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069-300-019
0 HOf 69-30-19 WARD ,B; SMALL ' 6226 Jack'Hil.l Dr, lot 52 Contr c Better Builders '��4 %Or'ovi . Permit#3057-83B,P;E,M _,f; �' - (new a,inge f6niily) 9A Jy r V i tel, 0, C.fll cI M jO 4 ' JOB FINALED (Date r Signature i tf sPERMIT NO. 3057-83B,P.E,M PERMIT EXPIRES 6 j 2 (J / - r J' OWNER HOWARD B.SNALL r 'r CONTR. Better Builders ASSESSOR PARCEL 69.-30-19 LOCATION 6226 Jack Hill dr, lot 522% ' KR#4C s a 1j t t' y r M!j jJ , 11 ' y ri t 'p Temp. Power F OFFICE COPY Called PO Address�� t "'r { I Temp. Elec. SE ! GAS Called PG Meter B Date 4 i Temp. Gas Seri ELECTRIC Meter By Date 1 Called PGL._-- C1 - 4 ' JOB FINALED (Date r Signature i J = OK 0 = Not OK = Not Applicable MOBILEHOMES . * = Not Ready r MOBILEHOME UTILITIES (Plans) OK except N's Date r MISCELLANEOUS W, V Date MOBILEHOME UTILITIES (Plans) OK except N's Date DECKS, COVERS, CARPORTS, ETC. (Plans) OK except #'s 1. Zoning Requirementt-Setbacks-Easements 1. Zoning Requirements -Setbacks -Easements 2. Soils; Special MH Support -Sketch 2. Footings; Size -Depth -Spacing -Connectors 3. Sewer; Location -Test -Fall -C/0 -Concrete _ 3. Decks; Girders and/or Joists -Decking -Bracing -Stairs -Rails 4. Water; Location -Test -Easement Needed (Sketch) _ 4• Wood Awn.; Posts-Beams-Rftrs.-Connec.-Shthg.-Rig.-Bracing__ 5. Electricity; Location-Clearances-Grnd.-/ / Amp -Concrete 5. Alum. Awn.; Columns -Connections -Splice -Decal -Enclosures 6. Gas; Location -Test -Wrap:/ /"L"ft./ /"Nat. or/ /"L"ft./ /"LPG 6. Carports; Windows -Doors 7. Utility Clearance 7. Elec. Card -BI Date Card -BI Date Card -BI Date Card -BI Date Card -BI Date Date Card -BI ` • Date MOBILEHOME INSTALLATION (Plans) OK except N's 1. Zoning Requirements -Setbacks -Easements Card -BI Date Date Card -BI Date _ POOLS (Plans) OK except N's 1. Setbacks -Easements 2. Footings; Size -Spacing -Marriage Line 2. Soils; Compaction -Structure Stability 3. Gas; MH Test -Demand -Valve -Connector 3. Pool Structure; Steel -Connections -Thickness -Dead Men -Lining___ .4. Electricity; MH Test -Crossovers -Breakers -Clearances 4. Elec.; Receptacles and Lighting; Distances-GFI 5. Drain; MH Test -Fall -Flex Connector 5. Elec.; Pool Lighting; 15 volts-GFI 6. Water; MFI Test -Regulator -Connector 6. Elec.; Enclosures; Conduit Entries -Terminals -Listed 7. Water and Sewer Connected -C/0 to Grade -HD Approval 7, Elec.; Bonding; Metal w/5' -Circulating Equipment -Heater 8. Gas and Electricity Tagged 8. Elec.; Grounding; Equip.w/5'-Circulating Equip. -Pool Lghtg. Boxes -Enclosures -Panel boards -Ins. to Main in Conduit 9. Exits; Insp.-Sketch 10. Cert. of Occupancy 9. Health Department Approval 10. Plumb; Cir. Test -Water Supply Test Card B -I Date Card -BI Date Card -BI Date Card -BI Date Card B-1 Date Card -BI Date Card -BI Date Card -BI Date 4 2 a J = 0K .. 0 = Not OK - = Not Applicable RESIDENTIAL*(Single and Duplex) * = Not Ready Date UNDE OOR Plans OK except #'s Date FRAMING (Continued) requirements-Setb ks Ease nts ,t*--Pfopany Line Firewall & Openings �Zo" 2�f�[y.fMain; Soils -S -EI - / /" Ftg. Depth xt. D ors -One 3' -Che k Garage -3rd story, xits Ftg., Garage; Soils -S - / /" Ftg. Depth airs; Width -He om-R' g -Fire P ection 4. Fig., Porches & Decks; Soils -Steel- / /" Ftg. D h 51. Plywood on Roof Overhang -Attic Vents -Rafter Outriggers �`,i8i�r�twalls, Main; Steel-Blockouts-Wrapped-SI 52 ng -Veneer mwalls, Garage; Steel-Blockouts-Wrapped-S Eco Mesh -Drip Screed- ..Vents-Underflr. Access Y7. Pi Fireplace Ftg.-Steel zing Area -Glass Protection -Skylights -Plastic W.V.: Fall -Fittings -Test -2 way C/0 -Sewer Test ar a s; ailing -Bolts 719. Gas Pipe; Size -Anchors IAA,lI!-Ll 01 Y10. Water Pipe; Test -Anchors -Regulator -Service Test N '<11. Electric; Underground K12. Plenums & Ducts; Clearance -Material -Support -Ins. *13. Girders -Sills -Anchor Bolts -Joists -Vents -Cripples rd I ate Card -BI Date and -BI Date Card -BI Date Card -BI Date Card -BI Date Card -BI Date 3 Card -BI Date Date FINAJeJ15-lans) OK except #'s CI �Datet 0 ,ea Card -BI Date Date PLUMBING (Permit) OK except #'s 14. WEVer Ht.; Vent -Access -Combustion Air Ex ps-Door & Sidelight Protection -Landings �5ge moke Detector 58. F , encs- learance-Comb. Air-Connector- n Garage; Above Floor -Ducts -Meth. Protection ate� Test & Anchors -Nail Protection W.V.: Test-Fttngs & Anchors -Nail Protection 59. Bedroom Exiting 60. G.F.I. & Bath Fixtures & Tub Access 17. Shower Pan; Test, First Floor -Tub Access 18. Test Tub & Shower, 2nd Floor -Tub Access. Elec. Trim & Subpanel; Breaker Sizes -Labels _ _ 1 & Anchors s & Rails 63., Firepl�or Stove; Clearances -Hearth �� qA-Efec. Out is at Wood Panel; Int. &Ext. BI_PM a Z;nCard-BI Date Appliance; Grnd.-Air Gap -Cooking Clearance Card -BI Date Card -BI Date Date ELECT AL Permit OK except #'s lec. Outlets & Receptacles at Kit. Counter Garage Fire Door; Swin andin - loser 68. A.0 in Garage -Damper fixture & Transformer Clearance -Ins. Protection -- — tr. Htr.; Vents -Clearance -Comb. Air -Connector -P .- In e; Above Floor-Mech. Protection _ Receptacles Spacing -Lights &Switches at Doors115e, Ib. Mech. Equip. Listed for Location oxes & No. of Conductors -Stapled Gfr 7 lec. les in Garage; (G.F.I.)-Rom ec. omex Installed Close to Edge of Studs & C.J. -- - ui Ground made up w/Mech. Fasteners -Bond Gas & Water - 7 ulation-Fo -Looked in Attic es 73. ails &Deck Construct' -_ost Caps Appliance Circuits in Kitchen &Conductor Size _ ed Wire Size / / ga. Cu or . Wire Size / / ga. Cu or At 74. Fdn. Vents & Crawl Hole Door -Drainage & Wood -Earth Clearance Looked under Floor ❑ Yes Range Circ. / ga. Cu Oma '�- ' ' grnT Insu_ted Neutral '� es ❑No 75. Followin instld.: Or e E] No; Walks s ❑ No; P rs ❑Yo ervic -Riser Conductors & Ground -Main Disconnect ,Stucco; fish 29 qut ..Clearances; Panels-Motors-Mech. Equip. --Unit; Disconnect-Clrnces-Brkr. & Cond. Size -115V Outlet lothes Closet Light -Shower Light ----- - - - - ---- - --- —_ --------------- ar _ate n _ Card -BI Date - -- -��`�- s Above Roof; Plbg.-Appliance-Firepl.-Clearance to Opngs. �-electrical, Plumbing enor Trim; G.F.I. Receptacle -Underground ilation coughout House Card B -I Date Card -BI Date r Date ME�ec CAL (Perrr,it) OK except #'s ' ne from Previous Inspections Meters Tagged; Gas -Electric -__A.0 ucts; Insulation & Support - -enc Fan_Exhaust above Insulation -- ____ _33. Condensate Drain _& Overilow; Size & Grade Water & Sewer Connected -C/O to Grade -HD Approval _ 86 Energy Compliance Certificate -Other Certificates /�Si" 1, /Z 34. Furnace -Vent; Access -Comb. Air -Return Air Vent -115V outletEr --35.-Attic Access -&-Platform if Furnace in Attic �11)at4-,WCard -81 Date Card -BI Date Card -BI Date Car -BI Bete - - ' Card -BI Date C I Card -BI Date Card -BI Date Card -BI Date Date FRA (Plans) OK except #'s Comments at Final: } - -. Si>�Troper Material & Anchors 3 Studs -Nailing, Spacing & Bracing -Plates -Sound _ Be ' _W_allsover Girders & Flo_or_Nailin_g _ Walls (rat proof) Stops; Furred Ceilings -Stairs -Chases - Tub ad Beam -Size & Bearing_ ngers-Post Caps -Anchors -Connectors Ing. Joist-Rftr. Ties-Purlin-Root Brac.-Truss-Shthnq.