations of light throughout the room, and by reducing areas of shadow. To achieve this, use several luminaires rather than a single luminaire; wall -mounted uplights are a good choice because they are design -neutral and can be repainted. For high -end properties, linear fluorescent cove lighting and other forms of concealed lighting may increase marketability;-,::: People like to control the appearance of their rooms; pxpvidin jpardVe� switches for each luminaire will make the space more a e o t nts nR= will allow them to reduce their energy use. R Althou h occupant sensors can be sed Tie � p aces, ere are limitations in 9 P U,� those living spaces where eop ' e cted�to�s still for long periods of time and not move a n e g o p t �or activated, resulting in lights going off pre ma Y. Madfin' enterprises VVVVVV♦ Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt Residential Lighting — Mandatory Measures outdoor Lighting §lWk)6 Outdoor lighting attached to a building must be high efficacy, or controlled by a motion sensor with integral photocontrol. Motion sensors used in conjunction with outdoor lighting luminaires should have the capability of turning the lights on automatically. Lighting around swimming Pools, .ate features, or other locations subject to Article 680 of the Ca6o4is Code are exempt. Section 119 (b) requires ontrrpl d . s, i dudin i6n sensors and photoc�ntrols, toXn a� ndic for at vi �i, ly or audibly informs the operator that the controlsr�e ng �%op , 0 1 at they have failed or n4alfunctened. A Iigh �emiliti�ng VJode (LED) status signal is typically used to et� g1ui e he -LED status signal is also practical for use as a 6Mm' ion t . Another option is to use the lamp in the luminaire as the t�.tus al, as long as the lamp fails in the off position. The intention of this regViirement is that if the photocell or motions sensor fails the luminaire will not turn on until the control is fixed. Amalgam CFLs perform better at both very high and very low temperatures than non -amalgam versions, so are appropriate for outdoor lighting, although they i can take a few minutes to reach full output. If instant start is important and temperatures may be low, specify a cold -weather -rated ballast. Alternatively, an incandescent source (fitted with a combination photocontrol/motion sensor) may be a good choice. Decorative landscape lighting that is not permanently attached to bui�in s i regulated by the Standards. Even though it is not req�ed by th Sta dar , using a time clock or photocontrol on outdoor lighting not, aZred t� ild' will help to prevent people accidentally leaving thli tits �imdC uggg�the daY and reduce energy use. ti OD .Madlin s enterprises ♦vvvvvv Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt Residential Lighting — Mandatory Measures Residential Manual -On Occupant Sensors In bathrooms, garages, laundry rooms, and utility rooms, manual -on / automatic - off occupant sensors are allowed as an alternate compliance option to high efficacy lighting. Manual -on / automatic -off occupant sensors automatically turn lights off if an occupant forgets to turn them off when a room is unoccupied. Additionally, these sensors should readily Novi occupant with the option of turning the lights off manu > y upo�eaving th�ap. This option should be available without having refov s 'tchplaje o ny other modifications to the sensor. The ma I fe ar ' criiii I because it provides the occupants with the flexibility }�tro he htrn� environment to their satisfaction, and re'��i Its igfi a -esker erg vi = s by allowing the occupants to turn off the lights Oct ` ant€rrsiirs must be "manual -on", i.e., the sensors must not have the bilivol turn the lights on automatically and must not have a setting that can leave the lights in a permanent -on position. If a manual -on occupant sensor has an on/off switch to put the sensor into a temporary programming mode, the on/off programming switch must automatically switch off (for example, within 95 minutes) in the event the end user or installer leaves it in the programming mode. Some models of occupant sensors have the capability to be changed by the occupant to "automatic -on" by removing the switchplate or touchplate and changing switch settings. These occupant sensors are acceptable as long as the mechanism to switch settings is not visible to the occupant, cannot I accessed without the removal of a switchplate or touchplate, a�s loA ey are delivered to the building site and installed with the " ua��e�tt� Occupant sensors usually have built-in swit or th al"w f ustment of the time delay between the last sen cc ntand en the lights are turned off. This built-in dela usW 3D nute� r tess. Occupant sensors must meet the vai%is, re ire , n s,of s ii�'99 (d); most commercially t o pan �en��fi`v�minimum load requirements. For example, an ant so,)nay require that bulbs rated over 25 watts be installed before eo ill work, However, if an occupant later installs ascrew-in compact i6ent lamp that is rated less than 25 watts, the sensor will no longer workitical to select a sensor that has a low enough minimum load requirement to accommodate however small a load the occupant may install into the socket. Another solution would be to install an occupant sensor that does not have minimum load requirements. Madhn' enterprises ♦VVVVVV Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt Residential Lighting — Mandatory Measures The sensors that have a minimum load requirement are typically the ones that are designed to operate without a groundwire in the switch box which were common wiring scheme in the older residential units. Commercial grade sensors and all other sensors that are designed to take advantage of the groundwire in the switch box typically do not have a minimum load requirement and are the preferred choice to meet the r quire( of the Standards. If you are trying to control a lighting fi r 'tw�erent switches you will want to use a ceiling,-ro ihted th a wall occupant sensor. For example, if you are ng t ce oI a li Ming in a hallway with a switch at each end of the `' �r a gall unt occupant sensor will not work. ! 10 o alternate options to high efficacy lighting in rooms other than kitens, bathrooms, garages, laundry rooms, and utility rooms is the use of 9 g ry ty dimmers. It is important to correctly match the dimmer with the type of lighting load that is being dimmed. Failure to correctly match the dimmer with the electrical lighting load may result in early equipment failure, including the dimmer, transformer, ballast, or lamp. Dimmer manufacturers typically offer three basic types of incandescent dimmers: Line voltage (120 volt), low -voltage for use with a magnetic transformer, and low -voltage for use with an electronic transformer. Ligeolto incandescent lamps, including tungsten -halogen lamps can ea�sely be over their full range of output with voltage control or phWse q'ntho( & irS�n e) �� dimmers. Tungsten -halogen lamps can be dimmeith 1pn incandescent dimmers, generally wi ou�y special 1 �ns. When dimming a low voltage load, abn t;com�dn4r are equired in the dimmer to avoid overhe tingt?{gypp er. UL-h" separate requirements for 120-volt and low volta ni�r tb he hTW concern with transformers. Arl flu la s s or greaten, with electronic ballasts, and meeting " mi i um� m per watt already comply with Standards. Even though high efficac uorescent lamps with electronic ballasts do not require dimmers to �tandards, dimmers are permitted to be used with fluorescent lighting systems. Most fluorescent lamps cannot be properly dimmed with the same simple wallbox devices typically used for dimming incandescent lamps. A special control. and dimming ballast must be used. Some types of screw -in compact fluorescent lamps with integral ballasts can be dimmed by simple controls. However, many screw4n compact fluorescent lamps cannot be dimmed at all. MadlinY S enterprises Catherine M. Madlin, Certified Energy Analyst v' 760-322-50041323-3644 Fax Post Office Box 1443 W Palm Springs, CA 92263-1443 W Cmadlin@aol.com ....... Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt Lighting Mandatory Measures Light Fixtures and Recessed Equipment §150(k)5 Luminaires recessed in insulated ceilin the insulation. Not only does this degra assembly, but it can also permit co if exposed to moi# aims ip-p b , roo , For these thermal bridging through nance of the ceiling Did surface of the luminaire insulated ceilings must meet three k, `y)must be approved for zero clearance insulation cover (IC) 5y Underwriters Laboratories or other testingtrating laboratories recognized by the International Conference of Building Officials. This enables insulation to be packed in direct contact with the luminaire. (See Figure 3-11.) • The luminaire must have a label certifying air tight (AT) construction. Air tight construction means that leakage through the luminaire will not exceed 2.0 cfm when exposed to a 75 Pa pressure difference, when tested in accordance with ASTM E283. The luminaire must be sealed with a gasket or caulk kbettwe)e� the housing and ceiling. For more information seen� of this manual. p Gasket between fixture and gypsum board or sealant around opening Figure 3-11— IGRated Light Fixture Madli1 s enterprises Catherine M. Madlin, Certified Energy Analyst W 760-322-5004 / 323-3644 Fax Post Office Box 1443 W Palm Springs, CA 92263-1443 w Cmadlin@aol.com .. - .... i i Title 24 2005 Building Energy Efficiency Standards Excerpt HVAC Ducts - Mandatory Measures (m) Air -distribution System Ducts, Plenums, and Fans. CIVIC compliance. All air -distribution system ducts and plenums, including, but not limited to, mechanical closets and air -handler boxes, shall be installed, sealed and insul" to meet the requirements of the CIVIC Sections 601, 602, 603, 604, 605 and Standard 6-5, incorporated h�einrefiehearce. Portions of supply -air and return -air ducts and plenums shall either be insulated to a n'MI um instal revel of R-42 (or any higher level required by CMC Section 605) or be enclgs e�rely ' itibned space. Co��jj"ections of metal ducts and the inner core of flexible ducts shall be r�chanically et Op� gs shadi�aled with mastic, tape, or other duct -closure system that meets the a �ir�� req '\ e of Uk)81, UL 181 A or UL 181B oraerosol sealant that meets the requirements ofm is ope .used to seal openings greaser than 114 inch, the combinaoDn\ofmastje�eit) mesh p ball'beused. i ties, r'er handlers, and plenums defined or constructed with materials other s e�et 1, oar or flexible duct shall not be used for conveying conditioned air. Building 1 orms may contain ducts. Ducts installed in cavities and support platforms shall not be 1 to se reductions in the cross -sectional area of the ducts. EXCEPTI ON to Section 150 (m)1: The requirements do not apply to ducts and fans integral to a wood heater or fireplace. 