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0401-411
WALLING & McCALLUM / LIMITED ARCHITECTURE • PLANNING • ENGI.NEERING 45-190 CLUB DRIVE (760) 360-0250 INDIANWEE/�L�LLSS,/C,A' 992210 FAX (760) 360-0786 Wood Trusses 4.0 Teal Addition LOADS CIN APED DEPTa gUlLD1NG —7ROVED APP..,,T�i t -TION / 0401-,4tl L.L 4 plylgrvl 6.5 psf 518" Pl«vd 1.8 Wood Trusses 4.0 5/8" GypBd 3.1 Insulation ' .0 21.4 SAY 22 psf 4 ph'ign l 6.5 psf 5%8" Plynvd 1.8 Wood Trusses 4.0 Stucco 9.0 Parapets etc. 3.0 2016 24.3 SAY 25 psf Walls 2 x 1646 :. ' psf Stucco 10.0 6" Insulation 1.8 (2) 5/8 Crvp. Bd 675 1(S.0 psf ALLOWABLE STRESSES WOOD Fb(psi) Ft// Fv Fct1 Fc// E 1) DOUG -LASS FIR -LARCH (2" TO 4" THICK) NO. 1 1000 psi 675 95 625 1450 1.700-000 2) DOUGLASS FIR - LARCH (POST & TINIB - RS 6 x 4- 6 x 6. 6 x 8) 3) DOUGLASS FIR - LARCH (BEANLS & STR- INGERS 6 x 10.6 x 12....) ROOF LOADING NO.1 1200 825 85 625 NO, 1 1350 675 85 625 1000 1.600.000 925 1.600.000 Fb 1.25 x 1000 = 1250 psi Fv 1.25 > 95 = 119 psi 1.25 x 1200 = 1500 1.25 x 85 =106 psi 1.25 x 1350 = 1688 MASONRY fm fm V fs 1) C - %'LIGHTWEIGHT CONCRETE BLOCK 1350 psi 225 psi 15 psi x 1.33 20 ksi x 1.33 = UNINSPECTED 26.7 ksi CONCRETE fc fc fs 1) FOOTINGS 2500 psi 1125 psi 20 ksi x 1.33 =26.7 ksi ►6 ,5 111 -S= V I. w-925/2)+5 10' r 45 (7-5�Z' + 1,0 45 1.79/2.70= 6G74 KAo a �.,W I 7 x 9 5W �, 7,sx9 �� WS [C2 c-7', 0X17 t - 144"'1 W = 2 is'`l. sYJ 1 F� = 21SX ISIS/ = 3332 f� 341 NdIA'L. lode 4 o/c T= 3415 � = 2S79, 341 3332: �- l'e/LC` 24oe�' �b�STG•a►jCv i us E GX.d FUI us "PLA:T- r SVS!!,• = 5W$ 2c� se N'= 27 6 8/, NMS 10 -t e- -0. --0. 4s-(4 C.F-) - 3 ( y,2.e �3� IanS� 2(m E S O Seo . [e l7 S L P) r F lr5t MS'1'l.-3� 'R�iZst'Loti 2i5�i5,5�1/�= 15 5WA SYA = la 33 < 2.G a* a, . I ( s = 3.S' \ ur- 4G 5/2 1 -L tJ = X03 j 0/1 7`) 142 ` s= Io.S W = 45 (5/z) E G7% w" .v 0 s a roKlG, Jun 20 04 02:29p Walling & McCallum LTD 71;03600786 WALLING & McCALLUM / LIMITED ARCHITECTURE - PLANNING - ENGI VNERING 45-1 90 CLUB DR. INDIAN WELL:3, CA. 9221 O TEL: (760) 360 — 0250 FAX: (7617) 360— 071946 e-mail: walhngarch@aol.com FAX DATE: JUNE Z 1, 2004 ATTENTION TO: ED RANDALL FROM: ERIK GERDING PROJECT: TEAL ADDITION 79480 BRIARWOOD NOTES: ED, HERE IS THE REVISED CALC FOR HEADER 43. "+HE LOAD INCREASED HERE DUE TO THE BEARING. OF LONGER ROOF JOISTS. LOADS. ON OTHER STRUCTURAL MEMBERS DID NOT INCREASE 50 CALCULATIONS WERE NEIT REVISED. LET ME KNOW IF YOU HAVE ANY QUESTIONS.. ERIK 360-0250 P I' Jun 20 04 02:29p Walling & McCallum LTD 71;03600786 p.2 CO3$ �/I 656/5o4 144 I s= 10•s W- 4S( 5 12-) om rr L! = , 'J-4 .S w= G3 ,•�, 35 �.� ��-,+�,K-� I�S� GAG NQ>j +-AI w r 4s-* I S/z f 1G M 14fv- Ga��� 27&4- • 3��j,�,2 � �a °I� rax M "P 1"q I P, WALLING, Sc McCALLUM L.IMITED ARCHITECTURE o ENGINEERING o PLANNING 45190 CLUB DR: INDIAN WELLS, CA 92210 • PH\(760)360 0250 FX1(760)36D 0766 d Jun 20 04 'k:29p Walling & McCallum LTD 7603600786 p.3 z us= 4�( t5/2. "il Co35/coq- 7? 7c v F - 142 I s= 1O•S, w 45 ) Y n/sem - �4 �, v ;?= &",a 4/. OM r7- sit- tu_�'_—' -- �4Q ^G-•�-�r✓�x ISE Gam► N G>j q *1 f, M = 34 c Z,� 27 b4 - \f U; a wl• WALLING Sc MCCALLU M ' LI M ITE. ARCHITECTURE o ENGINEERING o PLANNING 45-190 CLUB DR: INDIAN WELLE, CA 92210 - PHU7601360 0250 FX117601360 0786 to I N TITLE 24 Energy Conservation Standards Compliance- Report 79-��a f��,euloa0 TEAL RESIDENTIAL ADDITION LOT- 3 THE ESTANOIAS LA QUINTA January 21, 2004 v job Number: 24085B Prepared Fors WALLING & McCALLUM LTD. 45190 CLUB DRIVE INDIAN WELLS, CA 92260 760-360-0250 Ma.iin s enierpnses CITY OF LA QUINT V -V V'V v v BUILDING & SAFETY DEPT. A041APOWFU dlin, Certified Energy Analyst F0fRP0 Box 443 Palm Springs, CA 92263 DATE% B 7 0-32 -5004 / 323-3644 (fax) _M : CMadlin@aol.com Madlin s enterpfises Catherine M. Madlire, Certified Energy Analyst • 760-322-5004 / 323-3644 (fax) . v ..... Title 24 Energy Conservation Standards Compliance Report ' This proposed project has been reviewed for compliance with the 2001 State of California Energy Conservation Standards, Title 24, by Madlin's Enterprises. The building design described in this compliance portfolio is in conformance with the standards as outlined in the attached compliance forms, and documentation. Date: January 21, 2004 - Job Number: 24085B Prepared For: WALLING & McCALLUM LTD. Owner's Name: TEAL Project Name: TEAL RESIDENTIAL ADDITION - GLAZING OPTION 2 Project Location: LOT 3 THE ESTANCIAS LA QUINTA Method of Compliance: MICROPAS V6.1 CERTIFIED COMPUTER PROGRAM Orientation Of Entry: MAIN HOUSE ENTRY FACES SOUTHWEST SEE SITE PLAN Certified Energy Analys.t Catherine M. Madlin NR.98-90-544 n n /l R 98-90-144 C A 0 E C I California Association of Building Energy Consultants • Post Office Box 1443 • Palm Springs, Ca 92263 v enter'' Upn.Ses..,.. ,a . Catherine M. Madlin, Certified Energy Analyst 'v 760-322-5004 / 323-3644 (fax) r t ... ........ ` xQN flF BURM CO "..'.Oi�1 Edi i ... N COi1�Lit�NCE �E(�U�R�MMENTS Job Name TEAL RESIDENTIAL ADDITION Job No. / File No. - 24085B r Method of Compliance Micropas V6.1 Computer Simulation Total Conditioned Square Footage ;400 Sq. Ft. ' Total, Glazing %(Floor/Glass Area Ratio) = 28.0% Insulation: Roof / Ceiling + - R-38 Batts `with Radiant Barrier at Roof Insulation: Walls, R-19`,Batis (minimum), `. Insulation: Floor - Slab on Grade None Required y ' Y Insulation: H.V.A.C. Ducts/Location/Testing R-4.2 / Attic / Duct Testing,Required Glazing U Value / Type:. Patio Dr; Fixed, Operable 0.55,'Dual Pane, Low E2, 'Aluminum Frame + ' (NFRC Tested Value) Glazing U -Value / Type: Glass Block' F. ' ' , . 0.52,(CEC Default Value) • ; :• Glazing Solar Heat Gain,Coefficient (Uncoated) 0.45 Patio Doors, Operable or Fixed (NFRC) • '0.67 Glass Block (Default Value) " Glazing: Exterior Shading , 'Not Required Thermal Mass SquareFootage & % 'Not Required ' •H.V.A.C. System Type Gas Heating / Electric Cooling /'Split System HVAC System Efficiencies (heating/cooling) 78% AFUE / 12.0 SEER with TX Valve. Domestic Hot Water Heater - No New Water Heaters • • Other Requirements Applicable Mandatory Measures { y Post Office Box 1443 • Palm Springs, Ca 92263 • t> Madlin s t enterpfises Catherine M Madlin, Certified Energy Analyst • 760-322-5004 / 323-3644 (fax) v v'T'T'T If IT a Title 24 Compliance Forms �14 CERTIFICATE OF COMPLIANCE: RESIDENTIAL Page 1 CF -1R Project Title.......... WALLING.TEAL.REV.ADD Date.•.01/21/04 10.15.14 Project Address........ LOT 3 THE ESTANCIAS *******--------------------- j LA QUINTA *v6.01* Documentation Author... CATHERINE M. MADLIN ******* Building Permit R -value R -value U -factor Madlin's Enterprises Wall P.O. Box 1443 Plan Check Date ---------------------- R-0 R-17.8 0.065 Palm Springs, CA 92262 Door 760-322-5004 Field Check/ Date Climate Zone........... 15 _____________________ Compliance Method...... MICROPAS6'v6.01 for 2001 Standards by Enercomp, Inc. MICROPAS6 v6.01 File -24085B2- Wth-CTZ15S92 Program -FORM CF -1R User#-MP0207 User-Madlin's ------------------------------------------------------------------------------I Enterprises Run-PERMIT.CALC.REV.GLAZ R-0 F2=0.760 GENERAL INFORMATION Conditioned Floor Area..... 400 sf Building Type .............. Single Family Detached Construction Type ......... Addition Alone Building Front Orientation. Front Facing 215 deg (SW) Number of Dwelling Units... 1 Number of Stories.,.. ...... 1 Floor Construction Type.... Slab On Grade Glazing Percentage......... 28 % of floor area Average Glazing U -factor... 0.54 Btu/hr-sf-F Average Glazing SHGC....... 0.53 Average Ceiling Height..... 9.1 ft BUILDING SHELL INSULATION- NSULATION•-------------------------Component Component Frame ------------------------- Cavity Sheathing Total Assembly Type ------------ Type ------- R -value R -value R -value U -factor Location/Comments Wall Wood -------- R-17.8 ---------------------- R-0 R-17.8 0.065 ------------------------ Door None R-0 R-0 R-0 0.330. RoofRadiant Wood R-11 R-27 R-38 0.025 SlabEdge, None R-0 R-0 F2=0.760 S1abEdge None R-0 R-0 F2=0.5.10 i FENESTRATION Over - Area U- Interior Exterior hang/ Orientation ------------------ (sf) Factor SHGC Shading Shading Fins Window -- Left (W) ----- 8.0 ------ --------------------- 0.520 0.670 Standard ------------------- Standard None i Window Back (N) 32.0 0.520 0.670 Standard Standard None Door .Right (E) 72.0 0.550 0.450 Standard Standard None i j------------- SLAB SURFACES Area j j---------------- Slab Type (sf) ------ Standard Slab 400 CERTIFICATE OF COMPLIANCE: RESIDENTIAL Page 2 CF -1R Project Title.......... WALLING.TEAL.REV.ADD Date..01/21/04 10.15.14 S MICROPAS6 v6.01 File -24085B2 Wth-CTZ15S92 Program -FORM CF-1R User#_MP0207 User-Madlin s Enterprises Run-PERMIT.CALC.REV.GLAZ ------- ------------------------------------------------------------------ HVAC SYSTEMS Equipment Type ------------------------ Furnace / ACSplitTXV DUCT TESTING DETAILS ------------- Duct Measured Supply Leakage Target Duct Surface Area (% fan CFM/CFM25) (ft2) ------------------ ----------------- 6% / 16.8 n/a . 