-Rfnq - -place Ties or Type A Flue -Fireplace Throat 5. cess: Size & Romex Protection -Draft Stop -Ins. Baffles - B . Windows or Exiting Doors -Sill Hgt. & Dimensions Garage Fire Protection Framing • (NOTE: An entry must be made each time you visit jobsite) 'COUNTY OF BUTTE DEPARTMENT OF PUBLIC WORKS 196 Memorial Way, Chico — Phone: 891-2751 7 County Center Drive, Oroville — Phone: 534-4541 Skyway and Elliott Road, Paradise — Phone: 872-2961, Ext. 57 CORRECTION NOTICE A LL - OWNER PERMIT NO. A routine inspection indicates that the following violations of County Ordinance exist at the above address and should be corrected. Please notify this office when correction of work is completed. If you have any question pertaining to this matter, or need additional explanation, please contact this office immediately. Inspector) `�"��l�ir"Date r ♦- 1 RESIDENTIAL ENERGY CONSERVATION STANDARDS CONSTRUCTION COMPLIANCE CERTIFICATE THIS IS TO CERTIFY THAT ENERGY CONSERVATION REQUIREMENTS HAVE BEEN INSTALLED IN CONFO1". CE WITH- CURRENT ENERGY CONSERVATION REGULATIONS AT - ; , (location) BU11.DING PERMIT NO. -Tog,7 — p A.P. NO. THE FOLLOWTNG HAVE BEEN INSTALLED AS PER APPROVED PLANS: (Check each item or write N/A if not applicable) INSULATION: Slab Edge. AM Fdn. Walls ZIA Floors /.9 Cciting/Roof_ LW_ Din t s __ Circulating Pipes APPROVED HEATER APPROVED IJTR. HTR. ✓✓ CLAZ ING : Single Glazed Special (Insulated) CERT. & I %BI:LED WDS. & SLIDING DRS. _ WEA311ERSTRIPPL•'D. DRS. BACK DAMPERtE'D FANS ,,yx _ INT':Iz,•iITT ENT IGNITION DEVICES 4✓A- CER'.C. APPLIANCES d I DECLARE THAT ALL REQUIRED ITEMS AS NOTED ABOVE HAVE BEEN INSTALLED IN ACCOLWA14CE WITH THE ENERGY CONSERVATION REQUIREMENTS AND AGREE TO THE COMPLETENESS OF THIS CERTIFICATE AS SUBMITTED. Insulation Applicator Name _Hawkins Insulation Co Inc. as.e print) Signature of (n�ler Insulation ApplicatoL«� 200A� State l.untraCwrb License No. 378407 General Contractor/Owner Name (please print) Signature of Crnoral Contractor/Owner Date State Contractors License No. .gam?3 THIS CERTIFICATE MUST -QE ON FILE WITH THE BULLDING DEPARTMENT PRIOR TO REQUESTING FINAL INSPECTION AND SHALL BE POSTED IN A CONSPICUOUS LOCATION WITHIN THE. WELLING.' COUNTY OF BUTTE - DEPAPTMENT OF P LIC WORKS PERMIT NO. 7 County Center Drive - Oroville, Cal'ifornia 9'5965 - Tel hone 916/534-4541 APPLICATION AND PE MI ASSESSOR PARCEL NUMB/ER ZONING BUILDING PERMIT 'OWNERLEPHONE SQ. FT. OCC. BUILDING VA N G -V ©Q,o OWNER'S MAILING A✓ODRESS / O �f �� O �� �V CONTRACTOR'S NAME � (� IJ��N ��� �� �� , / �C .�'� A4'7� �A- CONTRACTOR'S MAILING ADDRESS tom/ D p FireplaceIIIAII CONSTRU;,;2 LENDER UNKNOWN Total Valuation $ Jh t Filing Fee $ 10,00 LENDER'S MAILING ADDRESS OPO ,L� Permit Fee $ A CHITECT OR ENGINEER LICENSE NO. Plan Checking Fee $ y $ ARCHITECT OR ENGINEER'S MAILING ADDRESS Permit fee $ BUILDING ADDRESS PLUMBING PERMIT Filing Fee 10.00 Each Trap 2.00 -Zp,L90 Solar Water Heater 20.00 !%®® 6 f� Water piping 5.00 67,00 LOT NO. SUBDIVISION NAMEPARCEL MAP Each qas water heater or vent 5.00 Gas piping system 1 - 5 outlets 5.00 USE OF STRUCTURE SF$� Duplex❑ Mobilehome❑ Other SPECIFY Building sewer 5.00 /06 Mobile Home S I G I W 10.00 e TYPE OF WORK Newt] Addition El Remodel❑ Utilities [_1 Installation[] Other ❑ Describe work: — Permit Fee $ 60,66 Contractor ELECTRICAL PERMIT Filing Fee 10.00 Main service e00V OR LESS 100 AMP OR LESS 10.00 ��BQ Main service//EA. ADD'L 100 AMP 2.50NEW CONST. OR AODNS. l ACCLBLDGS.CCDWELING UP. 21/20sgft CONTRACTORS LICENSE LAW 1 I declare under penalty of perjury (check one): EL- am licensed under provisions of Chapt. 9, Div. 3 of the Business and Professions C e a d my license is in full fo and effect. License No. Classification ❑ I, as the owner, or my employees with wages as their sole compen- sation, will do the work,and the structure is not intended or offered for sale. (Sec. 7044) ❑ I, as the owner, am exclusively contracting with licensed contract- ors. (Sec. 7044) ❑ I am exempt under Sec. , Business and Professions Code for this reason NEW CONSTR ULTI.OUTL T 2,50 ea NO N.RESID BRANCH CIRCUITS) NEW CONSTR. POWER APPARATUS &' NON.RESID. SINGLE OUTLET CIR. ) Ex. Occu 20@50e P�OUTLETS OR FIXTURES SAL®30 FIXED APPLNS. OR \ Ex. Occup. OUTLETS (RESID.) EA./ 2.00 Temporary service 10.00 By Mobile Home Facilities 15.00 Misc. Wiring 15.00 Permit Fee $ Contractor WORKMEN'S COMPENSATION INSURANCE I declare under penalty of perjury (check one): ❑ The permit is for $100.00 (valuation) or less. 2f_4'fiave placed on file with the County of Butte Building Department a Certificate of Workmen's Compensation Insurance or a Certificate of Consent to Self -Insure. ❑ I shall not employ any person in any manner so as to become subject to the W. C. laws of California. Notice to Applicant: If after making this statement, should you become subject to the W. C. provisions of the Labor Code, you must forthwith comply with such provisions or this permit shall be deemed revoked. MECHANICAL PERMIT FiIIng Fee 10.00 Heating -r Av Cooling Hood 3.00 Ventilation Permit Fee $ Contractor 1 certify that I have read this application and state that the above information is correct. I agree to comply to all County Ordinances and State Laws relating to building construction, and hereby authorize representatives of the Countyot Butte to enter upon the above-mentioned property for inspection purposes. I also agree to save, indemnify and keep harmless the County of Butte against all liabilities, judgments, costs, and expenses which may in any way accrue against 'd Count co requence of the granting of this permit. X _ / Date Signature of Applicant — Owner ❑ Contractor ❑ Agent An OSHA permit is required for excavations over 5'0" deep and demolition or construct- ion of structures over 33 stories in height. Mobile Home Installation Fee $ _ TOTAL PERMIT FEE $ / O OCcUP. GROUP _ I TYPE OF CONST. I PARCEL PD ND ISS This permit is hereby issued under sions of the Butte County Code and/or work indicated above for hich DIR OR PUBLIC BY PERMIT EXPIRES Date the applicable provi- resolutions to do fees have been paid. WORKS Da r °� Receipt No. 096 '?2:2 WHITE-D.P.W., YELLOW -ASSES SOR, PINK -INSPECTOR, GOLDENROD -APPLICANT 0JJ Iv ��'r AGRICULTURAL STATE LENT OF ACKNOWLEDGEMENT ',)FFJC!Ai.. PECOfi.:` FOR RESIDENTIAL DEVELOPMENT 9VTTE C0!JNT' - (;AJ- Section 26-8.1of the Butte County Code requires this acknowledgement be recorded prior to issuance of a building permit. SEP 13 V 1993 The property described herein is adjacent to land or included ELEANOR w. 8f �'.