2. Factory -fabricated duct systems. ! A. All factory -fabricated. duct systems shall comply with UL 181 for ducts and closure systems, including collars, connections, and splices. B. All pressure -sensitive tapes, heat -activated tapes, and mastics used in the manufacture of rigid fiberglass ducts shall comply with UL 181. C. All pressure -sensitive tapes and mastics used with flexible ducts shall cor 1y with �U--L��181 U(�i,- .JB. D. Joints and seams of duct systems and their components shall not be sea�l hIErth back t>a�h'esive duct tapes unless such tape is used in combination with mastic an -c+ba U Madfin' enterprises Title 24 2005 Building Energy Efficiency Standards Excerpt HVAC Ducts - Mandatory Measures 3. Field -fabricated duct systems. A. Factory -made rigid fiberglass and flexible ducts for field -fabricated duct systems shall comply with UL I V. Ail pressure -sensitive tapes, mastics, aerosol sealants, or other closure systems used for installing field - fabricated duct systems shall meet the applicable requirements of UL 181, UL 181A, or UL 181B. B. Mastic sealants and mesh. i. Sealants shall comply with UL 181, UL 181A, or UL 18�, anFC c and water resistant. ress� , siti Pr sensitivetapes shall comply with UL 181, UL 181 A, or UL 181B. . and -o uct systems and their components shall not be sealed with cloth back rubber adhesive d less such tape is used in combination with mastic and drawbands. E. rawbands used with flexible duct. i. Drawbands shall be either stainless -steel worm -drive hose clamps or UV -resistant nylon duct ties. ii. Drawbands shall have a minimum tensile strength rating of 150 pounds. iii. Drawbands shall be tightened as recommended by the manufacturer with an adjustable tensioning tool, F. Aerosol -sealant closures. ii. Sealants for interior applications shall � tested in�c rdance 731 and D2202, incorporated herein by reference iii. Sealants for exterior appii C! ns Mall in acco� ce with ASTM C 731., C 732, and D 2202, incorporated herein b/y��,-'i�e. iv. S is es $ all be f�xterior use. i. Aerosol sealants shall meet the requirements of UL 723 and be applied according to manufacturer specifications. ii. Tapes or mastics used in combination with aerosol sealing shall meet tl$ requ'�_ o ris�3'ection 4. All dud insulation product R-values shall be based on insulation only (excl m "au �r other duct components) and tested C-values at 75 F mean temperature a n t 0 thiclm m accordance with ASTM C 518 or ASTM C 177, incorporated herein by \and ttifi Section 118. 5. The installed thickness of duct insulation used to d-t¢antiine ' R-val�la s1 be determined as follows: A. For duct board, duct liner, ct me rigid ducts �o' �no�nally subjected to compression, the nominal insula/tithickness 1 s�ed �� B. RP�duct wrap, ' tall clo�� assumed to be 75 percent (25 percent compression) of nominal C. F�ctorydeMexible air ducts, the installed thickness shall be deter uno ined by dividing the difference ual outside diameter and nominal inside diameter by two. 6. Insulated flexible duct products installed to meet this requirement shall include labels, in maximum intervals of feet, showing the thermal performance R-value for the duct insulation itself (excluding air films, vapor barriers, or other duct components), based on the tests in Section 150 (m) 4 and the installed thickness determined by Section 150 (m) 5 C. 7. All fan systems, regardless of. volumetric capacity, that exhaust air from the building to the outside shall be provided with backdraft or automatic dampers to prevent air leakage. Madlin' enterprises ♦VVVVVV Title 24 2005 Building.Energy Efficiency Standards Excerpt HVAC Ducts — Mandatory Measures 8. All gravity ventilating systems that serve conditioned spaceshall be provided with either automatic or readily accessible, manually operated dampers in all openings to the outside except combustion inlet and outlet air openings and elevator shaft vents. 9. Protection of insulation. Insulation shall be protected from damage, including that due to sunlight, moisture, equipment maintenance, and wind but not limited to the following: Insulation exposed to weather shall be suitable for outdoor service e.g., protected by aluminum, sheet metal, painted canvas, or plastic cover.. Cellular foam insulation shalt 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 xqjqenal. 10. Porous Inner Core Flex Duct Flexible ducts having porous inner tes slfatl not be used. TiIBLE 150A PIPE INSU7.l TION �� 'C 7Tt- FLUID TEMIPtATURE RANG { j : 11.E-F Oh MEAN RATING iPEkATURE {'F) CONDUCTIVITY RANGE (Biwinch per hour per square foot per `F)' 0.27-0.30 100 0.24-0.28 belr3 10 75 0.23 — 017 'Insn coNductivity shall be determined in accordance with ASTM C 335 atthe mean temperature listed in TABLE 150-A, and shall be rounded to the nekifesi 1/100 Btu-btch per hour per square foot per IF. TABLE 150-B PIPE INSULATION MINIAWA1 THICKNESS REQUIREMENTS SYSTEM PIPE DIAMETER Less than or Equal to 2 inches Greater than 2 inches LNSULATION THICKNESS REQUIRED (n inches) Dou"tichotvtater(above 105°F) 1.0 1.5 Hydronic heating supply tires (above 20OPF to 2WF) 1.0 7-0 Hydronic besting supply lines (105°F to 200°F) 1.0 15 Cooling system refrigerant suction. chilled water and brine lines 0.75 'Steam hydronic heating systems or hot water systerns with pressure above IS psi shall meet the req uireits of Madl im s entopYises Catherine M. Madlin, Certified Energy Analyst v' 760-322-5004 / 323-3644 Fax Post Office Box 1443 'v Palm Springs, CA 92263-1443 W Cmadlin@aol.com ....... Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt Installation Certificate Construction Phase Documentation (CF-6R) § 10-903(a)3 end 4 The installation certificate, CF-6R, is completed during the construction phase of the compliance and enforcement process. Ttp CF-611 is really several documents in one. The documents are comp ede contractors responsible for installing the windows (fenestration)1"Odi a air dikki=" ducts and the HVAC equipment, the measures th a ectenvelgp f, �htness, the lighting system, and the insul n. The CF-6R is si sari s i a 9 Y v j H C . ems. The contractor who installs mechanical ! �Lquipment signs this part. Heating and cooling equipment are } L� listed and the energy efficiency, capacity, design loads and other properties of each piece of equipment is documented. • Water Heating Systems. This part includes information about the water heating equipment installed in the building, including model number, energy efficiency, tank size, input rating and other properties. The installer also verifies that faucets and shower heads are certified and comply with the appliance standards. C' Fenestration/Glazing. This part includes a list of all windows installed in the home. For each, the U-factor, SHGC, a �---� number of panes, and number of windows of pe building are indicated. This section i�ig o�n� _er that installs the windows. i Duct Leakage an ij Dia s ' T'h part is signed by th contr es onsibl� fortalUfig the HVAG air distribution d s:an ie in at th omply with the leakage req � e ts. i thrs forrrnthe contractor includes the results of &ag .*c sts, which will later be verified by a third -party 6pe or (HERS rater). Refrigerant Charge and Airflow Measurement. This part is signed by the contractor responsible for verifying that split system air conditioner and heat pumps have the correct refrigerant charge. This form contains diagnostic data that are later verified by a third -party inspector (HERS rater). • Duct Location and Area Reduction Diagnostics. This part is completed and signed by the contractor who installs the HVAC air distribution duds. It verifies the location of the ducts and/or includes information on duct location. This form is used only when the default duct area is not assumed. Madlin' enterprises VTVVVVV Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt Installation Certificate • Building Envelope Leakage Diagnostics. This part is completed by the contractor responsible for testing building envelope leakage through pressurization of the house. This form contains test results that will later be verified by a third -party inspector (HERS rater). • Insulation Certificate. T � pTt�i mpleted and signed by the contractor responsible foY in5t�Um he insulation. This indicates them uQturerr�a d, and eel properties of insulation in�all in �e r6o f, ling, wafts and floor. •ati6h Q6�litykthecklist. This part is completed and signed Nby t in6iatton contractor when credit is taken for quality 'on installation. This is later verified by a third -party inspector (HERS rater). Credit for quality insulation installation is new with the 2005 standards. • Lighting Systems. This part is completed and signed by the contractor responsible for installing hard -wired lighting systems. Persons signing these CF-6R forms are verifying that the installed efficiencies or requirements meet or exceed those used for compliance with the standards as shown on the CF-1R. The CF-6R must be posted at the job site in a conspicuous location (e.g., in the garage) or kept with the building permit and made available to the enforcement agency upon request. When field verification and/or diagnostic testing is required for a builder shall provide a copy of the CF-6R to the HEPtS pmiider ar�d #be building department upon request. - /�3 �\ �� \'_ Information from the CF-6R is below). This provides the ho features insta in with %fmanual (see energy efficiency 0 , Madtin s entopises Catherine M. Madlin, Certified Energy Analyst W 760-322-5004 / 323-3644 Fax Post Office Box 1443 W Palm Springs, CA 92263-1443 ` - Cmadlin@aol. com ....... Title 24 2005 Building Energy Effic'iengy Standards Residential Manual Excerpt HVAC Systems — HERS Verification Field Verification and/or Diagnostic Testing The HERS rater may visit the site to complete hjeiding and cooling system portions of the Certificate of Field Verifica L6n iagnostic Testing (CF-4R). There are several sections Qf this fo at rel a ating and cooling. The following require field v&ifica#�on. d di nosti g if they are used in the proposed /d�e•signfo o'aiar e: d D�ndLnespac e esign �f • Diagnostic supply duct location, surface area, and R-value (including buried ducts) • High efficiency air conditioner EER • Refrigerant charge or TXV • Forced air system fan flow/adequate airflow • Air handler fan watt draw • Verified maximum cooling capacity • Verified duct leakage. 0 Field verification is necessary when credit is taken or her"r6ieasur . F� example, maximum cooling capacity need only ~biES ven_ie��if Imum cooling capacity was used to achieve prose �gn ( � U 1� Catherine M. Madlin, Certified Energy Analyst v' 760-322-5004 l 323-3644 Fax Post Office Box 1443 v' Palm Springs, CA 92263-1443 I" Cmadlin@aol.com VVVVVVV MadinY S eaerpmes Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt HERS Rater HERS Rater The HERS rater is a person certified by an Energy Commission -approved HERS provider to perform the necessary field ve " cation and diagnostic testing required for demonstrating compliance witljlhe an arils. HERS raters have special training in diagnostic technique d bu ience and are capable of identifying problems �+hi the onie s'l! under s�ruction. As long as the documentation authb s ari m�l yeef the builder or subcontractor whose work they are veg�th�ca Is�act as the HERS rater. isible for completing and signing the field verification certificate (CF-4R). HERS The HERS provider is an organization that the Energy Commission has approved to administer a HERS program. The provider has responsibility to certify and train raters and maintain quality control over field verification and diagnostic testing required for compliance with the standards. In Califor� , currently certified HERS providers are California Home nerg lci�: System (CHEERS) and Califomia Certified Energy Rati g ngkS�� (CaICERTS). 