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002693 (SFD) Title 24� ��T'� �� . ��u�� ^� ��mr�� '~ ENERGY BUDGET & MANAGEMENT CONSULTANTS P.O.BOX l443 PALM SPRINGS, CA922G3 (619)324-1731 THIS PROPOSED RESIDENTIAL PROJECT HAS BEEN REVIEWED FOR COMPLIANCE WITH THE- STATE OF CALIF0RNIA ENERGY CONSERVATION STANDARDS REVISED TITLE 24 BY MADLIN`S. ENTERPRISES� THE BUILDING DESIGN DESCRIBED IN THIS COMPLIANCE PORTFOLIO IS IN SUBSTANTIAL CONFORMANCE WITH THE STANDARDS, JOB NUMBER: 10805 DATE., 09/10/86 ` PREPARED FOR: THOMAS D0RSEY _ OWNER: PROJECT: SINGLE FAMILY RESIDENCE PROJECT LOCATION.' LA OUINTA METHOD OF COMPLIANCE: POINTS ORIENTATION OF ENTRY: WEST / _______-�_____________-' �--________�- ' - Cath� Madlin 4. # 431975`� � -fd � � Ll M A D L I N' S E N T E R P R I S E S ENERGY BUDGET AND MANAGEMENT CONSULTANTS P.O. BOX 1443 — PALM SPRINGS, CA 92263 — TELEPHONE (619) 324-1731. PROJECT: SINGLE FAMILY RESIDENCE — ENTRY TO WEST JOB NUMBLR- 10805 PREPARED FOR: THOMAS DO RSEY DATE _ 09/10/86 C 0 R R E C T I 0 N S PLEASE MAKE THE FOLLOWING CORRECTIONS TO YOUR PLANS PRIOR TO SUBMITTING THEM FOR PLAN CHECK REVIEW. 1. INCREASE ROOF INSULATION TO R=38 IN VENTED AREAS o INCREASE ROOF INSULATION TO R=30 -IN 'VAULTED AREAS. 3e ADD SUNSCREENS TO ALL WEST GLAZING„ 4. NOTE 01\1 FLOOR PLAN THAT KITCHEN LIGHTING SHALL BE FLUORESCENT. 5. NOTE THAT HEATING WILL BE PROVIDED BY PROPANE FURNACE. :6 o NOTE THAT DOMESTIC HOT WATER WILL BE PROVIDED BY A PRGP� iNE H.W. TANK Y 11 MADLIN`S ENTERPRISES _ ENERGY BUDGET AND MANAGEMENT CONSULTANTS P.O. 80X 1443 - PALM SPRINGS, CA 92263 - TELEPHONE (619) 324-1731 ====================================================================== PROJECT: SINGLE FAMILY RESIDENCE - ENTRY TO WEST PREPARED FOR: THOMAS D0RSEY JOB NUMBER: 10805 DATE : 09/10/86 ------------------------------------------------------------ THE FOLLOWING INSULATIONS, FEATURES AND DEVICES WERE INCLUDED IN THE ATTACHED TITLE 24 COMPLIANCE ANALYSIS TO DEMONSTRATE COMPLIANCE 'WITH THE STANDARDS. WALL INSULATION - FRAME ................. ROOF / CEILING INSULATION - VENTED ...... ROOF / CEILING INSULATION - VAULTED ..... RAISED FLOOR OVER UNC0ND. SPACE ......... SLAB INSULATION .................,....,.. GLAZING U VALUE ......................... GLAZING SHADE COEFFICIENT ............... GLAZING TREATMENT - SUNSCREENS - WEST.... GLAZING TREATMENT - OVERHANGS ........... SKYLIGHTS ............................... VENTED ATTIC (88% OF AREA) .............. CONTINUOUS INFILTRATION BARRIER .......... VAPOR BARRIER ;.......................... ELECTRICAL PLATE GASKETS ................ HVAC EQUIPMENT EFFICIENCY ............... AIR TO AIRHEAT EXCHANGER ............... THERMOSTAT .................. ........ ~... THERMAL MASS ......................~..... DOMESTIC HOT WATER ...................... R=11 R=38 R=30 . NA NONE REQ. ,65 DUAL PANE 1.0'CLEAR* REQUIRED AS SHOWN ON PLAN NONE REQUIRED NOT REQUIRED NOT REQUIRED REQUIRED 8.7 SEER COOLING NOT REQUIRED SETBACK REQUIRED REQUIRED - SEE SCHEDULE GAS. ADDITIONAL NOTES ================ * CREDIT TAKEN FOR INTERIOR DRAPES - NOT REQUIRED TO BE INSTALLED PRIOR TO FINAL INSPECTION. ` * GLAZING CONSIDERED TO BE CLEAR IN CALCULATIONS. OWNER MAY INSTALL, AT HIS OPTION, BRONZE OR GREY TINTED GLAZING WITHOUT ADDITIONAL CALCULATIONS. M A D L I N' S E N T E R P R I S E S ENERGY BUDGET AND MANAGEMENT CONSULTANTS P.O. BOX 1443 -- PALM SPRINGS, CA 92263 - TELEPHONE (619) 324--1731 PROJECT= SINGLE FAMILY RESIDENCE - ENTRY TO WEST J'OB NUMBERe 10805 PREPARED FOR: THOMAS PORSEY DATE a 09/10/86 H V A C E U I P M E N'T S C H E D U L E ZONE: ONE - ENTIRE HOUSE MFG: DAY & NIGHT SYSTEM' TY PE a GAS (PROPANE) HEATING WITH ELECTRIC AIR CONDITIONING - REMOTE MODEL NUMBERS= FAU = 397H048080 AC = 567G042 COIL=51BA048 CAPACITIESe HEATING = 78,000 BTU COOLING = 42,000 BTUH ---------- RATINGS; 82.3 AFUE 9.20 SEER THERMOSTAT: HONEYWELL NIGHT. SETBACK OR EQUAL MINIMUM SEER REQUIRED = 8070 --------------------- NOTE. THE HVAC EQUIPMENT OUTLINED ABOVE IS PROVIDED TO ASSIST OUR CLIENT IN DEMONSTRATING COMPLIANCE WITH THE TITLE 24 STANDARDS. FINAL EQUIPMENT SELECTION AND HVAC DESIGN IS THE RESPiSNSIBILITY OF THE HVAC CONTRACTOR ANY EQUIPMENT SELECTION CHANGES SHOULD BE FORWARDED TO THE BUILDING DEPARTMENT FOR PLAN CHECK REVIEW. OWNER MAY INSTALL, AT HIS OPTION, A HVAC SYSTEM WITH A EFFICIENCY RATING CL08ER TO THE MINIMUM REQUIRED (LISTED ABOVE) o THE FURNACE LISTED ABOVE IS THE SMALLEST AVAILABLE TO MATCH THE CONDENSING UNIT. M A S S S C H E D U L E The following mass data was included in the attached Title 24 calculations to assist in demonstrating compliance with the standards. ------------------------------------------------------------------------------ TYPE DESCRIPTION SQ. FT. REQUIRED LOCATIONS -------------------------------------------------------------------------- 1 LINOLEUM, VINYL 210 ENTRY, KITCHEN, BATH 1, DRESSING, OR CERAMIC TILE BATH 2 OVER HW SLAB NOTE" PURSUANT TO THE STANDARDS, AREAS UNDER CABINETS AND CLOSETS ARE NOT INCLUDED IN THE SQUARE FOOTAGE FIGURE LISTED ABOVE ''�:. ENTERDRISE ENERGY `". I3UDG ET CGNSIJLTANTS TITHE 24 COMPLIANCE FORMS BUILDING DESIGN AND EQUIPMENT SUMMARY Page 1 of 3 FORM 2 " THOMAS D0RSEY - JOB NO. 10805 MODEL HOUSE - LA 0UINTA - ENTRY TO WEST | \ SINGLE FAMILY - SINGLE STORY ' REVISED PLAN - GAS / ELECTRIC HOUSE i(plan check/permit � #) � CLIMATE ZONE 15 | ( (checked by) | Building Type: Single Family '| �______________________� | Documentation Author (Serial # DEMO): (date) | ' MADLIN`S ENTERPRISES - CATHY MADLIN | | P. 0. Box 1443 - Palm Springs, Calif. 92263 |______________________i Telephone 619-324-1731 Enforcement Agency Use Compliance Method: POINT SYSTEM' ' _--------------------- Date: SEPTEMBER � 11 1986 -------------------------- �-------------- _----------- BUILDING ENVELOPE DESIGN Total tonditioned Floor Area: 1408 sqft Insulation R -Value . _______ Area ___________ POINTS ------- _____SLA8 SLABPERIMETER Type 1f R- 0.09 16", 174 ft 1408.0 sqft | . Type 2: | < -4 RAISED FLOOR Type 1: | Type 2: / Over Open: ' | CEILING Type 1: R- 3840 1202.0 sqft | Type 2: R- 30.0 274.0 sqft | +3 Attic: 88 % | WALL Type 1: R- 11.3 (assembly) 838.0 sqft | Type 2: R- 20.2 (assembly) 298.0 sqft -2 Glazing _U -Value % ----- Area ------------ WEST, Type 1: +4' Type 2: 0.65 2.3 ' 33.0 sqft NORTH Type i: ' -4 Type 2: 0,65 5.7 80.0 sqft EAST Type -l. +0 Type 2: 0.65 2.8 ` 40.0 sqft SOUTH Type 1: . ' -4 Type 2: 0.65 7.0 99.0 sqft SKYLIGHT Type 1: +0 Type 29 BUILDING DESIGN AND ' EQUIPMENT SUMMARY Page 2 of 3 FORM 2 THOMAS D0RSEY - JOB NO. 10805 . - MODEL HOUSE - LA QUINTA - ENTRY TO WEST Climate Zone 15 ____________________________________________ ' . Shading' S.C^ ____ __________________________ _ POINTS . WEST Type 1: -1 Type 2: 0.30 2.3 NORTH Type 1: +0 Type 2: 0.66 5.7 EAST Type 1: -3 Type 2: 0.66 2.8 SOUTH Type 1: ' -6 Type 2: 0.62 7.0 SKYLIGHT Type 1: +0 Type 2: SOUTH OVERHANG: 2.00 ft South Glazing = 7.0 % +0 ` MOVABLE INSULATION: ` None . +0 . ' INFI4. CONTROL: MEDIUM: Standard Infiltration Control Features -1 with Outlet Plate Gaskets THERMAL MASS: -See Thermal Mass Calculation Worksheet- | ' Type ________ � Material Area � __________ ------------ _________Interior Interior Conc 140 210 sqft i | . +8 BUILDING DESIGN AND EQUIPMENT SUMMARY Page 3 of 3 FORM THOMAS D� �RSEY - JOB Nc i , 10805 MODEL HOUSE -• LA QUINTA — ENTRY TO WEST Climate Zone 15 HEATING, VENTILATING & AIR COND.I T I ON I NG SYSTEM POINTS Space Heating and Cooling ; GAS FURNACE WITH AIR CONDITIONING Floor Area= 1408 sgft Furnace Brand & Mo'de'l No: ----------------------------------- ; Output (Btu/hr):--------------------- ------------ SE = 71 % ' Air Conditioner Brand & Model No= Output (Btu/hr): -------------------------------- SEER = 807 +6 Domestic Hot Water System: GAS Brand & Model No: -------------------- Tank -- Tank: Size (gallons) ' TOTAL PONT I NT S Ci ARE -4 POINT COMPLIANCE GOAL (see calculation worksheet) -4 ' THERMAL MASS CALCULATION WORKSHEET Point System Method ' THOMAS D0RSEY - J08 N0. 