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 Radiant Barrier. The radiant barrier must have an emissivity less than or equal to 0.05, must be installed to cover the roof trusses, rafters, gable end walls and other vertical attic surfaces, and must meet attic ventilation criteria. This building incorporates Tested Duct Leakage. This building incorporates either Tested Refrigerant Charge and Airflow (RCA) or a Thermostatic Expansion Valve (TXV) on the specified air conditioning system(s). 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 -6R installation certificate. *** This building incorporates Tested Duct Leakage. Target CFM leakage values measured at 25 pascals are shown in DUCT TESTING DETAILS above or may be calculated as documented on the CF -6R. If the measured CFM is above the target, then corrective action must be taken to reduce the duct leakage and then must be retested. Alternatively, the compliance calculations could be redone without duct testing. If ducts are not installed, then HERS verification is not necessary for Tested Duct Leakage. This building incorporates either Tested Refrigerant Charge and Airflow (RCA) ora Thermostatic Expansion Valve (TXV) onithe specified air conditioning system(s). If a cooling system is not installed, then HERS verification Refrigerant Tested ACCA Equipment Minimum Charge and Duct Duct Duct Manual Thermostat Type --------- Efficiency ------------ Airflow Location ------------------ R -value Leakage D Type Furnace 0.780 AFUE n/a Attic ------- R-4.2 ------- Yes ------ No ---------- Setback ACSplitTXV 12.00 SEER Yes Attic R-4.2 Yes No Setback Equipment Type ------------------------ Furnace / ACSplitTXV DUCT TESTING DETAILS ------------- Duct Measured Supply Leakage Target Duct Surface Area (% fan CFM/CFM25) (ft2) ------------------ ----------------- 6% / 16.8 n/a . 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 Radiant Barrier. The radiant barrier must have an emissivity less than or equal to 0.05, must be installed to cover the roof trusses, rafters, gable end walls and other vertical attic surfaces, and must meet attic ventilation criteria. This building incorporates Tested Duct Leakage. This building incorporates either Tested Refrigerant Charge and Airflow (RCA) or a Thermostatic Expansion Valve (TXV) on the specified air conditioning system(s). 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 -6R installation certificate. *** This building incorporates Tested Duct Leakage. Target CFM leakage values measured at 25 pascals are shown in DUCT TESTING DETAILS above or may be calculated as documented on the CF -6R. If the measured CFM is above the target, then corrective action must be taken to reduce the duct leakage and then must be retested. Alternatively, the compliance calculations could be redone without duct testing. If ducts are not installed, then HERS verification is not necessary for Tested Duct Leakage. This building incorporates either Tested Refrigerant Charge and Airflow (RCA) ora Thermostatic Expansion Valve (TXV) onithe specified air conditioning system(s). If a cooling system is not installed, then HERS verification CERTIFICATE OF COMPLIANCE: RESIDENTIAL Page 3 CF -1R Project Title.......... WALLING.TEAL.REV.ADD Date..01/21/04 10:15:14 MICROPAS6 v6.01 File -24085B2 Wth-CTZ15S92 Program -FORM CF -1R User#-MP02D7 User-Madlin's Enterprises Run-PERMIT.CALC.REV.GLAZ --------------------------------- ---------------------------------------------- i HERS REQUIRED VERIFICATION is not necessary for the RCA or TXV. REMARKS The values and materials used in this compliance portfolio are the minimum required to*show compliance with Title 24 Energy i Conservation Standards. The owner may (at his/her option) install better materials without additional compliance calculations. The HVAC load calculations included in this compliance report ( are for permit purposes only. The installing HVAC contractor is responsible for determing the HVAC design loads and equipment selection(s). The HVAC design shall be.done in accord- ance with industry standards. The load calculation in this 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 I system/equipment performance. i The installing glazing contractor shall provide the required CF -6R Installation Certificate with installed glazing values and areas. .j The installing hvac contractor shall provide the required CF -6R with the installed hvac equipment model numbers. A night setback thermostat is required to be installed with the HVAC system. i i CERTIFICATE OF COMPLIANCE: RESIDENTIAL Page 4 CF -1R Project Title.......... WALLING.TEAL.REV.ADD Date..01/21/04 10:15:14 ----------------------------------------------------------- MICROPAS6 v6.01 File -24085B2 Wth-CTZ15S92 Program -FORM CF -1R ------User#-MP0207 User-Madlin's Enterprises Run-PERMIT.CALC.REV.GLAZ ----------------------------------------------------------------------- COMPLIANCE STATEMENT 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. When this certificate of compliance is submitted for a single building plan to be built in multiple orientations, any shading feature that is varied is indicated in the Special Features Modeling Assumptions section. - DESIGNER or OWNER Name.... JOHN WALLING Company. WALLING & MCCALLUM LTD Address. 45190 CLUB DRIVE INDIAN WELLS, CA 92260 Phone... License. Signed.. i iName.... Title... Agency.. i Phone... Signed.. (date) DOCUMENTATION AUTHOR Name.... CATHERINE M. MADLIN Company. Madlin's Enterprises Address. P.O. Box 1443 Palm Springs, CA 92262 Phone... 760-322-5004 Signed. �� ( ate) /• 2/ Q f.L Certified Energy knatyst. Catherine M. Madlin NR 98-90-544 r r r R 98-90-144 rl CADEC CaffPomio AssockWw of t3uUding Energy Corssuftam If MANDATORY MEASURES CHECKLIST: RESIDENTIAL Page 1 MF -1R Project Title.......... WALLING.TEAL.REV.ADD Date..01/21/04 10:15:14 Project Address........ LOT 3 THE ESTANCIAS ******* --------------------- LA QUINTA *v6.01* Documentation Author... CATHERINE M. MADLIN ******* Building Permit Madlin's Enterprises P.O. Box 1443 Plan Check Date I Palm Springs, CA 92262 760-322-5004 Field Check/ Date Climate Zone......... 15 --------------------- Compliance Method...... MICROPAS6 v6.01 for 2001 Standards by Enercomp, Inc. MICROPAS6 v6.01 File -24085B2 Wth-CTZ15S92 Program -FORM MF -1R User#-MP0207 User-Madlin's Enterprises Run-PERMIT.CALC.REV.GLAZ Note: Lowrise residential buildings subject to the Standards must contain these measures regardless of the compliance approach used. Items marked with an asterisk (*) may be superseded by more stringent compliance requirements listed on the Certificate of Compliance. 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. BUILDING ENVELOPE MEASURES -------------------------- Design- Enforce - i er / ment *150(a): Minimum R-19 ceiling insulation. V 150(b): Loose fill insulation manufacturer's labeled R -Value. *150(c): Minimum R-13 wall insulation in wood framed walls or i 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. 150(1): Slab edge insulation - water absorption rate no greater than 0.3%, water vapor transmission rate no greater than 2.0 perm/inch. 118: Insulation specified or installed meets insulation quality standards. Indicate type and form. 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. 3. Exterior doors and windows weatherstripped; all joints and penetrations caulked and sealed. 150(g): Vapor barriers mandatory in Climate Zones 14 and 16 only. 150(f): Special infiltration barrier installed to comply with Sec. 151 meets Commission quality standards. 150(e): Installation of Fireplaces, Decorative Gas Appliances and Gas Logs 1. Masonry and factory -built fireplaces have: a. Closeable metal or glass door b. Outside.air intake with damper and control c. Flue damper and control 2. No continuous burning gas pilots allowed. F MANDATORY MEASURES CHECKLIST: RESIDENTIAL Page 2 MF -1R Project Title.......... WALLING.TEAL.REV.ADD Date..01/21/04 10.15.14 i I MICROPAS6 v6.01 File -24085B2 Wth-CTZ15S92 Program -FORM MF-1R -User#_MP0207 User-Madlin's Enterprises Run-PERMIT.CALC.REV.GLAZ ------ I ------------------------------------------------------------------ SPACE CONDITIONING, WATER HEATING AND PLUMBING SYSTEM MEASURES -------------------------------------------------------------- Design- er 110-113: HVAC equipment, water heaters, showerheads and faucets certified by the Commission. i 150(h): Heating and/or cooling loads calculated in accordance O with ASHRAE, SMACNA or ACOA. d 150(i): Setback thermostat on all applicable heating and/or cooling systems. 150(j): Pipe and Tank 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 greater. 2. First 5 feet of pipes closest to water heater tank, non - recirculating systems, insulated (R-4 or greater). 3. Back-up tanks for solar system, unfired storage tanks, or other indirect hot water tanks have R-12 external 'insulation or R-16 combined internal/external insulation. i 4. All buried or exposed piping insulated in recirculating sections of hot water system. 5. Cooling system piping below 55 degrees insulated. 