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<br />SUMMER CALCULATIONS
<br /> J BASE I BASE GLASS .l SINGL E-PANE DOUBLE-PANE
<br /> GLASS x SUMMER = SUMMER SUMMER P OINT MUL T. OR SUMMER POINT MUL T,
<br /> AREA PT, MULT, AREA x
<br /> POINTS CLEAR TIN-r CLEAR TIN-r
<br /> N '1. ~,1 82,2 Jt1VV N 11:7 51.0 51,5 47.8 43.5
<br /> NE 82,2 . NE 77.2 76,6 71.7
<br /> 63,4
<br /> E ~.'1 82,2 J..I. 'i~)'/ E I r'i..'7 109,2 107,1 102.0 87.3
<br /> SE 82,2 SE 112,9 110,3 104.1 89.4
<br /> S L..' 82,2 It:I '1 ? S 'LJ 100,2 98,3 90.9 78.8
<br /> SW \ 82,2 . SW , 112,9 110.3 104.1
<br /> ~ 89.4
<br /> W "7 ~. ~ 82,2 7 0"7"\ W .,..~ 109,2 107.1 102.0 87.3
<br /> NW 82,2 NW T7 77.2 76.6 71.7 63.4
<br />Cf) H' 82,2 H' 367,7 303.3 324.6 238.1
<br />Cf) .... ....to ~J,~ ~ c:; '" 7)
<br />:5 ,: ~ ,:.,<1 ~}. J, rd-~T -/.) l'.,. d
<br />CJ
<br /> ( I 1
<br />
<br />I COND
<br />15 x FLOOR
<br />. i AREA
<br />.15 1;1 u L
<br />-. /
<br />
<br />COMPONENT
<br />DESCRIPTION
<br />EXTERIOR
<br />~ ADJACENT
<br />;:
<br />
<br />[]] EXTERIOR
<br />g ADJACENT
<br />
<br />CJ
<br />z
<br />::J
<br />jjj
<br />u
<br />
<br />UNDER ATTIC
<br />OR SINGLE
<br />ASSEMBLY
<br />
<br />
<br />
<br />...
<br />1 TGOLATASLS
<br />I'
<br />AREA
<br />I 'l.. "ic' ...,
<br />
<br />I BASE .l
<br />T- ADJUST. IX
<br />FACTQR
<br />I pili '7 I
<br />
<br />T
<br />BASE I ADJUSTED
<br />GLASS = GLASS
<br />SUBTOTAL T BASE SP
<br />-,.." U (;"--1 .. J..-l ~ V \e
<br />
<br />
<br />J-i. "
<br />
<br />4.y
<br />
<br />....
<br />10 L/
<br />r
<br />
<br />"')....1.. (p
<br />
<br />...
<br />ID ~
<br />
<br />T
<br />
<br />AREA
<br />
<br />I. BASE SUMMER I
<br />X POINT, MUL T. =
<br />
<br />1,0
<br />,7
<br />
<br />COMPONENT
<br />DESCRIPTION
<br />
<br />
<br />10.9
<br />
<br />~/C:;
<br />I~
<br />
<br />BASE
<br />SUMMER
<br />POINTS
<br />~/")
<br />f~'"
<br />
<br />
<br />,6
<br />,6
<br />
<br />
<br />TOTAL COMPONENT BASE SUMMER POINT~ jS ...~ 9 11
<br />
<br />COOLING BASE COOLING TOTAL BASE
<br />SYSTEM X SUMMER =
<br />SYSTEM MULTIPLIER POINTS
<br />,37
<br />
<br />II
<br />
<br />4.8
<br />1.6
<br />
<br />...
<br />
<br />a: SLAB (PERIMETER ''). 1'1- -31,8 -f. '7 V,>-- ~ I 'v '-;/.9 _ /'" "7 h '5
<br />0 RAISED (AREA) -3.43
<br />0
<br />.....
<br />u..
<br /> FOR SLAB ON GRADE USE PERIMETER LENGTH AROUND CONDITIONED FLOOR FOR RAISED FLOORS USE AREA OVER UNCONDITIONED SPACE
<br />
<br />INFILTRATION
<br />
<br />HOT
<br />WATER
<br />SYSTEM
<br />
<br />
<br />...
<br />cJ
<br />
<br />BASE CEILING AREA EQUALS FLOOR AREA DIRECTLY UNDER CEILING, AS-BUILT CEILING AREA EQUALS ACTUAL CEILING SQUARE FOOTAGE
<br />...
<br />
<br />NUMBER
<br />OF
<br />BEDROOMS
<br />-3
<br />
<br />AS-BUILT
<br />HOT WATER
<br />SYSTEM DESC.
<br />
<br />'H = HORIZONTAL GLASS (SKYLIGHTS)
<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-
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