10805 MODEL HOUSE - LA QUINTA - ENTRY TO WEST Climate Zone 15 ~ ` Static Heat Capacity (HC) of Mass Material: Spec. Heat Density Thickness Divided By Heat Capacity Material (8tu/lb-F) (lb/cuft) (in) 12 (in) (Btu/F-sqft) __________ __________ _________ _________ Conc 140 0.200 X 140 X 4.00 / 12 = 9.33 . Resistance (R -Value) of Mass Material: . Conductivity Insul�tion Total Thickness (Btu -in/ R -Value R -Value Material (in) hr-sqft-F) (hrisqft-F/Btu) (hr-sqft-K/Btu) _______ ____________ Conc 140 4.00 / 11.76 + (interior mass) = 0.34 Mass Capacity (MC) of Building: ' Mass Capacity Mass Area Factor Capacity Material (sqft) (Btu/F-sqft) (8tu/F) ______________ Conc 140 210 \< 7,8 = 1638.0 TOTAL 1638.'0 UNIT MASS CAPACITY, UMC: 1638 (8tu/F) / 1408 (sqft) = 1.2 (Btu/F-sqft) ' AREA WEIGHTED AVERAGE CALCULATION WORKSHEET POINT SYSTEM THOMAS D0RSEY - J08 NO. 10805 ' � MODEL HOUSE - ___________________________________________________________________________ LA OUINTA - ENTRY TO WEST ' Climate Zone 15 D'ilding TYPE 1 ` TYPE 2 Point Feature Area Points ____ ______ Area Points ____ ______ Sub _________ -Total Insulation: ' ' ' Slab Perimeter [ 174 X -4 + 0 X -4 ] / 174 = -4.00 *TOTAL FLOOR [ 0 X +0.00 + 1408 X -4.00i / 1408 = -4.00 *CEILING [ 1202 X +4 + 274 X +0 ] / 1476 = +3.26 ' Type 1 and Type 2 point value dncludes +4 attic points from table 3-3c *FRAME WALL [ 838 X -4 . + 298 X +2 ] / 1136 = -2.43 * Designates calculated Point values shown rounded off on attached Form 2 ' ^ MARLIN'S ENTERPRISES IENIEMV EUD6FT CONSULTANTS Form 3 HEAT TRANSFER COEFFICIENT PROPOSED CONSTRUCTION ASSEMBLY List of Construction Components R STUCCO .18 VAPOR BARRIER .06 2• 1 2 s INSULATION WITH RESISTANCE = 11,00 3 4 GYPSU-1,1 BOARD .45 4 "' s. 6. 7. Sketch of Construction Assembly WEIGHT: 15-25 Ib/ft2 Check one: X X* Wall _ Roof — Floor Inside Surface Air Pi1m Outside Surface Air Film Total Resistance Rt U -Value (I/Rt .a cooling .25 cooling 12.62 cooling .08 cooling .68 heating .17 heating 12.54 heating 08 heating W-17 D.Q 130710 /dd3 9ALM SDRIMM CALIFORNIA / 92262 Form 3 HEAT TRANSFER COEFFICIENT PROPOSED CONSTRUCTION ASSEMBLY List of Construction Components R STUCCO .18 VAPOR BARRIER .06 2• 1 2 s INSULATION WITH RESISTANCE = 11,00 3 4 GYPSU-1,1 BOARD .45 4 "' s. 6. 7. Sketch of Construction Assembly WEIGHT: 15-25 Ib/ft2 Check one: X X* Wall _ Roof — Floor Inside Surface Air Pi1m Outside Surface Air Film Total Resistance Rt U -Value (I/Rt .a cooling .25 cooling 12.62 cooling .08 cooling .68 heating .17 heating 12.54 heating 08 heating W-17 M4t� IN'S �Ml l'pt�Iit`1 ENEMY DUbGET MNSUILTANTS Form 3 \�\ I A�tAD► 1411 * L+S1 M SIl IW4.S, r t�llrs,l;Nlt, HEAT TRANSFER COEFFICIENT }� 1ia� i PROPOSED CONSTRUCTION ASSEMBLY 1 -List of Construction Components R 1 .1 STUCCO .18 2 z VAPOR BARRIER .06 3 3 INSULATION WITH RESISTANCE 19.00 4 a GYPSUM BOARD .45 t; 5. t' 6. 7. Sketch of Construction Assembly WEIGHT: 15-25 Ib/ft2 Check one: Wan X X Roof Floor _ .68 .68 Inside Surface Air Film cooling heating Outside Surface Air Film .25 . 17 cooling heating 20.62 20.54 Total Resistance Rt cooling heating U•value (l/Rt) .048 .049 cooling heating W. Vii, Form 3 HEAT TRANSFER COEFFICIENT PROPOSED CONSTRUCTION ASSEMBLY MAa1N•S ' `\ List of Construction Components ENTEQDQISES \ ' pmaa 1"3. 1. INSULATION WITH e! IALM SMINGS. ENEMY CAR-11FOWN A DUDEET °f� l 92262 CONSULTANTS 3. Form 3 HEAT TRANSFER COEFFICIENT PROPOSED CONSTRUCTION ASSEMBLY List of Construction Components R 1 2 1. INSULATION WITH RESISTANCE = 38.00 2. GYPSUM BOARD OR TILE .45 3. 4. 5. 6. 7. 8. Inside Surface Air Pilm _, 9 2 .61 cooling heating Sketch of Construction Assembly WEIGHT: 0-15 tb/ft2 Outside Surface Air Film .25 ,17 cooling heating Check one: Total Resistance Rt 39.62 39,23 cooling heating Wall _ Roof xX U -Value (I/Rt .025 ,025 Floor _ cooling heating R-6 MARLIN'S ENTERDRISES ENEQsy 6UD6ET CowstALTANTS Form 3 HEAT TRANSFER COEFFICIENT PROPOSED CONSTRUCTION ASSEMBLY 1 2 3 List of Construction Components R 1. PLYWOOD .62 2. INSULATION WITH RESISTANCE = 30.00 s. GYPSUM BOARD OR TILE .45 a. 5. 6 7 8 Sketch of Construction Assembly WEIGHT: 15-25 lb/n2 Check one: Wall _ Roof Floor — Inside Surface Air Film .92 \� 9:)A).[" 9443 , 7 QILM SCnIN6S, Outside Surface Air Film CALII'OQNW �� 92262 Form 3 HEAT TRANSFER COEFFICIENT PROPOSED CONSTRUCTION ASSEMBLY 1 2 3 List of Construction Components R 1. PLYWOOD .62 2. INSULATION WITH RESISTANCE = 30.00 s. GYPSUM BOARD OR TILE .45 a. 5. 6 7 8 Sketch of Construction Assembly WEIGHT: 15-25 lb/n2 Check one: Wall _ Roof Floor — Inside Surface Air Film .92 .61 cooling heating Outside Surface Air Film .25 .17 cooling heating Total Resistance Rt 32.24 31.8 5 cooling heating U -value (I/Rt) .031 .0 31 cooling heating R-15 M # :�. ENTFI?pRIS�Sr...r..M ' = uuuc uT CGNSULTANTS LOAD CALCULATION AluuAlf METHOD HEATING EQUIPMENT SIZING COMPLIANCE FORM ^ THOMAS D0RSEY - J08 NO. 10805 MODEL HOUSE - LA QUINTA - ENTRY TO WEST SINGLE FAMILY - SINGLE STORY REVISE& PLAN -GAS / ELECTRIC HOUSE Location Data: Palm Springs ^ 'uilding Type: Single Family ' Documentation Author (Serial # DEMO)' MADLIN`S ENTERPRISES - CATHY MADLIN P. 0. Box 1443 - Palm Springs, Calif. 92263 Telephone 619-324-1731 Method: ASHRAE Load Calculation Manual Page 1 of 2 ------------------------ | | �______________________� |(plan check/permit #) 1 � � | ______________| / (checked by) � | / Enforcement Agency Use ^ Date: SEPTEMBER 11 1986 _____________________________________________________-_____________________ ' H0URLY HEAT LOSS Total Conditioned Floor Area: 1408 sqft ' Site Information: ,Inside Design Temperature 0utside'Design Temperature Design Temperature Difference, TD: For Standard Assemblies For Floor over Vented Unheated Space Conductive Heat'Loss 70.0 F 31.0 F 39.0 F 19.5 F Description of Assembly ______________________________ Area � ____ U -Value _______ TD ____ Btu/hr ______ Slab, R- 0.0 16" deep 174.0' (ft) ' X 42.0 = 7308 Ceiling, R-39.0 � 1202.0 X 0.026 X 39.0 = 1202 Ceiling, R-31.0 274.0 X 0.032 X 39.0 = 345 Wall, R-11.3 838.0 X 0.088 X 39.0 = 2892 Wall, R-20.2 298.0 X 0.050 X 39.0 = 575 W Glazing, Double 33.0 X 0.650 X 39.0 837 N Glazing, Double 80.0 X 0.650 X 39.0 = 2028 E Glazing, Double . 40.0 X 0.650 X 39.0 = 1014 S Glazing, Double 99.0 X 0.650 X 39.0 = ' 2510 SUBTOTAL ------ 18710 HEATING EQUIPMENT SIZING COMPLIANCE FORM Page 2 of 2 THOMAS D0RSEY - JOB NO. 10805 . Building Location Data: , MODEL HOUSE - LA UUINTA - ENTRY TO ------------- _------------------------------------ WEST ` Palm Springs. . __________________________ Infiltration: 1408 X 8.0 X 0.5 AC ^ X .018 X �39.0 = . 3954 Conductive Heat Loss (From Previous Page): 18710 SUBTOTAL 22664 Duct Heat Loss: - ` 0.15 X 2266 3400 T0TAL,H0URLY HEATL0SS . 26064 . Maximum Btu/hr: 1.3 . X [ 26064 +. (10 X 1408)] = 52187 . MINIMUM HEATING EQUIPMENT OUTPUT: ^ 26064 . (Btu/hr) ' . . MAXIMUM'HEATING EQUIPMENT OUTPUT: 52187 (Btu/hr) ' COOLING EQUIPMENT SIZING COMPLIANCE FORM THOMAS D0RSEY - J08 NO. 10805 MODEL HOUSE - LA 0UINTA - ENTRY TO WEST ^ SINGLE FAMILY - SINGLE STORY REVISED PLAN - GAS / ELECTRIC HOUSE Location Data: Palm*Springs Building Type: Single Family ' Documentation Author (Serial # DEMO): MADLIN`S ENTERPRISES - CATHY MADLIN P. 0. Box 1443 - Palm Springs, Calif. 92263 Telephone 619-324-1731 ' Method: ASHRAE Load Calculation Manual Page 1 of 2 ------------------------ --------------- !