6. Piping insulated between heating source and indirect hot water tank. *150(m): Ducts and Fans 1. All ducts and plenums installed, sealed and in- sulated, to meet the requirements of the 1998 CMC sectons 601, 603, and 604, and standard 6-3; ducts insulated to a minimum installed level of R-4.2 or enclosed entirely in conditioned space. Openings shall be sealed with mastic, tape, aerosol sealant, or other duct -closure system that meets the applicable requirements of UL181, UL181A, or UL181B. If mastic or tape is used to seal openings greater than 1/4 inch, the combination of mastic and either mesh or tape shall be used. Building cavities shall not be used for j conveying conditioned air. Joints and seams of duct systems and their components shall not be sealed with cloth back rubber addhesive duct tapes unless such tape is used in combination with mastic and drawbands. j 2. Exhaust fan systems have backdraft or automatic dampers. 3. Gravity ventilating systems serving conditioned space have either automatic or readily accessible,, manually operated dampers. 114: Pool and Spa Heating Systems and Equipment 1. System is certified with 78% thermal efficiency, on-off switch, weatherproof operating instructions, no electric i - resistance heating and no pilot light. 2. System is installed with: a. At least 36 inches of pipe between filter and heater for future solar heating. i b. Cover for outdoor pools or outdoor spas. 3. Pool system has directional inlets and a circulation pump time switch. 115: Gas-fired central furnaces, pool heaters, spa heaters or household cooking appliances have no continuously burning Enforce- ment MANDATORY MEASURES CHECKLIST: RESIDENTIAL Page3 MF -1R ------------------ - ------- --------------------------------------------------------------------- Project -Title.......... WALLING.TEAL.REV.ADD Date..01/21/04 10:15:14. MICROPAS6 v6.01 File -24085B2 Wth-CTZ15S92 Program -FORM MF -1R User#-MP0207 User-Madlin's Enterprises Run-PERMIT.CALC.REV.GLAZ ------ -------------------------------------------------------------- pilot light (Exception: Non -electrical cooking appliances with pilot < 150 Btu/hr). LIGHTING MEASURES ----------------- Design- Enforce- er ment I 150(k)1: Luminaires for general lighting in kitchens shall have lamps with an efficacy of 40 lumens/watt or greater forgenerallighting in kitchens. This general lighting shall be controlled by a switch on a readily accessible I lighting control panel at an entrance to the kitchen'. 150(k)2: Rooms with a shower or bathtub must have either at least one luminaire with lamps with an efficacy of 40 lumens/.watt or greater switched at the entrance to the room or one of the alternatives to this requirement allowed in Sec.,150(k)2.; and recessed ceiling fixtures are IC (insulation cover) approved. COMPUTER METHOD SUMMARY Page 1 C -2R Project Title.......... WALLING.TEAL.REV.ADD Date..01/21/04 10:15:14 Project Address.....,... LOT 3 THE ESTANCIAS ******* --------------------- ` ! LA QUINTA .*v6.01* 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...... MICROPAS6 v6.01 for 2001 Standards by Enercomp, Inc. MIC,ROPAS6 v6.01 File -24085B2 Wth-CTZ15S92 Program -FORM C -2R j User#-MP0207 User-Madlin's Enterprises Run-PERMIT.CALC.REV.GLAZ j------------------------------------------------------------------------------- MICROPAS6 ENERGY USE SUMMARY Energy Use Standard Proposed Compliance = _ (kBtu/sf-yr) Design Design Margin = - Space Heating.......... . 3.97 3.67 0.30 = = Space'Cooling........... 64.29 64.03 0.26 _ = __ ------ ----- --------= = Total 68.26 67.70 0.56 _ . _ *** Water Heating not calculated I GENERAL INFORMATION ------------------- .i Conditioned Floor Area..... 400 sf Building Type .............. Single Family Detached Construction Type .. .. .. Addition Alone Building Front Orientation. Front Facing 215 deg (SW) i Number of Dwelling Units... 1 Number of Building Stories. 1 j Weather Data Type.......... FullYear Floor Construction Type.... Slab On Grade Number of Building Zones... 1 Conditioned Volume......... 3632 cf', Slab -On -Grade Area......... 400 sf Glazing Percentage......... 28 % of floor area Average Glazing U -factor... 0.'54 Btu/hr-sf-F Average Glazing SHGC....... 0.53 Average Ceiling Height..... 9.1 ft BUILDING ZONE INFORMATION ------------------------- Floor # of Vent Vent Air Area Volume Dwell Cond- Thermostat Height Area Leakage Zone Type (sf) (cf). Units itioned. Type (ft) (sf) -------------- ----------------- Credit ------------------ ------------- 1.ZONE --------- Residence 400 3632 1.00 Yes Setback 2.0 Standard No COMPUTER METHOD SUMMARY Page 2 C -2R Project Title.......... WALLING.TEAL.REV.ADD Date..01/21/04 10.15.14 ` I MICROPAS6 v6.01 File -24085B2 Wth-CTZ15S92 Program -FORM C -2R User#-MP0207. User-Madlin's'Enterprises Run-PERMIT.CALC.REV.GLAZ ----------------------------------------------------------------- OPAQUE SURFACES --------------- Area U- Insul Act Solar Form 3 Location/ Surface (sf) factor R-val•Azm Tilt Gains Reference Comments --- ------ ----- ----- --- ---- ----------------- ------ 7 --------- 1.ZONE - New 1 Wall 69 0.065 17.8 215 90 Yes W.19.2X6.16 2 Wall 195 0.065 17.8 305' 90 Yes W.19.2X6.16 3 Wall 73 0.065 17.8 35 90 Yes W.19.2X6.16 i 4 Wall 271 0.065 17.8 215 90 No W.19.2X6.16 5 Door 24 0.330.0 215 90 No None 6 RoofRadiant 400 0.025 38 n/a 0 Yes R.38.2X4.24 PERIMETER LOSSES ---- ---------- Length F2 Insul Solar Surface (ft) Factor R-val Gains Location/Comments ------------ --------------------- ----- ---------------------- 1.ZONE - New 7 S1abEdge 50 0'.760 R-0 No 8 SlabEdge 33 0.510 R-0 No FENESTRATION SURFACES Orientation ------------- Area (sf) ----- U- factor SHGC ----- Act Azm Tilt Exterior Shade Type/SHGC Interior Shade Type/SHGC -.ZONE - New ----- --- ---- -------------- -------------- 1 Window Left (W) 8.0 0.520 0.670 275 90 Standard/0.76 Standard/0.68 2 Window Back (N) 32.0 0.520 0.670 5 90 Standard/0.76 Standard/0.68 3 Door Right (E) 72.0 0.550 0.450 95 90 Standard/0.76 Standard/0.68 SLAB SURFACES ------------- Area Slab Type (sf) ---------------- ------ 1.ZONE Standard Slab 400 HVAC SYSTEMS ------------ Refrigerant. System Minimum Charge and ' Duct Type Efficiency Airflow Location -------------------------------------------- 1.ZONE Furnace 0.780 AFUE n/a Attic ACSplitTXV 12.00 SEER Yes Attic Tested ACCA Duct Duct Manual Duct R -value Leakage D Eff ------------------------ ---- R-4.2 Yes No 0.815 R-4.2 Yes No 0.733 COMPUTER METHOD SUMMARY Page 3 C-2R ---------------------------------------------------------------------- Project Title.......... WALLING.TEAL.REV.ADD Date..01/21/04 10:15:14 MICROPAS6 v6.01 File -24085B2 Wth-CTZ15S92 Program -FORM C-2R User#_MP0207 User-Madlin's Enterprises Run-PERMIT.CALC.REV.GLAZ ------- ---------------------------------------------------------------- DUCT TESTING DETAILS -------------------- Duct Measured Supply Leakage Target Duct Surface Area Equipment Type (% fan CFM/CFM25) (ft2) ------------------------------------------ ----------------- j 1.ZONE Furnace / ACSplitTXV 6% / 16.8 n/a SPECIAL FEATURES AND MODELING ASSUMPTIONS i----------------------------------------- *** Items in this section.should be documented on the plans, *** *** installed to manufacturer and CEC specifications, and *** *** verified during plan check and field inspection. *** i This building incorporates a Radiant Barrier. The radiant barrier.must have ! an emissivity less than or equal to 0.05, must be installed to cover the roof trusses, rafters, gable end walls and other vertical attic surfaces, and must meet attic ventilation criteria. I This building incorporates Tested Duct Leakage. This building incorporates either Tested Refrigerant Charge and Airflow (RCA) or a Thermostatic Expansion Valve (TXV) on the specified air conditioning system(s). I 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 *** i *** must be reported on the CF -6R installation certificate. *** This building incorporates Tested Duct Leakage. Target CFM leakage values measured at 25 pascals are shown in DUCT TESTING DETAILS above or may be calculated as documented on the CF -6R. If the measured CFM is above the target, then corrective action must be taken to reduce the duct leakage and then must be retested. Alternatively, the compliance calculations could be redone without duct testing. If ducts are not installed, then HERS verification is not necessary for Tested Duct Leakage. This building incorporates either Tested Refrigerant Charge and Airflow (RCA) or a Thermostatic Expansion Valve (TXV) on the specified air conditioning system(s). If a cooling system is not installed, then HERS verification is not necessary for the RCA or TXV.. REMARKS The values and materials used in this compliance portfolio are the minimum required to show compliance with Title 24 Energy •, Conservation Standards—The owner may (at his/her option) install better materials without additional compliance calculations. h.' The HVAC load calculations included in this compliance report COMPUTER'METHOD SUMMARY Page 4 C -2R + Project Title.......... WALLING.TEAL.REV.ADD Date..01/21/04 10:15:14 MICROPAS6 v6.01 File -24085B2 Wth-CTZ15S92 Program -FORM C -2R 'User#-MP0207 User-Madlin's Enterprises Run-PERMIT.CALC.REV:GLAZ ----------------- ------- I REMARKS are for permit purposes only. The installing HVAC contractor is responsible for determing the HVAC design loads and equipment selection(s). The HVAC design shall be done in accord- ance with industry standards. The load calculation in this 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. The installing glazing contractor shall provide the required CF -6R Installation Certificate with installed glazing values and areas. The installing hvac contractor shall provide the required CF -6R with the installed hvac equipment model numbers. A night setback thermostat is required to be installed with the HVAC,system.. CONSTRUCTION ASSEMBLY Page 1 3R ___________________________________ Project Title........., WALLING.TEAL.REV.ADD Date..01/21/04 10._15.14 MICROPAS6 v6.01 File -24085B2 Wth-CTZ15S92 Program -FORM 3R User#-MP0207 User-Madlin's Enterprises Run-PERMIT.CALC.REV.GLAZ ------------------------------------------------------------------------------- - Parallel Path Method Reference Name . W.19.2X6.16 Description .... Wall R-19 2x6 16oc Type .. Wall R -Value ........ 