�ER .Fit OEE within an area zoned for agricultural purposes, and,residents of CLERK-RECOESOg3�32�s� this property may be subject to inconveniences or discomfort arising from the use of agricultural chemicals, including, but not limited to herbicides, pesticides, and fertilizers; and from the pursuit of agricultural operations including, but not limited to cultivation, plowing, spraying, pruning, and harvesting which occa- sionally generate dust, smoke, noise, and odor. Butte County has established agricul- tural zones which have as a priority use for productive agricultural purposes, and residents within said zones and on adjacent property should be prepared to accept such inconvenience or discomfort from normal, necessary farm operations. All that real property situate in the County of Butte, State of California, described as follows: Lot 522, as. shown on that certain map entitled, "KELLY RIDGE ESTATES UNIT 4C", which map was filed in the office of the Recorder of the County of Butte, State of California, May 2, 1978 in Book 66 of Maps, at pages 9, 10, 11, 12 and 13. Subject to all easements, rights of way and restrictions of record. Date: September 27, 1983 PROPERTY OWNERS: Howard B. Small State of California ) On this the 27th day of September , 19 83 9 SS. before me, the undersigned Notary Public, personally County of Butte } appeared ****Howard B. Small******* amu.. "i . NMA A. E?3�i� N •"� hIOTARY PU81 iC-CA! 3'rGRNIA Buke County L'+�? My Commission Expires Morch 2, 1986 Present A.P. NO. proved to me.on the basis of satisfactory evidence Awowaxtmma to be the person(s) whose name(s) is subscribed to the within instrument and acknowledged that he executed the same for the purposes therein contained. IN WITNESS WHEREOF, I hereunto set my hand and official seal. '.; V21le CA. 95965 Notary Pp '_ic RESIDENTIAL PLAN CHECKING GUIDE (S.F., DUPLEX,.& MISC. ONLY) Bldg. Permit # OWNER - A.P. # A. GENERAL dk� Zoning requirements (sideyards and parking). f,JL. Valuation. - �. /� fC Signature by R.C.E. or Architect (if required). B. PLOT PLAN le:Complete parcel, size and dimensions. ,2i Setbackq, sideyards, easements, etc. < Other buildings or structures. Grading, fills, drainage. 'C. FLOOR PLAN Complete to scale plan with dimensions. )el ,2:' Required windows for light and ventilation (Sec. 1405).ay- ,2! Required windows for second exit (Sec. 1404).x. Allowable glazing for energy requirements (20% max. per.State law). 5! Human impact glass (Sec. 5406) . k6! Required room sizes, ceiling heights (Sec. 1407). ,.Y. G.F.C.I.'s in baths and exterior outlets (Sec. 210-8). ' Light fixtures, switches, receptacles, and exterior receptacles for maintenance of mechanical equipment. Locations of water heater, heating & cooling equipment, other electrical or gas equipment, and plumbing fixtures. ,1fr Garage firewall, door size, and closer (Sec. 503(d)(4)). 1 - 3'0" exterior exit door (Sec. 3303d). Fireplace location. •l3� Smoke detectors (Sec. 1413).allo, /I /SrGe-VCt S/qo D. STRUCTURAL DETAILS 1 Foundation plan complete enough to construct building. ® Floor construction details complete enough to construct building. A-.- Elevations and wall construction details complete enough to construct building. ,A -r Roof construction details complete enough to construct building. ,'S< Fireplace.construction details and calcs if over one-story in height. Sufficient data and details to satisfy energy insulation requirements (State law). E. MISCELLANEOUS ITEMS .TO LOOK OUT FOR !'l a CCX plywood.on exposed locations and overhangs. �+�yt S .� Stairway details (Sec. 3305). Guardrail details (Sec. 1716). Brick or stone ,veneer (Chapter 30) . Exterior plaster - weep screeds (Sec. 4706 & 4708). roper roof pitch for roof covering (Chapter 32). Rafter ties or bearing ridge beam. ryV 5S Garage door or porch header sizes. Adequate bracing. ,a Living area over garage - complete 1 -hour separation required including supporting walls and posts, etc. e Two (2) exits on three-story dwellings (Sec. 3302). North Burbank Public Utility District 1960 Elgin Street OROVILLE, CALIFORNIA 95965 Telephone 5332000 DISTRICT APPROVAL AND VERIFICATION OF INSPECTION 128-83 . BUILDING SEWERS This verification form must be submitted to the Butte County Department of Public Works - Building Department prior to issuance of a building or occupancy permit, whichever is applicable. Prior to final approval by Butte County of a Building or an Occupancy Permit, a copy of this verification form, signed off by North Burbank Public Utility District, must be submitted to Butte County. Applicant: Applicant Address: Applicant Phone No.: HOWARD B. SMALL,( -Better Builders Construction) P. 0. Box 215, Live Oak, CA 95953 Property Location(s): 6226 Jack Hill Drive, Oroville Kelly Ridge Estates.U.nit 4C Lot 522 A. P. No. (s): 69-30-19 Fees Paid: ALL FEES PAID Application for service approved' North Burbank Public Utility District September 7, 1983 Inspection(s) made and successful test(s) observed: Location: By: Date: North Burbank Public Utility District release to close permit: Date: By: A ❑E 7/83 MC= ,o I Location /e® Type �_ - Zd/./Z.s-�'t . MC=� Loication ,p .c MCP 3' ? Lo a t ion " �¢ Type j ti - Area Ft. MC=_%_2_ Location l& e. -- '! s u iii, Type _ d / H - Area.�_Ft . —= - -MC=Location, Type ( /'? - Area Z' Ft. MC=7.7 Location_ ����1��,.,,,.,, Type A A = N - Area __F© F -MC � 3. - Loc t ion. Wct Type - Area F MC= 3 Location p z HC=jCl R= ,vr� r Type. - Area Ft. MC= Location HC=,g3-y R= Laxo M, - R=� FORM RESIDENTIAL ENERGY PLAN CHECK/INSPECTION SUMMARY Owner Climate Zone I/ Permit No. .2,OS7-97 Floor Area Compliance path: Package ❑ A ❑ B ❑ C ❑ Point System []Budget ❑ Other MIN R -VALUE I' DESCRIPTION REQ'D INSTALLED ITEMS (1) INSULATION: IQ - Roof/Ceiling 3d 60 ® Wall Ig ❑ Slab Floor Perimeter ® Raised Floor —1 .(2) INFILTRATION• ❑ (A) A vapor barrier is required in climate zones, 1, 14 & 16. 01- (B) All manufactured windows and sliding glass doors shall meet the 1972 ANSI Air Infiltration Standards and shall be certified and labeled. (C) All swinging doors and windows leading to unconditioned areas shall be fully weatherstripped. Tight - the above standard featurespIus Ln"rf ❑ (D) Continuous infiltration barrier ❑ (E) Electrical outlet plate gasket ❑ (3 ) (F) Air-to-air heat exchanger GLAZING: P +- (A) Location" Area Glazing %Floor Area -Single Double Triple Total Bldg 17,,,,3 _ X North _gyp _ GX East 6 y� /,.? _ 7 3 _oX South )o ( _41 West L • ,2,�' , G 9 �j Skylights (B) Shading Shading Coefficient Description ❑ East ❑ South ❑ West ❑ Skylights ❑ (C) South Overhang Length of projection ft. Descriptions ❑ (D) Moveable insulation: Area ftZ Description (E) Thermal mass Type - Area Ft. 2 HC= sX R= A ❑E 7/83 MC= ,o I Location /e® Type �_ - Zd/./Z.s-�'t . MC=� Loication ,p .c MCP 3' ? Lo a t ion " �¢ Type j ti - Area Ft. MC=_%_2_ Location l& e. -- '! s u iii, Type _ d / H - Area.