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<br />. SUMMER CALCULATIONS <br /> <br /> t-' I BASE I BASE t-' I SINGLE-PANE DOUBLE-PANE I SUMMER lAS-BUILT <br /> :z GLASS x SUMMER :z GLASS x SUMMER POINT MULl O~ SUMMER POINT MULl x OVERHANG = GLASS <br /> w = SUMMER w <br /> a: AREA Pl MULl a: AREA CLEAR TINW CLEAR TINT' . FACTOR (9B) SUM. PTS. <br /> 0 POINTS 0 <br /> N S-g '-I- 47.8 .9 'lCl J . S N diJ" '-I 51.0 51.5 47.8 43.5 .5? 3 11.'1& .s <br /> NE 71.7 NE 772 76,6 71.7 63.4 <br /> E 10,'1, ~ 102.0 6? ~~Lf.('" c-L- .(,,;) . 3 109.2 107.1 102.0 87.3 .18 5~o+ 4 <br /> SE 104.1 SE 112.9 110,3 104.1 89.4 <br /> S qg 90.9 Q'1 D. g S ~.~ 100.2 98.3 90.9 78,8 .&1 (p LfS. Lf <br /> SW 104.1 SW 112.9 110.3 104.1 89.4 <br /> W I~.C 102,0 I ~[) (~ W 1-3.0 109.2 107.1 102.0 87.3 . "1 g 10&<",0 <br /> NW 71.7 NW 772 76.6 71.7 63.4 <br /> H' 90.9 W 167,7 303.3 324.6 238,1 <br /><n N 3~,o 51.5 .8'1 /'-/-33. ~ <br /><n <br /><( <br />..J <br /><.:) <br /> I--- <br /> , , <br /> I CONDo I TOTAL I BASE I BASE I ADJUSTED AS-BUILT <br /> .15 x FLOOR '1 GLASS I ADJUSl x GLASS = GLASS GLASS <br /> I AREA AREA FACTOR I SUBTOTAL I BASE SP SUBTOTAL <br /> .15 I /:,U1 I I'H,S; I 1.3'1 II ~(o~.Cj I 155(0'1. ?- G) LJ<:lg. I <br /> , <br /> COMPONENT ~ BASE SUMMER ~ BASE <br /> AREA SUMMER <br /> DESCRIPTION POINT MULl POINTS <br /> EXTERIOR <6 C$. & 1,0 SL6.(., <br />..J ADJACENT ~~Cj. (c J l,,'l. '7 <br />..J .7 <br /><( <br />:i: 1--- <br /> <br />CLIMATE ZONES 4 5 6 <br /> <br />AREA <br /> <br />= <br /> <br />rn EXTERIOR <br />g ADJACENT <br />Q <br /> <br />9,9 <br />3.2 <br /> <br />, <br />3~ (p. 0 <br />'7.~ <br /> <br />II <br /> <br />, <br /> <br />i~ <br /> <br />~"-JS <br />-'7 <br /> <br />12 <br /> <br />~ <br /> <br />~:~ <br /> <br />, <br />3~~..~ <br /> <br /> UNDER ATTIC /~l;'1 ,6 '1SS.4- 1:L-!l~ I ~DCf' -'1 I /'lX. i <br />..J OR SINGLE ,6 <br />W ASSEMBLY .6 <br />0 <br /> BASE CEILING AREA EQUALS FLOOR AREA UNDER CEILING. AS-BUILT CEILING AREA EQUALS ACTUAL CEILING SQUARE FOOTAGE. <br /> <br />, <br /> <br />FOR SLAB-ON-GRADE USE PERIMETER LENGTH AROUND CONDITIONED FLOOR. FOR RAISED FLOORS USE AREA OVER UNCONDITIONED SPACE. <br />, <br /> <br /> <br />10.9 <br /> <br /> <br />() <br /> <br />155. <br /> <br />a: <br />o <br />o <br />..J <br />u.. <br /> <br />SLAB <br />RAISED <br /> <br />-31.8 <br />- 3.43 <br /> <br />INFILTRATION <br /> <br />BASE <br />= COOLING <br />POINTS <br />1/(,yg.'7 <br /> <br /> <br />I I TOTAL COMPONENT AS-BUILT SUMMER POINTS <br />, <br />TOTAL <br />AS-BUILT x x x <br />SUM. PTS. <br />J.~ /1 '1. i, <br /> <br />, <br />;,J,JII'), ~ <br />I <br /> <br />TOTAL COMPONENT BASE SUMMER POINTS <br />"- <br />BASE COOLING TOTAL BASE <br />COOLING SYSTEM x SUMMER <br />SYSTEM MULTIPLIER POINTS <br />.43 c21 t:;q () <br /> <br />AS-BUILT <br />= COOLING <br />POINT <br />ggqD. <br /> <br />HOT <br />WATER <br />SYSTEM <br /> <br /> <br />BASE <br />x HOT WATER = <br />MULTIPLIER <br /> <br />3527 <br /> <br />d., <br /> <br />. H = Horizontal Glass (Skylights) <br />.. For glass with known Shading Coefficient, Me 18<:. 903,2(a). Tin! Multipliers may be used for glass with solar screens, film, or tint. <br /> <br />-2- <br />