17.8 Hr-sf-F/Btu Framing Material ..... FIR.2X6 Type .... Wood Description .. 2x6 fir Spacing ...... 16 inches on center Framing Frac.. 0.15 ----------------------- Sketch of Construction Assembly LIST OF CONSTRUCTION COMPONENTS Material Cavity Frame Name ------------- Description ---------------------------------------- R -Value R-Value 0. FILM.EX Exterior air film: winter value --------- 0.17 --------- 0.17 1. STUCCO.0.88 0.875 in stucco 0.17 0.17 2. BLDG.PAPER Building paper (felt) 0.06 0.06 3c. BATT.R19 R-19 batt insul (cavity = 5.5 in) 17.80 -- 3f. FIR.2X6 2x6 fir -- 5.45 4. GYP.0.50 0.50 in gypsum or plaster board .045 0.45 I. FILM.IN.WLL Inside air film: heat sideways 0..68 0.68 Total UnadjustedR-Values --------- 19.34 --------- 6.98 FRAMING ADJUSTMENT CALCULATION Cavity Framing Total ------------------------------------------------------ U-Factor: (1 / 19.34 x 0.85) + (1 / 6.98 x 0.15) = 0.065 Btu/hr-sf-F Total R -Value: 1 / 0.065 = 15.28 hr=sf-F/Btu CONSTRUCTION ASSEMBLY Page 2 • 3R Project Title.......... WALLING.TEAL.REV.ADD Date..01/21/04 10.15.14 ` IMICROPAS6 v6.01 File -24085B2 Wth-CTZ15S92 Program -FORM 3R -User#-MP0207 User-Madlin s Enterprises Run-PERMIT.CALC.REV.GLAZ --- --- --------------------------------------------------------------------- Parallel Path Method Reference Name . R.38.2X4.24- Description .... Roof R-38 2x4 24oc .Type ........... Roof R -Value 38 Hr-sf-F/Btu Framing Material ..... FIR.2X4 Type .... Wood Description ..,2x4 fir Spacing .... 24 inches on center Framing Frac.. 0.07 -------------------------------- Sketch of Construction Assembly LIST OF CONSTRUCTION COMPONENTS Material Cavity Frame Name ------------- Description ---------------------------------------- R -Value R-Value 0. FILM.EX Exterior air film: winter value ------------------ 0.17 0.17 1. SHNGL.ASPHLT Asphalt shingle roofing 0.44 0.44 2. BLDG.PAPER Building.paper (felt) 0.06 0.06 3. PLY.0.50 0.50 in plywood 0.62 0.62 4. AIR.RF.3.50 3.5 in & greater air space: heat flow up 0.80 0.80 5. BATT.R27.0 •R-27 batt insulation 27.00 27.00 - 6c. BATT.RII.0 R-11 batt insul (cavity > 3.5 in) 11.00 6f. FIR.2X4 2x4 fir -- 3.46 7. GYP.0.50 0.50 in gypsum or plaster board 0.45 0.45 I. FILM.IN.RF Inside air film: heat flow straight up 0.61 0.61 i i Total Unadjusted R -Values ----------- ------------------ 41.15 ---- 33.62 FRAMING i ADJUSTMENT CALCULATION Cavity Framing Total ----------- -------- ------------------- ---------------- I U -Factor: (1 / 41.15 x 0.93) + (1 / 33.62 x 0.07) = 0'.025 Btu/hr-sf-F Total R -Value: 1 / 0.025. = 40.51 hr-sf-F/Btu Madlin's enterprises r� Catherine M. Madlh4 Certified Energy Amlyst ..760-322-5004 / 323-3644 (fax) H. V.A. C. Load Calculation HVAC SIZING Page I HVAC Project Title.......... WALLING.TEAL.REV.ADD Date..01/21/04 10:15:14 Project Address........ LOT 3 THE ESTANCIAS ******* --------------------- LA QUINTA *v6.01* Documentation Author... CATHERINE M. MADLIN ******* Bui ing 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...... MICROPAS6 v6.01 for 2001 Standards by Enercomp, Inc. _______________________ MICROPAS6 v6.01 File -24085B2 Wth-CTZ15S92. Program -HVAC SIZING User#-MP0207 User-Madlin's Enterprises Run-PERMIT.CALC.REV.GLAZ I ------------------------------------------------------------------------------- GENERAL INFORMATION Floor Area .................. 400 sf Volume.. .. ........... 3632 cf Front Orientation.......... Front Facing 215 deg (SW) Sizing Location............ PALM DESERT Latitude ................... 33.7 degrees Winter Outside Design...... 32 F Winter Inside Design....... 70 F' Summer Outside Design ....... 112 F Summer Inside Design....... 78 F Summer Range.. ... 34 F Interior Shading Used...... No Exterior Shading Used...... No Overhang Shading Used...... No Latent Load Fraction....... 0.20 HEATING AND COOLING -------------------------------- LOAD SUMMARY Heating Cooling Description --------------------------------- (Btuh) (Btuh) Opaque Conduction and Solar...... ----------- 4272 ----------- 1572 Glazing Conduction ............... 2295 2054 Glazing Solar..... .............. n/a 3671 Infiltration ..................... 1918 1269 Internal'Gain.................... n/a 750 Ducts.. ....... ........... Sensible Load 848 93,2 .................... Latent Load ...................... 9333 n/a 10247 2049 Minimum Total Load 9333 12296 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 Page 2 HVAC Project Title.......... WALL ING.TEAL.REV.ADD __________________________________________________________ Date..01/21/04 10.15.14 MICROPAS6 v6.01 File -24085B2 Wth-CTZ15S92 Program -HVAC SIZING User#-MP0207 ------- ------------------------------------------------------------------- User-UserEnterprises' Run-PERMIT.CALC.REV.GLAZ I HEATING LOAD CALCULATIONS ------------------------- DESIGN CONDITIONS FOR ZONE '1.ZONE': WINTER DESIGN TEMPERATURES: InsideTemperature ................................ OutsideTemperature.......... 70.0 F ................... 32.0 F DESIGN TEMPERATURE DIFFERENCES Standard.......................................... 38.0 F CONDUCTIVE HEAT LOSS:U-factor Heat Area (Btu/hr- TD Loss Description ---------- Orientation ---------------- (sf) sf-F) (F) (Btuh) Wall Southwest 69.0-x --_---------�---------- 0.0655 x 38.0 172 Wall Northwest 195.0 x 0.0655 x 38.0 = 485 Wall Northeast 73.0 x 0.0655 x '38.0 = 182 Shaded Wall n/a 271.0 x 0.0655 x 38.0 = 674 Shaded Wall n/a 24.0 x 0.3300 x 38.0 = 301 Shaded Wall n/a 400'.0 x 0.0247 x 38.0 = 375 S1abEdge n/a 50.0 x 0.7600 x 38.0 = 1444 SlabEdge n/a 33.0 x 0.5100 x 38.0 = 640 -� CONDUCTIVE TOTALS FOR OPAQUE SURFACES 4272 Double Window West 8.0 x 0.5200 x 38.0 = 158 Double Window North 32.0 x 0.5200 x 38.0 = 632 Double Door i East 72.0 x 0.5500 x 38.0 = 1505 i CONDUCTIVE TOTALS FOR GLAZING SURFACES 2295 INFILTRATION: (Type: Medium) 3632 cuft x 0.77 ac/hr x 0.018 Btu/cuft-F x 38.0 = 1918 SUBTOTAL 8485 DUCT HEAT LOSS: Duct Location: Attic 0.10 x 8485 = 848 TOTAL HEATING LOAD: � ===9333- HVAC SIZING Page 3 HVAC Project Title.......... WALLING.TEAL.REV.ADD Date..01/21/04 10:15:14 MICROPAS6 v6.01 File -24085B2 Wth-CTZ15S92 Program -HVAC SIZING -------User#-MP0207 User-Madlin's Enterprises Run-PERMIT.CALC.REV.GLAZ --------------------------------------=------------------------------ i COOLING LOAD CALCULATIONS ------------------------- DESIGN CONDITIONS FOR ZONE '1.ZONE': SUMMER DESIGN CONDITIONS: InsideTemperature.. .............................. Outside Temperature 78.0 F ...............................112.0 TemperatureRange ................................. F 34.0 F DESIGN EQUIVALENT TEMPERATURE DIFFERENCES Standard.. ................... Frame -Walls and Doors 34.0 F ............................. FramePartitions .................................. 32.6 F 24.0 F CONDUCTIVE HEAT GAIN: U -factor Heat I Area (Btu/hr- TDeq Gain Description Orientation (sf) ------------------------------------- sf-F) (F)--- (Btuh) ------ Wall Southwest 69.0 x ------- - - - - 0.0655 x 32.6 = -------- 147 Wall Northwest 195.0 x 0.0655 x 32.6 = .416 Wall Northeast 73.0 x 0.0655 x 32.6 = 156 Shaded Wall n/a 271.0 x 0.0655.x 24.0 = 426 Shaded Wall n/a 24.0 x 0.330.0 x 24.0 = 190 '• Shaded Wall n/a 400.0 x I 0.0247 x 24.0 = 237 CONDUCTIVE TOTALS FOR OPAQUE SURFACES 1572 Double Window West 8.0, x 0.5200 x 34.0 = 141 Double Window North 32.0 x 0.5200 x 34.0 = 566 Double'Door East 72.0 x 0:5500 x 34.0. = 1346 { CONDUCTIVE TOTAL FOR GLAZING SURFACES 2054 SOLAR HEAT GAIN: Note: SCapprox = SHGC / 0.87 Shading Heat Area Coeff. Gain i Description Orientation (sf) ----------------------------------------- SHGF SCapprox (Btuh) ------ Double Window West 8.0 ---- ------- x 73 x 0.799 = -------- 467 Double Window North 32.0 x 15 x 0.799 = 384 Double Door East 72.0 x 73 x 0.537 = 2821 EXTERIOR SOLAR TOTAL (Sext) 3671 INFILTRATION: (Type: Medium) 3632 cuft x 0.57 ac/hr x 0.018 Btu/cuft-F x 34.0 = 1269 INTERNAL GAIN (Ig): 1.00 x ( 2 x 225.0 + 300) = 750 Dwelling Units People Appliance -------- 1 SUBTOTAL 9315 HVAC SIZING Page 4 HVAC Project Title.......... WALLING.TEAL.REV.ADD Date..01/21/04 10.15.14 MICROPAS6 v6.01 File -24085B2 Wth-CTZ15S92 Program -HVAC SIZING User#-MP0207 User-Madlin's Enterprises Run-PERMIT.CALC.REV.GLAZ ------ - ------------------------------- 0-------------_---------- DUCT HEAT GAIN: Duct Location: Attic .10 