�_Ft . —= - -MC=Location, Type ( /'? - Area Z' Ft. MC=7.7 Location_ ����1��,.,,,.,, Type A A = N - Area __F© F -MC � 3. - Loc t ion. Wct Type - Area F MC= 3 Location p z HC=jCl R= ,vr� r Type. - Area Ft. MC= Location HC=,g3-y R= Laxo M, - R=� FbRM 1 ❑ (4) MASONRY AND FACTORY -BUILT FIREPLACES shall be equipped with tight fitting closeable metal or glass doors covering the entire opening of the firebox; a combusion air intake equipped with a readily accessible, openable, and tight fitting damper to draw air .from the outside of the building; and a tight fitting flue damper with a readily accessible control. *1(5) HEATING. VENTILATING; AIR CONDITIONING•SYSTEM (A) "Heating ❑ Central Gas Furnace (brand and model number) SES �l �/A (heating capacity) Btu/hr 44/,4,0071/A �7�i �✓ Heat Pump (brand and model number) ACOP T3AP-h Btu/hr (heating capacity at 47°F) ❑ Active Solar type (liquid or air) Collector brand and ft2 model number solar fraction collector area collector orientation collector tilt rated y -intercept W rated slop�e�)) Other GL/ (describe) (B) tooling Electric Air Conditioner (brand and model number (seasona IEER) Btu/hr�d� rv,,/ (cooling capacity at 95°F) Electric Heat Pump EER Btu/h`r (cooling capacity at 95'F) ❑ Other (describe) (C) A TWO-STAGE THERMOSTAT, which controls the supplementary heat on its second stage, shall be required for heat pumps. ❑ (D) AN AUTOMATIC SETBACK shall be provided for all thermostats, except those controlling heat pumps. ❑ (E) AN INTERMITTENT IGNITION DEVICE shall be provided for all gas-fired fan type central furnaces, gas-fired fan type wall furnaces and gas cooking appliances. (F) BACKDRAFT DAMPERS shall be provided for all fan systems exhausting air to the outside. (G) DUCT CONSTRUCTION & INSULATION. All transverse duct, plenum, and fitting joints shall be sealed with pressure sensitive tape or mastic to prevent air loss and shall be insulated to conform to the provisions of Section 1005 of the UMC, 1976 Edition. 7/83 1 2 0 ❑ *2 r ODM 1 (6) DOMESTIC WATER SYSTEM (A) Gas Only Gallons (brand and model number) (tank size) Heat Pump w/Electric Backup (brand and model number) H OR Gallons (tank size) Active Solar r � (collector brand and model number) Z/ _-- j7.V (rated y -intercept) (rated slope) (solar fractio n ft2 (backup heater type, brand and model number) collector area) (collector orientation) (collector til_t) Location of Solar Panels �ClUA �e Other (Describe) (B) TANK INSULATION. Storage type -water heaters and storage and backup tanks for solar systems shall be externally wrapped with R-12 insulation or greater. (C) PIPE INSULATION. The five feet of pipe closest to the water heater and outside conditioned space shall be insulated with a minimum of R-3. Steam and steam conditioned space shall be insulated with a minimum of R-3. Steam and steam condensation return piping and recirculating hot water piping outside the building envelope shall be insulated in accordance with T20 -1408(d). (D) FLOW RESTRICTORS shall be provided for showerheads and faucets as outlined in the new appliance efficiency standards and shall be certified to the Energy Commission. . (7) LIGHTING ( (A) Lamps used in luminaries for general lighting in kitchens and bathrooms shall have an efficacy of not less than 25 lumehs per watt (usually florescent). *1 Submit documentation of sizing heating and cooling equipment by Manual J, sizing charts (form #4) or other approved methods, section 2-5352(g), and fill out the following: Heating: Winter design temperature �L°, elevation ', heating load BTU elevation factor x�heaat"ing load = maximum outlet capacity gas furnace BTU Cooling: Summer design temperature " * , cooling load BTU *2 Submit T.I.P.S.E. chart or other approved system (form #5) to document sizing of solar panels. ® DESIGN COMPLIANCE STATEMENT: The above building -design meets the requirements of Title 24, Part 2, Chapter 2-53 of the California Administration Code. G .' Z7 7/83 7/83 r SIGNATURE OF BUILDING DESIGNER OR APPLICANT 3 ZONE 11 OWNER / T"- POINTS PERMIT NO. ASSIGNED ACTUAL -- -��"]- _3 1. SLAB - INSULATION NONE _19� -5 2. RAISED FLOOR - R-19 _0 VE 3. CEILING - R-30 6 4. WALL - R-19 --� --�~ 5. NORTH GLAZING - 2.4-3.6%[ 6.' EAST GLAZING - 2.5-3.6% %; =21 7. SOUTH CLAZING - 1.6-3.6% B. WEST GLAZING - 2.9-3.6%AWL 9. SKYLIGHT - 0-1.3% ,10. SHADING (Exclude Overhang) '^ EAST - .67-.82 ij c- _ SOUTH - .19-.42 WEST - .13-.36 _C .SKYLIGHT. - .37-.57 �. 11. HORIZONTAL SOUTH OVERHANG 2'_ 12. tIOVABLE INSULATION - "LONE 13. INFILTRATION (Standard=0)(Tight=+12) A? _9V - 9lJ -sp 14. THERMAL MASS SF •et"i'�_ 15. GAS FURNACE (SE)Af f 2 71-76% 16. 4E[aT Pu! (EER) 7.5-7.9%� 17. DUAL PACK (SE, SEER) 8,0-8.3/71-76% �r 13. ACTIVE SOLAR 60% HIM (NONE) 1.9. ZONALLY CONTROLLED ELECTRIC 20. SOLAR WITH GAS BACKUP (HW) 21. OTHER - NO ELECTRIC (HW) -.. C'I,slI��AhI4.,ems- ,s- Cad i- A, • `A W-000' ITEMS SHO.WN_= ZERO POINTS "able 3- Slab Floor Poin 17n^ula- I R-VT7 alue alue of Insulstlo��ll I clue I I Depth, I Enches 1 0-2 1 3-4 1 5-6 1 7 1 S 1- 5 15 -5 1 -3 I -2 -1 .) I 16 - 19 I -5 I -2 I -1 10 1 I 20 + I -5 I -1 l o l +1 I I I i i I I• ,%7/7/83 .. J 3-2. ailed Floor Points t'ilue of I �s lation I Points I be ow 3 1 -12 1 i -4 I -e i 1 5-7 1 -6 1 ill 8-12 I -4' I 1 13 - 18 I t2 I I 1 I 0 I Table 3-3a. Ceiling Insulation Points R -Value of Insulation I Points I I I I I 19 I -4 ' I I 22 1 -2 I 30 I 38 I ++-+2 l 49 i +4 ble 3-4a. Wall Insulation Points R -Value of Insulation I Points I Table 3-5. North -Facing Clazin¢ Pte 1 I Glazing Type i I Total I I % of Sngl, I Dbl, I Trpl, I Floor I U- l U- I U- I Area i 0.66 10.42- 10.41 I 11.10 1 0.65 1 down I o +4 +4 +a +4 ! +4 1 +4 1.3- 2.3 I +1 I +2 I +2 I I 2.4- 3.6 I -2 i 0 1 +1 I 1 3.7- 4.8 I -4 I -2 I -1 1 I 4.9- 6.1 I -7 I -4 I -3 i 1 6.2- 7.3 I -9 I -6 ( -5 I I 7.4- 8.2 I -12 1 -8 1 -7 1 1 8.3- 9.7 I -14 I -10 I -8 i ( 9.8-10.8 I -17 I -12 I -10 I 110.9-12.0 I -19 I -14 1 -12 I 1 12.1-13.2 I •-22 I -16 I -13 I 13.3-14.5 1 -24 I -18 I -15 I 114.6-15.3 I -27 I -20 I -17 1 I •I I _ I I 0� Table 3-6. East -Facing Glazing Pts. T � r I 1 Glazing Type I --i Total I I 1 x of I Sngl, I Dbl, F Trpl, I Floor I (U - I (U - I (U - I I Area 11.10) 1 0.65)•1 0.41)1 I1pints I dints I ointsl I o I+ 4 ♦ 4 t4 -T up to 1.3 I +3 I +4 1 +4 1 I 1.4- 2.4 I +1 I +2 1 +2 1 I' 2.5- 3.6 I -2 I 0 1 0 1 I 3.7- 4.6 1 -5 i -2 I -1 I 4.7- 5.6 I -8 I -4 I -3 I 5.7- 6.7 I -10 I -6 I -5 1 6.8- 7.7 I -13 ( -8 I -7 I 1 7.8- 8.7 I -15 1 -10 1 -8 1 8.8- 9.7 I -1.7 1 -12 I -10 i 9.8-11.2 I -21 1 -15 I -13 111.3-12.7 I -25 1 -18 I -15 I ..ii A_1A n 1 -23 _1 _X] j -18 I 14.1-15.3 1 -32 I -24 I -20 i Table 3-7. South -Facing Glazing Pts lablr a 3-10, ShadingCoefficient Ports I Glazing Type I I • Total I 1 I 2 of I Sngl, Dbl, Trpl, I Floor I (U - I (U - I (u - I I Area 1 1.10) 10.65) 1 0.41)1 I I oints I oints I ointsl O +! +3 a g u to 1.5 +2 1 +2 +2 I 1,6- 3.6 -I 1 0 0 1 I 3.7.• 5.2 1 -4 1 -2 I -2 `I I 5.3- 6.5 1 -6 I -4 I -3 1 i 6.6- 7.7 I -9 I -6 1 -5 i I 7.8- 8.9 I -11 i' -8 1 -7 1 I 9.0-10.0 1 -13 I -10 .I -9 I 110.1-11.5 I -17 I -13 I -11 I 111.6-13.0 I -21 I =16 i -14 i 113.1-14.5 I -25 1 -19 I -16 I 114.6-16.0 I -28 I -22 1 -1.9 I I I I I I Table 3-8. West -Facing Clazin Pts. I I Glazing Type I I Total I i I x of I Sngl, I Dbl, Trpl, I Floor I (U - I (U - I (U - I I Area 11.10) 10.65) 1 0.41)1 I i oints I oints I ointsl 1 e6 1 +6 +3 I' "4L a1 +5 1 I' I o, I -a-1 +3 I I 2.9- 3.6 1 -3 i 0 1 +1 I 1 3.7- 4.2 I -5 I -2 I 0 1 1 4.3- 5.0 I -8 I -4 I -2 I I 5.1- 5.6 I -10 I -6 I -4 I 5.7- 6.2 1 -13 I -8 i -6 1 I 6.3- 6.9 I -15 I -10 I -7 I I 7.0- 7.6 I -18 I -12 I -9 I 1 7.7- 8.2 I -23 i -14 I -11 I 1 8.3- 8.8 I -22 I -16 1 -13 I 1 8.9- 9.5 I -25 I -18 I -15 I 9.6-10.1 I -27 -20 1 -16 I 1 10.2-11.0 I. -29 i -23 I -17 I 111.1-11.8 I -35 1- -26 1 -21 I 111.9-12.7 1 -38 I -29 I -24' I 112.8-13.5 I -42 I -32 I -21 I 113.6-14.3 1 -46 I -35 I -29 I 114.4-15.2 I -50 I -38 I -32 I I SC by 1 I Orien- I 1 Floor Area I tation I I I I East I 1 3.2 I I 1 0-3.1 I to i 6.4 up j 6.3 I 0 -.19 I 0 I +1 ( +2 I ,20-.36 I 0 I 0 I #_ ( .37-•66 I 0 I 0 I p 1 .67-.82 I 0 I 0 I -1 -2 South 1 0 1 3.2 16.4 18.0 19.6 I I to I to I' to I to I up 13.1 16.3 1 7.9 