1 Madlins enterpr7ses Catherine M. Madlin, Certified Energy Analyst 'v 760-322-5004 / 323-3644 Fax Post Office Box 1443 W Palm Springs, CA 92263-1443 w Cmadlin@aol. com .... V Y V Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt HVAC Systems - TXV Thermostatic Expansion Valves Option 1: TXVs may be used as an alternalke to diagnostic testing of the refrigerant charge in split system air conditioi ng -heat pumps. TXVs are troi �o of refrigerant into the used in air conditioners or heai�pumte on g evaporator in respon t e s�the refr�ger r�t leaving it. The valve is placed upstream fro e apts d is connected to. a temperature - sensing bulb. As eo , re�i aves the evaporator, the TXV senses i emp d preur ' nddjusts the flow rate to maintain proper itic��Vnlib J s must provide a removable door for valve verification rti edj l�R rater. An access door or removable panel) is not required if thie tis= a Y readil accessible location. Readily accessible means capable of Uing reached quickly for operation, repair, or inspection, without requiring climbing or removing obstacles or resorting to access equipment The body of the TXV can be anywhere that is warmer than the location of the sensing bulb (including outside the plenum). It is preferable that the refrigerant manifold be dose to the TXV body. Option 2: Visually verify that a sensing bulb is running from inside the unit and that it is visible outside of the unit You do not need to open the unit to complete this verification. Please note that the sensing bulb will be attached to the suctioKx line and should be covered by insulation. You will need to verify the s u� by either removing sufficient insulation to see it or by fee Option 3: This option is designed to allow a rater to pe�if manufacturer's nameplate data. To use this lion e s't 1 s bus .tie completed. Step One: Obser" that f a i lar nd an odel that the manufacturer has installed a TX)/ t ism accomplished by the air conditioner . �tiu r or ' staI €r to ing th�over off of one unit per subdivision s h o g t rat t at has been installed. p Two. etine that the manufacturer's nameplate on the coil indicates at as been factory installed. The rater may ask for clarification of the eplate information from the distributor. Step Three: Verifythat the nameplate information on each unit being inspected indicates that a TXV has been installed in that unit. Madlin s enterprises Catherine M. Madlin, Certified Energy Analyst W 760-322-5004 / 323-3644 Fax Post Office Box 1443 v' Palm Springs, CA 92263-1443 v' Cmadlin@aol.com .... V V V Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt HVAC Systems — Verified EER High Efficiency Air Condifioner Air conditioner designs are available with efficicies eqyivalent to a SEER up to 18.0, which is significantly better than the mini'thu rat efficiency of SEER 10.0 (or 13.0 starting January 23, 2006) vi s can-1563iohieved by choosing an air conditioner that ex s rid' i 2�i eienc quirements. 1 � 11 The EER is the full load c t operating conditions. It is possible that two c is w' e E an have different EERs. Using the p ate co i06 od, credit is available for specifying an air f. co nor R greater than 10 (see the compliance program vendor's co lid supplement). When credit is taken for a high EER, field verification by a ERS rater is required (see Agnendix RI in the Residential ACM Manual). Ma dliY s enterprises Catherine M. Madlin, Certified Energy Analyst v 760-322-5004 / 323-3644 (fax) . '...... Manufacturer's Specifications TECHNICAL GUIDE LATITUDE MODELS: GY8S1LY8S GAS -FIRED HIGH EFFICIENCY SINGLE STAGE DOWNFLOW FURNACES STANDARD & LoNOx NATURAL GAS 40 -130 MBH INPUT ama ---ftcwd • d>mt »� a�mr m*� b mnromib wim iso soot. Due to continuous product improvement, specifica- tions are subject to change without notice. Visit us on the web at www.york.com for the most up-to-date technical information. Additional information can be found.at www.gamanetorg. 036-21613-002 Rev. A (1104) DESCRIPTION These high efficiency, dedicated downflow compact units employ induced combustion, reliable hot surface ignition and high heat transfer tubular heat exchangers. These furnaces are designed for residential installation in a closet, attic or garage and are ideal for commercial applica- tions. All units are factory assembled, wired and tested to assure safe dependable and economical installation and operation. These units are Category I listed and may be common vented with another gas appliance as allowed by the National Fuel Gas Code ANSI Z223.1 (latest edition). WARRANTY 20-year limited warranty on the heat exchanger. 10-year heat exchanger warranty on commercial applica- tions. 5-year limited parts warranty. FEATURES • Dedicated downflow models may be easily applied with- out any field conversion • Top vent connection allows installation in narrow loca- tions • 100% shut off main gas valve for added safety • High velocity filter provided for field installation • High quality inducer motor for quiet operation • Standard terminals for controlling humidifiers & EAGs • 40 VA control transformer, fuse protected • Easy to connect power and control wiring • Efficiency ratings of 80 AFUE attained by using tubular heat exchangers • Cooling.. relay standard for easy installation of add -on cooling • Blower off -delay for cooling SEER improvement • Multi -speed PSC, direct -drive blower motors to match cooling requirements • Adjustable fan -off settings to eliminate "cold -blow" • Compact 40-in height allows installation in small space confines • Lo NOx models available to meet specific area require- ments. Lo NOx models may not be converted to pro- pane. • All standard "G" models are propane convertable FOR DISTRIBUTION USE ONLY NOT TO BE USED AT POINT OF RETAIL SALE 036-21613-002 Rev- A (1104) ! ! s 3/4 r zo I 'r- WIRING 710• KO. i 40 i Flo 31.1/8 ® G!S INLET ALT. GI161NIEf 53/4 -- 2-112 —H FRONT LEFT SIDE 1 RIGHT SIDE {1 fi . I VP�a�Wregf Wn7Cmrcnim 20 20 O. NCI m) f ! � 7l@'K 73/8 17 FRONT fi FRONT BOTTOM IMAGE TOPIMAGE CABINET AND DUCT DIMENSIONS Models Cabinet Width In. Cabinet Size Cabinet Dimension A B C D E F (GL)Y8S40Al2DN11 14-1/2 A 141/2 131/4 161/8 4.0 10118 33/4 (GxL)Y8S60Al2DN11 14-1/2 A 141/2 131/4 101/8 4.0 101/8 33/4 (G,L)Y8SNA12DN11 14-1/2 A 141/2 131/4 101/8 4.0 10118 33/4 (G,L)Y8S80816DN11 17 V2 1 8 1 171/2 161/4 131/8 4.0 11 5/8 33/4 (G,L)Y8S100612DN11 171/2 B 171/2 161/4 131/8 4.0 11518 3314 (G,L)Y8S100C20DN 11 21 C 21 19 3/4 16 5/8 4.0 13 3/8 33/4 (G,L)Y8S115C15DN11 21 C 21 19 3/4 16 518 4.0 13 318 33/4 (G,L)Y8S115C20DN11 21 C 21 19 3/4 16 518 4.0 13 3/8 33/4 (G,L)Y8S130D20DN11 241/2 D 241/2 231/4 201/8 4.0 151/8 33/4 HORIZONTAL SIDEWALL VENTING CLEARANCES - MUST USE FIELDS CONTROL MODELS SWG-4Y OR TJERENLAND MODEL GPAK-JT FIELD SUPPLIED POWER VENTING KITS Models Horizontal Vent Length Ft with 4 Elbows Pipe Size Min. Vent Length Max. Vent Length Inches Feet Feet (G,L)Y8S40Al2DN11 4 4.5 34.5 (G,L)Y8S60Al2DN11 4 4.5 34.5 (QI-)Y8S80Al2DN11 1 4 4.5 34.5 (QL)Y8S80B16DN11 4 4.5 34.5 (G,L)Y8S100B12DN11 4 4.5 34.5 (G,L)Y8S100C20DN11 4 4.5 34•5 (G,L)Y8S115C16DN11 4 4.5 34.5 (G,L)Y8S115C20DN11 4 4.5 34.5 (G,L)Y8S130D20DN11 4 4.5 34.5 2 Unitary Products Group 1V-< RATINGS & PKYSICAL I ELECTRICAL DATA 11 036-21613-002 Rev. A (1104) Models Input n pu Output Nominal CFM AFUE Air Temp. Rise °F MBH(G,L)Y8S40Al2DN11 MBFI 40 32 1200 80.0 20-50 (G,L)Y8S60Al2DN11 57 48 1200 80.0 25-55 (G,L)Y8S80Al2DN11 80 64 1200 80.0 35 65 (G,L)Y8S80B16DN11 80 64 1600 80.0 25-55, (G,L)Y8S100B12DN11 100 80 1200 80.0 40-70 (G,L)Y8S100C20DN11 100 80 2000 80.0 25-55 (GI-)Y8S115C16DN11 115 92 1600 80.0 35-65 (G,L)Y8S115C20DN11 115 92 2000 80.0 30 60 (G,L)Y8S130D20DN11 130 104 2000 80.0 40 70 Max Outlet glower Blower Total Unit Nix Mtn. Wire Size (awg) Operation Hp Amps Models Air Temp `F Size In. Amps PS protect @ 75 ft. one way WGTLBS (G,L)Y8S40Al2DN11 150 1/3 6.2 10 x 8 9.0 20 14 100 (G,L)Y8S60Al2DN11 155 113 62 10 x 8 9.0 20 14 110 (G,L)Y8S80Al2DN11 165 1/3 6.2 10 x 8 9.0 20 14 120 (G,L)Y8S80B16DN11 160 314 11.0 11 x10 12.0 20 14 130 (GL)Y8S100B12DN11 170 1/2 7.0 10x8 12.0 20 14 125 (G,L)Y8S100C20DN11 155 1 12.2 11 x 10 14.0 20 12 140 (G,L)Y8S115C16DN11 i65 3/4 11.0 11 x 10 12.0 20 14 150 (G,L)Y8S115C20DN11 160 1 12.2 11 x 10 14.0 20 12 150 (G,L)Y8S130D20DN11 170 1 12.2 11 x 10 14.0 20 12 160 Win: size and over current protection must comply with the National Electrical Code (NFPA-704atest edition) and all local cones. The furnace shall be installed so that the electrical components are protected from water. Annual Fuel Lrdlization Efficiency (AFUE) numbers are determined in accordance with DOE Test procedures. FILTER SIZES Models Cabinet Size Top Return Filter (in) (G,L)Y8S40Al2DN11 A (2) 14 x 20 (G,L)Y8S60Al2DN11 A (2) 14 x 20 (G,L)Y8S80Al2DN11 A (2) 14 x 20 (G,L)Y8S80B16DN11 B (2) 14 x 20 (G,L)Y8S100B12DN11 B (2) 14 x 20 (G,L)Y8S100C20DN11 C (2) 14 x 20 (G,L)Y8S115C16DN11 C (2) 14 x 20 (G,L)Y8S115C20DN11 C (2) 14 x 20 (G,L)Y8S130D20DN11 D (2) 14 x 20 ESP (External Static Pressure) .5- WG is at furnace outlet ahead of cooling coil. NOTES: 1. All filters must be high velocity cleanable type. 3 Unitary Products Group 03t-21613-002 Rev. A (1104) or nu iD orocnpuAmrF rFM - nNITHOUT FILTER) MODELS Speed Airflow Data Ext. Static Pressure (in. H2O) 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 High 1620 1590 1480 1400 1310 1240 1140 1040 910 760 Medium High 1430 1390 1340 1280 1220 1140 1050 960 820 710 (GL)Y8S40Al2DN11 Medium Low 1210 1210 1190 1200 1100 1020 940 850 730 620 Low 980 980 970 950 920 870 810 720 620 520 High 1500 1470 1390 1320 1240 1170 1070 960 830 700 (G�L)Y8S60Al2DN11 Medium High 1380 1340 1280 1210 1150 1060 970 870 760 610 Medium Low 1220 1200 1160 1110 1050 990 910 820 700 600 Low 960 950 940 920 890 840 770 710 630 530 High 1550 1480 1410 1330 1250 1150 1050 940 810 700 Medium High 1400 1360 1290 1220 1150 1060 970 850 730 590 (GL)Y8S80Al2DN11 Medium Low 1230 1210 1170 1120 1060 990 910 810 680 560 Low 980 970 960 930 890 830 760 680 550 450 (QL)Y8S80B16DN11 High Medium 2070 1650 2000 1630 1930 1610 1850 1560 1770 1490 1670 1420 1580 1360 1470 1270 1360 1170 1250 1040 Low 1410 1400 1370 1340 1320 1270 1210 1140 1050 950 (C�L)YBS100812DN11 High Medium High Medium Low 1710 1480 1240 1650 1440 1230 1580 1380 1200 1510 1330 1170 1420 1270 1110 1330 1180 1030 1260 1090 950 1160 980 850 1090 790 710 930 630 600 Low 980 980 980 970 930 890 600 720 630 530 High Medium High 2400 2130 2330 2070 2240 2000 2130 1940 2030 1840 1960 1760 1820 1660 1710 1540 1420 1420 1230 1230 (G L)YSS100C20DN11 Medium Low 1800 1760 1730 1650 1560 1510 1430 1300 1200 1030 Low 1480 1450 1390 T 1360 1240 1180 1080 960 860 (G,L)Y8S115C 16DN11 High Medium 2210 1640 2160 1640 2100 1620 2030 1590 1940 1530 1850 1500 1750 1430 1640 1360 1520 1270 1400 1160 Low 1410 1410 1370 1360 1300 1260 1210 1150 1090 1010 (G,L)Y8S115C20DN11 High 2400 2310 2220 2120 2010 1910 1800 1660 1520 1350 Medium High 2090 2030 1970 1880 1790 1730 1640 1520 1370 1190 Medium Low 1720 1690 1650 1600 1550 1460 1370 1270 1150 980 Low 1440 1430 1400 1340 1280 1220 1140 1040 930 830 High 2530 2420 2340 2250 2110 2020 1920 1750 1590 1410 Medium High 2190 2150 2070 1970 1910 1790 1680 1550 1400 1250 (GyL)Y8S130D20DN11 Medium Low 1800 1760 1720 1680 1610 1490 1410 1300 1160 1040 Low 1450 1440 1410 1350 1310 1250 1170 1 1080 980 860 NOTES: 1. Airflow expressed in standard cubic feet per minute (CFM). 