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<br />SUMMER CALCULATIONS <br /> <br />GLASS x <br />AREA <br /> <br />BASE <br />SUMMER = <br />PT. MUL T. <br />82.2 <br />82.2 <br />82.2 <br />82.2 <br />82.2 <br />82.2 <br />82.2 <br />82.2 <br />82.2 <br /> <br />N <br />NE <br />E <br />SE <br />S <br />SW <br />W <br />NW <br />HI <br />~ <br />:s <br />CJ <br /> <br /> <br />BASE <br />SUMMER <br />POINTS <br /> <br /> <br />\ \ J , <br /> <br /> <br />CLIMATE ZONES 4 5 6 <br /> <br /> GLASS ~ SINGLE-PANE I DOUBLE-PANE I SUMMER I AS-BUILT <br /> SUMMER POINT MUL T. OR SUMMER POINT MUL T. x OVERHANG = GLASS <br /> AREA CLEAR TlN'f CLEAR TlN'f FACTOR (6A-l) SUM. PTS <br />N 'l(.. 51.0 51.5 47.8 43.5 . GO o.l~ <br />NE 77.2 76.6 71.7 63.4 <br />E \4- 109.2 107.1 102.0 87.3 #25~ : '2. Cl C( <br />SE 112.9 110.3 104.1 89.4 <br />S LI--I 100.2 98.3 90.9 78.8 \ 4-iOS< <br />SW 112.9 110.3 104.1 89.4 <br />W 109.2 107.1 102.0 87.3 <br />NW 77.2 76.6 71.7 63.4 <br />HI 367.7 303.3 324.6 238.1 <br /> <br /> <br />.15 <br /> <br /> COMPONENT 1 BASE SUMMER l BASE <br /> AREA SUMMER <br /> DESCRIPTION POINT. MUL T. - POINTS <br /> EXTERIOR ..~ 4-- " 1.0 l-!f 0 <br />:j ADJACENT '2q 0 .7 ,. , 'Z, <br />c( <br />3i: <br /> <br />U) EXTERIOR 20 4.8 : , <br />a: <br />0 ADJACENT 1"3 1.6 ? ..:'1 <br />0 <br />Q <br /> <br />CJ UNDER ATTIC C('2- '7\ .6 ~55 J UI--IL:/:(? 1'\nlc. Cf'L15 T, \ I (l ~) .\ <br />Z OR SINGLE .6 <br />::J <br />W ASSEMBLY <br />0 BASE CEILING AREA EQUALS flOOR AREA DIRECTlY UNDER CEILING. AS-BUILT CEILING AREA EQUALS ACTUAL CEILING SQUARE FOOTAGE. . <br /> <br />y <br /> <br />y <br /> <br />y <br />AS-BUILT <br />GLASS <br />SUBTOTAL <br />c..3'?~ <br />" <br />AS-BUILT <br />SUMMER <br />POINTS <br />'i< ,( . <br /> <br />COMPONENT <br />DESCRIPTION <br /> <br />N 'BLDC I, <br />T. I, JOC)v <br />--."\'- <br /> <br /> <br />; ..! <br /> <br />. -'I <br /> <br />, .-( <br /> <br />',-) <br />0..;. <br /> <br />" <br /> <br />I "./ " r )( hi!' ~.) <br />-I!- <br /> <br />~ ~~ .(~ <br /> <br />70 <br />19, <br /> <br />, <br />- / I...... <br />r, .', <br />.' .) <br /> <br />" <br /> <br />a: SLAB {PERIMETER I u. t/ -31.8 - 4- l 3~ ~LH(3. O/.J u:r".'1.. \ I+-A -':?1 ...t -!1~'7 .-- 'I <br />0 RAISED (AREAl -3.43 <br />0 <br />..... <br />LL <br /> FOR SLAB ON GRADE USE PERIMETER LENGTH AROUND CONDITIONED FLOOR FOR RAISED FLOORS USE AREA OVER UNCONDITIONED SPACE. <br /> <br />y <br />INFILTRATION 10.9 100 (::> I\4CT\(j: <br />USE TOTAL flOOR AREA OF CONDITIONED SPACE. <br />Y <br />TOTAL COMPONENT BASE SUMMER POINTS I I ~ ('( ')I, I <br />y---- <br />COOLING BASE COOLING TOTAL BASE BASE <br />SYSTEM x SUMMER = COOLING <br />SYSTEM MULTIPLIER POINTS POINTS <br />.37 \ '6 'c' " ) G / -) 0 \ '3 ~Cl '2_ <br /> <br /> <br />HOT <br />WATER <br />SYSTEM <br /> <br />NUMBER <br />OF <br />BEDROOMS <br />'2.. <br /> <br />lH = HORiZoNTAL GLASS (SKYLIGHTS) <br /> <br />BASE <br />x HOT WATER <br />MULTIPLIER <br />3527 <br /> <br />y <br /> <br />BASE <br />HOT WATER <br />POINTS <br />1054 <br /> <br />y <br /> <br /> <br />).(1 <br /> <br />y <br />, '), ) . . " <br /> <br />" <br />~ \.-1 ~? <br />J <br /> <br />AS-BUILT <br />COOLING <br />POINTS <br /> <br />l.~. ""1- :) ~~s <br /> <br />AS-BUILT <br />HOT WATER <br />SYSTEM DESC. <br /> <br />AS.BUIL T <br />HOT WATER <br />POINTS <br />/ () '-J .'( <br /> <br />2FOR GLASS WITH KNOWN SHADING COEFFICIENT, SEE SECTION 1.1 OF APPENDIX C. TINT MULTIPLIERS MAY BE <br />USED FOR GLASS WITH SOLAR SCREENS, FILM, OR TINT. <br /> <br />-2- <br />