19.5 I I 0 -.18 1 0 1 +1 I. +2 I +_T___T- i .19-.42 1 0 1 0 1 0 1 0 1 0 I .43-.66 10 1 -1 1 -2 I 72 -3 I .67 up 1 0 1 -2 I -4 I -4 .I 1 -6 West I .1 11.6 1 3.2 16.4 18.0 1 to I to 1 to I to I up i i 1.5 13.1 I 16.3 I 17.9 I I I 0-.12 I 0 1 +1 I +3 I +6 i +7 .13-.36 1 0 1 0 1 0 1 0 1 0 .37-,57 ( -1 I -3 I -6 I -7 .58-.p2 -_0_1 1-3 1 -6 ( -12 1 -15 .83 up I I -2 I I -4 I -8 I I -16 I I -70 I Skylight i .1 I .8 1 1.6 13.2 14.0 I to i to I to I to I to 1 r 7 1 --- T`T--(____7- 1.5 13.1 13.9 15.2 0-.12 1 0 1 +1 I +3 1 +6 I +7 .13-.36 10 I 0 I 0 I 0 1 0 .37-.57 1 0 1 -1 i -3 I -6 1 .58-.82 I -1 I -3 1 -6 I -12 I -. .83 up I I -2 I I -4 I I -8 I I -16 I I -20 I I I Table 3-11. Horizontal South Overhand. Points - Table 3-9. Skylight Points --j south Glazing Length Out I Area, Z of Floor i Glazing Type I 1 from Wall I I I otal I I I ft 7 Z f Sngl. Dbl, rpl, 1 1 0-6.3 i 6.4 up 1 I Flor lU- IU- I,U- I I I I I Area 10.66- 1 0.42/1 0.41 I 0 - 0.5 -2 I 11.10 10.65 I down 1 10.6 - 1.0 I -2 I -3 I 1 1.1 - 1.9 I -1 I -2 I" I up tp 1.3 I -1I 0 1 0 1 I 2.0 up I 0 I o I I 1.4- 2.2 I -3 1/-2 1 -1 1 1 I I I I 2.3- 2.8 I 6. I -4 1 -3 1 Table 3-12. Movable Insulation 2.9- 3.6 I - I -6 I -5 1 Points 3.7- 4.2 I i'1 I -8 I -6 I 4.3- 5.0I 14 -LO I -8 I I Moveable Insulation] 5.1- 5.6 (-16 i -12 I -10 1 I Area, Z of Floor I Points I 5.7- 6.21 -19 i- 4 I -12 I I 6.3- 6.9 1 -21 I -1 1 -13I I 7.0- 1.6 1 -24 1 -18 ' I -15 I' ( 0 - 5.5 I 0 I 7.7f8.2 I -26 I -20 -17 I I 5.6 - 11.5' 1 +2 8�3= 8.8 I -28 1 -22 ( -19 I I 11.6 - 17.5 I +4 I 8.9- 9.5 1 -31 1 -24 I 1 1 1 17.6 - 23.5 I +6 I �9.6-10.1 1 -33 1 -26 I- I 1 >23.6+ I +8 I. ---L----�--- 1- - i Table ) :3. InVi ttation Control Fea livres Points I Coctrol Features I Po +it �j I 1 I Sta:ldard'eerhr 0 I 1.9 air change, I Z-g'aIr +12 I nges perhr I ZONE 11 TA?LE 3-14 (ADAPTED) INTERIOR THERMAL MASS POINTS MASS _ DWELLING ARF A SQUARE FOOT AREA 1,000 1,500 1 2,000 2,500 3,000 l 3,500 ! 4,000 4.SL0 5,000 S0. FT. A 8 C D A 8 C 0 A 8 C D A 8 C D A 0 C 0 A 8 - -- Table 3-15. Cas Furnnce Without Refrigeration Ccol_r.q Points I Sea tai Efficiency I Po s �)I , .= I I 71 - 76 I 0 1 I 77 - +2 I I 83 38 +4 I - 94 j fi I 95 up I + I Table 3-iG. Neat Pamo Points I c F 150 300 350 400 507 603 790 230 500 1,000 1,; OU 1,200 1,)CO 1,:00 I.i00 2.000 2.500 J, LOO 3,500 1,000 4,500 _ 5100 -ne.gy Ef.ic-ency I Ports I A) 1. 7's` Concrete Slab: HC•8.93; R-.29; Factor -7.3 I Patio -(EER) ! I 2. 3 3/4" Thick Common Brick: IIC-7.125; R-.13; Factor -7.3 I I I - 8) 1. SSS` Concrete Slab: HC -14.106; R-.458; Ftctor•7.1 -�^�- - +3 +2 +1 +l C) 1. 8" Solid Filled Olock:HC-20.63; R•1.93; Factor•6.1 I 7.5 - 7.9 I +3 I 2. 8` SolidFilled Block With Both Sides Exposed To Conditioned Air. +24 +19 +14 +11) - 8.3 C O. A 8 C 0 A 6 C 0 :: 8 C +12 j 2 2 2 2 2 2 2 0 1 2 2 2 0 I 10.3 - 10.9 I 0 0 0 0 0 0 0 0 0-0 I Po for this meas w!11 I 00 I 12.4 0 0 0 C 0 C+J 0 0 0 0 4 4 4 2 2 2 2 2 2 2 2 2 12 2 2 0 2 2 2 0 2 2 0 0 2 2 0 0 2 2 0 0! 0 0 0 0 1 6 6 6 4 4 4 4 2 7 *2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 0 2 7 2 a12 2 2 0 1 8 8 6 4 6 6 4 2 4 4 4-2--4 4 4 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 7- 2 i 2 2 I 10 10 8 6 6 6 6 4 6'6 4 4 4 2 4 4 2 2 2 2 2 2 2 2 2 2 2 2 2 2I 2 2 2' 12 12 10 6 8 8 6 4 6 6 6 4 6 6 4 2 4 4 4 2 4 4 2 2 2 2 2 2 2 2 2 7' 2. 2 2 2 14 14 12 810 IC 8 6 6 6 6 4 6 6 6 2 6 4 4 2 4 4 4 2 4 4 2 2 4 4 2 2I 2 2 ? 2 14 14 12 8 1010 8 6 8 8 6 4 6 6 4 4 6.6 4 2 4 4 4 2 4 4 4 2 I 4 4 2 2 I : 4 2 2 1818 16 10 12 12 10 6 10 10 8 6 A 8 6 4 6 6 6 4 6 6 6 2 6 5 4 ZZ 4 4 4 2 4 4 j 22 20 18 12 14 14 12 8 11 12 10 6 10 10 8 6 8 8 6 4 8 6 6 4 6 6 6 4 I 6 5 4 2 I• 6 6 4 4 2 I 24 24 20 14 18 16 11 10 14 14 12 8 10 10 10 6 10 10 8 6 8 8 6 4 8 6. 6 4 6 6 5 4I 6 6 c 2 26 24 22 16 70 16 16 10 14 14 12 8 12 10 10 6 10 10 8 6 10 R 8 4 I ? 6 6 4 I 8 6 6 4I 6 6 L _ 28 28 24 16 21 20 18 12 16 15 1.1 10 14 14 12 8 12 12 10 6 10 10 3 6 I 3 8 '8 4 8 B 5 4j 8 8 6 r. i 30 30 Z5 18 I?2 20 20 14 10 18 16 10 14 14 12 8 12 12 10 6 12 10 10 6 10 10 8 6 I 8 8 C 4 1 .12 32 28 20 24 24 22 14 20 20 18 10 16 16 14 8 14 '14 12 8 12 12 10 6 1 10 1J 10 6 10 10 8 C i 'J e C ' 34 32 30 22 26 26 22 16 22 20 18 12 18 18 14 10 14 14 12 8 1 < 12 1 2 8 I'12 12 10 6 1 J 1 0 8 F i 10 1 n 8 6 i 34 34 32 22 28 26 24 16 22 22 20 12 18 18 16 10 l0 14 14 8 14 12 12 6 12 12 110 34 34 32 24 28 28 26 18 24 24 20 14 20 20 18 12 18 16 14 10 14 14 12 8 X14 14 10 12 6 112 8 1 10 12 10 :C L t 110 1c 10 C 13 o 5 36 34 34 24 30 30 26 18 24 24 22 14 I22 20 18 12 18 18 16 10 16 16 14 8 14 14 11 y I it 1: 10 L+I ;' 17 1; I d i 34 34 32 22 30 30 26 18 I30 26 26 22 16 22 22 20 14 124 20 20 18 12 18 18 16 10 11L• 16 is LI 14 14 1: 5 j 34 34 30 22 30 26 18 26 26 24 16 24 22• 14 22 22 19 12 20 20 18 !: ! is 13 Ir, 34 32 30 22 30 30 26 18 1 28 16 24 16 124 24 22 14 22 2? 20 1411 :1 : J '• 12 ' 32 72 30 20 30 30 26 ld �28 130 28 14 16 26 24 22 1, 1 ?4 -,4 20 14 ; 32 32 30 20 30 26 18' 20 2b 24 IE :5 1.3 21 if L 132 32 28 2U � 30 30 2F 1E in ,J 2-- ;c ; -31 -ne.gy Ef.ic-ency I Ports I A) 1. 7's` Concrete Slab: HC•8.93; R-.29; Factor -7.3 I Patio -(EER) ! I 2. 3 3/4" Thick Common Brick: IIC-7.125; R-.13; Factor -7.3 I I I - 8) 1. SSS` Concrete Slab: HC -14.106; R-.458; Ftctor•7.1 -�^�- - +3 +2 +1 +l C) 1. 8" Solid Filled Olock:HC-20.63; R•1.93; Factor•6.1 I 7.5 - 7.9 I +3 I 2. 8` SolidFilled Block With Both Sides Exposed To Conditioned Air. +24 +19 +14 +11) - 8.3 I ROTE: Use all square footage directly exposed to conditioned air All others (per, building pnints) 99 900-999 1.000-•1,199 1,206-1,499 1,500-1,999 2,000-:,9;9 +6 I for Thermal Hass Area: HC -10.164; R-.96;; Factor -6.1 1 9.4 X24 +' +d9 +15 +12 +9 0) 1" Thick Concrete/Tile: MC -2.55; R-.083; Factor2-3.7 1 8.8 - 9.1 j +12 j I 9.2 - 9.6 1 +13 I Table 3-19. Zonally Controlled I 9.7 - 10.2 I +18 I Electric Resistance I 10.3 - 10.9 I +21 I Space Ileatine Points I 10.9 - 11.5 4.24 1 11.5 - 12.3 I +27 I I Po for this meas w!11 I Table 3-211. Solar Water Heating With Cas Backup Pain I 12.4 - 17.2 I +30 I I be comp- af' the EC I I has approve Alternative I Multi ( er unitop ints) Table 3-17. Cas Furnace With Refriveration Cooline Poi 'Re •igeracionj Cas FurnI I Co Lng I SE ace I I 1- 77-183- 9- 95-1 I 1 7fil 621 1 941 UD I I 8.0 - 8.3 1 NO 1,421 +41 +61 +8 1 I 8.4 - 8.7 I 1ij +51 +91+10 1 I 8.8 - 9.2 +41 I +GI+101+12 j I 9.? - 9 I +61 +8 01-121+14 1 I 9.8 - .3 I +31F101+1_�-!