2. Motor voltage at 115 V. BLK ,* BLK (HOT) - ®c o-- WHT NEUTRAL NOMINAL WHT u ( ) 120 VOLT GRN GRN Line Wiring Connection 4 FILTER PERFORMANCE The airflow capacity data published in the "Blower Perfor- mance" table listed above represents blower performance WITHOUT filters. To determine the approximate blower per- formance of the system, apply the filter drop value for the fil- ter being used or select an appropriate value from the 'Filter Performance" table shown below. NOTE: The filter pressure drop values in the "Filter Perfor- . manse" table shown below are typical values for the type of filter listed and should only be used as a guideline. Actual pressure drop ratings for each filter type vary between filter manufacturer. Unitary Products Group �YORIC Heating and Air Conditioning 036-21339-001 Rev. D (0605) DESCRIPTION The 13 SEER Series condensing unit is the outdoor part of a versatile system of air conditioning. It is designed to be cus- tom -matched with one of UPG's complete line of evaporator sections, with each serving a specific function. Matching Air Handlers are available for upflow, downflow, or horizontal applications to provide a complete system. Electric Heaters are available, if required. Add -On coils are available for use with upflow, downflow, or horizontal furnaces and air han- dlers. WARRANTY TECHNICAL GUIDE 5-year limited parts warranty. 10-year limited compressor warranty. SPLIT -SYSTEM FEATURES AIR CONDITIONERS • QUALITY CONDENSER COILS - The coil is constructed of copper tube and aluminum fins. 13 SEER • PROTECTED COMPRESSOR - The compressor is inter- nally protected against high pressure and temperature. MODELS: This is accomplished by the simultaneous operation of H*RD018 THRU 060 high pressure relief valve and a temperature sensor which (1.5 THRU 5 NOMINAL TONS protects the compressor if undesirable operating condi- tions occur. A liquid line filter -drier further protects the compressor. • DURABLE FINISH - The cabinet is made of pre -painted steel. The pre-treated galvanized steel provides a better s}, paint to steel bond, which resists corrosion and rust creep. Special primer formulas and desert sand matted textured j finish insure less fading when exposed to sunlight. • LOWER INSTALLED COST - Installation time and costs 4 are reduced by easy power and control wiring connec- tions. Discharge line heat exchanger knockouts are pro vided, if required. Available in sweat connect models only. The unit contains enough refrigerant for matching indoor coils and 15 feet of interconnecting piping. The small base dimension means less space is required on the ground or roof. TOP DISCHARGE - The warm air from the top mounted r. fan is blown up away from the structure and any landscap- ing. This allows compact location on multi -unit applica- tions. • LOW OPERATING SOUND LEVEL - The upward air flow carries the normal operating noise away from the living area. The rigid top panel effectively isolates any motor sound. Isolator mounted compressor and the rippled fins (-EEAof the condenser coil muffle the normal fan motor and cFannunou �ox�s may � compressor operating sounds. • LOW MAINTENANCE - Long life permanently lubricated aTME6O^0.P�'E motor -bearings need no annual servicing. ssm_N M � 9 EASY SERVICE ACCESS - Fully exposed refrigerant con- nections, a single panel covering the electrical controls, and the molex plug in the control box connecting the con - us �r�'"�o w.os,s+i�r`r. denser fan make for easy servicing of the unit. �e IS09001 • SECURED SERVICE VALVES - Secured re -usable ser- UMD Management System vice valves are provided on both the liquid and vapor sweat connections for ease of evacuating and charging. U.L. and C.U.L. listed -approved for outdoor application. Due to continuous product improvement, specifications I are subject to change without notice. Certified in accordance with the Unitary Small Equipment cer- tification program, which is based on ARI Standard 210/240. Visit us on the web at www.york.com Additional rating information can be found at www.ariprimenet.org. FOR DISTRIBUTION USE ONLY NOT TO BE USED AT POINT OF RETAIL SALE 035-21339-001 Rev. D (0605) PHYSICAL AND ELECTRICAL DATA d d d MODEL H1RD018S06 H1RD024S06 H1RD030S06 H1RD036S06 H1RD042S06 H1RD048S06 H1RD060S06 Unit Supply Voltage 208230 -1 - 60 Normal Voltage Range 187 to 252 Minimum Circuit Ampacity 10.1 11.8 16.7 18.9 21.9 20.6 31.8 Max. Overcurrent Device Amps 2 15 20 25 30 35 35 50 Compressor Type 3 Reap Recip Recip Reap Scrollc Sc rollc Scroll B Rated Load 7.7 9.0 12.2 14.1 16.5 15.5 24.3 Compressor Amps Locked Rotor 48 48 60 73 95 109 150 Crankcase Heater No Yes Yes Yes No No No Fan Motor Amps Rated Load 0.5 0.5 0.5 1.3 1.3 1.3 1.4 Fan Diameter Inches 22 22 22 22 22 24 24 1115 1115 1/15 1/4 1/4 114 113 Fan Motor 850 850 850 1,100 1,100 1,100 1,100 2,200 2,200 2,400 3,800 3,500 3,300 3,500 Face15.72 MSq.Ft. 15.72 19.65 23.60 23.60 27.00 27.00 Coil Row1 1 1 1 1 2Fin /18 18 18 20 18 18 18 Liquid Line OD318 3/8 3/8 3/8 318 3/8 3/8 Vapor Line OD 3/4 3/4 7/8 7/8 7/8 718 1-1/8 Unit Charge (Lbs.-Oz.)4 4-11 5-8 7-9 9-4 9-8 14-3 15-13 Charge Per Foot, Oz. 0.68 0.68 0.70 0.70 0.70 0.70 0.76 1 Rated in accordance with ARI Standard 110, utilization range -A". f 2 Dual element fuses or HACR circuit breaker. 3 All scrolls listed with a superscript "B" are Bristol scrolls. All scrolls listed with a superscript "C" are Copeland scrolls. 4 The Unit Charge is correct for the outdoor unit, matched indoor coil and 15 feet of refrigerant tubing. For tubing lengths other than 15 feet, add or subtract the amount of refrigerant, using the difference in length multiplied by the per foot value. All dimensions are in inches and include the fan guard. They are subject to change without notice. Certified dimensions will be provided upon request. DIMENSIONS UNIT I MODEL DIMENSIONS (INCHES) REFRIGERANTCONNECTION LINE SIZE A B C Liquid Vapor 018 27 37 27 318" 3/4" 224 27 37 27 030 33 37 27 7/8" 036 39 37 27 042 139 37 27 048 38 43 32 060 38 43 32 1-1/8" 2 Unitary Products Group 10 ' d -ld101 M P.tpmred for- y0ffl� PLENUM orgy .A11Style Coil Company, L.P. Coil Performance Report DATE: 5/17/05 YORK 111REOz4S0 .' -, A:Si�24'-,18A31T+D+V 14.D0 25.00 0.74 12.50M406OU YORK kiiRE030S0 , s1 il1336 18A31T+D+V 14.00 29.20 0.76 12.00 YORK HIRE030SO6 A51936-22A32T+D+V 14.00 30.00 0.76 12.50 PORK E11UMS% ASLL36-28A34T+D+V 14.00 30.00 0.77 12:SO YORK HIRE036S06 ,; 'Ab"1's836-1gA31T+D+V 14.OD 3420 0.77 1 i.95IiiRE036S06'4 836-22A32T+D+V 14.00 35.20 . 0.76 12.00 YpRY, f4inwS506 ASLL3628A34T+O+V I400 35.20 0.77 12.50 S59901, yORK g12RE042506 ASLB48-22M2T+D-V 14.00 39.50 0.78 11.50 5MI09 yO1t1C W.RE042SO6..,: iLfiLL48-28A34'I`+D+V 14.00 40.50 0.78 12.00 55910H OR1C it2RE04gSWr �; "' 48-28A34T+D+V 14.00 47.00 0.78 11.95 50921 WRE049506 +V r PENDING 406013 YORK 14.00 47.00 0.78 1 i.90 YORK 112R .060S06' NSFM60 22A34T+D+V r 13.00 53.50 0.80 11.50 359107 ypR� K2REOb0SUb 30A.. 1ii+V ✓ 14.00 53,50 0.70 E 4Q8098 X ILYSUM %-Xl" - YORK a-r .. •...ua� a a+w:.n CZB02411 • .....•� A$I,B24-i8A31T+D+1' R410A AM-1WlT,,+D+V 12.00 23.00 0.76 11.$0 PENDING PORK CZ003011 5 410A 13.00 29.40 0:�4 1150 PENDING YORK CZ503611 t ` 36-16A31T+D+V 410A 13.00 3620 0.74 i150 PENDING 'YORK CZ0042U " ''' 8-28A34T+D+V R4IOA) 13.00 41.00 0.76 11.50 PENDING )'ORK CZB0481i `; -2 '34T+1>+V 1t410A, 13.00 48-50 0.76 11.50 PENDING YORK CZB06011 PbSFtvi60-22. T+D+v 410A 13.00 57.00 0.79 11.00 PENDING PORK CZi306D11 ;�;, 0 30A34)+13+V 410A 13.00 57.00 0.77 I1.50 PE1dD G. +• indicates S piston cban9e M'reWrea w Acurar.:. wu cxuub. +p indicates a time delay r4ay Is r, agUired to achieve listed rating. +V indicates a uon bleed eapaniaoY valve is regnir ed to achieve listed rating. A Piston t4tangc on 10.00 secs ev&p.mtor cods is required if the eumpmator coil tindicator does not match that of the outdoor unit tonnage.oa vibich ifs Used, All evaporator cons matched With 1 1 -00 Bcer and above outdoor trots will requbmi a piston change to accordance with AliWes chart. on all comspondence t agardin$.ttiis do=acats picasc include the publication code listed below. PC1i3LICAnoN CODE: YQix*7-'$/REv1EWED RsILvA 4107105, YORY,0027 REV "ILVA 6/07MS These values are calculated in ranformanee with the g;uldelines gat by the OgE and publivhed in the Federal Register 10 CFR part 430. The procedur t died include tat data collected per ARI Standard 210/240 as input AIISty1e Coif '%;o� CougmRy' LP. ova the TIZV16 ckknge or discontinue ratings at say time without notice or coneoquence. .h.. Wrlwhtl. aY1 MMM , TO/T0-d LL60 ZLL, 09L A'iddnS c r im d I d EV : £T S00Z-8Z-33Q 036-2133"01 Rev. D (0605) ACCESSORIES Refer to Price Manual for specific model numbers. Hard Start Kit - Provides increased starting torque for areas with low voltage. Compressor Blanket - Designed to further reduce the nor- mal compressor operating sound. Refer to price pages for specific match -ups. Off Cycle Timer Delay - Provides a 5-minute off cycle to pre- vent rapid recycling of the compressor. Room Thermostats - A wide selection of compatible thermo- sets are .available to provide optimum performance and fea- tures for any installation. 1 Heat Stage only, manual, mechanical thermostat. Add sub- base for 1 H/1 C. 1 H/1 C, manual change -over electronic non -programmable thermostat. TYPICAL INSTALLATION 1H/1C, auto/manual changeover, electronic programmable, deluxe 7-day, thermostat. 1 H/1 C, auto/manual changeover, electronic programmable. • For the most current accessory information, refer to the price book or consult factory. SOUND RATINGS UNIT MODEL SOUND RATINGS DECIBELS WITH SOUND BLANKET WITHOUT SOUND BLANKET 018 69 73 024 70 74 030 73 75 036 74 75 042 74 75 048 76 77 060 79 80 MINIMUM 24" SERVICE ACCESS THERMOSTAT TO FURNACE OR 60" OVERHEAD CLEARANC ON ONE SIDE AIR HANDLER CLEARANCE WEATHERPROOF / TERMINAL BLOCK DISCONNECT SWITCH NEC CLASS 1 WIRING 4 NEC CLASS 2 WIRING 10" CLEARANCE -`�' - J �� TO INDOOR COIL COILAREA ••••... SEAL OPENING(S) WITH NOTE: ALL OUTDOOR WIRING `` = - - %' PERMAGUM OR EQUIVALENT MUST BE WEATHERPROOF CONTROL ACCESS PANEL TYPICAL FIELD WIRING -1 Phase Application ALL FIELD WIRING TO BE IN ACCORDANCE WITH ELECTRIC CODE (NEC) AND/OR LOCAL CODES POWER WIRING — — — POWER WIRING 2081230-1-60 24 VOLT CONTROL WIRING — — — — — - CONTROL WIRING MINIMUM 18 GA. WIRE FACTORY WIRING i J i (NEC CLASS 2) FURNACE OR AIR HANDLER TERMINAL BLOCK ' I CC Y R1 G W I I I 1 "TERMINAL W IS ONLY I I I I I REQUIRED ON SYSTEMS CONTACTOR \ WITH HEAT. TERMINALS 1 1 1 I 1 I GND. LUG COIL I — — — — Y R G W CONDENSING UNIT ROOM THERMOSTAT ALL OUTDOOR WIRING MUST BE WEATHERPROOF. USE COPPER CONDUCTORS ONLY. 8 Unitary Products Group MATP-I-IINc INDOOR COMPONENTS ADD -ON COILS - FOR FURNACE APPLICATIONS G1NA G1UA UNCASED 1/2 CASED G1HD UPFLOW UPFLOW HORIZONTAL DUCT I ® G2FD' o� MULTI -POSITION G1FA (UPFLOW, HORIZONTAL FULL CASED AND DOWNFLOW) UPFLOW `Available with factory installed horizontal drain pan. AIR HANDLERS -FOR NON -FURNACE APPLICATIONS El N1AH OR N1VS MODULAR BLOWER (UPFLOW, HORIZONTAL AND DOWNFLOW) 0 von G2FD COIL F2RC / F2FC OR F2RC / F2FP FAN COIL UNITS (UPFLOW; HORIZONTAL) Subjed to change without notice. Printed in U.S.A. C.00vriaht 0 by York Intemational Corp. 2005. All rights reserved. Unitary 6006 Products York Group Drive 036-21339-001 Rev. D (0605 036-21339-001 Rev. C (0602 Norman OK 73069 MYORK Heating and Air Conditioning TECHNICAL. GUIDE SINGLE PIECE AIR HANDLERS FOR USE WITH SPLIT -SYSTEM COOLING & HEAT PUMPS HEAT PUMP MODELS: F2RP/F2FP018 THRU 060 F3RP/F3FP018 THRU 060(T) COOLING MODELS F2RC/F2FCO24 THRU 036 VARIABLE SPEED MODEL: F2FV060 F3FV060(T) Due to continuous product improvement, specifications are subject to change without notice. Visit us on the web at www.york.com for the most up-to-date technical information. Additional rating information can be found at www.ariprimenetorg. 