x 9315 932 TOTAL HOURLY SENSIBLE HEAT GAIN 10247 LATENT LOAD: 0.20 x 10247 2049 i TOTAL COOLING LOAD 12296 Jan 1.3 04 :15: 52p Walling & McCallum Ltd 760 36007186 PO 1 SITE PLA I Madlin's enterprises Catherine M. Madlin, Certified Energy Analyst • 760-322-5004 / 323-3644 (fax) ...... V Title 24 Building Energy Efficiency Standards Residential Manual Excerpt RADIANT BARRIERS Introduction A radiant barri heat. Aluminui Installation of although they W its" the elsslion of radiant iples of Eug�fi a material. ring the co )1' g season, The Commission has approved an energy credit for radiant barriers meeting specific eligibility and installation criteria. The radiant barrier energy credit is an adjustment to the ceiling U -value when the ceiling is adjacent to an attic with a radiant barrier. The credit is automatically applied by modeling a radiant barrier in an approved computer program with this optional capability. Construction Below are the parameters for receiving credit for a radiant barrier, including criteria for the installation, ventilation and material, all of which contribute to the performance of the radiant barrier. Installation Installation must be in conformance with ASTM C-1158-97 (Standard Practice for Use and Installation of Radiant Barrier Systems (RBS) in Building Construction.), ASTM C -727- 90(1996)e1 (Standard Practice for Installation and Use of Reflective Insulation in Building Const r ctionr s.), ASTM C-1 13-975 (Standard Specification for Sheet radiant Barriers for Buildi g (Construction Appli ations), and ASTM C-1224-99 (Starfo- rd Specification for Reflective Insu i for Bi ding A lications aradiant barrier m�t.be securely i stalled in a erman n an ter -th s i id rof i g o t d t a% 'oo . Radia t bars', u t e i tall dot e ssra rsfi/ ( p c • ds n #-th f•IJ• ng methods. with the ma arial- 1. Draped over the truss/rafter ( the top chord) before the upper roof deck is installed. 2. Spanning between the truss/rafters (top chords) and secured (stapled) to each side. 3. Secured (stapled) to the bottom surface of the truss/rafter (top chord). A minimum air space must be maintained between the top surface of the radiant barrier and roof decking of not less than 1.5 inches at the center of the truss/rafter span. • P.O.. Box 1443 • Palm Springs, Ca 92263-1443 • E-mail. Cmadlin@aol.com • Madlin's Enterprises — Addendums & Notes 4. Attached [laminated] directly to the underside of the roof decking. The radiant barrier must be laminated and perforated by the manufacturer to allow moisture/vapor transfer through the roof deck. The radiant barrier must be installed to cover all gable end walls and other vertical surfaces in the attic. Ventilation The attic mus Conform t 2. Provide a each 150 t b2jaZa H ' ed to: o t rer' �rt�strui ctlons. I m fre ental tiP ( rea o n t les4a4nTesquare foot f ent area for s are ee� attic�odr ar 3. Provide no less than 30 percent upper vents. (Ridge vents or gable end vents are recommended to achieve the best performance. The material should be cut to allow for full air flow to the venting.) The radiant barrier (except for radiant barriers laminated directly to the roof.deck) must be installed to: 1. Have a minimum gap of 3.5 inches between the bottom of the radiant barrier and the top of the ceiling insulation to allow ventilation air to flow between the roof decking and the top surface of the radiant barrier. 2. Have a minimum of six (6) inches (measured horizontally) left at the roof peak to allow hot air to escape from the air space between the roof decking and the top surface of the radiant barrier. When installed in enclosed rafter spaces where ceilings are applied directly to the underside of roof r fter� minimum ai space of 1 inch must be provided between the radiant barrier and the to af the ceiling insultion, and ventilation must be providedTfor each rafter space. Vents must a prove a# b h tk► uPpe n to even soft a fl�losed aft ace------,, Emiss i O • The emissivity of the radiant barrier must b less than or equal to 0.05as tested in accordance with ASTM C-1371-98 or AS E408 -7(1996)e1. • The product must meet all requirements for California certified insulation material [radiant barriers] of the Department of Consumer Affairs, Bureau of Home Furnishings and Thermal Insulation. • r } Madlin's Enterprises — Addendums & Notes Note: Aluminum will deteriorate or corrode in the presence of alkaline materials. Unless the aluminum foil'is rotected by waterproofed paper or plastic coating,. keepit from coming into direct contact with anything alkaline, such as masonry surfaces. Inspection - - If a radiant barrier was used for compliance credit, check the iristallation guidelines provided above for the builder. Especially critical are the ventilation and air space requirements that . I r enable the radiant barrier to perform as expected. CEC Title 24 e i el jail Desi.ManuaV O Y, r -- - P I I 001 -Cod j Figure 3-2: M t' bds r nl�,talat'of r R is t Irr er r • i i I 1 v 1 • i • e _ Madlin' s enterpinses Catherine M. Madlin, Certified Energy Analyst • 760-322-5004 / 323-3644 (fax) ...... Title 24 Building Energy Efficiency Standards Residential Manual Excerpt THERMOSTATIC EXPANSION VALVES Thermostatic expansion valves (TXVs) or an equivalent alternative approved by the Commission are required for split system central it conditioners in some compliance methods and calculations. If TXVs are required for com�plia ice field verification (� Jj ual confirmation) by a certified HERS rater, is/required. t >> tv P HVAC DUCT AIR LEAKAGE-N-STIIVG i..._.; _.•I ,,�,� Section tstlt)to - (New Section) Space conditioning ducts (Duct Sealing) The following is new Standards language from Section 151(f)10: "All supply ducts must either be in conditioned space or be insulated to a minimum installed level of R4.2 and.constructed to meet minimum mandatory requirements of Section 150(m)." "All duct systems shall be sealed, as confirmed through field verification and diagnostic testing in accordance with procedures set forth in the ACM Manual." In the prescriptive compliance approach for Packages C & D, and to obtain compliance credit for sealed ducts in the performance approach; all duct systems must be sealed and duct leakage of less than 6% must be confirmed through field verification and diagnostic testing in accordance with procedures set forth in the ACM. This requirement applies to all climate zones for the prescriptive approach. The Ener. __C,ommission r uires independent field verification of duct sealing and has designated HERS raters as the verification entity. �v L, The foffowirag7paragraphs ummanze.the responsib`ilifies of the aies ir�volv�d with `re and to testing Arid inspiecting for Duct SeaLji lny� pl Builders i Builders contract with an approved HERS rater who provides the builder with inspection, and . diagnostic testing. The HERS rater also completes and provides Certificate of Field Verification and Diagnostic Testing (CF -4R) forms to the builder for submittal to the building department, and, if necessary, notifies the builder of corrective action needed to insure that homes comply. • P.O. Box 1443 • Palm Springs, Ca 92263-1443 v E-mail. Cmadlin@aol.com • Madlin's Enterprises — Addendums & Notes Installers Installers complete diagnostic testing required for compliance credit for each house, and certify testing results and that the work meets the requirements for compliance credit on the Installation Certificate, CF -6R. Installers work is then subject to field verification by approved HERS raters. HERS Raters Approved HERS raters conduct the field verifi"catior diagnostic testing and inspections, and provide CertificaterofFeld Verification and Diagnostic Testing (CF -4R),4 ms or notification that corrective actions;are, needed. HERS raters must be independent of both the builder and sub- contractor who installed the cl lct-systenis being field veri'fied, Mc,an have no financial interest in making corrections to the stems. Aslspecial inspectors�Hraters camnoi be employed by subcontractors'or parties, gther thah t�builderj wh!oJse work tkey are eval�daimg. Building Departments Building departments consider approved HERS raters to be special inspectors. HERS raters must demonstrate competence, to the satisfaction of the building official, for the visual inspections and diagnostic testing. The building department, at its discretion, may require field verification testing and inspection to be conducted in conjunction with the building department's required inspections, and/or observe installer diagnostic testing and HERS rater verification in conjunction with the building department's required inspections to corroborate the results documented in installer certifications, and in the Certificate of Field Verification and Diagnostic Testing (CF -4R). F '- - LoE n 1984 Cardinal introduced its LoE insulatingglass. In 1985 Cardinal intro- duced LoE Sun and in 1989 Cardinal l introduced LoEl Coated Glass Products. The LoE Sun coatings were developed to provide improved shading coefficient and solar heat gain coefficient performance. The LoE2 coatings were developed to provide better summer daytime perfor- mance