++-10 6 1 I '_C.4 10.9 1+1Gi+121149 I I 1 - 11.5 1+121+i41+16I 7/7/83 I Compone - ackage fo lstance I I Oe ) Floor Area Net Solar Fraction (NSF per un.tt, Table 3-18. Active Solar Space IC2 Heating with Cas Points 0.9 1 10-19 2 40-49 wood stove 4133 points'(no back up) casablanca fan + 1 point 04 --.OL A 4 -, - � s Ew 50-59 160-69 1 70-79 I Net Solar Fraction I Points I (NSF), S I I 1 I I 600-799 800-999 1,000-1,49 1,50 99 r10 and u 0 0 0 0 +3 +2 +1 +l +7 +5 +4 +3 +2 +10 +8 +6 +4 +4 + +11 +8 +6 +5 +11 +10 +7 +6 +21 +16 2 + +7 +24 +19 +14 +11) _I I� 0 I I N74 I I +2 I I 15 - 23 �i +4 j I 24 - 30 I +6 I I 31 - 39 r' I +8 I I 40 - 47 +LO I I 48 = 55 I 112 j 56 - 63 I 14 I I/64 - 71 72 up I +20 I All others (per, building pnints) 99 900-999 1.000-•1,199 1,206-1,499 1,500-1,999 2,000-:,9;9 0 0 0 0 +5 +lU +4 +9 +7 +3 FS +2 +3 +14 +1� +13 +17 +11 +12 +7 +5 +7 X24 +' +d9 +15 +12 +?9 +22 418 +14 +iO r - +3G +26 +21 +UI +11 Table 3-21. Other Water Heating Pts'. I System Type I Points I I I I Cas Only I I f 19ee�mp � �I� O�I Solar with Electric I I Resistance Backup I I Meeciny the Require- I I menti la Part 2 I 0 i ! I I Electric Resistance I I I Or., 1 -40 ; I I I OWNER' 12016-7 -91 THERMAL MASS TAKEOFF SHEET FORM 9 "PERMIT'NO. Thermal mass: Materials which have,the ability to store heat (typical types are masonry, brick and ceramic tile). Thermal mass cannot be insulated,from the interior of the building. (If covered by car- pet, cabinets, or enclosed in closets the mass is considered insulated). Thermal mass -floors must have an exposed and textured surface -or -design so that carpeting will not. occur. (Covering of vinyl or asphalt tile and linoleum is permitted). THICKNESS LOCATION DIMENSIONS AREA / Entry Floor .s)07 •f -3x3 ' ' x' 199SQ FT' Bath #1 Floor - x ' a SQ.FT. Bath #2 Floor ' x ' o SQ.FT. Bath #3 Floor ' x' ' a SQ.FT. Kitchen Floor ' x ' a SQ.FT. Floor ' x ' a SQ.FT. Floor ' N - _ Fireplace ' x ' x ' a a SQ.FT. -SQ.FT. ireplace. /_Q' x -�—' _ fly SQ.FT. Bath #1 Counters �(' x_' 7.s- Q. Fr. Bath #2 Counters ' x ' _ ---SQ.FT, Bath #3 Counters ' x ' = SQ.FT. Kitchen Counters x �—� SQ.FT' Wall Shield ' h . —; a11s &A r-'li x x �.C� Q _ SQ.FT. ____J'V SQ.FT. x Lam _ _ '1- 0 SQ. FT. Walls ' x �_� a . � " � x Q _SQ.FT. ' X ' a _SQ.FT. _._SQ . FT . x o SQ.FT. If compliance method proposed is other than the point system (where thermal mass point charts are available), use calculation methods on reverse of this form to show thermal mass compliance. Cz �_o 7/83 4 L E CALCULATION WORKSHEET page 2of2 9 Thermal Mass for Chanter 4 Static Heat Capacity (HC) of Material, Btu/(°F . ft2) fi ft2 XBtu Btu . in Btu lb conductivity e hr • f12. °F in ft2 specific Neat 1 X Ib • F density 1 ft X thickness 1 in 12 ft - HC of 1 specific Bu Ib t°F X lb f 3 X In in - 12 _ Meat 2 density 2 (k) of 2 thickness 2 area of mass 5 ft HC of 2 specific Btu—lb Ib •°F Ib ft3 X in _ 12 m hr • ft2•°F = yteat 3 densItY 3 thermal mass area for 5 thickness 3 _ total MC OF ft HC of 3 spec4 ific jteat Btu lb •°F X density 4 lb ft3 X thickness 4 In in - 12 ft = HC o/ a hr . fL2•°F BtuX Ib •°F density 5 Ib ft3 X thickness.5 In in — 12 ft HC of 5 Specific Neat S Resistance (R) of Material, (hr. ft2 •°F)/Btu Btu • in thlckness 5 Mass Capacity (MC) of Building, Btu/°F fi ft2 XBtu Btu . in thickness 1 in - conductivity e hr • f12. °F R of 1 ft2 area of mass 2 (k) of 1 MC of mass 2 ft2 XBtu area or mass 3 Btu . in MC of mass -3 thickness 2 in _ conductivity _ hr •4t2.0F R of 2 MC of mass 4 ft2 X (k) of 2 ft' area of mass 5 '• FAC of mass 5 thermal mass area fora Btu • in 0 thickness 3 In _ conductivity hr • ft2•°F = R of 3 Btu thermal mass area for 5 (k) Of 3 _ total MC OF t 2 total floor area UMC Justified Area" = Btu • in thickness 4 in - conductivity hr . fL2•°F Rot 4 than or equal to both .the (k) of a above proposed design and minimum allowed areas. Btu • in thlckness 5 in — conductivity _ hr . ft2•°F R of 5 (k) of5 Mass Capacity (MC) of Building, Btu/°F fi ft2 XBtu _ area of mass I 1Mc factor 1 OF • ft2 MC of mass i area of ma ft2 X Btu s ft2 area of mass 2 MC factor 2 °F • It2 MC of mass 2 ft2 XBtu area or mass 3 MC factor 3 OF . ft2 MC of mass -3 ft2 X Btu _ area of mass 4 MC factor 4 OF • ft2 MC of mass 4 ft2 X Btu a ft' area of mass 5 MC factor 5 OF • ft2 FAC of mass 5 thermal mass area fora Total MC = 0 factor of a 1*2.3.4.5 Unit Mass Capacity (UMC), Btu/(°F . ft2) area of type 5 Btu thermal mass area for 5 _ total MC OF t 2 total floor area UMC 1/83 • 420 • CEC Thermal Mass for Chapter 3 Proposed South Glazing Area = ft2 area from plans Minimum South Glazing Area ft= X 0.64 = ft2 total floor minimum area allowed South Glazing Area Justified by -Mass fi = ft2 arca of type 1 thermal mass area for 1 factor of 1 ft2 —h2 area of type 2 thermal mass area for 2 factor of 2 W — 9 hs area of typo 3 thermal mass area for 3 factor pf 3 ft' - k a fL area of type 4 thermal mass area fora factor of a f2 si 2 ft area of type 5 thermal mass area for 5 tactor of 5 Justified Area" = 1.2.34 5 'This area must be greater than or equal to both .the above proposed design and minimum allowed areas. GLAZING PLAN TAKEOFF SHEET 3-5 North Glazing QUANTITY SIZE AREA (SQ.FT.) (a) / x (b) --— x 2�- rte-- _ _/y (c) x = (d) x = (e) x Total North Glazing = pl o (SQ.FT.) (a+b+c+d+e) TOTAL NORTH TOTAL BLDG CONVERSION TOTAL % GLAZING FLOOR AREA FACTOR NORTH GLAZING. CIO �� x 100 = % SQ.FT. SQ:FT. 3-7 South Glazing QUANTITY SIZE AREA (SQ.FT.) (a) x (b) x = (c) x = (d) x = (e) x = '.:Total South Glazing (SQ.FT.) (a+b+c+d+e) TOTAL SOUTH TOTAL BLDG GLAZING FLOOR AREA —� � _ x SQ'.FT. SQ.FT. FORM 6 3-6 East Glazing QUANTITY SIZE AREA (SQ.FT.) (a) _ x /.,.6 4_ _ /DC7 (b) -- - x —ar, oe4l (c) --�-- x ---— _ —� (e) x = Total East Glazing (a+b+c+d+e ) TOTAL EAST TOTAL BLDG CONVERSION TOTAL % GLAZING FLOOR AREA FACTOR EAST GLAZING e " x 100 �zJ% .FT. SQ.FT. 3-8 West Glazing QUANTITY SIZE AREA (SQ.FT.) (a) —� x �°� 3A = _ (b)— x (c) x = (d) x = (e) x = Total West Glazing = (SQ.FT.) (a+b+c+d+e) TOTAL CONVERSION TOTAL % WEST TOTAL BLDG FACTOR SOUTH GLAZING GLAZING FLOOR AREA 1 100 = % / m x SQ.FT. SQ.FT. 3-9 Skylights QUANTITY SIZE AREA (SQ.FT.) (a) x = (b) x = (c) x = Total Skylights = (SQ.FT.) (a+b+c) TOTAL SKYLIGHT TOTAL BLDG CONVERSION TOTAL % GLAZING FLOOR AREA FACTOR SKYLIGHT GLAZING x 100 SQ.FT. SQ.FT. OWNER' PERMIT NO. 7/83 CONVERSION TOTAL % FACTOR WEST GLAZING 100 = � �.' % GLAZING DIRECTION LOCATER rY H QAC I AIC,01NT STE M COMPONENT PACKAGES soL! 7' H FALL �G Draw locater line perpendicular to plane of glazing. Overlay intersection point with center point of circle.' Turn circle so North arrows are parellel with plan North arrow. Locater line then indicates facing direction. �` 7ri,dF. 11 , 1i _PE7 ON : - R-30 ASSTI:... :WTVAT. T3>1e 3-3a.� Gelling Insulatt,.n Points 67-.82 _ U .19-42 Points 1 I 19 I 2:4-3.6;: 122 I alt5l8 .37- .57 I 38 I +2 I 49 i +4 I 1.6-3.6"..alb/ Tneulatlon I Pointe I 3 . •".. - 2.9-3.671. v' 1 19 t 024 I below 3 30 1 +3 v 10. • 5 ._`;<G .(Er.ciude Overzvng.) a- 12 I -4 I T3>1e 3-3a.� Gelling Insulatt,.n Points 67-.82 _ U .19-42 Points 1 I 19 I - 13-.36 122 I -2 1 .37- .57 T3>1e 3-3a.� Gelling Insulatt,.n Points (� _ U R Value of Insulation I Points 1 I 19 I -4 I 122 I -2 1 I 30 I 0 I I 38 I +2 I 49 i +4 tT (� ONE) U PO D (F,w) (� (11iJ) .r. :able 3-ta- Wall Insulation Pointe I•R-Value of Insulation I Points I P. -Value I I Tneulatlon I Pointe I IncNrz 1 0-2 1 3-4 ! 5-6 1 7* I I 11 I -7 { v' 1 19 t 024 I below 3 30 1 +3 v I -8 1 I -6 I 1,12,-.151 -5 1 -3 1 -2 I -1_t I 2' _� U !•12. .-,_._£ •Ii:SU--STICii �13. TC:: ;SL1n-mrd-0)(7ight=+12) 00- 'IF -. :? (£En.) 7.5-7.9%o 7. 1 P_: _ .-FACK (Sz. S_ER) 8.0-8. 3/ • 1•� `-�•:" -Sol...--. oC°, t1I[. ; `. •'i C- _-_ _.--. L-0:;7 70 1.1. i_, it _LE ._':�_.. 20' = •_T}i C::S BACKUP X21.' C:::_= - NO ELECTKIC, 71-76% (� ONE) U PO D (F,w) (� (11iJ) 3-2. Raised floor Po!nts -I.^:A'...