036-21110-002 Rev. C (1204) DESCRIPTION This fan coil unit provides the flexibility for installation in any upflow or horizontal application. These versatile models may be used for split -system cooling or heat pump operation. Compact cabinets along with return air options in both the upflow and horizontal positions allow this unit to fit into tight spaces such as attics, crawl spaces, and closets. NOTE: For matching condensing units and performance data, refer to condenser technical guides. FEATURES CABINET -The compact and sturdy cabinet is protected with a durable, attractive finish to prevent rust. The cabinet is also insulated to prevent cabinet sweating. F'RP/F2RC models have 1/2 inch fiber glass insulation and F`FP/F2FC & F'FV models have 3/4 inch insulation. BLOWERS - Blowers are sized to circulate air both quietly and efficiently. The direct -drive, 3-speed motors provide a selection of air volume to match any application. Motor speeds may be selected via quick connect terminal at the motor. Slide -out blower/motor assemblies provide for easy servicing. COILS - Using the latest in heat transfer technology, the rifled tube coil/aluminum fin coils produce high performance ratings and provide long lasting quality. The coils are capable of bot- tom return air in the upflow position, and right or left end return air in the horizontal position. FACTORY INSTALLED TXV - Air handler models F3RP(T)/ F3FP(T) & F3FV(T) have factory installed TXV metering device. All other models are orifice metered. ELECTRIC HEATERS - Models providing up to 25kw of heat are available as field installed accessories. Electric heaters are available in both single and three phase. EASY INSTALLATION - These fan coil units are designed to provide the lowest total installation cost. Accessible color coded control wiring, top and side power wiring knockouts, easy to install drain connections and electric heaters all com- bine to minimize installed cost on every job. CONTROL BOARD The control board is equipped with low voltage terminal strips for easy installation. The control board is also equipped with plug-in receptacles for the auxiliary heaters. FOR DISTRIBUTION USE ONLY NOT TQ BE USED AT POINT OF RETAIL SALE nIMFNSIONS SHIPPING BRACKET' REMOVE PRIOR TO INSTALLATION (2 SCREWS) 10-3/8--•I' m DRAIN CONNECTIONS F1:1 FOR HORIZONTAL APPLICATIONS 4 VAPOR OPENING LIQUID OPENING D 036-21110-002 Rev. C (1204) ALL DIMENSIONS ARE IN INCHES. THEY ARE SUBJECT TO CHANGE WITHOUT NOTICE. CERTIFIED DIMENSIONS WILL BE PROVIDED UPON REQUEST. 4-1/8 m� K ><10-3/8 �i7-1/2 TOP VIEW (ALL MODELS) A ®=DRAIN PAN FOOTPRINT MAX. FILTER LENGTH (21 INCHES) MAX. FILTER WIDTH (B MINUS 1-1/2 INCHES) T� C 2 B DRAIN CONNECTIONS FILTER FOR UPFLOW APPLICATIONS ACCESS BOTTOM VltVV MODEL M F2ODEP(T)i DIMENSIONS WIRING K.O.S1 REFRIGERANT CONNECTIONS LINE SIZE F2FP/F3FP(T)/ F2RC/F2FC/ F2FV/F3FV(T) A B C D E F J K VAPOR HEIGHT WIDTH DEPTH POWER CONTROL LIQUID 018 (RP/FP) 40-314 18 22 12-1/8 14-7/8 16-1/2 1-3/8(l)3/4 7/8 (1/2) 318 5/8 024 40-3/4 18 14-7/8 16-1/2 5/8 030 40-3/4 18 14-7/8 16-1/2 3/4 036(RC) 40-3/4 18 14-7/8 16-1/2 036(RP) 40-3/4 21-1/2 18-3/8 20 3/4 0402 40-3/4 21-1/2 18-3/8 20 718 042 40-3/4 21-1/2 18-3/8 20 7/8 0452 50-3/4 24 17-3/8 20-7/8 22-1 /2 7/8 (1/2) 1-3/8(1) (1-1/4) 7/8 048 (FP) 50-3/4 24 20-7/8 22-1/2 7/8 060 (FP) 50-3/4 24 20-7/8 22-1/2 7/8 0602 (FV) 50-3/4 24 20-7/8 22-1/2 7/8 1. Actual conduit size is shown in parenthesis. 2. Models only available with factory installed horizontal drain pan. 2 Unitary Products Group 036-21110-002 Rev. C (1204) AAn Tr^"kl1nAl r1ATA vv AIR HANDLER MODEL APPLICATION REFRICx CONN. TYPE STD. ORIFICE SIZE FACE AREA (SQ. FT.) DEEP ROWS FINS PER INCH COIL SLABE SIZE TUBE GEOMETRY TUBE DIA. FIN. TYPE METERING DEVICE H W F2RP/FP018 A/C & HP Sweat 53 2.43 2 14 10 17.5 1X.886 3/8 Enhanced Orifice F2RC/FCO24 A/C 61 2.92 2 14 12 17.5 Orifice F2RP/FP024 A/C & HP 61 3.40 2 14 14 17.5 Orifice F3RP024 A/C & HP 61 3.40 2 14 14 17.5 TXV F2RC/FC030 A/C 65 2.92 2 14 12 17.5 Orifice F2RP/FP030 A/C & HIP 65 3.89 2 14 16 17.5 Orifice F3RP030 A/C & H/P 65 3.89 2 14 16 17.5 TXV F2RC/FC036 AC 73 3.89 2 14 16 17.5 Orifice F2RP/FP036 A/C & H/P 75 3.40 3 12 14 17.5 Orifice F3RP036 A/C & H/P 75 3.40 3 12 14 17.5 TXV F2FP040 NC & H/P 63 3.89 3 11 16 17.5 Orifice F3FP040 A/C & HIP 63 3.89 3 11 16 17.5 TXV F2RP/FP042 A/C & HIP 78 3.89 3 11 16 17.5 Orifice F3RP042 A/C & H/P 78 3.89 3 11 16 17.5 TXV F2FP045 A/C & HIP 78 5.83 3 12 24 17.5 Orifice F3FP045 A/C & HIP 78 5.83 3 12 24 17.5 TXV F2FP048 A/C & HIP 84 5.35 3 12 22 17.5 Orifice F3FP048 WC--& HIP 84 5.35 3 12 22 17.5 TXV F2FP060 A/C & HIP 90 5.83 3 12 24 17.5 Orifice F3FP060 A/C & HIP 90 5.83 3 12 24 17.5 TXV F2FV060 A/C & HIP 90 5.83 3 12 24 17.5 Orifice F3FV060 A/C & H/P 90 5.83 3 12 24 17.5 TXV i I i 3 Unitary Products Group II i 036-21110-002 Rev. C (1204) r .Y.7va. a..a r....... ...�. --.-. MODEL F2RC/F2FC/F2RP/F3RP(T)IF2FP 018 024 030 036(RP/FP) 036(RC/FC) - Blower - Diameter Width 9x6 10x6 10x8 10x8 10x8 - Motor HP 1/4 1/4 1/3 1/2 112 - Nominal RPM 1075 1075 1075 1075 1075 - Voltage 208/230 AMPS Full Load 1.6/1.4 1.6/1.4 2.5/2.2 3.3/2.9- Locked Rotor 313/2.9 3.3/2.9 6.215.5 7.416.5 1 7.416.5 - Fiiterl Type Disposable/Permanent Size 16x20x1 16x20xl 16x20x1 20x20x1 16x20xl - PermanmentType Kit lPF601BK lPF601BK lPF601BK 1PF602BK 1PF601BK Shipping/Operating Weight (tbs.) - RP/FP 87/92 93198 1001105 109/115 - - Shipping/Operating Weight (Ibs.) - RC/FC - 90/95 90195 - 90195 - MODEL F2RP/F3RPMfF2FP/F3FP(T)/F2FV/F3FV(T) 040 042 045 048 060 F(2,3)FV060 slower - Diameter xWidth 10x8 10x8 10x10 11x10 11x10 11x10 Motor HP 1/3 3/4 1/3 1/2 3/4 1.0 Nominal RPM 1075 1130 925 1085 1100 1200 Voltage208/230 Full Load Amps Locked Rotor 2.5/2.2 4.4/3.8 3.0/2.7 3.8/3.3 4.4/3.8 7.8/7.0 6.215.5 11.9/10.3 4.814.1 4.6/4.0 8.417.3 - Filter, Type Disposable/Permanent Size 20x20x1 22x20xl 22x20x1 22x20x122x20x1 PermanmentType Kit K lPF602BK lPF603BK lPF603BK lPF6038K1PF6036KShipping/Operating Weight (Ibs.) - RP1FP n16x2Oxl 115/121 1441150 1421148149/155Shipping/Operating Weight (Ibs.) - RC/FC - - - - 1. Feld Supplied. ELECTRICAL DATA - C-lin Only MODEL F2RP/F3RP( )IF2FP/F3FP(TU F2RC/F2FC/F2FVIF3FV(T) 9 TOTAL MOTOR AMPS MINIMUM CIRCUIT AMPACITY Max. O.C.P.1 Amps/ Type MINIMUM WIRE SIZE A.W.G. 208V 240V 208V 240V 018 (N/H) 06 1.6 1.5 2.0 1.8 15 14 024 (N/H) O6 1.6 1.5 2.0 1.8 15 14 030(N/H) 06 2.5 2.3 3.2 2.8 15 14 036 (N,H) 06 3.3 3.0 4.2 3.7 15 14 04OH06 2.5 2.3 3.2 2.8 15 14 042(N/H) 06 4.4 4.0 5.5 4.8 15 14 045H06 3.1 2.6 3.9 3.4 15 14 048(N/H) 06 3.9 3.5 4.9 4.3 15 14 060(N/H) 06 4.6 4.4 6.4 5.5 15 14 VARIABLE SPEED MODEL F(2,3)FV06H06 - - - 15 14 1. O.C.P. = Over Current Protection device, must be HACR type Crrcun tireaKer or i ime Lmtay ru- Unitary Products Group 9 TECHNICAL GUIDE R-22 SPLIT -SYSTEM BEAT PUMPS 13 SEER MODELS: E*RD018 TI-IRU 060 (1-1/2 THRU 5 NOMINAL 036-21681-003 Rev. B (0905) DESCRIPTION The 13 SEER series heat pumps are designed for use with a variety of UPG evaporator sections to suit any application need. A full line of matching Add -On Coils are available for use with upflow, downflow or horizontal furnaces. Matching Air Handlers are also available for upflow, downflow or hori- zontal installation to provide a complete system. Electric heat may be installed in air handlers. All units are factory charged to assure easy installation. P►7_V:K"_ ZIi'A 5-year limited parts warranty. 5-year limited compressor warranty. FEATURES • DURABLE CONSTRUCTION - The outdoor unit is con- structed of pre -painted steel that offers tough protection against corrosion and resists fading when exposed to sun- light. Drain holes are incorporated into the base pan to per - TONS) mit free drainage of moisture. rs�Nw�is�+reeping 2„�PromRes� anmam• �S''�ftro wii;w 10'11 ISO 5001 certified Quality Mamtgemem System QUALITY COILS - The coil is constructed of enhanced copper tube and aluminum fins. • COIL PROTECTION - Coils are protected from damage by a polymer mesh applied between the coil face, and a PVC coated steel coil guard. • PROTECTED COMPRESSOR - The hermetic compressor is internally protected against high pressure and tempera- ture by the simultaneous operation of a high pressure relief valve and temperature sensors which stop the compressor if operating temperatures go too high. Both protectors reset automatically. A discharge line solid core filter drier further protects the compressor. • Complete System Control — These heat pumps utilize the unique microprocessor defrost control system to pro- vide optimal comfort and to monitor the overall system for reliable operation. The defrost control system continuously monitors the space environment to maintain optimum effi- ciency. It initiates defrost only when necessary to further reduce heating costs and improve reliability. In the event improper operating conditions occur, the control will auto- matically shut the system down to extend the life of the heat pump. Rapid cycling is prevented by use of an inter- nal anti -recycle timer. • LOW OPERATING SOUND LEVEL - The compressor is mounted on rubber isolators to reduce operating sounds. The slow moving condenser fan keeps air turbulence and sound to a low level. • EASY ACCESS - Removable panel affords accessibility to the electrical box. FULLY CHARGED AND FACTORY WIRED - to simply Due to continuous product improvement, specifications installation and reduce labor costs. Only power supply and are subject to change without notice. control wiring and refrigerant lines must be connected. All models are sweat connect with reusable service valves. Visit us on the web at www.york.com for the most up-to-date technical information. Factory tested - verify system operation and control s functioning before shipment. Additional rating information can be found at U.L. and C.U.L listed -approved for outdoor application. www.ariprimenet.org. Certified in accordance with the Unitary Small Equipment cer- . tification program, which is based on ARI Standard 210/240. FOR DISTRIBUTION USE ONLY - NOT TO BE USED AT POINT OF RETAIL SALE 036-21681-003 Rev. B (0905) Physical and Electrical Data MODEL E1RD018S06 E1RD024S06 E1RD030S06 E1RD036S06 E1RD042S06 E1RD048S06 E1RD060S06 Unit Supply Voltage 08-230V, 10, 60Hz Normal Voltage Range 187 to 252 Minimum Circuit Ampacity 9.9 15.0 16.9 19.8 25.0 32.7 37.8 Max. Overcurrent Device Amps 2 15 25 25 30 40 50 60 Compressor Type 3 Reap Recip Recip Recip Recip Scrolls Scrolls Compressor Amps Rated Load 7.5 10.7 12.4 14.6 18.8 25.0 29.1 Locked Rotor 41 44 60 78 78 115 150 Crankcase Heater Yes Yes Yes Yes Yes No No Fan Motor Amps I Rated Load 0.5 1.5 1.5 1.5 1.5 1.5 1.5 Fan Diameter Inches 22 22 22 22 22 24 24 Rated HP 1/15 1/4 1/4 114 1/4 114 114 Fan Motor Nominal RPM 850 850 850 850 850 850 850 Nominal CFM 2,000 3,250 3,450 3,500 3,500 3,400 3,500 Face Area Sq. Ft. 15.72 18.34 20.96 23.58 23.58 24.00 27.00 Coil Rows Deep 1 1 1 1 1 2 2 Fin / Inches 22 22 22 22 22 18 18 Liquid Line Set OD (Field Installed) 318 318 3/8 318 3/8 318 318 Vapor Line Set OD (Field installed) 314 3/4 7/8 7/8 7/8 7/8 7/8 Unit Charge (Lbs.