with only a slight reduction in visi- ble light transmittance. Because of the excellent winter nighttime and summer daytime performance characteristics of the LoE2 product, it is becoming the prod- uct of choice for many residential window applications. Lot Descriptions LoE2 71 Series: The Lo E2 71 coated glass products are specifically designed as second surface coatings. They have a slightly lower visible light transmittance compared with the LoE 78 series product with significant improvements in shading coefficient and solar heat gain coefficient. Lo E2 71 products may be subject to mini- mum order requirements. Feature and Benefits of LoE2-171 • High visible light transmission: 72% • Lower visible light reflectance (indoor and outdoor) than clear glass • Lowest winter.U-Value of all LoE prod- ucts: 0.24 • Low shading coefficient: 0.47 • Low solar heat gain coefficient: 0.41 • Low relative heat gain: 98 btu/hr/ft2 • Warmest center glass temperature for winter conditions of all LoE products: 57°F. (LoE -178 also 57°) • Coolest center glass temperature for summer conditions of all LoE products: 83°F. • Lowest ultraviolet light transmission of all LoE products: 16% • Reduces heating and cooling costs for both cold and warm climates compared to other glazings • Allows the use of single glass inventory for both warm and cold climates LoE 78 Series: The LoE 78 coated glass products are designed as either sec- ond or third surface coatings. These coat-, ings are neutral in color and have the high- est visible light transmission of all LoE products. The LoE 78 coated glasses offer improved U -values, shading coefficient and solar heat gain coefficient, compared with non -coated glass products. Feature and Benefits of LoE -178 • High visible light transmission: 78% • Lower visible light reflectance (outdoor and indoor) than clear glass • Low winter LI -Value: 0.26 • Low shading coefficient: 0.68 • Low solar heat gain coefficient: 0.58 • Low relative heat gain: 139 btu/hr/ft2 • Warm center glass temperature for win- ter conditions: 57°F. (LoE 2-171 also 57•F.) • Reduces center glass temperature for summer conditions compared to clear glass: 85°F. • Reduces ultraviolet light transmission • Reduces heating and cooling costs for both cold and warm climates compared to other glazings _ LoE Sun 45 Series: The LoE Sun 45 coated glass products are designed as second surface coatings.These coated products have the lowest visible light transmittance, shading coefficient, and solar heat gain coefficient of all LoE prod- ucts and will have a bluish gray outdoor reflected color. Feature and Benefits of LoE-Sun-145 • Grey color with slight blue cast • Visible light transmission: 44% • Same visible light reflectance (outdoor and indoor) as clear glass • Low winter U -Value: 0.27 • Low shading coefficient: 0:38 • Low solar heat gain coefficient: 0.32 • Warm center glass temperatures for winter conditions: 56°F. • Cool center glass temperatures for summer conditions: 86°F. • Reduces ultraviolet light transmission to: 15% • Reduces heating and cooling costs for both cold and warm climates compared to other glazings • Application - For maximum solar control applications LoE Product Code Low Emissivity Coatings The following generalizations can be made regarding low emissivity coatings utilized in insulating glass: 1. U -Value (heat transfer) performance does not change whether the coating is on No. 2 or No. 3 surface. 2. The lower the emissivity of the coating, the lower the U -Value of the IG unit. 3. The shading and solar heat gain coeffi- cients of the unit will be lower when the coating is placed on No. 2 surface than when the coating is on the No. 3 sul`106. 4. LoE is not a heat trap. LoE is beneficial for winter and summertime conditions. Radiant Energy The energy from the sun (Short Wave Radiation) is transmitted through the insulating glass unit to the building's interior. After being absorbed by carpet- ing, draperies, furniture, walls, etc., the radiation becomes long wave infrared radiation. Heat energy from lights, heat- ing registers, office equipment, etc., is also long wave infrared radiation. When the long wave infrared energy tries to escape through the glass, the LoE2-171 coating reflects approximately 96% of this energy back into the room with a resultant lower winter U -Value. Energy Diagram U -Value rd No Product qq;�F nsmittance LOP -171 %Lo€ -178 With Argon Lo€Sun-145 1 -Clear 45% Low Emissivity Coatings The following generalizations can be made regarding low emissivity coatings utilized in insulating glass: 1. U -Value (heat transfer) performance does not change whether the coating is on No. 2 or No. 3 surface. 2. The lower the emissivity of the coating, the lower the U -Value of the IG unit. 3. The shading and solar heat gain coeffi- cients of the unit will be lower when the coating is placed on No. 2 surface than when the coating is on the No. 3 sul`106. 4. LoE is not a heat trap. LoE is beneficial for winter and summertime conditions. Radiant Energy The energy from the sun (Short Wave Radiation) is transmitted through the insulating glass unit to the building's interior. After being absorbed by carpet- ing, draperies, furniture, walls, etc., the radiation becomes long wave infrared radiation. Heat energy from lights, heat- ing registers, office equipment, etc., is also long wave infrared radiation. When the long wave infrared energy tries to escape through the glass, the LoE2-171 coating reflects approximately 96% of this energy back into the room with a resultant lower winter U -Value. Energy Diagram Winter Nighttime Performance Heat LossI IX X= -178 -1 Reduced X LoE -171 or 51 % With X LOESun-145 Lo€ Coatings X Coating Room al�_ I J U -Value OS_ Standard Unit Indoors � hort LOP-171or Log Sun -145 Wave Radiation With Argon Room Side Outdoors X Heat X=Lo6178, Lot` -171 X Long Wave or LoESun-145 Radiation Coating (Btu/hr/te) 189 Winter Nighttime Performance Heat LossI IX X= -178 -1 Reduced X LoE -171 or 51 % With X LOESun-145 Lo€ Coatings X Coating Room al�_ I J Summer Daytime Performance Room Side Heat Gain Reduced With LoE Products As Listed Below X=LoE-178 — U -Value (Btu/hr/tt 9-F) Standard Unit 0.49 Standard Unit With Log -178 LOP-171or Log Sun -145 Coating With Argon 024-027 Summer Daytime Performance Room Side Heat Gain Reduced With LoE Products As Listed Below X=LoE-178 — x LoE2-171 or X LoE Sun -145 Coating X 89° X 75° X Relative Heat Gain Clear Unit (Btu/hr/te) 189 Tinted Unit_ 155 Clear Unit WithLot-178 139 Tinted with LoE-178 Coating 122 Clear Unit With LoE2 -171 98 Clear Unit with LoE Sun -145 79 Emissivity Measurements Emissivity is measured by using a spectrometer. By using this method, only normal emissivity energy data is obtained. To establish the most exact and realistic emissivity, the normal emissivity must be converted to a hemi- spherical emissivity by formula. If normal emissivity is used in lieu of hemispherical emissivity, the normal emissivity will show an unrealistic lower emissivity and therefore will underpredict the glass energy transfer and resultant wintertime U -Value. Cardinal IG has used hemispherical emissivity and the PGMC (Primary Glass Manufacturers Council) Emittance Calculation Procedure for determining the LI -Values of the LoE-178, LoE1-171 and LoE Sun -145 products listed in this brochure. 3 . .. • mac::. .Bull ll1�.. a/V111 S r m Sart,.--H ome ♦ -yY, �j�.! �.. !l! `� _fir �.s�! eb ..i'' ,'l �\ 4 .. . . . . . . . . . . . . � .. I ° '` 1 •� F4 a,r��y � � �4 � `�� ,r4s� �� �'`_ v'�'��a"�l�c�hY�..> . \ : .�' r . i � ✓ � .. � "fir cW�.:� c� � �. +.��. . �. t it ,may •4 '�y.�.—. "y -.r' . - ! ,� c �,� -.yam— Y •vv v ,rc Tday's savvy homebuyer is,.` =- looking for an attractive, comfoi#-' able, and energy-efficient home. ' transfer, and almost ail summer - heat; is by radiation. For summer Scientific tests show when comfort forget "R", think ."E". building an energy-efficient home the use of Polar-PlyT"' Polar-PIyTM is an innovative radiant barrier � barriersheathin can . _product'com posed of an effect savings on coolingas . aluminum radiant barrier which much as 25% each year for the blocks 97% of summer radiant life of the home. heat, laminated with flame resistant adhesive to roof . I Radiant barrier technology has sheathing. Direct lamination to been in limited use since the the roof sheathing provides I 1800's, but with its widespread durability, requires no additional applications in space exploration, has now begun to emerge as construction labor, and substantially reduces the a new standard in energy-efficient home design. Perhaps the flammability of the roof sheathing. most difficult thing about radiant barrier technology is it's explanation. "R" values measure "resistance" to conductive' Polar-PIyT"' has been designed specifically to combat the I heat only,F not radiant heat. Radiant heat is measured by increasing high costs of energy. It costs far more to cool a "emittance" (E) values. This is an important home one degree in the summer than.to heat it one degree in difference since the primary mode of heat the winter. Homebuyers know that these costs will rise and are demanding more