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WSU COG COMPI CalcUstv,WSEC 018 <br /> WSU Code C,,,W,....C-1-LVSEC 2018 <br /> THERI ENVELOPE DISTIII&Sallil7paptign <br /> PLAN.A.E11­10NABCD i Bel WIRW <br /> PL NEER—6rOUIOA ",­1"1 CI...ifi­.1­Diiiiliw Urit u. <br /> UAI­I.::!.Ir.�IS—PI1j­dUAI­ A <br /> on <br /> 1ABOI AT I'll <br /> ARC 'I <br /> Exterior D.... <br /> PACIIIII"I 1CME, 'I . ..........i_.I � - ­11, H.i.11 <br /> 777---1 to I D*..I RU U M F., F...I UA S...1 ­d UA BOB n <br /> _��Yus SETUP E-11 L. J 030 1 2 61 11 18 5 <br /> WHIL-P,­ipI,111.plih..y 11 y1i,­1 FRONT F.�,, 3 61 11 20 6. <br /> k 0 3 61 '1 0 01] <br /> F1.11 a..-,T1.7 F. 0 6 8 0 00 ComDonem Sao <br /> O_I TyjF,? - Plan e1 <br /> a 00 <br /> 0 00 ID D....1— 41.0 P.O. FIR <br /> .7 <br /> a 29 <br /> Atom Y."II UPI�, 0 <br /> ------- FEE 00 Sum.11.......d 1P <br /> 0 <br /> RESULTS C­p­­of of ANI...d IJAI......n" 60 <br /> Componvnl ��2......... P.­dO. 1I DIPPI ANHiZP1d=T1 -i�� <br /> U AN. UA U_A- S.W.GI.P..."A S1.1, <br /> D..N,U= U d0 3 PNn C..P... Wall W.I Will Slab III <br /> Dvurbaatl G!:::, 10 U ----------- to IF- <br /> Pit U UA F 61.4 I UA <br /> VBrVtel 0 n:U 0--d Gla.M. <br /> Plan Gwi IF <br /> U 0127 o r;17 I U Qi. ­1 IF— <br /> Wel <br /> U 066 <br /> C­i.,...U 0029 SC6 234 <br /> Si,b­GNid,F- 11 54D I 11,0 <br /> belowands Will U 0042 00 I ONid.III F= 0 57V 00 LU <br /> S.,.(Ario..dUA 040 <br /> CN­­GWIn All,WeightI U pii,_'_rrmm <br /> I A- <br /> R -_H­1 5 ..", 0 <br /> U, 1W I I'll"I I I.,:­­6,11 , , ""..­­VL,,III.11­ < <br /> albs h Y­ I.-ul., V­IA1.1 <br /> IRC Ch­11 LL_ <br /> WSEC C" 01I W' I.ht V­IU.d­ RI CFM LU 1. D..= N., A O. F.,T" F...I UA <br /> T.04I I N­,�Afi.AI clAdl. F­w I _____ __- - _. <br /> DEN Table 4(II 025 1 1 79 1 q, HVAC T I."L�_"U 21-1 --1 <br /> 6 1.,- <br /> F­ GROOM U-0.25 IOPU*q1 1b,1A) T,11,10 406 025 1 270 67S h1l.1yd1­1 <br /> Dii.-FII.. Sc 3­­T­ _gjjL11.LkD. BeYalemi <br /> AT"" "aI meals N- 3 SGO UP0.25(09ti-1b.1.4) Table 4W 6 9 025 1 5 333 833 <br /> 1 IWO— <br /> ' A <br /> �0�11(2)ORA"..­11,— LI <br /> 4 ZRNI 1 025 1 6 27.0 6.75 Table 406 <br /> IP n!!b Tab.406 025 1 4 4 16.0 4.00 1.1 Taft ReyuNvd?No <br /> 64 6 BORM 3 U.0 25 top....`141 T.1PII 0,26 1 4 4 16.0 400 <br /> S�, 7 <br /> In 11.0"""� P.­'Ij0,T BDRM 4 U-0.25(OWI­1b,tAl T.1,11 406 D,25 1 7 A 31.5 7 N <br /> HP) HSPF cslcd va ue IS.. :,!ITTHLl L122 25 2'..11.1�,141 T.1,1�406 025 1 2 3 1,50 AIR U..2, LI.I W Download F�o�3_CII;c7lw.iino 0­Re Link <br /> 1L.1..) 