-':31Ye Table 3-5. :north -Facing Glazing Pts I I .Glazing Type I I Tctal I I j: of Sngl, Dbl, , Trpl, Floor I U - t U= 1 U- 1 I Asea I 0.66 1 0.42- ; 0.41 1 I 11.10 t 0.65 1 down O +at a -t +4 0.1- :.2 I +4 ! +4 I +4 1 1.3- 2.3 I +1 ) +2 I +2 I i :•4- 3.6 I -2 I 0 1 +1 1 3.7- 5.8 I -4 I -2 1 -1 I I 4.3- 5.1 ( -7 ( -4 ) -3 I } 6.2- 7.3 I -9 I -6 I -5 1 I 1.4- 8.2 I -12 ! -8 I -7 I ! 8.3- 9.7 I -14 I -10 1 -8 I I 9.8-10.8 I -17 ) -12 I -10 I 110.5-:2.0 1 -19 I -14 1 -i2 i 112.1-:3..2 I -I2 1 -16 I -13 ) I 13.3-:4.5 I -24 I, -19 1 -15 I 14.6-:5.3 1 -27 I -20 1 -17 I I I I 1 I F" Y TaAI• )-T. Sr•,•r-i acln Cl alio PCo I Glazing Type I 1 Total I 1 Z of 1 SngI. I Dbl, I Trp I Flonr 1 (U.- I (U - I (s - I I Area ! 1.1.0) 10.65) 1 0.41)1 I --r-,in�ts po nta Iointsl 0te + 3 r 1 up to 1.5 1 +2 ! .+2 1 +2 I I 1.6- 3.6 1 -1 1 0 1 0 1 I 3.7. 5..2 1 -4 1 -2 1 -2 I 1 5.3-.6.5 1 -6 1 -4 1 -3 I .I 6.6- 7.7 1 -9 1 -6 1 -5 1 1 7.8- 8.9 1 -11 1 -8 I -7 1 I 9.0-10.0 1 -13 1 -10 .I -9 110.1-11.5 1 -17 1 -13 1 -11 I 111.6-13.0 I -21 1 -16 1 -14 ) 113.1-14.5 I -25 1 -19 ( -16 { 1 14.6-16.0.1 -23 1 -22 I -'.9 I I I I I I Table 3-8. West-Fac!ng Glazing PtS. I I Glazing Type 1 I Total 1 I I Z of I S:.el, I Obi, I Trpl. I Floor ! (l: - 1 (U - I (U - I I Area ! 1.1)) 1 0.65) 1 0.41)1 I 1 Di+6 I ms 1 oln+6cs 1 ointsf o +6-r I up to 1.3 l -5 1 +6. 1 +6 I I 1.4- 2.2 I +3 1 +4 I +5 , I 1 2.1- 2.8 1 0 i +2 I +3 1 1 2.9- 3.6 1 -3 I 0 1 +I 1 0-.12 1 0 1 +L 1 +3 1-.+6 I +-I I 3.7- 4.2 1 -5 I -2 1 0 1 •13-.36 '1 0 1 0 I 0 1 0=I 0 I 4.3- 5.0. 1 -8 I .-4 I -2 I .37-.57 I D 1 -1 I -3 I; -6 1 .-7 I 5.1- 5.6 I -10 I -6 I -4 .58-.82 1 -1 1 -3 I =4-1 =13 1 -15. 1 5.7- 6.2 I -13 1 -8 I -6 1 .83 up I -2 I -4 ! -2 1 -15 I 6.3- 6.9 ( -15 "I -110 I -7 I 7.0- 7.6 I -18 I -12 I -9 1 SkrlIght { .1 I -8 1 116 13.2 1 4,4 1 8.3- 9.3 i -_2 I -16 1 -13 I I to Ito 1 to .•I to I t -J_.:: I 8.9- 9.5 I -'t: -la I -15 I 1`•7 1 1.5 ( 3.1 1 3.9 1 5:2 -20 1 -16 1 r -23 I -17 I 0-•12 1 0 1 +1 1 +r i +e' 1 +7 1 :1.1-I I.8 1 -35 I -25 I -21 I •13-.36 1 0 1 .0 1 0 1 0 1- 0 1 11.9-12.7 1 -33 I -29 I -24' I .37-.57 1 0 1 -1 1 -3 ! =6 I 112.8-13.5 1 -42 1 -32 I -27 f •58-.82 t -1 I -3 1 -6 1 -1Z I -: 1 13.5-14.3 I -46 1 -35 I -29 I .83 up I -2 I =4 j -? ! -16 i -22' 114.4-15.2 I -50 i -33 I -32 I I I f I ! ( ! I I I Table 3-11. Horizon:al Sou:4 Overiianp Potn!r I Length Out I Area. Z of floor t I from Gall I I ft T- 1 I 1 0-6.3 I '..4 up t t 1 I 1 I i -- 10.6 - 1.0 1 -2 1. -3 11.1 - 1.9 1 - -1 1 -2 I 2.0 up I 0 1 0 ? 1 1 1 Table 3-12. Movable Insulati>w Points 1 Moveable Insulation 1 1 1 Area, Z of floor. 1 P1P11nt.a I ( 0 - 5.5 I 0 I I 5.6 - 11.5 1 +2 I I 11.6-17.3, 1 +4 1 I 17.6 - 23.3 1 >23.6+ 1 *+1 1- -•- - . Vii,. ,�r= I �. 'table 3-10. Shading Coefflcl�tit fofstt SC by I I Orion- 1 1 floor Arra tatfon I East ( 1 3,2 1 I 10-3.1 i to 1 6.4 up I 0 -.19 I 0 ( +1 I. +2 I .20-.36 I 0 I 0 E +1 .37-.66 I 0 I 0 } 0 I .67-.82 I 0 ( 0 { -1 ( .83 up I. 0 i -1 1 -2 I I I +- 1 south 1 0 1 3.2 i 5.4 1 9.1) ► �.� I I to A to I to I to I uP I 13.1 1 6.3 ? 7.9 1 9.5 1 I i 1 0 -.18 t 0 1 +1 f •2 1 +2 I +3 1 .19-,42 1 0 1 0 I 0 1 0 1 I .43-.66 t 0 1 -1 I -1 t -2 1 -3 I .57 up 1 0 1 -2 I -4 t -4 1 -6 West' I .1 1 1.6 13.2 1 5.4 1 9.6 1 to I to I to I to i 1-1.5 1 3.1 1 6.3 1 7.9 I. I I I 1 I Table 3-?. Sicvlivht Foints Table 3-:. Zast=Facto Claz!nt Pts . T-�3- �T 1 1 Gla::ng Type I ! ) Glazing Type I I Total I I Tatal I I I Z of T S -ng l, Dbl, I Trpl,l 1 Z :f I Sng•l, Dbl, I T_ r -p -1.7 1 Floor 1 U- I U- I U - I 7:cor 1 (U - I (U - i (U - I I Area 10.66- 0.42- 1 0.41 1 I .,:ea 1 1.10) 10.65),1 0•:1)1 I 11.10 1 0.65 1 dov, I I 1polnts Ipolnts Ic-ln:sl I i 1-T T -0.; ;4. +' , ti I up to 1.3 I -1 I 0 I 0 1 ! p to 1.3 1 +3 1 +4 1 I I 1.4- 2.2 1 -3 1 -2 1 -1 1 I I.4- 2•s 1 +1 1 +2 1 +2 ) I 2.3- 2.8 1 -6 I -4 I -3 1 I 2.5- 3.5 I -Z I O f 0 1 I 2.9- 3.6 1 -9 1 -6 1 -5 1 I 3.1- 4.6 I -5 1 • -2 { -1 I I 3.7- 4.2 1 -11 1 -8 I -6 1 1 4.7- 5.6 I -8 I -A I -3 I 1 4.3- 5.0 1 -14 1' -19 I -8 I I' 5.7- 6.7 I -10 1 -6 1 -5 I I 5.1- 5.6 1 -16. I -12 1 -10 I '1 6.8- 7.1 i -13 I -8 I -7 I I 5.7- 6.2 I -19 I -14 1 -12 i 7.8- 3.7 ? -15 I -10 1 -6 I 1 6.3- 6.9 I -21 I -16 1 -13 I I +.8- r1.7 I -17 I -12 1 -10 ( 1 7.0- 7.6 I -24 I -19 I -15 I I 9.8-:1.2 ( -21 I -15 I -1.3 I I 7.7- 8.2 I -26 1 -20 1 -17 I 111.3-12.7 i -21 ! -19 .1 -15 I 1 8.3- 8.8 I -28 1 -22 I -19 I 1 12.8=16,0 I -29 I -21 I -18 I 1 8.9- 9.5 1 -31 I -24 I -21 I 1 14-1-15-3 I 32 1 24 I -20 I 1 9.6-10.1 1 -33 1 -25 I -22 I' ' ITE: S . Nt?1•:iJ ZERO -. G ✓ PO 2 7✓ ,•?able 3-.,. S:ab Floor Points0_ue 3-2. Raised floor Po!nts -I.^:A'...-':31Ye of Insuist� . ( P. -Value Of I 1. ! tl I ! Tneulatlon I Pointe I IncNrz 1 0-2 1 3-4 ! 5-6 1 7* I 1 i I I I I I T T ---T below 3 f -12 1 1 10- 11 1 -5 1 -3 1 -5 1 -5 I I 3- 4 5- 7 I -8 1 I -6 I 1,12,-.151 -5 1 -3 1 -2 I -1_t I a- 12 I -4 I f 16 - IS -5 i- 2 1 -1 1 0 1 I 13 - 18 1 + 2 I i 20 + I -5 1. -1 1 0 1 +1 I 1 I t I I I I I '19+ I 0 I I I 7/71,8,3 Table 3-5. :north -Facing Glazing Pts I I .Glazing Type I I Tctal I I j: of Sngl, Dbl, , Trpl, Floor I U - t U= 1 U- 1 I Asea I 0.66 1 0.42- ; 0.41 1 I 11.10 t 0.65 1 down O +at a -t +4 0.1- :.2 I +4 ! +4 I +4 1 1.3- 2.3 I +1 ) +2 I +2 I i :•4- 3.6 I -2 I 0 1 +1 1 3.7- 5.8 I -4 I -2 1 -1 I I 4.3- 5.1 ( -7 ( -4 ) -3 I } 6.2- 7.3 I -9 I -6 I -5 1 I 1.4- 8.2 I -12 ! -8 I -7 I ! 8.3- 9.7 I -14 I -10 1 -8 I I 9.8-10.8 I -17 ) -12 I -10 I 110.5-:2.0 1 -19 I -14 1 -i2 i 112.1-:3..2 I -I2 1 -16 I -13 ) I 13.3-:4.5 I -24 I, -19 1 -15 I 14.6-:5.3 1 -27 I -20 1 -17 I I I I 1 I F" Y TaAI• )-T. Sr•,•r-i acln Cl alio PCo I Glazing Type I 1 Total I 1 Z of 1 SngI. I Dbl, I Trp I Flonr 1 (U.- I (U - I (s - I I Area ! 1.1.0) 10.65) 1 0.41)1 I --r-,in�ts po nta Iointsl 0te + 3 r 1 up to 1.5 1 +2 ! .+2 1 +2 I I 1.6- 3.6 1 -1 1 0 1 0 1 I 3.7. 5..2 1 -4 1 -2 1 -2 I 1 5.3-.6.5 1 -6 1 -4 1 -3 I .I 6.6- 7.7 1 -9 1 -6 1 -5 1 1 7.8- 8.9 1 -11 1 -8 I -7 1 I 9.0-10.0 1 -13 1 -10 .I -9 110.1-11.5 1 -17 1 -13 1 -11 I 111.6-13.0 I -21 1 -16 1 -14 ) 113.1-14.5 I -25 1 -19 ( -16 { 1 14.6-16.0.1 -23 1 -22 I -'.9 I I I I I I Table 3-8. West-Fac!ng Glazing PtS. I I Glazing Type 1 I Total 1 I I Z of I S:.el, I Obi, I Trpl. I Floor ! (l: - 1 (U - I (U - I I Area ! 1.1)) 1 0.65) 1 0.41)1 I 1 Di+6 I ms 1 oln+6cs 1 ointsf o +6-r I up to 1.3 l -5 1 +6. 1 +6 I I 1.4- 2.2 I +3 1 +4 I +5 , I 1 2.1- 2.8 1 0 i +2 I +3 1 1 2.9- 3.6 1 -3 I 0 1 +I 1 0-.12 1 0 1 +L 1 +3 1-.+6 I +-I I 3.7- 4.2 1 -5 I -2 1 0 1 •13-.36 '1 0 1 0 I 0 1 0=I 0 I 4.3- 5.0. 1 -8 I .-4 I -2 I .37-.57 I D 1 -1 I -3 I; -6 1 .-7 I 5.1- 5.6 I -10 I -6 I -4 .58-.82 1 -1 1 -3 I =4-1 =13 1 -15. 1 5.7- 6.2 I -13 1 -8 I -6 1 .83 up I -2 I -4 ! -2 1 -15 I 6.3- 6.9 ( -15 "I -110 I -7 I 7.0- 7.6 I -18 I -12 I -9 1 SkrlIght { .1 I -8 1 116 13.2 1 4,4 1 8.3- 9.3 i -_2 I -16 1 -13 I I to Ito 1 to .•I to I t -J_.:: I 8.9- 9.5 I -'t: -la I -15 I 1`•7 1 1.5 ( 3.1 1 3.9 1 5:2 -20 1 -16 1 r -23 I -17 I 0-•12 1 0 1 +1 1 +r i +e' 1 +7 1 :1.1-I I.8 1 -35 I -25 I -21 I •13-.36 1 0 1 .0 1 0 1 0 1- 0 1 11.9-12.7 1 -33 I -29 I -24' I .37-.57 1 0 1 -1 1 -3 ! =6 I 112.8-13.5 1 -42 1 -32 I -27 f •58-.82 t -1 I -3 1 -6 1 -1Z I -: 1 13.5-14.3 I -46 1 -35 I -29 I .83 up I -2 I =4 j -? ! -16 i -22' 114.4-15.2 I -50 i -33 I -32 I I I f I ! ( ! I I I Table 3-11. Horizon:al Sou:4 Overiianp Potn!r I Length Out I Area. Z of floor t I from Gall I I ft T- 1 I 1 0-6.3 I '..4 up t t 1 I 1 I i -- 10.6 - 1.0 1 -2 1. -3 11.1 - 1.9 1 - -1 1 -2 I 2.0 up I 0 1 0 ? 