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Home My WebLink About0002851-HVAC N a co c a) Q o al al co LL a U Z 3 E LI a sa a) E F- (0 co U U a; a) c a O O a) N Lt. c c L c c ca m ill 2 2 d U m C y L m O a c�j) O 2 Q O E a) ca O cn m U 0 m a Y m> j U V) C C C U cn a) U) o CCD a 0 o El N cn U cri m U c0 a rn 3 s fl 2 a 0 w co co o m `9 U o 7 0 C O Q. n U U O r C :it 111 Al..) LI CZ Ea co cc V C7� m p 0 l O F- E 1 cc ccp ccc a Z F- Z a) o. Y V N i N Z a3 U 0 O 3 N ass a) G m a) 0 0 ci a V N a N a 3 Z N o c° m rn ca c v a o a) v o m c Cn z m U c 5 z a) ra O 0 a C u) c� 0 (a C 1 N E c tC I- U O O 0 co cn m _c L a to a) 3 E F= a, V U c c c as cc cc v� j W n� amm �m�� IL wwo 0) Z rn I a) c L 4-. a) N c o o c c O )M. Y 5 rn 112 -0 3 c N 0 CD 0 N as N L•6 E LL. a) C t\ a) d O as co Q C C .a a) m 4 C 3 m as 0 c F p 4-• g m i a as cc) 0 rn •0 m C r 4 a fn .CI) U) O Y 4'' E 3 O c c ca p U 8 3 O 0 O m i a) O i C a) O d a y O 0 v c r Lr<J a c m c rn U O o o .0 c o o a z O U 3 ca 0. o Z c:7) c n Z 2 U c U- W c a n U- cD a v co a) c O o G w L a) a) O i O a) 'p a) 1 V c :O C C o 0 0 c m ..I Y a) c0 8 0 c a) a E .13) Q c, a�CnE L I C 0 0 C V W �io C f0 y c O i 2 m t? a) o v c O W a) O y a C I X cn `0 .67--1:°' a. D G f I A CO 3 c a C 0) W m 0 o 0 co N a) 041 d o z 2 U d N .1 Z N" O. C -d c Q D" N C7calas O rn C .s 111 O Z" U a U O U o N•N 0 0 1 O G W c.a ca o E a c v 2 a J c o E x s c c a) J I m 0 CC IL U) 1 1 w o y c o m m t STATE OF WISCONSIN Department of Industry, Labor and Human Relations Safety and Buildings Division, Madison, Wisconsin 53707 w ZIG qiiiitt S tp A 44 •P gpk.; x :a JOB NAME: (DT' DESIGNER: LOCATION: "7J .C. x( ZONE: DATE INSTRUCTIONS: This worksheet is recommended for determining conform- ance with the Uniform Dwelling Code's Energy Conservation Standards. Dwellings may be evaluated by the System Design Method or the Accept- able Practice Method. Heat loss thru basement walls and floors where insulation is not required by code may be included in furnace sizing calculations at the option of the designer. System Design heat losses not exceeding the losses determined thru the code requirements by more than 1 are considered acceptable. 8 GROSS WALL AREA: FOUNDATION WAL 3 e et Ay;, L ABOVE GRADE: e piLr�� 6211 sq. ft. WINDOW AREA:Qglass size Q unit site ft. FOUNDATION WALL BELOW GRADE: /0 4^ 9 ,y sq. ft. LnSI. sq. ft.. DOOR AREA: FLOORS OVER UNHEATED AREAS: sq. ft. ---sq. ft. CEILING AREA: NLT (OPAQUE)WAI.L AREA: OTHER: OTFIER sq. ft. 3 41.17 sq. ft. sq. ft. sq. ft, Form No. SBA-5518 page 1 r 11 i x, t' Vii/ ;I INSTRUCTIONS: alculate R and U values using TABLE A -4 in Dwelling Code Book. Separate calculations for systems having the same insul- ation but different interior or exterior finishes is not necessary provided the system with the lowest R value is used in the System Design or Accepted Practice calculation. 7. xxxestrrzwasatrArs:, i".Y:rJa..>-mg... 1 fF.A msto7r19',�`Zli:'t¢. u a !scwc:'s�,^ 4 �y,P ,dye type 1 ;j .--,..M, anar'ar ,me a ..Lr ignar C2 !S r65 U c .v s•c,1. cav sol cav c _�1 xc: ..4r y ,..._a, 5 ?.ci.aranwi f exterior film .17 .17 .17 .17' exterior film .1 1 r( .1 7 i' j siding r7 ext finish 1 sheathing h n insulation 1.3_,, t i g 1 insulation fit. xxxx xxxx f framing xxxx T xxxx framing xxx y xxx ,fix insulation int. finish e int finish interior film .68 .'68 .68 .68 interior film .61 .61' 1 .61 TOTAL T TOT'!\f, �r: ter..- Eli 9t 1 ij� f ti it 1 s U 1, t1 U 1 A I6 v -s s. :.SL44Y" i,.�` mri .4. 95 fA,. G 1.. 'St:.v'.:R9LWPbWC.T aJY:.T4'A+Y ?b.K@M6 MN`r�.. J.iYQGYiYi'�'�"�..`®'�.'^ f1�7AlL' �fT�.A!'�•K "�m'._ 1 :�F. r (1`1,1 fo .na *?roc! ,.�m.> tidi ,II to cav .col cav sol z w cav sol cav sol t exterior film .17 .17 .17 .17 exterior film ext finish T ext finish masonry ,f..`/ f,.