-Oz.)4 7-1 7-9 8-7 8-7 8-7 12-8 16-8 Charge Per Foot, Oz. 0.68 0.68 0.70 0.70 0.70 0.70 0.70 Operating Weight Lbs. 172 184 196 208 208 250 294 1. Rated in accordance with ARI Standard 110, utilization range "A". 2. Dual element fuses or HACR circuit breaker. 3. All scrolls listed with a superscript "B" are Bristol scrolls. All scrolls listed with a superscript "C" are Copeland scrolls. 4. The Unit Charge.is correct for the outdoor unit, matched indoor coil and 15 feet of refrigerant tubing. For tubing lengths other than 15 feet, add or subtract the amount of refrigerant, using the difference in length multiplied by the per foot value. All dimensions are in inches. They are subject to change without notice. Certified dimensions will be provided upon request. Unit Model Dimensions D (Inches) Refrigerant Connection Service Valve Size A' B C Liquid Vapor 018 27 35 23 318" 3/4" 024 31 37 27 030 35 37 27 7/8" 036 39 37 27 042 39 37 27 048 34 43 32 060 1 38 43 32 1. Including Fan Guard 2 Unitary Products Group I 036-21681-003 Rev. B (0905) Additional R-22 Charge / Orifice Size for Various Matched Systems • EI.4T. (31:uhYZ6^LI�'13W��i1:7.Iki `III:��Xir1.IrLY1.Yrlxr7.T�I:icIT��Xir1.ATI'M:a • ilsrhYbY! . r r 7 r r . r r fIs•HYh7-! r r• � r r . r • '[tYa�.IrkL�fa�aiCl��lr�000000 ��000000 [eY7y�Tiic�6�:1TiY��©0 r' 0000� ui'a� •BXI:If.'II:IYili��0ilr��-00� . r • ��-0 . c r c 00� _ • r • . ��00 r ' 0000 [eY7�•IrZir76"1:IYL•l�jr'00000 rr. �c�'I, {eyayIrb3iI:YZ��'00000 r. r. 000�0 [e;l:rcyxllar��0�Ii3'�� ' � 0000 [eila_GI:Ir]:YZ��i'00000 r�i��' •.r r r 00� ' • r . • �ibY�il000 • r•° i��00 r c r r r r �_ 0 telil:biri�r� 000� r. r ".. r 'Ct3ili!/e(rXI1L�/ �� r �0000 Ce7i1�/.Iikil��lili�l�titititit;<3c��-0000 • r Oi1rY�00 � . r 00 r r 0000 . r , . rr �0000000 II(eiila_G�:i.�•7ih��0� r r � r r �0 ..r.i •- ��000��0 P, r r. I r 000 [e3i17e.Leilal_yklrLYiGl�:ii•ilr� r�0000 1 � • r ��00000 �[�ly_�c�tr_�-�rws• r Ov000�i �,[e7ityreilrralrZicI.7.il�:i'00 r c �`'jr��00 • r . r • r 0000�� r . r • r o000i'��__ � • I . r • r o0000�L'i'��L'I�a •'' - 000��00iiis (eil�[rnI.��000-0000 .r - k%IF�:IYiYieO�'�00 (0220Irrew [eY7� 7r�I��.iti.7FZl�00000�'0� [eirr_�IXI�ar�i ��000� - r • o00��ii��000, - r • : 00�0000 • I . ( 0000�00�; rw�nv�w: 1. Systems matched with furnace or air handlers not equipped with blower -off delays may require blower Time Delay Kit #6918A5011. 2. These orifices are factory mounted in the flow device of each indoor coil. 3. A TXV kit must be used with these coils to obtain system performance (701, 702, 703 indicates 1TV07 ...series). PROCEDURES: 1. Unit factory charge listed on the unit nameplate includes refrigerant for the condenser, the smallest evaporator and for 15 feet of interconnecting line tut�ng. 2. Verify the orifice size and the additional charge required for the specific evaporator coil in the system using the above table. 3. Additional charge for the amount of interconnecting line tubing greater than 15 feet at the rate specified in the table above. 4. Permanently mark the unit nameplate with the total system charge. Total System Charge = Base charge (as shipped) + adder for evaporator + adder for One set. 5. If the orifice in the evaporator was changed, verify the evaporator nameplate has been marked with the coned orifiewTXV size. Unitary Products Group 3 036-21661-003 Rev. B (0905) /•y// UNIT MODEL AIR HANDLER COIL MODEL' COOLING MODEL ELECTRIC HEAT KWz W RATED CFM NET MBH SEER[EE2R TOTAL SENS. 1 PH 13 SEER HP WITH N1AH I G2FD ElRD01SS06 N1AH608 5,8,10,15,19 17 G2FD024(S,H)17 600 18.0 12.4 13.00 11.35 NlAHB08 5,8,10,15,19 17 G2FD036(S,H)17(T) 800 23.2 16.8 13.00 11.25 E1RD024S06 N1AHB12 5,8,10,15,19 17 G2FD036(S,H)17(T) 800 23.2 16.8 13.00 11.25 E1RD030S06 NlAHB12 5,8,10,15,19 17 G2FD046(S,H)17(T) 1000 28.4 20.3 13.00 11.25 E1RD036S06 NlAHC16 5,8,10,15,19 21 G2FD042(S,H)21(T) 1200 35.0 25.6 13.00 11.60 NIAHC16 5,8,10,15,19 21 G2FD048(S,H)21(T) 1200 35.0 25.6 13.00 11.60 E1RD042S06 NlAHC16 5,8,10,15,19 21 G2FD048(S,H)21 1400 41.0 30.8 13.00 11.25 N1AHD20 8,10,15,20,25,30 24 G2FD048(S,H)24 1400 41.0 30.8 13.00 11.25 N1AHD20 8,10,15,20,25,30 24 G2FDp60(S,H)24 1600 46.0 35.4 13.00 11.50 ElRD048S06 N1AHD20 8,10,15,20,25,30 24 G2FD061H24 1600 46.0 35.5 13.00 11.50 NIAHD20 8,10,15,20,25,30 24 G2FD060(S,H)24 1800 55.0 40.7 13.00 11.50 E1RDD60S06 NlAHD20 8,10,15,20,25,30 24 G2FD061H24 1800 55.5 41.0 13.00 11.55 1 PH 13 SEER HP / N1VS - VARIABLE SPEED NlVSB12 5,8,10,15,19 17 G2FD024(S,H)17 600 18.8 11.7 14.00 11.95 ElRD018S06 N1VSB12 5,8,10,15,19 17 G2FD030(S,H)17 600 18.4 12.6 14.00 12.70 NlVSB12 5,8,10,15,19 17 G2FD036(S,H)17(f) 800 23.6 i6.7 14.00 12.55 E1RD024S06 N1VSC16 5,8,10,15,19 21 G2FD036(S,H)21(T) S00 24.0 17.1 1425 12.70 E1RD030S06 N1VSB12 5,8,10,15,19 17 G2FD046(S,H)17(T) 1000 29.0 20.1 14.00 12.35 NlVSC16 5,8,10,15,19 21 G2FD042(S,H)21(T) 1000 28.8 20.0 14.00 12.30 ElRD036S06 NIVSC16 5,8,10,15,19 21 G2FD042(S,H)21(T) 1200 35.4 25.2 14.00 12.65 NIVSC16 5,8,10,15,19 21 G2FD048(S,H)21(f) 1200 35.4 252 14.00 12.65 N1VSD20 8,10,15,20,25,30 24 G2FD048(S,H)24(T) 1200 35.4 25.2 14.00 12.65 NlVSC16 5,8,10,15,19 21 G2FD048(S,H)21 1400 41.0 30.3 13.75 11.95 E1RD042S06 N1VSD20 5,8,10,15,19 21 G2FD048(S,H)21 1400 41.5 30.4 14.00 12.05 NIVSD20 8,10,15,20,25,30 24 G2FD060(S,H)24 1600 46.0 34.6 13.50 11.95 E1RD048S06 NlVSD20 8,10,15,20,25,30 24 G2FD061H24 1600 46.5 34.8 13.75 12.10 NIVSD20 8,10,15,20,25,30 24 G2FD060(S,H)24 1800 54.0 39.7 13.25 11.70 E1RD060S06 N1VSD20 8,10,15,20,25-30 24 G2FD061H24 1800 55.0 39.9 13.25 11.85 1 PH 13 SEER HP / F2RP I FP / FV3,4 ElRDOIBS06 F2RP/F2FP024 2,5,8,10 17 - 509 18.4P25.4 13. 11.05 E1RD024S06 F2RP/F2FP030 5,8,10,15 17 - 800 23.2 13.00 11.20 F2RP/F2FP040 5,8,10,15 21 - 1000 28.0 13.00 11.20 1RD030S06 ElRD036S06 F3RP040 5,8,10,15 21 - 1000 28.0 13.00 11.20 F2RP/F2FP042 5,8,10,15 21 - 1200 34.6 13.00 11.25 F3FP042 10,15,20,25 24 - 1200 34.6 . 13.00 11.25 ElRD042SOB F2FP048 10,15,20,25 24 - 1400 40.5 30.7 13.00 10.95 F2FP060 10,15,20,25 24 - 1600 45.5 35.3 13.00 11.20 E1RD048S06 F2FV060 10,15,20,25 24 - 1600 46.0 34.6 13.50 12.00 F2FP060 10,15,20,25 24 - 1800 54.5 40.4 13.00 11.20 E1RD060S06 F2FV050 10,15,20,25 24 - 1800 1 54.0 1 39.7 13.25 11.70 Rated in accordance with DOE test pmoedures (Federal Register 12-27-79 and 3-18-88) and ARI Standards 2101240. Cooling MBH based on 80°F entering air temperature, 50% RH, and rated air flow. EER (Energy Efficiency Ratio) is the total cooling output in BTU's at a 95°F outdoor ambient divided by the total electric power in watt-hours at those conditions. SEER (Seasonal Energy Efficiency Raa io) is the total cooling output in BTU's during a normal annual usage period for cooling divided by the total electric power input in watt-hours during the same period. 1. G2FD coils available with a factory installed horizontal drain pan. See price pages Tor specmc mocei nurnu i. 2. Single phase units require single phase 21-11K heaters. 3. To meet R=4.2 insulation requirements, substitute F2FP for F2RR models. All ratings remain the same. 4. FG8, FG9, and FL8 furnaces and F2RP air handlers have B.O.D. standard. - = Not Applicable. 4 Unitary Products Group 036-21681-003 Rev. B (0905) 1. Rated CFM same as for cooling. 2. Heating MBH based on ARI standards of 701 DB entering indoor air, 72°h RH outdoor air with 25 feet of interconnecting piping and no supplemental elec- tric heat operation. CID equals MBH output divided by (total KW input x 3.412). HSPF (Heating Seasonal Performance Factor) is the total heating output during a normal annual usage period for heating divided by the total electric power input during the same period. —= Not Applicable. 8 Unitary Products Group 036-21681-003 Rev. B (0905) MATCHING INDOOR COMPONENTS ADD -ON COILS - FOR FURNACE APPLICATIONS G1UA G1HD I �� 1/2 CASED HORIZONTAL DUCT I ��' / UPFLOW G1HA � �/ FULL CASED HORIZONTAL ® G2FD' MULTI -POSITION G1FA {UPFLOW, HORIZONTAL FULL CASED AND L DOWNFLOW) G1NA UPFLOW UPFLOW * Available with factory installed horizontal drain pan. AIR HANDLERS - FOR NON -FURNACE APPLICATIONS N1AH OR N1VS MODULAR BLOWER (UPFLOW, HORIZONTAL AND DOWNFLOW) 0 . o von n V G2FD COIL F2RP/F2FP/F3RP/F3FP/F2FV/F3FV FAN COIL UNITS (UPFLOW, HORIZONTAL) Unitary Products Group 27 Madlin s enterprises Catherine M. Madlin, Certified Enemy Analyst v 760-322-5004 / 323-3644 (fax) . V . V T .. 0 Manufacturer's Specifications Resistance Factor (R) of Common Building Materials, Air" Spaces and Films auilding Board R-U.2lue Gypsum Board 1/2" 0.45 5/8" 0.56 Plywood 1/4' 0.31 3/8" 0.47 1/2' 0.62 314" 0.94 Hardboard, Underlayment 1/4" 0.31 1" 1.24 Building Rawer Permeable Felt, 151b. 0.06 Plastic Film Neg i"r'l'esonr'y N"Katerials Concrete blocks, three oval cores Cinder aggregate 4" thick 1.11 12" thick 1.89 8' thick 1.72 Sand and Gravel Aggregate 8" thick 1.11 Lightweight Aggregate 8" thick 2.00 4" thick 1.50 Gypsum Mortar or Plaster 1/4" 0.05 1/2" 0.10 1' 0.20 Gypsum Plaster (Perlite) 1" 0.64 Gypsum Plaster (Vermiculite) 1" 0.59 Brick per inch 0.20 Fake brick, per inch 0.11 Stucco, per inch 0.20 Roofing Materials Asbestos Cement Shingles 0.21 Asphalt Roll Roofing 0.15 Asphalt Shingles 0.44 Built Up Roofing 3/8" 0.33 Wood Shingles 0.94 Siding Materials Asbestos Cement 1/4' thick lapped 0.21 Asphalt 0.15 Wood Shingle, 16'x7.5' Exposure 0.87 Double with 12" Exposure 1.19 Wood Drop Siding, Vx8" 0.77 Wood Bevel Siding, .5'x8' (lapped) 0.81 Wood Bevel Siding, _3i4'x10' (lapped) 1.05 Wood Plywood, .3/8" (lapped) 0.59 Structural Glass 0.10 insulation hrieteria1% B-value Insulation Board - FALCON FOAM- @ Type 1/757 3.90 FALCON FOAM' @ Type VIII/757 FALCON FOAM' @ Type I1/75'F FALCON FOAM' @ Type DU75'F 4.40 Extruded Polystyrene @ 75-F 5.00 Polyurethane/Polyisocyanurate Aged @ 75-F 5.60 Insulation batts:blankets Mineral Wool Per inch/75* F 3.66 Insulation Loose Fill FALCON FOAM' 3.40 Cellulosic/Inch 3.1-3.7 Perlite, Expanded/Inch 2.2-2.9 Vermiculite, exfohated/inch 2.1-2.3 Air Kpaces (2/4") Heat Flow Up Non -reflective 0.75 (Summer) 0.87 (Winter) Reflective, one surface 2.22 (Summer) 221 (Winter) Heat Flow Down Non -reflective 0.85 (Summer) 1.02 (Winter) Reflective, one surface 3.29 (Summer) 3.59 (Winter) Heat Flow Horizontal Non -reflective 0.84 (Summer) 1.01 (Winter) Reflective, one surface 3.24 (Summer) 3.46 (Winter) Surface Air ` ilrns. Inside (Still Air) Heat Flow Up (through a horizontal surface) Non -reflective 0.61 Reflective 1.32 Heat Flow Down (through a horizontal surface) Non -reflective 0.92 Reflective 4.55 Heat Flow Horizontal (through a vertical surface) Non -reflective 0.68 Moving AEr Surfaces Any Position or Direction 15 MPH Wind (Winter) 0.17 7.5 MPH Wind (Summer) 0.25 Build With Cc-kM- SpecffyFalcon Foam' Anciersen. Center of Glass Performance Data ---_--�----------•-- I _..