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<br />SUMMER CALCULATIONS
<br />
<br />I BASE I
<br />GLASS ~ SUMMER
<br />AREA PT MUL T.
<br />" (; . J " 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 />
<br />N
<br />NE
<br />E
<br />SE
<br />S
<br />SW
<br />W
<br />NW
<br />H'
<br />U)
<br />U)
<br />::3
<br />CJ
<br />
<br />'1,yl.:..
<br />
<br />Yl) Q 'I
<br />
<br />~l' ~.y-
<br />
<br />I
<br />
<br />,15
<br />
<br />COMPONENT
<br />DESCRIPTION
<br />
<br />EXTERIOR
<br />~ ADJACENT
<br />c
<br />3=
<br />
<br />BASE
<br />SUMMER
<br />POINTS
<br />I:l,~
<br />
<br />~ /7i~
<br />~
<br />
<br />l,r 7'1 2:
<br />
<br />~ ( . (1 J l..-
<br />
<br />CLIMA.TE ZONES 4 5 6
<br />
<br /> GLASS ~ SINGLE-PANE OR DOUBLE-PANE I SUMMER lAS-BUILT
<br /> SUMMER POINT MUL T, SUMMER POINT MUL T. x OVERHANG = GLASS
<br /> AREA CLEAR T1N'f2 CLEAR TIN'f2 FACTOR (6A-1) SUM. PTS
<br />N J /.;,/ ~ 51,0 51,5 47,8 43,5 .94 7Y i 'J
<br />NE 77.2 76.6 71.7 63,4
<br />E c; .h" 109,2 107,1 102,0 87.3 9<' 11x. :; .:...
<br />SE 112,9 110.3 104,1 89,4
<br />S W,O-4 100.2 98,3 90,9 78,8 ~t ') 1<.0- ~f
<br />SW 112.9 110,3 104,1 89,4
<br />W :51:; .;X' 109,2 107,1 102,0 87,3 1':) It-I J" L
<br />NW 77.2 76,6 71,7 63,4
<br />H' 367.7 303,3 324,6 :~38,1
<br />
<br />'f
<br />AS-BUILT
<br />GLASS
<br />SUBTOTAL
<br />
<br />COMPONENT
<br />DESCRIPTION
<br />.J.
<br />
<br />
<br />AREA
<br />
<br /> 'f 'f
<br />.., . 4.8 ~'~,1 I I ~rf- 'Z ..I ~ t~ ~~:~ -,
<br />LV
<br />17 t 1,6 17, (j
<br /> ,
<br />
<br />[[] EXTERIOR
<br />g ADJACENT
<br />Q
<br />
<br />'f
<br />
<br />'f
<br />
<br />CJ UNDER ATTIC I <- '7 L' .6 <t",S- ~ lc.J 0 II i 6.1 9 i.j r)
<br />z OR SINGLE .6
<br />:::i
<br />iii ASSEMBLY
<br />u BASE CEILING AREA EQUALS FLOOR AREA DIRECTLY UNDER CEILING, AS-BUILT CEILING AREA EQUALS ACTUAL CEILING SQUARE FOOTAGE,
<br />
<br />
<br />FOR SLAB ON GRADE USE PERIMETER LENGTH AROUND CONDITIONED FLOOR FOR RAISED FLOORS USE AREA OVER UNCONDITIONED SPACE.
<br />'f
<br />I .
<br />USE TOTAL FL
<br />'f
<br />~1 7/1. 3
<br />oj
<br />
<br />TOTAL COMPONENT BASE SUMMER POINTS
<br />'f'-
<br />TOTAL BASE
<br />SUMMER
<br />POINTS
<br />/,C".
<br />
<br />II:
<br />O.
<br />O.
<br />-I
<br />"-
<br />
<br />INFilTRATION
<br />
<br />COOLING
<br />SYSTEM
<br />
<br />HOT
<br />WATER
<br />SYSTEM
<br />
<br />-31.8
<br />-3.43
<br />
<br />10,9
<br />
<br />
<br />
<br />'f
<br />o y?~~/ C;,
<br />
<br />=
<br />
<br />TOTAL COMPONENT AS-BUILT SUMMER POINTS
<br />'fO ---
<br />TOTAL
<br />AS-BUILT x
<br />SUM. PTS.
<br />
<br />
<br />
<br />BASE COOLING
<br />SYSTEM x
<br />MULTIPLIER
<br />,37
<br />
<br />AS.BUll T
<br />HOT WATER
<br />SYSTEM DESC.
<br />
<br />NUMBER
<br />OF x
<br />BEDROOMS
<br />'l--
<br />
<br />'H = HORIZONTAL GLASS (SKYLIGHTS)
<br />
<br />'FOR 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 />
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