` r wood _insulation int. finish A _i interior film _68 .68 .6R .68 int. finish 0Insul k interior film 1 1 r n TOTAL R TOTAL R r, �r� wa r T. is i tc 1/R U' 1/R _-amzam �e.wm.� a.„ r.. .«:..a.... /.:.a...�m n A:..v. -LF 41.4.: 414§V 13571,:: yc v .z; w y :rsSrWGC�ama�.ac rm�rw:-. v�rsa�aw. ri p�es: s uKav aes :,asrws.a�sarwdaame.:a.r: .1111111111•111111111•11101. g 7 i $4 ,g lst thru 3rd foot �th foot ow s'ar below grade to basement floor no insulation .288 .094 walls R 5 rigid board .113 .0,63 R 11 Ciber.glass .072 .0248 w/ 2 x 4 framing f'lcor no insul ti on .025 .025 1 includes air film, wall, insulation soil pa. ';e t 1 1 r e r- jt J j ,.i! c L.,1 N.a ,g it,,,4,...'4 V i v i i .1 CONSTRUCTION HEAT LOSS 1, 4 AREA IT; teat loss i -TU per hall' tyne cay._(.1 3 ix_LZ /0) i 95 1 soi.. Us x F c f ir:7'P 7 0,1 4 type cay.( x p 2 sol, x 741120:3M 4 X type cay. .5/ `Z x, 5'6) 4/(4. i .cr: f7 1 sol. i .:z x z' 'to) e, -ote 0 r2z/ c/ 74 ,spq Cm k 6 ott t,..j 6 typ 0 C aV 1 4. X. 4 0 4 .9( 2 sol. .1 37. x•0 2 1 i above grade walls 7 l i 8/2 Z 5f) 4 1. below grade(3 feet) -f) __L_____) '1_.7 L,,a C9 Citcl f 1 windows //171__ 6 7:30 patio doors 1 i 4.....s.aurso,mar,umat.mmmmagmatzu.=,.watermmomminetstaml7==7-um-4, immisomm==MMMI7.,! 1 1 i Ng a I I IIII IL ...0801031111111111MSW .1W »tlia". =1Z.1 ""T TOT' L f_V-a CODE COMPARISON ADJUSTMENT FACTORS CODE 4 FOR WOOD FRAMING COMPONENT A 1■EA if tr ii T I BTUH LOSS cc studs joists walls above fdtn 20% 11111 14% walls above grade i 1 it •V 16 15% 10% -fdtn above grade Ac.., ...1, .25 3 i 24 10% 7% 4 fdtn above grade fdtn below e,Tade(3 30 Lf .20 c) 'roof/ceiling 0 .029 ALLOWABLF HEAT LOSS t••• M ?S "IIMIIIIIIIIWININININI 4.4•1412CAr. .°4:4424.K4ritAKIVC.',..Z4V44-7747,4204"73245" r4 COMPONENT i' Ai\j'A 1 iJ —1) BTUH LOSS w war .naamenasscoot t. MRS 4 D "4"- i walls more than 3 feet I- 4 ,4 I r L;7 below grade t274...A. (7..1 V CO .114 Ainstarquaterm, rum -wassiona—ur..ma ansiz floors i ..aun Jo.utz. .ac. al. .E1: 4V4r4 .....6 *TD inside temp. minus 20 degrees HEAT LOSS rnsatmr&-msmstuttruntait itcarar=m C"'. x*From table on page 2 it- f g v Lef r in 177 "k rt ff. t, 4z ft 3 ED I A rk k t fr INSTRUCTIONS: for completion of acceptable practice method, please refer to Uniform Dwelling Code, Chapter Ind 22, Energy Conservation Standards, Appendix Tables A -1,2,& 3. WINDOW GLAZINGCSingle w /store DOORS: nsulated SIDING: wood(R .77) WALLS ABOVE fllnsulated glass Solid wood Oalum(R1.82) FOUNDATION I ['Triple pane Tninsul w /storm WALL INSULATION TYPE: WINDOW ANT) DOOR AREA PERMITTED �M GROSS WALL AlEA(from worksheet, page 1) _square feet. n GLASS /DOOR AREA(from worksheet. page 1) square feet i PERCENT WINDOW /DOOR AREA glass /door area PERCENT WINDOW /DOOR AREA glass /door area gross wall area INSULATION TYPE: R VALUE (per inch) CEILING I Its UIRED THICKNESS( per table A -3): in cavity I Q p y "over framing i ma■■■•••••••••■WININIII■11•101•181•111■11! FOUNDATION WINDOW GLAZING: single asingle w/ storm Qinsulated(doubie) WALL INSULATION TYPE: R VALUE EXPOSED FOUNDATION AREA(from worksheet, page 1) square feet. (walls must TOTAL FOUNDATION AREA(includes above below grade)= square feet. be insulated PERCENT EXPOSED Exposed foundation t total fdtn square feet. to be in con- PERCENT WINDOW AREA PERMITTED(see Table A -2) percent(%) formance.) PERCENT WINDOW AREA(window area t exposed area) percent fr G' I Cr i,o.,* u iit VOLUME CALCULATIONS: LEVEL VOLUME CON. TD A /C;' BTUH PEAT TOSS Basement 013 Level 1 1 .018 Level 2 .018 Level 3 4 .013 *AIR CHANGES. Recommended changes between .25 and 1.00 INFILTRATION depending on type construction, number of openings, HEAT LOSS weatherstripping, caulking etc. -3 1g- Nie 5 7 7 3 0,,,„ 6 4 ALLOWABLE HEAT page 3) LOSS (from T r g TOTAL MILLING I•n,�S INFILTRATION LOSS(f above) 2 f J 1.15 BASEMENT HEAT LOSS _(from page _3) y }IAXTM FURNACE SIZr TOTAL DWELLING HEAT LOSS: T 7- l G FURNACE SPECIFIED Furnace output..?