-.._' ! -- --- ; nside 'High -Performance" (HP Low•E) and .--- 'High Dual -Pane Glass Visible { i Fading I I I %MR Surfs e I Glass -Performance Sun' (HP Sun) are Andaman trademarks forLow E' glass. (Air filled) Light, I SC_, SHGC3 RHG` { Tw Tdwf iU-Factor--j@cen_t_ee- J Tempe Owed on NFRC lesting/simulatiom mmdidons Casement/Awning, Tilt -Wash, I - I using Windows 4.1 and NFRC validated spectral Woodwright; t! rrolme° Transom 83% - 0.92 { 0.79 I 191 62% 64% 0.50 41 ° I q5°F data. o^F outside mmpemwre, 70`F inside temper• • Fixed (Picture 82°% I i. .. - % 0.90 ---- ; 0.77 _-.. 187 .r 57% { 60% 1 0.16 i 41% -- , -- 146°F alum and a 15 mph wind. IVisible Transmittance (Vi)measures how much grge Top " _ 83 % { 0.92 { D.79 191 1 62% 65% 0;49 ! 41% i 45"F light comes through the glass. The higher the ' PetrflaShield° 7 __ 1 _ -` value, Isom 0 to 1, the more daylight the glass oar Rne° Gliding Patio Door 82% i 0.87 EO.75 181 54% 58% 42% 46°F lets In. Visible Transmittance is measured over Flel6trame°AtchTop, SpmfgGne" .80% .{ �___... .. 0.62 l ---0.71 - j 172 j 47% j 53% -- 1'0.48 42% ; 46°F the 380 to 760 manometer portion of the color spectrum. ' 2 Shading Coefficient dennes the amount of heat gain through the glass compered to a I Inside single Ilre of dear 1/8' (3 MM) glass. High -Performance I { j Surface 3 Solar Heat Get n coefficient (SHGC) defines the fraction Low-E Glass Visible I I Fading w %MR Glass of solar redleUon admitted (Dual -pane. Low-E, argon blend filled) Light i Sc, SHGC= RHG' 1 Tuv- Tdw° ill-Factor910cerdera; Tempe through the glass both dimcdytransmmed and absorbed and subsequently refused ' Casement, Awnhigr Tilt -Wash, ' ` 1 WOOLMT ght Transom 73% 0.50 I I 0.43 104 { 17% 34% 0_28 I { - Inward. The loner the value, the less heat Is transmitted through the glass. • ----1------.-_.... ... Casement Picture, Awning _._ .. _ I I _.._ 60% _. 55°F 4 Relative Hem Gain s calculated e Double Htmg Picture 73% 0.49 i 0.43 102 1 16% 33% '. 0 28 I 1 60% { - I 56°F assumptions different set ei lusumpllons than Dermal then performance. Gliding Windows (400 Series) - - 73% 1 Circle TOD. Elliptical Top. Circle, Oval 0.50 0.43 - 104 ; 17% I _.. 34% _ 0.28 - ! 60% - 56°F 5 Transmission Ultra -Violet Energy (TUV).The _ 73% 0.50_ 0.43 I -I 17°G ( 34% i 0.28 I 60% 56°F g Osmission m showavetnnergy in the 300 Perim -Shield' Patio Dow, IIIIII1iii _104 I - - t nanometer portiono a soar spectrum. Narrollnee Gliding Patio Door 72% 1 0_.49 0-42 101 ( 11 5% 32% 0.27 { 60% 1 56°F The energy an cause Fantle fading. Frenehwrood° IDnge 4 OutswiFig Glidhrg { 72% 0.49 --- 0.42 1 -- 101 ; 15% 1 32% I 0.28 I 60% -F----- i 56° F 6 T mnsmLtlnn Daman Function (fDW). Th e transmission Fleld►raneLArch Windows, Sprilrg6ne 71%_ Roof Wmdows/Skylights (tempered) 73% _ 0.47_ 0.4943 0.41 j _ II 98 T14% I 31% !_ 0.27 ' 61% { 56_°_F or abort wave energy in the 900- 6DD manometer Portion of the solar spectrum. The value Includes both rile UV and visible 102 16% I 33% i 0.28 60%_ I 56°F light t laminated (all products) 71% 0.49 j 0.42 j 301 { 2% I 25% j 0.28_ _I 60% i 56°F anew that can cause made fatting. This rating has also been referred to as the . _ Krochmann Damage Funetion.This rating - better predicts facing potential than UV High -Performance Sun- { 1 i j Inside transmission alone. The lower the Damage Function rating, the fees transmission of Low-E Glass visible { , Fading %MR SO { Glass short wave energy through the gloss that can potentially cause fabric fading. Fabric type Is (Dual -pane, tinted Low-E; argon blend Oiled) Light' I SC' SHGC3 RHG4 i Tuvs Tdwe IU-Factor'@center° 1 Tempe also a key component of fading potential. Casement, Awning, Tilt Wash, { I i i 7 U-Factor is a measure of the heat lose Woodwrighl; Tratnsom 4D% { - _........_ 0.36 0.31 I 76 ° I 24% � 0.31 58% I 54°F throolN the total unit in BTU/hr deg.F aq. FL Picture Urals: N DHP 40% I -.-__. CA, - I1• .___-__ 0 35 0.30 _. 74 _1616 I 15% ; - 2- 23% - - 0.30 j 57% - 1 54°F Percent relative humidity before r re occunetthearderofglow.takenusin Gliding Windows 40% j - .-_._..-.-__------- - Circle Top, Rliptical Top, Circle, Oval 40% j __ .-' ----'- -' 0.36 - 0.36 T- 1 0.31 j 0.31 75 75 _ I 16% i .L.-_. I i6% I _ 24% j o I 24 % 0.3_0_ 1 _ -� 0.30 57% 57% I 5_4"F _ j 54°F- center of glass temperature. 9 Inside glass surface temperatures are taken m. Perm -Shield' Patio Door 39% { - ---- .._ _ 034 - 0.30 i ---- 73 i 14% I . -- 22% -?� 030 i 58% 54°F °t Ue otter of glass. Frenchwood° Hinged. Gliding 39% 0.35 { 0.30 ! - 73 -- 1 142 22% T 0.30 58% ( 54°F 92�ATkTh doors, Sprtngfine- 38% ! 0.33 0.29 ; 71 { 13% i 21% , 0.30_ i 58% I 55°F Roof Windows/Slglights (tempered) 39% ] 0.34 j 0.30 73 !-14% 1 22% { 0.30 { 58% 1 54°F Laminated lafl products) 39°% 0.35 j 0_30 L 73 ! 2% j 16% ; 0.30 ! 58% 55°F This data Is aCWM as or August 12, 2003. Due to ongoing Product changes, updated test results, or new Industry standards, this darn may changa ever time. Canadian Product Performance Ratings Tested to: CAN/CSA A44D-M90 The mullion was tested and the deflection was witllin the maximum allowable of V175 at positive and negative loads of 2600 Pa. Units Tested Air Tightness Water rightness Windload Resistance and blow-out Resistance I to forced Units f entry Tested CW16 P6050 AP421V _ A-3 j B-7 B_7 _ _- 8 4 _ B-3 B-3 ._ B-3 _ B-3 _ _ B3 _ _ B-7_ B-7 C-4 _� C-4 -_ C-2 pass _ .. FX-12050 j Not Applicable AF-606 .... SP-802 Pass FWH6080A _ Pass 9080SASR Pass FW06080A NotAppiicable 3180 _.- --- Pass_ .._ FWG8080 Not Applicable 160611 _NotAppiicable PS68080.. Fixed A-3 A3535 - TW3862_ N18B62 DHP5662 G65 A-3 0-3 42 A-2 A-3 C-3 Fixed C-3__. G3 A-3 Cir Ovl_3048 Er8Fixed Fused C-5 GS 238 Air Tightness Water i 'rightness Windload Resistance j and blow-out Resistance I to forced I entry P P Fixed Fixed B-7 B-7 _ 8 B 2 - ... B-2- ..� j B 4_ _ { _ B 4 B-3 -B-2........ 1 j _. -B 2. - j C-5 NotAp licable { Not Ap�licable Not Applicable Pass Pass - { C-5 Fixed A-3 A-3.-� A-3 A-3 C-3 C.3 - 1 C-3 C-3 j C-1 C-1 j NotApplipbie. N_otApplipble Pass _.Pass--- Pass- - =A-3 - A 3 Performance Data Andersen® Nfi1C Certified Total Unit Performance - Andersen windows and patio doms meet or exceed the following standards: WDMA, 4S: 2,W.D.M.A 4-5.4 (WDMA license No. 129). Hallmark cenified. Independent testing laborelories have Pedormedall5 egquiredleem on 5 ed sixes Compliance With these standards Is confirmed by ongoing testing In Andersen taboratodes. These products ere covered by one or more of the fognwl patents: 4.999.950; 5,%5,4o9; 5.775.749; 6, 5.582,445; 5,097,629; 5,740.632; 5,199,234; D312,565; D397,604; and D417,E31. Other patents pending Without Grilles 100 Series Windows HP HP Sun Low-E HP Low-E ! HP Sun Low-E 4ndersene Product Type Low-E i Casement U-Factor' 0.33 0.35 0.34 0.36 24' x 48' site SHGC2 0.33 0.24 0.30 0.22 VP ^ 0.53 0.29 0.48 0.26 Aiming U-Factor' _0.33 i . 0.35 _0.34 0.36 48' x 24' stze SHGC2 0.32 0.24 0.30 I_ 0.22 VP 0.52 I 026 0.47 i 6.32 I 0.26 0.34 Casement/Awning U-Factor' _ 0.30 0.32 Picture Window SHGC2 _0.36 7, 0.26 0.33 0.24 48" x 48" size VP 0.59 0.32 t 0.53 1 0.29 Woodwright- U-Factor' _-0.33 _ 0.35 I0.34.- 0.36 Double -Hung SHGC2 032 0.24 I 0_.29 _ 0.51 0.28 { 0.46 0.25 36" x 60" size VP Woodwright' U-Factor' 0.30 0:32 l 0.32 : _ 0.34 e Window Picturndow SHGC2 0.33 0.24 _0.3_1 0.22 481 x 48' sae VP 0.54 0.29 0.48 i 0.26 Woodwright^ U-Factor' 0.30 0.32 0.32 0.34 Transom SHGC' _ 0.35 .• 0.25 0.32 0.23 48' x 48' sire VP 0.57 0.31 0.51 0.28 Tilt -Wash U-factor' 0.34 0.36 _0.35 0.35 Double -Hung SHGC' 032 0.24 _ 0.29 ' . _ 0.22 36' x 60' sae VP 0.51 •. 0.28 { 0.45 0.25 Till -Wash U-Factor 0.33 0.35 y 0.35 0.37 Double -Hung Picture SHGC2 _ 0.35 0.25 0.32 0.24 - 48" x 48" she VP 0.56 0.30 0.50 0.27 Tdt-Wash U-Factor' 0.33 0.35 0.34 : 0.36_ Double -Hung Transom SHGC' _ 0.35 0.32 i 0.23_ 48' x 481 sae VP 0.56 0.31 0.50 i 0.27 Gliding Window U-Factor' 0.36 1 0.38 0.38 0.39 60" x 36' sire SHGC2 _ 023 0.28 ' 0.21_ VP _0.30 0.46 ' 0.25 0.47 I 0.22 Moptical Window U-Factor' 0.30 0.32 0.32 0.34 481 x 48• size SHGC' 0.36 026__ 0.33 0.24 _ VP 0.59 0.32 0.53 029 Circle Top- U-Factor' . 0.30 0.32 1 0.32 ! 0.34 Casement SHGC' 0.36 0.26 0.33 I 024 48' x 48' sae VP 0.59 0.32 0.53 0.29 Ctrde/oval U-Factor' 0.30 0.32 0.32 4W x 48' sae SHGC' _ 0.36 : 6.26 _ 0.33 _ 0.2.4_ VP 0.59 0.32 0.53 0.32 0.29 0.34 Aroh Windows U-Factor' ' 0.33 48" x 48• size SHGC2 _0.31 0.36 '_. 0.26 0.33 _0.24 VP 0.59 0.32 0.53 0.29 Flexiframe° U-Factor' 0.3_0_ : 0.32 0.32 0.34 48' x 48" size SHGC' _ 036 `: 026 0.33 ; 0.24 VP 0.59 0.32 0.53 1 0.29 Sprlrigline"' Window U-Factor' 0.34 0.36 0.36 0,38 481 x 48" sae SHGC' 0.35 ': 0.26 0.32 0.24 VP 0.55 - 0.30 0.50 0.27 Tempered 0.44 0_46 0.44 i 0.46 Skylight U-Factor' - _ 48" x 48" size SHGC2 0.42 0.31 0.42 0.31 VP 0.67 0.65 ! 0.36 Venting U-Factor' 0.42 0.44 _ 0.42 0.44 Rod Window SHGC' 0.40 _ _ 0.29 0.39 0.29 VP 0.62 0.34 0.60 0.33 48' x 48°Mae U-Factor' 0.42 0.44 0.42 _ 0.44 Stationary Roof Window I SHGC' 0.40 _ 0.30 0.39 0.29 VT' 0.64 0.35 0.60 0.33 Without Grilles " tJ' 400 Series Doors HP HP Sun HP I HP Sun Andersen" Product Type Low-E Low-E Low-E I Low-E Frenchwood" U-Factor' _ 0.33 0.35 0.35 _ 0.36 Gliding Patio Door SHGC' _0.29 _ 0.21 0.26 0.20 72' x 82'she VP 0.44 0.24 0:39 0.21 Frenchwood' U-Factor 0.33 i 0.34 _ 0_34_ ; 0.36 Hinged Patio Door SHGC' 0.27 0.20 0,25 ! 0.19 38" x 82" sae VP 0.41 022 0.36 ! 0.20 Frenchwood' U-Factor' 0.34 y 0.36 0.36 0.37 outswing Patio Door I SHGC2 ._0.27 OZD - 38" x 82' she VP 0.41 0.22 0.36 1- 020 Frenchwood° U-Factor' _ 0.36 �,0.35 0.36 Patio Door Sidelight SHGC2 _0_.35 0.20 _ 0.15 { 0.19 0.15 16"x82'sfte VP _ 0.27 0 15 0.26 i 0.14 rmnchwood' U-Factor' 0.34 _ 0.35 L 0.34 0.35 Patio Door Transom I SHGC' 0,16 0.13 0.15 0.12_ 38' x 14' sae VP 0.20 0.11 0.19 0.10 _ without Grilles 200 Series Windows & Doors _ Clear Clear Andersen" Product Type Dual -Pane Low-E Dual -Pane Low-E Casement U-Fatter' 0.48 _ 0.49 24" x 48" sae SHGC2 _ 0.57 _- = 0.52 Awning VP I U-Facto' 0.59 0.48 { - 0.54 0.49 _. 48' x 24° sae 1 SHGC2 VP 0.56 0.58 _ _ _ 0.52 0.53 Tilt -Wash U-Factor' 0.49 0.34 _ 050 0.35_ Double -Hung SHGC2 0.56 0.33 0.51 0_30 36' x 60' sae VP 0.58 0.51 0.52 0.46 Narrollne U-Factor' 0.50 0.35 0.50 0.36 _ Double -Hong SHGC2 0.58 0.33 1 0.52 0.31 36" x 60' sae VP 0.60 0.53 0.53 0.47 Narroline'Transom U-Factor' 0.47 0.31 L 0.48 0.33_ 48" x 48' she SHGC' 0.59 0.34__L_ 0-.54 0.31 VP 0.62 `. 0.55 1 0.56 0.49 Gliding Window U-Factor' 0.50 0.35 0.50 0.35 60" x 36' sae SHGC2 0.57 0.33 0.51 030 VP 0.58 0.52 0.52 0.46 Fo,TranSon: ced U-Factor' 0.47 0.31 1. 0.46. _ 0.33 Cbcle Top SHGC2 0.34 60 0. 