(plan ______________________________________/(plan check/permit #) | � ' | |______________________| | (checked by) | |______________________| � (date) � | | |------------- _________� Enforcement Agency Use Date: SEPTEMBER 11 1986 _____________________________________________-_____________________________ H0URLY HEAT GAIN . Total Conditioned Floor . Area: 1408 sqft Site Information: Inside Design Temperature 78.0 F Outside Design Temperature ' 113.0 F Daily Temperature Swing ^ 35.0 F 'Design Equivalent Temperature Difference, TDeq: ' ^ Standard Temperature Difference 35.0 F ' For Frame Walls and Doors 28.0-F For Masonry Walls' 21.0 F For Floor ' 20.0 F ' For Ceiling and Roof _ ' ' 49.0 F Conductive Heat.Gain ` ' TD or Description of Assembly. _____________________________ Area ____ U -Value _______ TDeq ____ Btu/hr ------ Ceiling, R-39.0 1202.0 X 0.026 X 49.0 = 1510 Ceiling, R_31.0 274.0 X 0.032 X 49.0 = 433 ' Wall, R-11.3 838.0 X 0.088 X 28.0 = 2076 Wall, R-20.2 298.0 X . 0.050 X 28.0 = 413 W Glazing, Double 33.0 X 0.650 X 35.0 = 751 N Glazing, Double 80.0 X 0.650 X 35.0 = 1820 E Glazing, Double 40.0 X 0.650 X 35.0 = 910 S Glazing, Double . 99.0 X 0.650 X 35.0 = 2252 ' . ` SUBTOTAL 10166 COOLING EQUfPMENT SIZING COMPLIANCE ' FORM Page 2 of 2 THOMAS D0RSEY - J08 NO. 10805 Building Location Data: MODEL HOUSE - LA QUINTA - ENTRY TO ' . ___________________________________________ WEST ---------------- Palm Springs _--------------- � Solar Heat Gain: Description of Assembly _____________________________ Area ____ S.C. ____ CLF ___ Btu/hr _____W ------- WGlazing, Double 33.0 X 0.30 X 78 = 772 N Glazing, Double 80.0 X 0.66 X 34 = 1795 E Glazing, Double 40.0 X 0.66 X 78 = 2059 . S Glazing, Double ' 99.0 X 0.62 X 51. 3130 SUBTOTAL 7757 Less: Sash Factor 0.00 X 7757 = 0 Net Solar Heat Gain: SUBTOTAL ` 7757 ^ Infiltration: 1408 X 8.0 X 0.5 AC X .018 X 35.0 = 3548 Internal Heat Gain:' ' ' ' = 3000 Conductive Heat Gain (From Previous Page): = 10166 . ' SUBTOTAL 24471 . ^ ' Duct Heat Gain: ' ` 0.10 X 24471 2447 ' TOTAL SENSIBLE HOURLY HEAT GAIN 26918 Latent Load: 0130 X 26918 = 8075 SENSIBLE COOLING LOAD." 26918 Btu/hr TOTAL (SENSIBLE + LATENT) LOAD: ' , 34993 Btu/hr ( 2.9 ` tons) ADDENDUM) : .. ENTIE vMISfSW-aw"" I3IJDG FT �l CGNSULTANTS ADDENDUM) WadlirLs ::. ErLtet 'prises ErLefgy' Budget .3111 Go is �ulta rL NOTICE TO BUILDERS A OWNERS All of the energy conservation devices and features outlined in this compliance portfolio are required to meet Title 2.4 standards. This residence will not be in compliance if any of these features or devices are - removed, altered or covered. The hvac load calculation and equipment sizes provided in this compliance portfolio are in accordance with the guidelines setforth in the standards. Final equipment. selection and hvac design is the responsibility of the contractor. ; NadfirL's Erltetprises ErLefgyMANDATORY FEATURES Budget ~ Yµ� Gorbsultarlts This section describes the mandatory features'and devices which must be installed .in new residential buildings regardless of the method used to demonstrate compliance with the energy budget. These measures assure the building envelope and related systems meet at least minimum .thermal performance levels. CEILING INSULATION 2-5352(a) The opaque portions of ceilings separating conditioned and unconditioned space must either (1) be insulated between framing members with R-19 or greater insulation, or (2) have a weighted average U -value of 0.067 or less. To meet the intent of the ceiling insulation requirements, ceiling insulation should extend far enough to the outside walls to cover the top plate. LOOSE FILL INSULATION 2-5352(b) When loose fill insulation is installed, the minimum installed weighted per square foot must conform with the insulation manufacturer's installed design density per square foot at the manufacturer's labeled R -value. WALL INSULATION 2-535.2(c) The opaque portions of metal or. wood frame walls separating conditioned and unconditioned spaces must either (1) be insulated between framing members with R -11 -or greater insulation-, or (2) have a weighted average U -value of 0.100_ or less. Masonry or concrete exterior walls, do not have to be insulated with a minimum of R-ll'insulation. Foundation walls of heated basements or heated crawl spaces must be insulated above the adjacent outside ground. line with at least R-7 insulation. NadfirLs Erltetprises ErLefgy' Budget ai!a. l g t Gortsultarlts MANDATORY FEATURES WALL INSULATION REQUIREMENTS CONTINUED EXCEPTION: Insulation which is not penetrated by framing members may meet an equivalent minimum R -value which includes the effects of framing members on the above R -values. INSULATION CERTIFICATION 2-5303 Builders may not install insulation materials unless the product has been certified by the manufacturer. A certificate of insulation must be at site. LIGHTING 2-5352(m) The standards require that general purpose lighting fixtures in kitchens and bathrooms have an efficiency of at least 25 lumens per watt. (These fixtures will usually be fluorescent.) If there is only one fixture in a kitchen it will be considered to be general purpose lighting. EXCEPTION: Luminaires which are the only lighting in a bathroom and lighting to be used only for specific visual tasks or decorative effect are exempt from this.requirement. Such exempt lighting includes all luminaires that are meant to light only a specific task area such as a kitchen counter or sink, a dining table, or a bathroom mirror. If recessed incandescent lighting fixtures are installed in an insulated ceiling, such fixtures shall be covered with insulation, with no spacing between the insulation and the fixture, and shall be Type IC, as defined by Underwriters Laboratories 1571. \; ry _n?► NadhtL's ErLtetprises Erlefgy' MANDATORY FEATURES Budget 4 '= n. Gortsultarlts INFILTRATION CONTROL 2-5352(d) The standards contain the following requirements to control infiltration. 1. Doors and windows (including skylights) between conditioned and unconditioned spaces must be fully weatherstripped. 2. The following openings in the building .envelope must be caulked, sealed, or weatherstripped: a. Exterior joints around window and door frames, between wall soleplates.and floors, and between exterior wall siding panels; b. Openings for plumbing, electricity and gas lines in walls, ceilings and floors; C. Openings in the attic floor (such as where ceiling panels .meet interior and exterior walls and masonry.fireplaces); and d. All other such openings in the building envelope. 3. Builders may install manufactured doors and windows only when they are certified and labeled indicating that they meet the standards listed in Section 2-5352(d), Table 2-53V. Site - built windows and doors are exempt from this requirement. 4. Exhaust fans .and other exhaust systems must be equipped with backdraft or automatic dampers. a. UAadhr�s. ErLtetprises E of MANDATORY FEATURES rL � Budget Gorisultarlts SPACE CONDITIONING EQUIPMENT SIZING 2-5352(g) To ensure that properly -sized systems are installed in new residential buildings, the standards set the following sizing requirements and specify acceptable load calculation procedures and indoor and outdoor design temperatures. 1. Natural gas and liquefied petroleum gas central furnaces in the building must be sized to meet at least one of the follow- ing requirements: a. The total output heating capacity of furnaces in the building must be less than 45,000 btuh/hr, or b. The furnace's output heating capacity must be less than 1.3 times the sum of the design heat loss for the heating zone being serviced by the furnace and 10 btuh/hr per square foot for conditioned floor area in the zone, or c. Seasonal efficiency must be greater than. 1% point above 67%.for every 7,000 btuh/hr that the output heating capa- city exceeds either the building design heat loss or 45,000 btuh/hr, whichever is greater. (Effective Decem- ber 22, 1982 the .seasonal efficiency requirements were to increase to 11%. Lawsuits.currently pending.) 2. Heating equipment and cooling equipment must be sized accord- ing to the building heating and cooling loads, using a method set forth by the Commission's Executive Director. 