energy-efficient homes. "k ar� The technology you build with today pays off in comfort and energy savings for the life of your home. Radiant Barrier Sheathing ECT 8095 Soinh wSuperior Radiant Insulation, Inc. (909) 305-1450 Granite Bay, CA 98748-8132 916-791-4372 800.426-6200 t mP Radiant Barrier olar afGrivrg Product Description A high -purity aluminum foil laminated as a facing to either plywood or OSB of ! selected thicknesses using a flame - resistant adhesive. After lamination the facing is perforated to help with the dissipation of moisture. ( See Application Notes) Properties Emittance (E -value): .03 Reflectivity: 97% Permeance of facing: 53.3 Flame spread of facing: 0 Smoke of facing: 0 UBC class of lacing I NFPA class of facing A Flame spread of composite': 50 Smoke of composite': 95 UBC class of composite': II NFPA class of composite': B How does it work? It is a proven scientific fact that most heat transfer is by radiation. Polar-PIyTM is very effective in stopping heat transfer because it is a barrier to radiant heat transfer employing the principles of low emissivity (low -e) and high reflectivity. NASA uses this same technology to protect its astronauts and space vehicles. When most people think of insulation they tend to think of mass insulation such as fiberglass. Mass insulation retards heat flow through resistance to conductive heat transfer (R -value). Mass insulation only addresses radiant heat flow incidentally and inefficiently. During hot weather, homes experience unwanted heat gains predominantly by radiant heat transfer. Summer heat equals radiant heat. This is certainly true and easy to understand during the daylight hours when the hot sun is blazing on your roof. But, even after the sun sets, the accumulated heat remains stored in the mass insulation, drywall, and framing ' Tested with 7/16" CDX plywood members. The ceiling and wall surfaces continue to re -radiate this heat into your home long into the night. This keeps your air conditioner working longer and harder, all the while adding to your cooling bills. Instead of this intense radiant heat transfer into your attic and ceiling, Polar -Ply' effectively stops 97% of these heat rays. Your mass Insulation stays cooler and your ceiling stays cooler. This translates into comfortable living spaces at significantly lower cost. Benefits of Polar-PlyTm I. Keeps the temperature of existing mass insulation and ceilings lower, thereby reducing the radiant heat transfer into the living space and increasing occupant comfort. 2. No additional installation labor required. 3. Approved for energy credit in Model Energy Code & California Energy Commission Title 24. 4. Significant savings in utility cooling bills; as much as 25%. 5. Important reduction in flame spread rating of the roof sheathing. 6. Reduces workload for the cooling equipment, extending its life expectancy. 7. Cooler attic air and the elimination of most radiant heat gain make for marked improvement in efficiency of vulnerable a/c supply ducts located in attics. 8. Noticeably reduces garage temperature. 9. Durable; should last for the life of the home. 10. Environmentally friendly. ECT 8095 South Lake Cirde Granite Bay, CA 95746-8132 916-791-4372 800-426.8200 Application Notes Install according to panel manufacturers' recommended installation specifications. No special procedures are necessary. For proper performance, the radiant barrier should face an evacuated air space of at least 3/4". * Care should be taken in the storage, handling, and installation of Polar -Ply - to ensure that the moisture content does not exceed that of the board manufactur- ers' recommendation. A high moisture content may lead to delamination of the radiant barrier facing and possible deterioration of the board. Research Acknowledgments National Aeronautics and Space Administration US Department Of Energy Florida Solar Energy Center Oak Ridge National Laboratory Tennessee Valley Authority Davis Energy Group Numerous University studies Superior Radiant Insulation, Inc. P.O. Box 247 San Dimas, California 91773 Phone: (909) 305-1450 Fax: (909) 305-1448 email: Polar-PlyQSuperiorRB.com Warnings Aluminum is a good conductor of electricity. During installation avoid open electrical circuits and other exposed electrical current situations to prevent electric shock. Electric shock can result in injury or death. This product may have an effect on whether condensation will occur. Condensation is a natural and common phenomenon that can occur at the walls and roof of buildings under certain conditions. Many circumstances including the mix of material, weather, and other factors will effect whether condensation occurs, the degree to which it occurs, and the effect condensation will have on the components of the building. Where these conditions may exist, special attention should be given to proper ventilation and corrosion -resistant fasteners. 01999 Superim Radiant Insulation, Inc. All rights reserved. j.. Mar 09 04 02:31p Walling McCallum 760-3600786 p.2 WHAT IS AN Epoxies offer stronger bonding, shorter cure time i nd less hydrolization than other EPDXY ADHESIVE types of resin anchors. The Epoxy -Tie is a low cost, high performance adhesive SYSTEM? that provides excellent bonding and requires less curing time. The two -component amine -based system may be used for: ■ high strength structural anchoring fastening bolts into concrete and masonry walls ■ filling non-structural cracks up to 3/4' wide ■ repairing cracks in bricks, ceramics, unreinforced masonry or concrete ■ rebar dowelling Features: Easy Mixing ■ The disposable static mixing nozzle ■ blends the resin and the hardener automatically and thoroughly to allow accurate dispensing. ■ Reliability . The automatic proportioning in the mixing nozzle assures maximum bonding strength and minimum curing time. The nozzle eliminates the inconsistent performance that often ■ results from inadequate mixing. ■ Easy to use t The gel consistency allows horizontal } and vertical applications. ■ Reduced Shrinkage Shrinkage during cure Is between r� ■ 1 and 2%, compared to shrinkage of polyester systems of between 10 and 15% upon cure. ■ Moisture resistant The Epoxy -Tie is is a chemical anchor that is more resistant to hydrolization, which occurs when a bond breaks down in the presence of water. ■ Low odor Whether using or storing the ET22, the chemicals do not have a strong odor. One year shelf life -'orrosion Protection The epoxy compound seals the hole and encapsulates the embedded )ortion of the threaded rod, protecting t from the corrosive action of water •)r chemicals. This system may be ised in waste water treatment. .acilities, food processing•and similar Nvet" environments. Visible supply level on transparent cartridge (ET22) The unique transparent measuring gauge allows the exact amount to be dispensed. It also shows how much spoxy is left in the cartridge. ET22 code listing ICBO #14945. City of L.A. Nos. RR 25120 and RR 25185. Submitted to SBCCI 12/93, and to Dade County, FL 4/94. The Epoxy -Tie meets the following specifications: ASTM C 881-90 Standard Specification for Epoxy -Resin -Base Bonding Systems for Concrete. ASTM E 488-90 Standard Test Methods for Strength of Anchors in Concrete and Masonry Elements. Unreinforced Brick For brick installation with a 22/20 angle bolt application, the allowable tension load is and Masonry Loads 1200 lbs. Allowable shear load for a through or sh gar bolt application is 1000 lbs. Loads for installation into hollow concrete block in tension is 350.lbs, and in shear is 330 Ibs..Loads for installation into grouted concrete block in tension is 1225 lbs, and in shear is 1190 lbs. Epoxy Vs Stronger Anchoring: The ET system provides significantly stronger anchoring than can Mechanical Anchors be achieved with comparably sized mechanical anchors. Mechanical anchors stress the concrete; the Epoxy -Tie system strengthens the surrounding material. Vibration Resistance: In vibratory load environments, embedded mechanical components work against the concrete, pulverizing the material and loosening the anchor ET bonds with the concrete and doesn't work aga nst the material when vibration occurs. close -interval installation: Expansion -type mechanical anchors exert stress on the surrounding material when installed. They must b -a spaced at 1:5 x embedment depth. Epoxy bolts can be spaced.at 1.0 x embedment depth for extra anchoring strength. 