1 4 2 so 2 no <br /> n Ca <br /> Duct T­I1gAft1d­t1 <br /> O� I Cc-, `­ra 12 E­161.9 C.-�II MW­E. <br /> P�, 6"Al Su..1­and UA 172.7 431 C= <br /> 1 Eff.cl-I.111111""C.- 0.5 In ..,0"I'd U 02% LL <br /> cl-I I pl­C f"201 b W*EC New <br /> I II, VerllcalG iirlO and Doers Area-I U <br /> I EflU-I ,fI Jm 11112 a1 51,1., <br /> 3 11VAC S111"a-'i--------- <br /> f, Ref. U ANN, UA S',t,,si?!.g-P.P....I U-21 Try Om lift"14UMNIVS IJVAC Sail"T­UILA.4LWUEJ�dlu. <br /> 1 10.7 0.027 1,075 29,0 N­­IN,—,Station E­ li <br /> 4 HJ <br /> 1111-111 1 I.-C 11 N" Opio,3 <br /> S­OAN­OUA� D.Slol T.,­I.,MIF111-AT) <br /> 5.2-5.6 C1.dJt,,­Ft-A,—P,,p...d U­U,, <br /> ContlmonedWi"­ <br /> 6 En Wy U0 Wad Ak ­0 S <br /> AC y,N,Typ, <br /> F.L UA <br /> 7 <br /> UA.ii,I,,dilU.­,lPi 1b1­11J­Id.1 <br /> I P S-of ANI.antl U, <br /> TABLE <br /> `4.AIR LEAKAGE CONTROL AND EFFICIENT VENTILATION OPTIONS 1. ­d I�-1=117�1.1.1_ COPTRGWT NOTC11 THIS <br /> IEL N0RI`.1ALIZ,:;­;:�t. t-E�L] <br /> �l I I "15�NE BY PACIFIC <br /> 0HIVICH kotri 1101112.1 though 2.4 nHI be saiacLad InViHis,imilOgitify. E,.,I O.H.t RIDGE 101 USE OF THIS <br /> N�l"I" <br /> $Y ie�A PLAN 15 PROHIBITED BY LAN <br /> WITHOUT PAMINT OF <br /> UCENSE FEE TO PACIFIC <br /> T edaJce thellestemd air leakage to 3,GaIr Changes per hoLArmaxitilurn EI FUDGE HOMES <br /> N <br /> I D a-,CIji- i,:) PLAN SUMMARY <br /> 1. I- ray Stand at r U TABLE 11505.4.30 PMM am wB.B as <br /> L,',.3.z1 1,C C), 4 3 11 EFFICIENCY Hv^C eQu4pillitENir OPTIONS 2018 LE HOUSE MECHANICAL VENTILATION AIRFLOW RATE VENTILATION NOTES AND STANDARDS: <br /> NSSC W140 NIA <br /> (I uiFu upliun I;L,iH dairis 3.1 Vi"II nnG;ylUEFzWucLud mi II-LaI <br /> (VENTILATION RATES IN TABLE ARE MINIMUM OUTDOOR AIRIFLON <br /> I. WHOLE HOUSE VENTILATION SHALL BE PROVIDED BY A CENTRAL <br /> -,r to -lei ht.,i pi iip init�7 Ll-.,t -,,,I- I- RATES MEASURED IN CFM) EXHAUST FAN IN ACCORDANCE WITH111605.4.1.1. 806 <br /> 2. WHOLE HOUSE FAN SHALL OPERATE CONTINUOUSLY. <br /> 3- Ductless split k;ysteffl hunt Purnias With M electric tasistancia heating in the 2.10 �J_ij HOUSE NAME: LENNON 3. WHOLE HOUSE FAN CFM RATE BASED ON TABLE 111 1075 <br /> TC&4 1 cz,- )pnrrwy liv,ng areas.A duchess hoa1pump system with a mininnum,HSFFF EXAMPLE 70 CFM FOR 4 BDRM 2600 5F HOME,AND THEN INCREASE <br /> 1_4- of 10 shall be sized and installed to provide heat to entire dwelling III at BY FACTOR OF 1.5 PER TABLE MII TO ACCOUNT FOR <br /> the design outdoor air temperature, WHOLE HOUSE FAN CFM CALL: 50 CFM x 1.5 75 GFI`11s NOT-BALANCED,NOT-DISTRIBUTED VENTILATION SYSTEM. 