3. Indoor design dry bulb air temperatures must be70oF for heating and 78o F for cooling. Outdoor design temperatures must be those listed.in the 1% or 0".2% Winter Dry Bulb -'column for heating and the 2�% or 0.5%.. Summer..Dry Bulb and Wet Bulb columns. for cooling, based. on whether the percentages are percent -of -season or percent -of -year respectively, of the following ASHRAE publications: Recommended Outdoor Design -Temperatures, Northern California, 1977 Recommended Outdoor Design Temperatures, Southern C'al'ifornia, 1972 1 =\ Nadfiq:s ....... Erltetprises "Erleig3/ MANDATORY FEATURES / Budget onnCultants SETBACK THERMOSTATS 2-5352(h) Thermostatically controlled heating or cooling systems, except electric heat pumps, .gravity furnaces in additions or room air conditioners, must have an automatic setback thermostat which can be programmed_ by the building occupant to set back at least twice in one day. EXCEPTIONS: 1. Gravity gas wall heaters, floor heater, and room heaters that are installed in additions need not comply with this requirement.. 2. Electric heat pumps are exempt from this requirement prior to July 1, 1.984, except where such thermostats are required by an alternative component package for climate zones 1,3, 5,7,15, and 16. DUCTS 2-5352(f) The standards require that ducts be constructed, installed and insulated according, to Chapter 10 of the State Mechanical Code. Thischapter is the same as Chapter.10 of the 1976 Uniform Mechanical Code. GAS COOKING APPLIANCES 2-5352(1) Gas stoves installed in new residential buildings must be equipped with intermittent ignition devices and must not have standing pilot lights unless: 1. The stove is designed to burn only liquefied petroleum gas, or 2. The stove does not have an electrical line voltage supply connection and has only one continuous 'burning pilot light consuming less than 150 btu/hr. n \. Nadlirl,s Erltefprises Erlefgy' MANDATORY FEATURES .. Budget >: J Go sultarltS WATER HEATING SYSTEMS INSULATION 2-5352(i) 1. Storage type water heaters and storage and backup tanks for solar water heating systems shall be externally wrapped with insulation having an installed thermal resistance of R-12 or greater. Alternatively, such tanks may be insulated to a combined level of R-16, when both internal insulation and external wrap insulation are considered. Internal insulation can be included in the combined insulation level only where the R -value of such insulation has been labelled on the tank exterior by the manufacturer. This blanket requirement applies to storage tanks used primarily for domestic water heating systems. It does not apply to storage tanks used primarily for space heating systems or to solar storage tanks mounted outdoors and directly exposed to weather. Piping in unconditioned space leading to and from water heaters must be insulated with at least R-3 insulation for the first 5 feet of pipe closest to the water heater, or whatever shorter length is in uncondi- tioned space. It is not necessary to penetrate a fire wall with the pipe insulation. The insulation may end at the fire wall and be continued on the other side provided the first 5 feet of piping are insulated. PIPE INSULATION 2-5352(j) Steam and steam -condensate return piping and recirculating hot water piping in attics, garages, crawl spaces, or unheated spaces other than between floors or in interior walls must be insulated to provide maximum loss of not more than 50 btu/hr per linear foot for piping up to and including 2 inch nominal diameter and 100 btu/hr per linear foot for larger sizes. Ilk MADIIN'S ENTERPRISES ADDENDUM: :'INSULATION OF DUCT" UNI FORM MECHANICAL CODE ;x... I31JDG FT 1976 EDITION cc%sutIANTS SECTION 1005 Insulation of Ducts Sec. 1005. Every supply and return air duct and plenum of a. heating or, cooling system shall be insulated with not less than the amount of insula- tion set forth in Table No. 10-D except for ducts .and plenums used ex- clusively for evaporative cooling systems. Only approved materials shall be installed within ducts and plenums for insulating, sound deadening or other purposes. All such materials shall have a mold, humidity and. erosion resistant face that has met the re- quirements of U.M.C. Standard No. 10-1. Such materials shall have a flame -spread rating of not greater than 25 and a smoke developed rating of not greater than 50. Duct systems operating at velocities in excess of 2000 feet per minute shall be fastened with both adhesive and mechanical fasteners, and all exposed edges shall have adequate treatment to with- stand the operating velocity. Insulations applied to the exterior surface of metal ducts located in • buildings shall have a flame spread of not more than 25 and a smoke development rating of not more than 50 when tested as a composite installation, including insulation, facing materials, tapes and adhesives as normally applied. EXCEPTION: Insulation having aflame -spread rating of not over 50 and a smoke development rating of not over 100 may be applied to the exterior surface of metal ducts installed only in dwellings or apartment houses where the duct system serves not more than one dwelling unit. TABLE NO. 110-0—INSULATION OF DUCTS NOTE: Where ducts are used for both heating and cooling, lite minimum in- sulation shall be as required fur the moll restrictive condition. 'Insulation may be omitted on that portion of a duct which is located within a wall or a floor -ceiling space where both sides of this space are exposed to conditioned air and where this space is not ventilated or otherwise exposed to unconditioned air. 'Vapor barriers shall be installed on conditioned air supply ducts in geographic areas where the average of lite July. August and September mean dewpoint temperature exceeds 60° F. 'Heating Degree Days: Zone 1 below 4500 D. D. Zone 11 4501 to 8000 D. D. Zone Ill over 8001 D. D. INSULATION TYPES: A. I -inch O.601b./cu. fi. mineral fiber blankets and fell, nxk, slag'or glass V. -inch 1.5 at 3 Ib.%cu. A. blanket duel liner, rock, slag or glass /:-inch 3 to IO lb./cu. ft. board, mineral fiber, rock, slag or glass% or equivalent to provide an installed Conductance = 0.48. R:.= 2 B. 2 -inch 0.60lb. /cu. ft. mineral fiber blanket 1 -inch 1.5 to 3 Ib./cu. ft. mineral blanket (duct liner) I -inch 3 to 10lb./cu. ft. mineral fiber board or equivalent to provide an installed Conductance = 0.24 R== 4 C. 3 -inch 0.60lb./cu. ft. mineral fiber blanket I %,-inch 1.5 to alb./cu. ft. mineral blanket (duct liner) 1 /,-inch 3 to 10lb.%cu. ft. mineral fiber board or equivalent to provide an installed Conductance = 0.16 R. = 6 V. Vapor barrier, with perm rating not greater than 0.05 perms, all joints sealed. W. Approved weatherproof barrier. INSULATION TYPES DUCT LOCATION MECHANICALLY COOLED HEATING INSULATION TYPES ZONE' HEATING ONLY 1 A and W 11 B and W On roof or on exterior C, V' and W of building LII ('and W I A 11 A Attics, garages and crawl A and V= spaces III . B 1 A . 11 A In walls', within floor- A and V' ceiling spaces' 111 B Within the conditioned' space or'in basements None Required None Required Cement slab or within ground None Required None Required NOTE: Where ducts are used for both heating and cooling, lite minimum in- sulation shall be as required fur the moll restrictive condition. 'Insulation may be omitted on that portion of a duct which is located within a wall or a floor -ceiling space where both sides of this space are exposed to conditioned air and where this space is not ventilated or otherwise exposed to unconditioned air. 'Vapor barriers shall be installed on conditioned air supply ducts in geographic areas where the average of lite July. August and September mean dewpoint temperature exceeds 60° F. 'Heating Degree Days: Zone 1 below 4500 D. D. Zone 11 4501 to 8000 D. D. Zone Ill over 8001 D. D. INSULATION TYPES: A. I -inch O.601b./cu. fi. mineral fiber blankets and fell, nxk, slag'or glass V. -inch 1.5 at 3 Ib.