2 i 0 Copyright 1994 SIMPSON STRONG -TIE CO., INC. P ICBO Evaluation Service Inc. 5360 WORKMAN MILL ROAD - A subsidiary corporation of the 1 • icwALUATION REPORT Copyright © 1999 ICBG Evaluation Service, Inc. WHITTIER, CALIFORNIA 90601-2299 International Conference of Building Officials ER -4300 Reissued October 1, 1999 Filing Category: ROOF COVERING AND ROOF DECK CONSTRUCTION -Roof Covering (202) "S" TILE, NAPA "S" TILE, TWO-PIECE MISSION TILE, TWO-PIECE BAJA MISSION TILE, EUROBAJA TILE AND ROMAN TILE REDLAND CLAY TILE POST OFFICE BOX 430 TECATE, CALIFORNIA 91980 1.0 SUBJECT "S" Tile, Napa "S" Tile, Two-piece Mission Tile, Two-piece Baja Mission Tile, Eurobaja Tile and Roman Tile. 2.0 DESCRIPTION 2.1 Two-piece Mission Tile: The tiles are composed of vitrified clay, machine -formed and kiln -fired to various temperatures for different burnt -on colors. Top and pan tiles are curved to approximately one third of a circle, and have widths at the large and small ends of approxi- mately 81/2 and 7 inches (216 and 178 mm e . A attachment hole is provided i n ��1�, it �n in the large end it a ��I' ch (12.7 mm) thick, 01 his (5�m(at lied with a maximum 14 t 0 tSVial pacing, and a minimum h a s have a vertical expos re of A9, (hj/e an installed weight o 10.7 'rdl' .2 kg/m2). The tile may be us d to , rid es an k provided they are embedde in mort r o gm 2.2 Two-piece Ba ag B The tiles are similar to they a fission til except that the widths at the lar a and small ends are appro imately 63/4 and 6 inches (171 and 152 mm), respectively. Tiles are installed in the same manner as identically to the two-piece Mission tile, except the horizontal spacing is 9 inches (229 mm) with a minimum head lap of 3 inches (76 mm). The installed weight of the tiles, when installed with a 9 -inch (229 mm) center -to -center spacing, and a minimum head lap of 3 inches (76 mm), is 9.4 pounds per square foot (45.9 kg/m2). 2.3 "S" Tile: The tiles are manufactured in a manner similar to the two- piece Mission tile, except they are 18 inches (457 mm) long, 12 inches (305 mm) wide and 1/2 inch (12.7 mm) thick, with two nail holes in the pan side and one nail hole in the cover side. Various accessory tiles are available for ridges, hips and rakes. The installed tile weight is approximately 9 pounds per square foot (43.9 kg/m2) when installed with an 11 -inch (279 mm) center -to -center spacing and with a 3 -inch (76 mm) head lap. See Figure 2 for details. 2.4 EurobaJa Tile: The tiles are manufactured in a manner similar to the two- piece Mission tile, except they are flat pan -shaped with two side lips which flare out. The tiles are 171/2 inches (444 mm) long, and have a width of 63/4 inches (171 mm) tapering to 61/4 inches (159 mm), and are 1/2 inch (12.7 mm) thick and 2 inches (51 mm) in height to the outer edge of the side lip. An attachment nail hole is located approximately 2 inches (51 mm) from the head and the nose. The cover the and pan tile are similar except that the nail holes are located on opposite ends. The installed weight is approximately 9.9 pounds per square foot (48.3 kg/m2)'when.installed with a 9 -inch (229 mm) center -to -center spacing and with a minimum 3 -inch (76 mm) head lap. See Figure 3 for details. 2.5 Roman Tile: The tiles are similar to the Eurobaia tile except they are 173/4 inches (451 mm) long, 11 inches (279 mm) wide, 5/8 inch (15.9 mm) thick and 23/8 inches (60 mm) in height to the outer edge of the side lip. Two attachment nail holes are located approxi- mately 11/2 inches (38 mm) from the tile head and spaced 51/4 inches (133 mm) apart. The cover tile and pan tile are similar except that the nail holes are located on opposite ends. The tiles are installed in the same manner as the Eurobaja tile. The installed weight of the tiles is 10.1 pounds per square foot (49.3 kg/m� when installed with an 18 -inch (457 mm) center - to -center spacing, and with a minimum head lap of 3 inches (76 mm). See Figure 3 for details. 2.6 Napa "S" Tile: The Napa "S" tile is approximately 133/4 inches (349 mm) long, 101/2 inches (267 mm) wide and 1/2 inch (12.7 mm) to 5/8 inch (15.9 mm) thick. The barrel portion of the tile rises 2.3 inches (58.4 mm) over a span of 6.45 inches (164 mm). The tile has a flat pan section approximately 2.3 inches (58.4 mm) wide, and the edge ends in a 45 -degree flared lip. Two nail holes are located on the pan side and one nail slot is lo- cated on the barrel. The installed weight of the tiles is 10.5 pounds per square foot (51.3 kg/m2) when installed with an 81/2 -inch (216 mm) center -to -center spacing, and with a mini- mum 3 -inch (76 mm) head lap. See Figure 4. 2.7 Installation: The tiles are installed in accordance with Table 15-D-1 of the code except as noted in this report. Nails are minimum No. 11 gage, 5/18 -inch -head (7.9 mm), corrosion -resistant roofing nails having sufficient length to penetrate the sheathing at least 1 inch (25.4 mm), or extend through the sheathing, whichever is less. Approved tile ties may be used as alter- nates to nailing. On roof slopes over 21:12, the bottom edge of each tile must be secured with an approved clip. . Sheathing is minimum 1/2 -inch -thick (12.7 mm) plywood, or code -complying solid sheathing, nailed in accordance with the code. A 1 -inch -by -2 -inch (25.4 mm by 51 mm) cant strip is placed at the eave and fastened to the sheathing with 5d corrosion -resistant common nails. Where used, mortar must comply with requirements for Type O mortar in Chapter 21 of Evaluation reports ofICBO Evaluation Service, Inc., are issued solely to provide information to ClassA members ofICBO, utilizing the code upon which the report \based. Evaluation reports are not to be construed as representing aesthetics or any other attributes not specifically addressed noras an endorsement or recommen- .dion for use of the subject report. This report is based upon independent tests or other technical data submitted by the applicant. The ICBO Evaluation Service, Inc., !ethnical staff has reviewed the test results and/or other data, but does not possess test facilities to make an independent verification. There is no warranty by ICBG Evaluation Service, Inc., express or implied, as to any "Finding"or other matter in the report oras to any product covered by the report. This disclaimer includes, but is not limited to, merchantability. Page 1 of 5 Page 2 of 5 the code. Tiles in contact with mortar must be immersed in water for two minutes prior to placement. On slopes of 21/2:12 to less than 4:12 for Napa'S" tiles, and on slopes of 21/2:12 to less than 3:12 for all others, the the is considered decorative material only, and must be installed over an approved roof covering complying with the code, sub- ject to approval of the building official. Underlayment for Napa 'S" tiles at slopes of 4:12 and above is minimum Type 40 as- phalt -saturated roofing felt. 2.8 Identification: Each tile is embossed with the words 'Redland, Mexico." In addition, each pallet is identified with the evaluation report number (ICBO ES ER -4300), the Redland Clay Tile name, and the product name. 3.0 EVIDENCE SUBMITTED Data in accordance with the ICBO ES Acceptance Criteria for` Special Roofing Systems (AC07), dated April 1999. 4.0 FINDINGS 'I That the "S" Tile, Napa "S" Tile, Two-piece Mission Tile, Baja Mission Tile, Eurobaja Tile and Roman Tile are non- combustible roof coverings complying with the 1997 Uniform Building Code", subject to the following conditions: 4.1 The roofing tiles are manufactured, Identified and Installed In accordance with this report and the manufacturer's Instructions. 4.2 The roofing tiles. are manufactured at the Tecate, Mexico, facility. This report Is subject to re-examination In two years. 0 e4of5 f \f' EURO -BAJA TILE 6 Y�' ROMAN TILE TOPS & PANS ARE THE SAME ,v: u4r uor toot Rake the Top the nailed nailed to l01 [ 7 2.2 Shenthing (Cant strip nnl shown) See gahlr mortaring S7Mmt ra rot delall tilt on cmtcrs - (1'ui cl:nily, Will stops not shown) ROMAN PANS WITH ROMAN COVERS EURO BAIA PANS WITH EURO BAJA COVERS 1.Rat Dk bl4) Wkd 11Hkd b L Sae gob mortr6 deur Tro 1H•.IR-MOLLS 1 Aft- AF4T /.Dr [DOCS Euro -Baja or Baia Mission life may be used for hips and ridee if desired For SI: 1 incti = 25.4 mm. pan Tile FIGURE 3—EURO BAJA AND ROMAN TILES ERI 4300 3of5 R • GRAVEL GUARD AND FLASHING INTERSECTION AT %] VAJAMISSION TILE DECK AND ROOF FLASHING AT WALL TILE MORTAR FLASHING—N0. 26 GAGE TYPICAL FELT MORTAR TILE LOCK BOOSTER - TILES 2 x 6 NAILER FELT NAIL RIDGE AND HIP FLASHING AT WALL WIND LACK F TILES 26 GAGE1' STANDING SEAM GALVANIZED /rSPLASH —"AVALLEY / OIVERTER SEAL For SI: 1 inch = 25.4 mm. FIGURE 1—MISSION AND BAJA MISSION TILES _ ►a r-aw NN Yo+v Mortar NH 2 `' Nuar EAVE CLOSURE (bird stop) tar NaYr F. . GABLE RAKE TILES are LEFT RAKE RIGHT RAKE Wood strips provide I6%KWC'a"""FI@aM9 made right and left hand. two inch wide stringers of necessary height under / hip rolls and miges. FLASHING AT WALL f For SI: 1 inch = 25.4 mm. FIGURE 2—"S" TILE FELT CRIMPED 2 PSF LEAD FLASHING EDGES VCLOSED 1 I WIDE MIN ATTACH TO TILE o,^ VALLEY WIC' ROOFER'S VALLEY FLASHING VENT FLASHING For SI: 1 inch = 25.4 mm. FIGURE 1—MISSION AND BAJA MISSION TILES _ ►a r-aw NN Yo+v Mortar NH 2 `' Nuar EAVE CLOSURE (bird stop) tar NaYr F. . GABLE RAKE TILES are LEFT RAKE RIGHT RAKE Wood strips provide I6%KWC'a"""FI@aM9 made right and left hand. two inch wide stringers of necessary height under / hip rolls and miges. FLASHING AT WALL f For SI: 1 inch = 25.4 mm. FIGURE 2—"S" TILE 5 of 5 ER -4300 HIP AND RIDGE /-6'--71 0 SLOT T 171/2 l-7•� 2�4' GABLE RAKE 6• CEMENT T FELT E,, TLE EAVE DETAIL 1 x 2 CANT STRIP HIP NAILER For SI: I inch = 25.4 mm. RIDGE NAILER NAIL m`2 x 3 NAILER 2 x 2 NAILER LEFT RAKE 0 3! /\ 133/' 8' FIGURE 4 --NAPA "S" TILE 121/2 EAVE CLOSURE 2 X 3 NAILER METAL FLASHING FELT WALL DETAIL CEMENT 2 x 3 NAILER 2 z 2 NAILER RIGHT RAKE —[