1881 <br /> 4, WHOLE HOUSE FAN SHALL BE 1.0 SONES OR LESS,AND SHALL HAVE - <br /> AN EFFICACY Of 2.6 CFM/WATT PER WSEC R403.6.1, <br /> Ta qualI[a itilainn this credit,Ina ICI WHOLE-HOUSE MECHAM8L1CZV50ft4Ti3L[Aj IT ION AII LOW HALE.. 5. FRESH AIR 514ALL BE INTRODUCED INTO THE HOUSE VIA OPERABLE <br /> ., pernUl drawings snap spactly the 424 <br /> OPTION Option baling"Bialled,the haiolwdfll.�;I area CalQUIIII the floating <br /> .,­....1 11.11. V41NDOWS PER STATE CODE INTERPRETATION 17-15, <br /> :1 uIn G(oup R-2 uquipirtuna Ow mininnuin ULIJ UllICUI arid III insLPI _--g-1-111 - ELECTRIC <br /> 1,­INI W, -_1 l-,-"', 6. LOCAL EXHAUST FAN RATES ARE AS FOLLOWS;KITCHEN-100 CFM <br /> IW INTERMITTENT.5ATHROO115I RMS-50 CFM INTERMITTENT. <br /> I EFFICIENJ 8U4LCiNG ENVELOPE III I, A.M.-P1 7. HEATING DUCTS ARE NOT ALLOWED TO DISPLACE REQUIRED JWA <br /> "If INSULATION WITHIN THE EXTERIOR HALLS,FLOORS AND CEILINGS. <br /> 6. PER IRC'15024.5.;INHERE THE DRYER VENT EXHAUST DUCT 15 <br /> G, up R-2 <br /> LA I %nere EFFICIENT WATER HEATING OPTIONS CONCEALED WITHIN THE BUILDING CONSTRUCTION,THE EDJIVALENT BTL ENGINEERING <br /> 2111 <br /> J Only Ona option 110,T]ItEI 52 Inro,491-0 5,6 1-1 be buiected I i tt;,s rattojory. Fein f3 I tHI V,4;F C4W4,LiiEi-j III aiii� LENGTH OF THE EXHAUST DUCT SHALL BE IDENTIFIED ON A <br /> PERMANENT LABEL OR TAG. THE LABEL OR TAG SHALL BE SEE REVISION LOG <br /> optlun, <br /> LOCATED WITHIN 1IFT OF THE EXHAUST DUCT CONNECTION. <br /> 3 W As 9. THE BUILDING'S THERMAL ENVELOPE SHALL BE CONSTRUCTED TO <br /> LIMIT AIR LEAKAGE IN ACCORDANCE WITH THE REOMNTS OF 5CALE�Y4" <br /> H IANail,;U,ju ba­�i j-, 201 1_1� <br /> .QO4hCaILI0I 5.5 ater heating system snail linclude one of the toilciwwng: 2.0 2$ SECTIONS R402.4.1-R402.4.4.AIR LEAKAGE RATES TO NOT EXCEED sea rnnana <br /> es sa 5.0 A.C.H.(R402.4.1.2) <br /> V,11 LLal IL06IitI U I APCI,irfiui?tpurnp wwWr kauallortrawl,nej LIku Slanuciah;JI Tiar,A 10. ENERGY CODE COMPLIANCE CHART WITHIN 3'OF ELECTRICAL PANEL. <br /> T 2018 NSEC <br /> 7 t U - E LI i1dViANOW Watiur 4 jiMisilinU I �_I ll. A PROGRAMMABLE THERMOSTAT 15 REQUIRED. <br /> FII W.0 MISI viinhi­ -.4ty adJ t 1 uN ,r,;UP,_ 12. A MINIMUM OF 75%OF ALL LIGHTING MUST BE HIGH EFFICIENCY CREDIT OPTIONS <br /> S!atu CNi grado R-10 pain iew, yn• 4 CALC's <br /> Pjaidw!,IP.ib H-13 PU 11: <br /> OF VENTILATION SCHEDULE I <br /> TABLE M15Ub.4.3(2) <br /> SYSTEM COEFFICIENT(C.,....l <br /> 2 <br />