%cu. A. blanket duel liner, rock, slag or glass /:-inch 3 to IO lb./cu. ft. board, mineral fiber, rock, slag or glass% or equivalent to provide an installed Conductance = 0.48. R:.= 2 B. 2 -inch 0.60lb. /cu. ft. mineral fiber blanket 1 -inch 1.5 to 3 Ib./cu. ft. mineral blanket (duct liner) I -inch 3 to 10lb./cu. ft. mineral fiber board or equivalent to provide an installed Conductance = 0.24 R== 4 C. 3 -inch 0.60lb./cu. ft. mineral fiber blanket I %,-inch 1.5 to alb./cu. ft. mineral blanket (duct liner) 1 /,-inch 3 to 10lb.%cu. ft. mineral fiber board or equivalent to provide an installed Conductance = 0.16 R. = 6 V. Vapor barrier, with perm rating not greater than 0.05 perms, all joints sealed. W. Approved weatherproof barrier. \` UAadfirLs ;: =L E tetprises ,r 4�.. Ertefgy' 1 Budget _ III rLs Go ulta i NOTICE TO BUILDERS & OWNERS All of the energy conservation devices and features outlined in this compliance portfolio are required to meet Title 24 standards. This residence will not be in compliance if any of these features or devices are • removed, altered or covered. The hvac load calculation and equipment sizes provided in this compliance portfolio are in accordance with the guidelines setforth in the standards. Final equipment. selection and hvac design is the responsibility of the contractor. NadffiLs E tet rises / Egefgy- MANDATORY FEATURES Budget :hf:... GorlsultarLts This section describes the mandatory features and devices which must be installed in new residential buildings regardless of the method used to demonstrate compliance with the energy budget. These measures assure the building envelope and related systems meet at least minimum thermal performance levels. CEILING INSULATION 2-5352(a) The opaque portions of ceilings separating conditioned and unconditioned space must either (1) be insulated between framing members with R-19 or greater insulation, .or (2) have a .weighted average U -value of 0.067 or less. To meet the intent of the ceiling insulation requirements, ceiling insulation should extend far enough to the outside walls to cover the top plate. LOOSE FILL INSULATION 2-5352(b) When loose fill insulation is installed, the minimum installed weighted per square foot must conform with the insulation manufacturer's installed design density per square foot at the manufacturer's labeled' R -value. WALL INSULATION 2-5352(c) The opaque portions of metal or wood frame walls separating conditioned and unconditioned spaces must either (1) be insulated between framing members with R-11 or greater insulation, or (2) have a weighted average U -value of 0.100 or less. Masonry or concrete exterior walls do not have to be insulated with a minimum of R-11 insulation. Foundation walls of heated basements or heated crawl spaces must be insulated above. the adjacent outside ground line with at least R-7 insulation. MANDATORY FEATURES WALL INSULATION REQUIREMENTS CONTINUED EXCEPTION: Insulation which is not penetrated by framing members may meet an equivalent minimum R -value which includes the effects of framing members on the above R -values. INSULATION CERTIFICATION 2-5303 Builders may not install insulation materials unless the product has been certified by the manufacturer. A certificate of insulation must be at site. LIGHTING 2-5352(m) The standards require that general purpose lighting fixtures in kitchens and bathrooms have an, efficiency of at least 25 lumens per watt. (These fixtures will usually be fluorescent.) If there is only one fixture in a kitchen it will be considered to be general purpose lighting. EXCEPTION: Luminaires which are the only lighting in a bathroom and lighting to be used only for specific visual tasks or decorative effect are exempt from this.requirement. Such exempt lighting includes all luminaires that are meant to light only a specific task area such as a kitchen counter or sink, a dining table, or a bathroom mirror. If recessed incandescent lighting fixtures are installed in an insulated ceiling, such fixtures shall be covered with insulation, with no spacing between the insulation and the fixture, and shall be Type IC, as defined by Underwriters Laboratories 1571. UAadlirl,'s Erltefprises. ErLefgy Budget GorlsultarLts MANDATORY FEATURES WALL INSULATION REQUIREMENTS CONTINUED EXCEPTION: Insulation which is not penetrated by framing members may meet an equivalent minimum R -value which includes the effects of framing members on the above R -values. INSULATION CERTIFICATION 2-5303 Builders may not install insulation materials unless the product has been certified by the manufacturer. A certificate of insulation must be at site. LIGHTING 2-5352(m) The standards require that general purpose lighting fixtures in kitchens and bathrooms have an, efficiency of at least 25 lumens per watt. (These fixtures will usually be fluorescent.) If there is only one fixture in a kitchen it will be considered to be general purpose lighting. EXCEPTION: Luminaires which are the only lighting in a bathroom and lighting to be used only for specific visual tasks or decorative effect are exempt from this.requirement. Such exempt lighting includes all luminaires that are meant to light only a specific task area such as a kitchen counter or sink, a dining table, or a bathroom mirror. If recessed incandescent lighting fixtures are installed in an insulated ceiling, such fixtures shall be covered with insulation, with no spacing between the insulation and the fixture, and shall be Type IC, as defined by Underwriters Laboratories 1571. A� JAadlirO Erltefprises Erlefgy' "-. Budget cori�ultmts INFILTRATION CONTROL The standards contain the infiltration. MANDATORY FEATURES 2-5352(d) following requirements to control 1. Doors and windows (including skylights) between conditioned and unconditioned spaces must be fully weatherstripped. 2. The following openings in the building .envelope must be caulked, sealed, or weatherstripped: a. Exterior joints around window and door frames, between wall soleplates and floors, and between exterior wall siding panels; b. Openings for plumbing, electricity and gas lines in walls, ceilings and floors; C. Openings in the attic floor (such as where ceiling panels meet interior and exterior walls and masonry fireplaces); and d. All other such openings in the building envelope. 3.. Builders may install manufactured doors and windows only when they are certified and labeled indicating that they meet the standards listed in Section 2-5352(d), Table 2-53V. Site - built windows and doors are exempt from this requirement. 4. Exhaust fans .and other exhaust systems must be equipped with backdraft or automatic dampers. R\ NadlirL's ErLtefprises A. ErL,efgy MANDATORY FEATURES g :ham Budt e Gorbsultaqts SPACE CONDITIONING EQUIPMENT SIZING 2-5352(g) To ensure that properly -sized systems are installed in new residential buildings, the standards set the following sizing requirements and specify acceptable load calculation procedures and indoor and outdoor design temperatures. 1. Natural gas and liquefied petroleum. gas central furnaces in the building must be sized to meet at least one of the follow- ing requirements: a. The total output heating capacity of furnaces in the building must be less than 45,000 btuh/hr, or b. The furnace's output heating capacity must be less than 1.3 times the sum of the design heat loss for the heating zone being serviced by the furnace and 10 btuh/hr per square foot for conditioned floor area in the zone, or C. Seasonal efficiency must be greater than 1% point above 67% for every 7,000 btuh/hr that the output heating capa- city exceeds either the building design heat loss or 45,000 btuh/hr, whichever is greater. (Effective Decem- ber 22, 1982 the seasonal efficiency requirements were to increase to 71%. Lawsuits currently pending.) 