0.54 0.32 -0.49 48' x 48" ade VP 0.62 0.55 0.56 0.32 NairoBne° U-Factor, 0.49 032 0.50 0.54 0.32 Gliding Patio Door SHGC2 0.60 _0.35Y 0.56 0.49 72' x 62' sae VP 0.62 0.55 0.31 0.48 _ 0.33 Penma Shield° U-factor _0,47 _ 0•r-i4 ' 0.32 Gliding Patio Door SHGC' 0.60 0.34 0.56 { 0.50 72" x 82" sires VP 0.62 ;--0.56! ., Grilles-Potelight or Full Divided light tor'Low.E' 'High -Performance' (HP tov �E) at0'Jil"Trorm om surd MP Stall ern Andersen trademadl 1 D-Farlor dermas the °mount of heal iota doough the WWI unit In MAIM `F The bwer the value, the less heat is bst #go'* the entire Product - 2 Soler Heal Gain Coefaolenl (SHGC) de.. the fraelbn of solar ladle'mn admitted mmogh the glass boon directly transmitted and absorbed and subs"par y released coward. fie Mr the value, the lea heat is transmitted through the produae / arA frame) 3 Visible 7mmor mane° (V0 meeaum how Men light comes � ei51 � rod llt2 Product emm) area. The bigitef me value, from 0 to 1, the more deylialt in of the solar s u0l, l u VeMe Tent mieenee is measured over the 380 to 76D narwmeter P 'head cast ."" This data a amrmde as of August 12, 2003. Due to ongoing product changes, W m new induMl standards, ads data may Wnga everdme. 239 Andersen® 400 Series Air Infiltration, Testing and Light Transmittance Performance Andcrmn' Product Rating AAMA/WDMA Certined 101/ 1S.2/HAFS-02 Alr Infiltrztion Standard erm/M Imyhr/m_I 1 C-C 40 36 x 72 i 0.03 1 50.0 i j Trans. j Class (STC)^ (.54) Orre• Series Casem2fi4_W hd60 f.,f DP 40 Senes�wnm Wtndowt o DP 35 j AP-C 35 65 x 28 0.04 (.73) i 26 i 22 vlwning D re WlndaASr DP 60 r F-C 60 72 x 60 I <.01 (.18) 30 I 25 i Senes Woodwrlgh�Y,'' "�\ ,�. ` I I i Die Hunger a=_ DP 30 H-LC 30 46 x 77 0.14 (2.52) �,._ 27 23 s �SEties Wo d mghC�-�,1' I I I bluagP�cire UYhl�tnve'�' DP 65 j F-C 65 67 x 77 j <.01 (.18) i 28-1 ! 23 ISene�'1400dvinghY� 3�'�N ��, j 1 I ble ullg3la�Rsom Jmaov� DP 65 TR-LC 65 75 x 27 i <.01 (.18) 1 28. 22 ��ehes�R-Wash�bD•Di��ungfi ` ''� .I i ' 4bn�der3'mii' ` _•'- DP 30 H-R 30 46 x 72 0.10 (1.80) �27 i 23 irre il�V�t DvGble�tio"g't: I 1323mjr0,�8er�A�iYaldri8erxr: DP 50 H-R 50 38 x 65 �. 0.24 (4.39) I .27 j 23 Seneriyt�Vast3 DootHimg j rre Vi T�bw' et"r.. DP 50 F-R 50 67 x 77 <.01 (.18) j _26 I - I�rerms, l 't�Jas6KDo l ahg.� so V)in'dow� DP 30 1 0.05 1 (.91)??.... 23 I e�� _pp 30 I NS-C 30 72 x 60 ! 0.02 (.36) L 25 I 21 SenPsoimBty DP 40 I .. 0.01 (.18) I 30 24 I^rsoZve n`E DP 25 L-- �•-- I 0.01 (.18) 34 i 28 !SeHesS `" fg4G - wax rs "'< DP 65 SKG-C 65 56 x 56 j 0.02 (.36) I 30 ( 24 I�Senes�gT� oy„sand�5�a � I � � DP 65 •" , <.01 L •• I <.Ol (_18� 32 I (.18) ; 25 - I`Senes. -nd n�,: •:a>a m'�'oi;!j DP 65 _ I enreWmdow DP 65 j " <O1 (.18) L- i - ( en mei�in v�W�-- DP65 *• I <.01 (.18) i 30 - ^•%T 1 Senrmelmesridowt:^:- DP 65 1 F-HC 65 96 x 72 <.01 (.18) 16080 DP 35 I SGD-LC 35 189 x 96 0.05 (.91) 31 I 26 160611 SRD DP 25 SGD-LC 25 189.821 0.05 (.91) I 31 I 26 REINFORCED DP 40 SGD-LC 40 189 x 82 0.05 (.91) , 31 ( 26 16068 DP 30 SGD-LC 30 189 x 80 10.06 (1.10) L 31 26 8080, 6080 _ DP 50 SGD-LC 50 96 x 96 j 0.03 (.54) 31 ! 26 60611 6068, 80611, 6D80 r-o.�,:,-,,,..,:.v, DP 60 SGD-LC 60 96.82 1 0.08 (1.46) 31 I 26 6080 AP/PA DP 40 9080 SASR DP 40_ HGD-R 40 71 x 96__l HGD-R 40 107 x 96 ' 0.02 (.36) 0.01 (.18) 0.01 (_18) 0 1.02 _ _ (.36) 0.01 (.18) I 0.02 (.36) j 0.01 (18) - 0.01 (.18) 32 I 32 I 32 32 L_32 I 32 26 26 26 26 26 I ) An able with Stomnvcd elch' Protemr - Including design pressure upglatim t 26 Fore copy of the Andersen Coastal Product Guide, coned your Andersen supplier. 26 ' AppumOle only when DP upgrade kit Is Installed with famty "OHhed - White interior units (with preftmed Interior trim stop option). I 26 .. Did net meet minimum size requirements for HAFS-M eeslhkl. a sFC and otiC mtino gNrn ere for hraivmuai units eased mr mdePenaem tests and represent the erlare umL Hoar SIC and OrrC values may he I 26 mykaoie vAth other oadngs. Camect Andersen for more Infownatioe I 26 -. This data Is accurate of Argost 12, 2003. Due to ungong pmdud shams, or new Industry standards, this data may dtenge M1 -n updated test nouns. or - time. Cell your Andersen representative im arrml pedormena information - arupgadeOptions. 6080 SA DP 40 3180 S DP 60 HGD-R 40 71 x 96 HGD-R 60 36 x 96 _ 90611 SASR DP 50 HGD-R 50 107 x 82 60611 AP/PA DP 40 60611 SA DP 50 I HGD-R 40 71 It 821 HGD-R 50 71 x 82 32 - - - 31611 A DP 60 HGD-R 60 36 x 82 32 - -;. ,."u .tte� L'Ss4w.F:-,o•.',�-h S fiPSte40�fiwnbd'e� gi..._io OOF 'u` s; �y A' � t '47;ay .ate+' Z'x; r 3180 DP 50 6080 AP/ PA DP 40 HGD-R 50 36 z 95 0.02 (.18) r . 0.02.._ . (.18) <,Ol (.18) - I <.01 (.18) 31 HGD-R 40.71.-x 95. _L-_... .77 19 x 6 SL-C 9 TR-LC 77 96 x 82 31 -.._ _ =y 00 eneSyFlenChWo3'dr tJ811tlis >, DP 77 - .�„ .. 00etiestFienclaWo tffiar(somnn-< DP 77 236 - _-J Installation Instructions APA-The Engineered Wood Association Performance Rated Panels Wood Truss Roof System 3/4f' min. air space Roofing Insulation ROOF SHEATHING INSTALLATION These nine steps are necessary. 1. Always check for uniform rafter alignment. 2. Provide adequate roof ventilation according to building code in your area. 3. Panel spacing on ends and edges should be 1/8'.' 4. Place TechShieldT" radiant harrier sheathing panels with the foil side Facing down on the roof, (toward the attic air space). 5. Fasten the panels a minimum of 6" on center at supported panel ends and edges, and 12" on center at intermediate supports; 8d nails are recommended. 6. Protect TechShield panels from moisture prior to and during installation. 7. Use shingle underlayment (or #15 roofing felt) to cover roof as soon as possible to protect panels from exposure to adverse weather conditions. Use #30 roofing felt if construction delays are anticipated. 8. Allow sheathing to adjust to atmospheric conditions before shingle installation. Heavier weight or textured shingles are recommended over lightweight fiberglass shingles. 9. Install all panels with APA, LP and TechShield sheathing trademarks DOWN. TechShield sheathing can be used as a radiant barrier on gables and walls to reduce solar On in these areas. This is particularly true for southern exposure exterior home surfaces that can absorb heat from prolonged exposure to the sun. LP and TechShield N.S. Patent No. 5,281,8141 are registered trademarks of Louisiana-Pacific Corporation. 02003 Lou siana-Pacific Corporation. NI rights reserved. Printed in USA. tSa507W 03/03 tail 3103 20m P9 TedmSfiield' Stay cooler. Save energy. Vaulted Roof System 3/4' min. air space TechShield®sheathing, foil facing down 3/4 min. air space GABLE INSTALLATION Using TechShield sheathing in this application will add to the benefits associ- ated with utilizing TechShield sheathing in roof sheathing applications. As with the installation of TechShield sheathing on roofs, it is important that the TechShield sheathing is installed with the foil side facing into the attic WALL INSTALLATION In a brick wall application, TechShield sheathing's foil surface should face the exterior of the home (out). This gives TechShield sheathing the required air space between the brick and the wall. In a siding application, TechShield sheathing's foil surface should face the exterior of the home (out). Use furring strips to create a separation between the foil and the siding_ This gives TechShield sheathing the required air space berween the siding and the wall. TechShield Radiant Barrier Sheathing should not be substituted as a hoase- wrap as it does not work as a vapor harrier. Refer to local building codes for specifics ou housewrap requirements. Lp. Specialty Products This nble is from fie APA Design/ConsnucdOn Guide' Installation Instructions Store TedtShield0° radiant barrier sheathing panels in a clean, dry area. Do not store in direct contact with the ground. Protect TechShield radiant barrier sheathing from moisture prior to and during installation. Outside storage, if necessary, requires panes to be covered with plastic sheets or tarpaulins with the sides loosely covered to provide adequate air ventilation. Handle TedrShield radiant barrier sheathing panes as you would other APA-rated LP sheathing panel products. Be careful not to drop on comers or crush panel edges. Keep panels well supported and neatly stacked to prevent warping. Use caution to avoid damage to the radiant barrier foil surface. Radiant barriers may interfere with attic-mounred antenna reception. Temperature studies are available from LP upon request. INSTALIATION i For best results on installation, follow installation instructions carefully. TechShield radiant barrier sheathing panes are an engineered wood product, subject to wood's inherent qualities of natural expansion and contraction resulting from dianges in moisture content and temperature. For more information call our customer service tram at 800450-6108. irechshideld" Stay cooler, Save energy. U LP. Specialty Products a I Stay cooler and use less energy with TechShield® radiant barrier sheathing. TechShield radiant barrier sheathing is an easy, cost-effective way to upgrade a home, increase its energy efficiency in hot weather climates and/or create a more comfortable living environment. ' Consumers view TechShield as an energy -wise investment. Consumers have made it clear that they k are willing to pay extra for energy efficient upgrades. They see TechShield's benefits as an indicator of building quality that yf� r "E ha a will increase any home's value. That wqi means homes built with TechShield have an extra selling advantage in a competitive marketplace. Without=TechShield - With TechShield Heat and. radiant ehergy is absorbed into •TechShield sheathing, wiUi its thin laminated roof deck aluminum layer, prevents up to 97% of r • Heat builds up in attic the radiant heat in the panel from radiating eo • Heat transfers to living area into the attic Here's • Attic temperatures are reduced by • Lower and lower settings are required to as much as 30' achieve comfort level why it - t • Less heat transfers to the living space • Energy usage climbs works • Energy usage is reduced • Value of home may increase Aluminum is agreat conductor, but is an evengreater refledor. The thin aheminum sheet laminated to the sheathing has a property called 'low Energy Consumption Comparison emissivity°that blocks or reflects backall but up to m 130°�; This A/C nm time 3% of the heat transmitted down through the shy h insormation Is based on sheathing by wndudion The lower the emissivity of 110 • ' t - i �'.• s�as' . � � ;�'. indeDendenfly verified m ,: Tt$' j;utg`p,,�c ::'{ w+.F ..,t .:r,:.:. Yx �,. .¢; ;:e ,,sue p•k, studies. Actual run fine n -- '`�-- - y_ in homes using a material, the better it blocks heat. The emissivity m?"r: iechSAield will vary. r 90° of TechShield radiant barrier is <_ 0.05, which is very c+ 4 70, effective. Unlike other radiant barriers, TechShield L `? i' i 570 Total run uthefirstpaAm&Alaminatedradiant homer system. i , ! , Now0111 489 minutes Its design uses tinypatented incisions in the aluminum to allow the panel to acclimate faster at yourjob site. 12:24 pm 2:00 pm 4:00 pm 6:00 pm 8:00 pm 10:00 pm You get outstanding panel performance with K- without Techshield rg HE Air conditioner run time without TechShield With TechShield 9N 0 Air conditioner run time with TechShield TechShield that makes your homer stand out.