1 1 1 Table 3-12. Movable Insulati>w Points 1 Moveable Insulation 1 1 1 Area, Z of floor. 1 P1P11nt.a I ( 0 - 5.5 I 0 I I 5.6 - 11.5 1 +2 I I 11.6-17.3, 1 +4 1 I 17.6 - 23.3 1 >23.6+ 1 *+1 1- -•- - . Vii,. ,�r= I �. 'table 3-10. Shading Coefflcl�tit fofstt SC by I I Orion- 1 1 floor Arra tatfon I East ( 1 3,2 1 I 10-3.1 i to 1 6.4 up I 0 -.19 I 0 ( +1 I. +2 I .20-.36 I 0 I 0 E +1 .37-.66 I 0 I 0 } 0 I .67-.82 I 0 ( 0 { -1 ( .83 up I. 0 i -1 1 -2 I I I +- 1 south 1 0 1 3.2 i 5.4 1 9.1) ► �.� I I to A to I to I to I uP I 13.1 1 6.3 ? 7.9 1 9.5 1 I i 1 0 -.18 t 0 1 +1 f •2 1 +2 I +3 1 .19-,42 1 0 1 0 I 0 1 0 1 I .43-.66 t 0 1 -1 I -1 t -2 1 -3 I .57 up 1 0 1 -2 I -4 t -4 1 -6 West' I .1 1 1.6 13.2 1 5.4 1 9.6 1 to I to I to I to i 1-1.5 1 3.1 1 6.3 1 7.9 I. I I I 1 I Table 3-?. Sicvlivht Foints Table 3-:. Zast=Facto Claz!nt Pts . T-�3- �T 1 1 Gla::ng Type I ! ) Glazing Type I I Total I I Tatal I I I Z of T S -ng l, Dbl, I Trpl,l 1 Z :f I Sng•l, Dbl, I T_ r -p -1.7 1 Floor 1 U- I U- I U - I 7:cor 1 (U - I (U - i (U - I I Area 10.66- 0.42- 1 0.41 1 I .,:ea 1 1.10) 10.65),1 0•:1)1 I 11.10 1 0.65 1 dov, I I 1polnts Ipolnts Ic-ln:sl I i 1-T T -0.; ;4. +' , ti I up to 1.3 I -1 I 0 I 0 1 ! p to 1.3 1 +3 1 +4 1 I I 1.4- 2.2 1 -3 1 -2 1 -1 1 I I.4- 2•s 1 +1 1 +2 1 +2 ) I 2.3- 2.8 1 -6 I -4 I -3 1 I 2.5- 3.5 I -Z I O f 0 1 I 2.9- 3.6 1 -9 1 -6 1 -5 1 I 3.1- 4.6 I -5 1 • -2 { -1 I I 3.7- 4.2 1 -11 1 -8 I -6 1 1 4.7- 5.6 I -8 I -A I -3 I 1 4.3- 5.0 1 -14 1' -19 I -8 I I' 5.7- 6.7 I -10 1 -6 1 -5 I I 5.1- 5.6 1 -16. I -12 1 -10 I '1 6.8- 7.1 i -13 I -8 I -7 I I 5.7- 6.2 I -19 I -14 1 -12 i 7.8- 3.7 ? -15 I -10 1 -6 I 1 6.3- 6.9 I -21 I -16 1 -13 I I +.8- r1.7 I -17 I -12 1 -10 ( 1 7.0- 7.6 I -24 I -19 I -15 I I 9.8-:1.2 ( -21 I -15 I -1.3 I I 7.7- 8.2 I -26 1 -20 1 -17 I 111.3-12.7 i -21 ! -19 .1 -15 I 1 8.3- 8.8 I -28 1 -22 I -19 I 1 12.8=16,0 I -29 I -21 I -18 I 1 8.9- 9.5 1 -31 I -24 I -21 I 1 14-1-15-3 I 32 1 24 I -20 I 1 9.6-10.1 1 -33 1 -25 I -22 I' M _fs Ile q, ;LAj ARBA oq 67 g, x 16 6 01 x xd x x (e) x -Total North Glaring Total East Giazln (SQ.FT. ) .,(a+b4c4d+*.) (a+b4c+d+e), TOTAL -MOWS TOTAL BLDG CONVERSION TOTAL EAST TOTAL BLDG CONVERSION 'TOUL % GWING, FLOOR AREA FACTOR NORTH GIA -ZING GLAZING FLOOR AREA FACTOR HAST GLAZING X ioo,' 40 x loo % SQ.FT. SQ.FT. SQ.FT. SQ.FT. kl 3-7 ^Glazing iA at QUANTITY SIZE AREA (SQ.FT.) (a) x (c) x (d) W. .k�"'TOTAL SOLrrM TUTAI, B Lb CONVERSION T M'A L 7, GLAZING' FLOOR AREA FACTOR SMITH GLAZING 1 o e., SO. F7 SO. VT 3-9 Skyli lis QVAW. TTY SIZE AkEA (SQ.F'r. (a.) (b) x (c) x Total Skylights '(a+,b+c) _j ; . .,, S�YLI,A+l BLDG '1.A7j';C; .-'10.? AREA (SQ.FT. 3-8 4k -j* Glazing OtJ QUANTITY SIZE AREA (SQ.FT.) (a) x (b) (c) x (d) TOTAL WEIST. PXJ'A 1. B 1,W; CONVERSION T OTA L 7. GLA -ZINC, F.WOR AREA FACTOR WEST GLAZING CONVERSDON . TOTAI, 'FACTOR SKYLIG11T (4,AZING, 7 Q3 loo % SQ. S(). F.C. 7 ( es sti -'' ' 7 . y< .l j„1 i • {err fa' 'T } . I r �1/ OWNER THERMAL;MASS TAKEOFF SHBET - PERMIT NO. �+ Thermal'. mass: Materials -which fisve the' ability .to' �tor;e.`heat* (typical type.a are masonry, '. Ybridk and ceramic tile). s F. Thermal mass cannot be insulated-fraai the interior of the building. (If covered;by car- pet., cabinets, or enclosed in closets, the mass is considered insulated). Thermal mass floors must have an exposed -and textured surface or design so that carpeting wil not occur. (Covering of vinyl or asphalt.tile and linoleum is permitted); TYPE THICKNESS GEC'.dNlc. •T/GE i3Qic-� vE�l�� i LOCATIONDIMENSIONS S'*pt s It . Entry Floor x ,�'e•�.' Bath #1 Floor ' x Bath #2 Floor. ' x .Bath #3 Floor ' x ' Kitchen Floor x ' Floor x ' Floor' ' x ' L ivina- ,Ce. Fireplace7./,Lt ' x -7j;51 _ Fireplace ' x ' Bath #1 Counters x Bath #2 Counters x ' _ Rath #3 Counters �' x ' Kitchen Counters- ?c' x mow' _ Wall Shield x Walls ' x ' -- Walls" x ' w,� • �To�/ Walls x�' ' x ' / x 1 1 x 1 AREA yy _ &I—q Q.FT. SQ. FT. ____SQ.FT. SQ.FT. -SQ. FT. SQ. FT. ;=SQ. Fr. ,z5 SQ.FT SQ.FT. --SQ. FT. SQ. FT. aG�Et_f5SQ.�: SQ. FT. SQ. Fr. S Q.FT. SQ. FT. SQ, FT. SQ. FT. �_SQ.FT. If compliance meth proposed is other than the point system (where thermal mase point charts are availab ), use calculation methods on reverse of this form to show thermal mass compliance. TC TA 64-o.;� S . Vita 4" 7�beoKl S..nalFre.g— J- C/O s.AL� 7/33 Minimum Collector Area, sq. -ft. (60% efficiency) CLIVATE ZONE 11 rnY T rrT(1A F -T ."rrTp?r rPT Slope I' Tog 1 .5u .55' 77— I 83 i 69 3 j I 58 I43 ( 51 I 45 :39 I 40 1-3 b I -37 I 34 .60 I 89 i 73 I 61 I 53 I 47 I 42 I 38 I 35 .65 I 95 I 77 I 64 56' I 49 43 39 36 I 102 I 82 I 68 58 I 51 45 41 37 .75 i 110 89 72 61 I 53 49 42 38 I 118 95 76 64 I 55 ( 49 I 44 39 .85 I 128 I 101 ( 80 I 67 I 58 I 51 45 41 .90 I 138 I 107 ( 85 I 71 61 53 47 42 .95 I 149. I 114 I 90 I 75 64 55 49 44 1.00 I 164. I 122 I 96 I 79 I 67 I 58 I 51 I 45 1.05 I 180 I 131 I 103 84 + I 70 60 I 53 47 1.10 I 197 I 142 I 110 89 74 : 63 I 55 49 1.15 I 216, I 154 I 118 I 94 78 66 I 57 50 1.20 I 239 I 167 I 126 I 100 I 82 ( 69 I 60 I 52 1.25 I 268 I 184 I' 136 I 106 II 87 I 73 (. 62 54 1.30 I 305 I 202 I 146 I .113 I 91 I 76 I 65 57 1.35 I -- _ I 220 I 157 I 121 196 I 80. I 68 59 1.40 I -- I 240II 170 I 129 I 102 84 I 71 I 61 1.45 26475 184 138(I I 64 1.50 a 295 4 200 . 148 I 1106 1 94 79 67 NOTE: Values shown in table indicate square feet of collector area required when direction of collector is within 222° of due south and with slope of 4 12. Multiply areas by the following factors when slope differs: 0 :-12 = 1.05 5 : 12� = 0.97 2 : 12 = 1.04 6 : 12 = 0.94 3 : 12 = 1.02 12 : 12 = 0.75 100 70 4-J .l• 90 60 30 222 0 222 30 60 90 West South East EffQct of Solar Collector Orientation on Annual Hera tinqq Performance (use when orientation greater t an 22�° of south) NOTE: To obtain minimum collector size, divide percent reduction into minimum collector area determined by table at top of page. . as v L C: d role M 5 SOLAR PLAN CHECK SHEET NOTE: 1. Solar systems with electric resistance backup and some component packages with gas backup require 60% NSF (line 12). Use of tables on back of this sheet may be used when 60% NSF is required. 2. For point system, solar systems with gas backup use the % NSF shown (line 12) in point table 3-20. "Rule of Thumb" sizing estimate per C.E.C. Residential Regulations 1, Hot Water Usage: Single-family (w/laundry, etc.) = 50 gal/day Multi -family (w.o. laundry-) = 30 gal/day 1, .� gal/day 2. Water Temperature Rise: a. Delivery F. -b. Supply F. 2. F. 3. Energy Required: x 2. x 3.04 btu = 3. Kbtu/yr 4, Average Solar Radiation Daily for Mo. of'Jan. 4. btu /ft2 5. % Effectiveness of Collector for Tilt +-100 5 0. 6. % Effectiveness of Collector .for Orientation + 100 6. 0. 7. Gross Solar Energy Available: 4 x 5 x 6 = 7. btu/ft2 8. Tipse Values (On Manufacturer's Data for Collectors:) a. Low temperature efficiency + 100=8. 0. (a) B. Medium temperature efficiency + 100= 9. Usable Fraction of Gross Solar Energy: (8 (a) + 8(b) ) x 0,34 9. 10. Net Solar Energy Available: 7. x 9. = 10. Kbtu/ft2... 11, Collector Area ft. x 10- = 11. K btu 12. 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