2. Heating equipment and cooling equipment. must be sized accord- ing to the building heating and cooling loads, using a method set.forth by the Commission's Executive Director. 3. Indoor design dry bulb air temperatures must be 700 for heating and 780F for cooling. Outdoor design temperatures must be those listed in the 1% or 0.2% Winter Dry Bulb column for heating and the 2h% or 0.5% . Summer Dry Bulb and Wet Bulb columns for cooling, based on whether the percentages are Percent -of -season or percent -of -year respectively, of the following ASHRAE publications: Recommended Outdoor Design.Temperatures, Northern California, 1977 Recommended Outdoor Design Temperatures; Southern California, 1972. WadlirL's Erltetprises ttiM .s. ErLefgy MANDATORY FEATURES `h* Budget ,/1,o�eult'�nl►ts n V ` �' SETBACK THERMOSTATS 2-5352(h) Thermostatically controlled heating or cooling systems, except electric heat pumps, gravity furnaces in additions or room air conditioners, must have an automatic setback thermostat which can be programmed by the building occupant to set back at least twice in one day. .EXCEPTIONS: 1. Gravity gas wall heaters, floor heater, and room heaters that are installed in additions need not.comply with this requirement.. 2. Electric heat pumps are exempt from this requirement prior to July 1, 1984, except where such thermostats are required by an alternative component package for climate zones 1,3, 5,7,15, and 16. DUCTS 2-5352(f) The standards require that ducts be constructed, installed.and insulated according to Chapter 1.0 of the State Mechanical' Code. This chapter is the same as Chapter 10 of the 1976 Uniform Mechanical Code. GAS COOKING APPLIANCES- 2- 5352(l) Gas stoves installed in new residential buildings must be equipped with intermittent ignition. devices and must not. have standing pilot lights unless:. 1. The stove is designed to burn only liquefied petroleum gas, or 2. The stove does not have an electrical line voltage supply connection and has only one continuous 'burning pilot light consuming less than 150 btu/hr. NadlirLs Ergefprises .VSp ErLefgy MANDATORY FEATURES Budget nh °- Gorbsultagts WATER HEATING SYSTEMS INSULATION 2-5352(i) 1. Storage type water heaters and storage and backup tanks for solar water heating systems shall be externally wrapped with insulation having an installed thermal resistance of R-12 or greater. Alternatively, such tanks may be insulated to a combined level of R-16, when both internal insulation and external wrap insulation are considered. Internal insulation can be included in the combined insulation level only where, the R -value of such insulation has been labelled on the tank exterior by the manufacturer.. This blanket requirement applies to storage tanks used primarily for domestic water heating systems. It does not apply to storage tanks used primarily for space heating systems or to solar storage tanks mounted outdoors and directly exposed to weather. Piping in unconditioned space leading to and from water heaters must be insulated with at least R-3 insulation for the first 5 feet of pipe closest to the water heater, or whatever shorter length is in uncondi- tioned space. It is not necessary to penetrate a fire wall with the pipe insulation. The insulation may end at the fire wall and be continued on the other side provided the first 5 feet of piping are insulated. PIPE INSULATION 2-5352(j) Steam and steam -condensate return piping and recirculating hot water piping in attics, garages, crawl spaces, or unheated spaces other than between floors or in interior walls must be insulated to provide maximum loss of not more than 50 btu/hr per. linear foot for piping up to and including 2 inch nominal diameter and 100 btu/hr per linear foot for larger sizes. ADDENDUM: "INSULATION OF DUCT" UNIFORM MECHANICAL CODE 1976 EDITION SECTION 1005 Sec. 1005. Every supply and return air duct and plenum of a heating or cooling system shall be insulated with not less than the amount of insula- tion set forth in Table No. 10-D except for ducts .and plenums used ex- clusively for evaporative cooling systems. Only -approved materials shall be installed within ducts and plenums for insulating, sound deadening or -other purposes. All such materials shall have a mold, humidity and. erosion resistant face that has met the re- quirements of U.M.C. Standard No. 10-1. Such materials shall have a flame -spread rating of not greater than 25. and a smoke developed rating of not greater than 50. Duct systems operating at velocities in excess of 2000 feet per minute shall be fastened with both adhesive and mechanical fasteners, and all exposed edges shall have adequate treatment to with- stand the operating velocity. Insulations applied to the exterior surface of metal ducts located in buildings shall have a flame spread of not more than 25 and a smoke development rating of not more than 50 when tested as a composite installation, including insulation, facing materials, tapes and adhesives as normally applied. EXCEPTION: Insulation having a flame -spread rating of not over 50 and a smoke development rating of not over 100 may be applied to the exterior surface of metal ducts installed only in dwellings or .apartment houses where the duct system serves not more than one dwelling unit. TABLE NO.10•D—INSULATION OF DUCTS DUCT LOCATION INSULATION TYPES MECHANICALLY COOLED �,. ENTE�?pRISfS A and W 11 B and W On roof or on exterior C, V' and W of building �:{° I3UDG FT CONSULTANTS 1 A Insulation of Ducts ADDENDUM: "INSULATION OF DUCT" UNIFORM MECHANICAL CODE 1976 EDITION SECTION 1005 Sec. 1005. Every supply and return air duct and plenum of a heating or cooling system shall be insulated with not less than the amount of insula- tion set forth in Table No. 10-D except for ducts .and plenums used ex- clusively for evaporative cooling systems. Only -approved materials shall be installed within ducts and plenums for insulating, sound deadening or -other purposes. All such materials shall have a mold, humidity and. erosion resistant face that has met the re- quirements of U.M.C. Standard No. 10-1. Such materials shall have a flame -spread rating of not greater than 25. and a smoke developed rating of not greater than 50. Duct systems operating at velocities in excess of 2000 feet per minute shall be fastened with both adhesive and mechanical fasteners, and all exposed edges shall have adequate treatment to with- stand the operating velocity. Insulations applied to the exterior surface of metal ducts located in buildings shall have a flame spread of not more than 25 and a smoke development rating of not more than 50 when tested as a composite installation, including insulation, facing materials, tapes and adhesives as normally applied. EXCEPTION: Insulation having a flame -spread rating of not over 50 and a smoke development rating of not over 100 may be applied to the exterior surface of metal ducts installed only in dwellings or .apartment houses where the duct system serves not more than one dwelling unit. TABLE NO.10•D—INSULATION OF DUCTS DUCT LOCATION INSULATION TYPES MECHANICALLY COOLED HEATING INSULATION TYPES ZONE, HEATING ONLY A and W 11 B and W On roof or on exterior C, V' and W of building 111 C and W 1 A 11 A Attics, garages and crawl A and W spaces 111 B 1 A II A In walls', within floor- A and V' ceiling spaces' 111 B Within the conditioned space or in basements None Required None Required one Cement slab or within ground None Required None Required NOTE: Where ducts are used for both heating and cooling, the minimum in- sulation shall be as required for the most restrictive condition. 'Insulation may be omitted on that portion of a duct which is located within a wall or a floor -ceiling space where both sides of this space are exposed to conditioned air and where this space is not ventilated or otherwise exposed to unconditioned air. 'Vapor barriers shall be installed on conditioned air supply ducts in geographic areas where the average of the July, August and September mean dewpoinl temperature exceeds 60° F. 'Heating Degree Days: Zone 1 below 4500 D. D. Zone I1 4501 to 8000 D. D. Zone I I I over 8001 D. D. INSULATION TYPES: A. I -inch 0.60lb./cu. ft. mineral fiber blankets and fell, rock, slag or glass /:-inch 1.5 to 3 Ib./cu. ft. blanket duct liner, ruck, slag or glass Vi -inch 3 to 101b./cu. ft. board, mineral fiber, rock, slag or glass or equivalent to provide an installed Conductance = 0.48. R 2 B. 2 -inch 0.601b./cu. ft. mineral fiber blanket I -inch 1.5 to 3 Ib./cu. ft. mineral blanket (duct liner) I -inch 3 to 101b./cu. ft. mineral fiber board or equivalent to provide an installed Conductance = 0.24 R== 4 C. 3 -inch 0.60lb./cu. ft. mineral fiber blanket I'h-inch 1.5 to 3 lb./cu. ft. mineral blanket (duct liner) 1'h -inch 3 to 10 lb./cu. ft. mineral fiber board or equivalent to provide an installed Conductance = 0.16 R = 6 V- Vapor barrier, with perm rating not greafer than 0.05 perms, all joints sealed. W. Approved weatherprobf barrier. The temperature setting levers may be locked in place by inserting two 4-40 x 1/4 inch [6.4 millimetres] self -tapping screws (not included, see Accessories section) in the holes shown in Fig. 10. The levers are locked in place when the screw heads are against the plastic base of the thermostat. LOW TEMP. )BLUE) /HIGH TEMP. )RED) SET LEVER SET LEVER SCREW HOLES FOR LOCKING LEVER SCREWS 45 55 65 75 5 O O FIG. 12—TEMPERATURE SETTING. CLOCK SETTING Use the external clock set wheel on the bottom of the thermostat to set the clock and program dial to the cor- rect time. Turn the clock set wheel clockwise U to set. Do NOT set counterclockwise ,_J more than one hour. Restart clock if it stops. See page 8. LOW TEMPERATURE HIGH TEMPE$ LEVER IBLUEI )LEVER(RED) MINUTE HAND SECOND I HOUR HAND HAND atftoao" 45 55 85 75 ES Honeywell L—S PROGRAM \ i t \ �ncnmv�wc�cn PROUIAL CLOCK SC T "LIFT" TAB TO OPEN COVER LENS —ECL MANUALPROGRAM AOVANCEBUTTON a FIG. 9—T8082A THERMOSTAT CONTROLS. The 12 -hour, program dial reads 6 -NOON -6 on a light background for daytime hours, and 6-12-6 on a dark background for nighttime hours. When the clock is set to the correct time, the time indicator (Fig. 11) must point to the corresponding day (light) or night (dark) portion of the program dial. PROGRAM SETTING The program dial is a clock with 12 hour day -night scales for adjustable program Dins. The program pins change thermostat control from one temperature lever to the other temperature lever at set times. The pins may be used in sets; such as, a blue low temperature or set- back pin followed by a red high temperature pin. The blue pin puts the blue temperature lever in control, the red pin puts the red temperature lever in control. The pins can be located at half-hour intervals on the program dial, but there must be at least one hour between any 2 pins. The minimum setback or setup period is one hour. The programmer has been set at the factory to lower the temperature at 10 PM (blue pin), and to raise the temperature at 6 AM (red pin). The pins can be changed and additional setback periods added with the extra sets of pins in the clock cover. To remove a pin, press against program dial and pull the pin straight out. To replace, push the pin into the selected notch until fully seated. Do not attempt to change a pin if it is engaged with the program index. When inserting the pins, use the 12 -hour clock scales around the program dial. Times for pin placement are the same as for clock setting, above. FOR EXAMPLE A second setback period is desired starting at 8 AM and ending at 4:30 PM. To start the setback, a blue pin is inserted at the 8 on the light (day) part of the scale. To end the setback, a red pin is inserted in a notch between the 4 and 5 on the daytime scale. A window on the front of the thermostat tells which temperature lever is controlling the temperature. A blue circle indicates a blue pin has put the blue lever in con- trol. A red circle indicates the red pin has returned tem- perature control to the red lever. MANUAL PROGRAM ADVANCE BUTTON This button allows manually starting a program, or bypassing the next programmed temperature change by pressing the button in completely. If the button is fully depressed during temperature control by the blue lever, temperature control will change to the red temperature lever. Control will remain with the red lever until the next blue program pin,changes the temperature control, or the advance button is pressed again. M5 - F, P-1 I/ a, Day&Night§a� �, #, s AirConditionin 'DEIUXE',GAS-FIREDw g �INDUCF'D-DRAFT 9 9 1 <� i- Til s ��j• a Indianapolis. IN j �FU�RNACE ;, , City of Industry. CA +ISS 1..� � �;:! t DESCFat-y SEMUtCE 4790 CAMINO PAROCELA PALM SPRINGS, CA 92262 C11. serviceability, surprisingly economical initial cost and short pay- back time place it in a class by itself—and make it the obvious choice over any other high -efficiency furnace on the market. This furnace has the kind of overall performance that others will be trying to imitate for years to come. The 397H FORMULA 10001" is the first member of our new family of induced -draft gas-fired furnaces. FEATURES VENTING—The FORMULA 10001" Induced -Draft Furnace oper- ates at zero or slightly negative static pressure at the furnace - to -flue junction: therefore, it can be vented into any existing approved chimney or B1 vent; or, like a natural -draft furnace, common -vented with an existing water heater. All other currently available induced -draft or forced -draft furnaces require installing an expensive horizontal sealed -vent system. The induced -draft design also eliminates the need for a vent damper. MONOPORT INSHOT BURNERS—Produce more precise air -to- gas mixture which burns cleaner than harder -to -control multiport or ribbon -type burners. The larger monoport on the inshot (or injection -type) burners seldom, if ever, clogs or needs cleaning. P • FOUR -PASS HEAT EXCHANGER—Design breakthrough pro- duces accelerated heat transfer. FORMULA 1000' Furnaces extract heat that other furnaces waste up the flue. Aluminized for corrosion resistance. 20 -year Limited Warranty. SAFETY—Most furnaces have four or five safety controls: FOR- MULA 1000n' has eight, including two exclusives: (1) a draft safeguard switch that responds to a blocked flue, (2) a draft ! self -check control which must reset before another burner cycle can begin. With a unique approach to induced -draft design, a new four - pass heat exchanger, the first inshot burner system available in a mass -production furnace, and its exclusive safety features, the FORMULA 1000`" Deluxe Furnace is without peer. It is indeed the new industry pacesetter. FORMULA 10001 achieves the highest Annual Fuel Utilization Efficiency (AFUE) rating available today in a noncondensing, induced -draft fur- nace; and its ease and economy of installation, truly remarkable SOLID-STATE BLOWER CONTROL OFF -TIMING ADJUST- ABLE—By turning a knob. Timed blower operation stops annoy- ing recycling common with thermally activated blower controls. PRINTED -CIRCUIT CONTROL CENTER—The printed -circuit board and all internal wiring are factory installed. Low -voltage terminals permit quick -connecting a humidifier, an air cleaner, and air-conditioning control circuits. WRAPAROUND FULLY INSULATED CASING—One-piece welded construction eliminates casing noise. Foil -faced insula- tion in the heat exchanger cuts the heat loss and double-density insulation in the blower section reduces noise levels. The low - profile 46 3/16 -inch height makes the FORMULA 10001 a slide -in unit—ideal for a replacement installation. The design of all FORMULA 1000' units is A.G.A. certified. GIF -25 Form No. PDS 397H.40.2D e 0 If DESSRT Sr-WJ'CE 4790 CAMINO PAROCELA PALM SPRINGS, CA 92262 DIMENSIONS (In Inches) Size A ' 1-•. t'i 1 E Vent Wa 036040 14.3/16 12-9/16 .-��il zIIs 036060 14-3/16 12.9/16 11.11/16 1 tly`�II z,I�-`t 036080 17.1/2 15.7/8 15 1 048080 21 19-3/8 18.1/2 4 C -A -1 j VLNf DIA 15-7/8 lj 4 048100 21 19.3/8 18-1/2 4 060100 24.1/2 22-7/6 22 4 048120 21 • ��7 2Q, y•CONN 18-1/2 5 060120 24.1/2 22-7/8 178288 5 SIDE. 24-1/2 22-7/6 22 r _-IAS-,I Minimum Wire Size 202 DROP DIICi 1 21RE fG WIN4 46 . t t d. ELEO CONN • TNERMOSTATV l 2 1 24 �TNERMDSTATf. CONN- 1 CONN: 3 ;.I } 142 SIDE INLET •• jJ _ , I 1l- ° SCE INLET.: _1 A/C Blower Relay CONTROLS Std Limit Control SP—ST Heating Blower Control A8U153 DESSRT Sr-WJ'CE 4790 CAMINO PAROCELA PALM SPRINGS, CA 92262 DIMENSIONS (In Inches) Size A D E Vent Wa 036040 14.3/16 12-9/16 11-11/16 4 036060 14-3/16 12.9/16 11.11/16 4 036080 17.1/2 15.7/8 15 4 048080 21 19-3/8 18.1/2 4 036100 17.1/2 15-7/8 15 4 048100 21 19.3/8 18-1/2 4 060100 24.1/2 22-7/6 22 4 048120 21 19-3/8 18-1/2 5 060120 24.1/2 22-7/8 22 5 060140 24-1/2 22-7/6 22 5 CLEARANCES (In Inches) Site 040 A 060 080 thru 140 Sides—Single-Wall Vent 1 1 Type -81 Double -Wall Vent 0 0 Back 0 0 Top of Plenum 1 1 Vent Connector—Single-Wall Type -Bl Double -Wall 6 1 6 1 Front—Single-Wall Vent 6 6 Type -Bt Double -Wall Vent 3 3 Service 30 30 SPECIFICATIONS 812E RATINGS • PERFORMANCE 1 036040 1 036060 1 036080 1 048080 1 036100 InpuI9tuh' 48,000 71,000 95,000 95,000 119,000 Output Capacityt 40,000 59,000 79,000 78,000 99,000 AFUE % 81.8 83.1 83.4 82.3 83,0 Certified Temperature Rise Range°F 25-55 457-75 60-90 45-75 65-95 Certified External Static Pressure 0.5 0.5 0.5 0.5 0.5 Airflow FP/Mint Heating Cooling 1015 1155 1010 1 1160 1030 1230 1340 1545 1 135 1255 ELECTRICAL Unit Volts—Hertz—Phase 120-60-1 Minimum Wire Size 14 Maximum Fuse Size 15 Transformer (24•V) 40VA External Control Power Available Heating Cooling 24VA 37VA A/C Blower Relay CONTROLS Std Limit Control SP—ST Heating Blower Control Solid -State Time Operation Burners (Monoport) 2 1 3 1 4 T 4 5 _ Gas Connection Size GAS CONTROLS 112 -Inch NPT Gas Valve (Redundant) Minimum Inlet Pressure Maximum Inlet Pressure Model 646A -X 4.5 inches we 13.6 inches we Pilot Safety (Non -100% Shutoff) BLOWERDATA Model 7338 Direct -Drive Motor HP—Type 1/3—PSC I 1/3—PSC I 1/3—PSC I 1/2—PSC 1/3— /3—Motor Motor Full Load Amps 8.0 8.0 8.0 9.0 8.0 RPM (Nominal)—Speeds 1050-4 1050--4 1050-4 1050-4 1050-4 Blower Wheel Diameter x Width 1 0 x 8 10 x 6 1 0 x 7 1 0 x 8 1 0 x 7 Filter Size—Permanent Washable DEALER -INSTALLED OPTIONS 15.7/8 x 27.3/4 x 1 19.1 /2 x 27.3/4 x 1 15.7/8 x 27-3/4 x 1 Side Filter Rack (Less Filter) 306040-101 (Filter Size 16 x 25 x 1) Return Filter Cabinet (Less Filters) 301728-101 (Filter Size 2-20 x 25 x 1) LP (Propane) Conversion Kit 307063.701 *Ratings shown are for elevations up to 2000 ft. For elevations ab,. ie 2000 ft, ratings should be reduced at the rate of 4% for each 1000 ft above sea level. tCapacity in accordance with U.S. Government DOE test procedures. $Air delivery above 1800 Ft3/Min requires that both sides of furnace be used, or a combination of one side and bottom, or bottom only. OF -26 Day&Night :F AirConditioning ; ,,,ELECTRIC Model .567G • -'CONDENSING UNITS : ; Sizes 018 thru 048 , Indianapolis. IN - - - City of Industry. CA ` PRELIMINARY PRODUCT DATA NOTE: Use the information in this publication for preliminary reference only. The energy-efficient Model 567G Condensing Unit is available in nominal cooling capacities of 18,000- thru 48,000-Btuh. The range of seasonal energy-efficient ratio (SEER) is 9.0 or more, which makes it a leader in product value for energy-efficient, economically priced, air conditioning equipment. The all-new no-frills design of the 567G has every penny of unit cost invested in quality components, resulting in a lean and pleasing clean look. FEATURES FOUR-SIDED CONDENSER SURFACE—The 567G draws air from all four sides of its large wraparound coil, loading the fan more evenly and providing a quieter, more efficient, condenser fan system. TOTALLY ENCLOSED PSC FAN MOTOR—Resists dust, dirt, and other forms of contamination for years of dependable serv- ice. Top mounting gives fast service access to the motor and the unit interior. NEW SUPER -HARD ALUMINUM -ALLOY FIN—Reduces acci- dental damage during handling and shipment. EXTERNAL ALL -BRASS SERVICE VALVES—Pressure gauges can be quickly and easily attached to the service valves without having to remove panels. COMPACT DESIGN—Results in lighter, more easily handled, unit for the most economical installation. COMPRESSOR PROTECTION -567G compressors are pro- tected with temperature- and current -sensitive overloads. An internal pressure -relief valve provides high-pressure protection for the refrigeration system. REFRIGERANT STRAINER—Each unit has a liquid refrigerant strainer in the liquid tube to trap any foreign matter in the system. EAC -23 Form No. PDS 567G.18.1 D MAM RATINGS & PERFORMANCE MODEL 567 018 567GO24 567GO42 SERIES SERIES SERIES A A NR A NRO 8.0 N 5068 024 - - - - - - - - 507Dor518A - 024 - - - - - - - 507H or 518B - - 018 024 - - - - - 5138 - - - - 018 024 - - - 517E - - - - - - 018 024 - 500A, 519B/C - - - - - - - - 024 Cooling Capacityt 17,400 17,600 17,200 17,900 17,200 17,900 17,000 17,500 17,600 System Wattst 2010 2030 2010 2050 1995 2045 2055 2080 2040 SEERt 9.3 1 9.3 1 9.0 1 9.3 9.0 1 9.3 1 8.8 9.0 1 9.3 MODEL 567GO24 567GO42 SERIES SERIES A A NRO N 8.0 .4 5068 024 030 - - - - - - - - - - 507D or 518A - - 024 030 - - - - - - - - 507H or 5188 - - - - 024 030 - - - - - - 500A, 519B or 519C - - - - - - 024 030 - - - - 5138 - - - - - - - - 024 030 - - 517E - - - - - - - - - - 024 030 Cooling Capacity 23,600 24,000 23,600 24,200 24,000 24,200 23,600 24,200 23,600 24,000 22,800 24,000 System Wattst 2980 3000 2980 3010 3000 3010 2980 3010 2980 3000 2960 3020 SEERt 9.0 1 9.1 1 9.0 1 9.1 1 9.0 1 9.1 1 9.0 1 9.1 9.0 1 9.0 1 8.7 9.0 MODEL 567GO30 567GO42 SERIES SERIES A A N N 7.8 .4 5068 030 036 - - - - - - - - - 507D or 51 BA - - 030 036 - - - - - - - 507H or 5188 - - - - 030 036 - - - - - 5138 - - - - -- - 036 042 - - - 517E - - - - - - - 030 036 - - 500A, 5198, or 519C - - - - - - - - - 030 038 Cooling Capacity 30,000 31,000 30,000 31 ,000 30,000 31 ,000 30,600 30,000 31 ,000 30,000 31,000 System Watts 3680 3705 3680 3705 3680 37051 3695 1 700 3720 3700 3725 SEERt 9.0 1 9.1 1 9.0 1 9.1 9.0 9.1 1 8.75 1 .85 1 9.0 1 9.0 9.1 MODEL 567 036 567GO42 SERIES SERIES A A N .4 5068 036 042 - - - - - - - - 507D or 518A - - - 036 042 - - - - - - - 507H or 5188 - - - - 036 042 - - - - - 517E - - - - - - 036 042 - - - 500A, 5198, or 519C - - - - - - - - 036 - - 519B or 519C - - - - - - - - - 042 - 5198, C/5208 - - - - - - - - - - 042 Cooling Capacity t 35,000 1 35,200 1 34,600 1 35,000 35,400 1 36,000 1 34,600 1 36,000 1 34,800 1 35,800 35,800 System Wattst 4410 1 4415 1 4380 1 4410 1 4420 1 4450 1 4380 4450 4390 1 4460 4470 SEERt 9.0 1 9.0 1 9.0 1 9.0 1 9.05 1 9.15 1 8.75 1 9.0 1 9.0 1 9.1 9.0 MODEL 567GO42 SERIES A N .4 5068 042 048 - - - - - - - - - - - - 507D or 518A - - 042 048 - - - - - - - - - - 507H or 5188 - - - - 036 042 048 - - - - - - - 510B - - - - - - - 048 - - - - - - 517E & G - - - - - - - - 042 048 - - - - 5198 or 519C - - - - - - - - - - 042 048 - - 5198, C/5208 - - - - - - - - - - - - 042 048 Cooling Capacity 41,000 141,500 1 40,500 41,500 140,500 41,500 42,000 42,100 41,000 42,000 41,000 41,500 41,000 41,500 System Wattst 5110 5120 5105 5120 5105 5120 5130 5130 5110 5130 5110 5120 5125 5135 SEERt 9.1 1 9.2 1 9.0 1 9.2 1 9.0 1 9.1 9.2 1 9.3 1 9.0 1 9.1 1 9.1 1 9.3 9.0 9.1 'Rated in accordance with ARI Standard 270-84. tRated in accordance with U.S. Government DOE test procedures and/or ARI Standard 210-81. When operating units at 208V, deduct 400 Btuh from cooling capacity and deduct 0.1 from SEER for all sizes. EAC -25