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<br />. SUMMER CALCULATIONS
<br />
<br />GLASS
<br />AREA x
<br />
<br />N
<br />NE
<br />E
<br />SE
<br />S
<br />SW
<br />W
<br />NW
<br />U) H'
<br />U)
<br />:5
<br />Cl
<br />
<br />
<br />BASE
<br />SUMMER =
<br />PT, MULT,
<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 />BASE
<br />SUMMER
<br />POINTS
<br />\
<br />
<br />
<br />CLIMATE ZONES 4 5 6
<br />
<br /> GLASS ! SINGLE-PANE -' DOUBLE-PANE .l SUMMER lAS-BUILT
<br /> SUMMER POINT MUL T, OR SUMMER POINT MUL T. x OVERHANG = GLASS
<br /> AREA CLEAR TIN"r CLEAR TIN"r FACTOR (6A-l) SUM. PTS
<br />N 2(" (51.0) 51.5 47,8 43,5 .C::.~ '1 ft.-;
<br />NE n.!, 76,6 71.7 63,4
<br />E \4 (109,V 107.1 102,0 87,3 . '15 1+57
<br />SE fT2. 110.3 104,1 89,4
<br />S S-S (100, 2..J 98.3 90,9 78.8 . CJ I r;o I'~
<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 />H' 367.7 303.3 324.6 238.1
<br />
<br />
<br />,15
<br />
<br />COMPONENT
<br />DESCRIPTION
<br />EXTERIOR
<br />~ ADJACENT
<br />~
<br />
<br />rn EXTERIOR
<br />g ADJACENT
<br />
<br />AREA
<br />
<br />TO
<br />g
<br />
<br />4.8
<br />1.6
<br />
<br />~
<br />AS.BUIL T
<br />GLASS
<br />SUBTOTAL
<br />,'':2 5??
<br />~
<br />AS-BUILT
<br />SUMMER
<br />POINTS
<br />12-(
<br />
<br />"'- ~;:...- ,
<br />
<br />~
<br />
<br />:r~
<br />
<br />~
<br />(( G
<br />'2""1
<br />
<br />II~'\~~)I
<br />
<br />1=
<br />
<br />Lj-' .8
<br />I, (;J
<br />
<br />'2..0
<br />\11
<br />
<br />..,
<br />
<br />"
<br />
<br />~
<br />
<br />0: SLAB (PERIMETER f G ,S -31.8 - 5? L.t:1 I s -0- (t. IbS" --~<,\ ,q - ..:.-" "?~ (~ ....~.
<br />0 RAISED (AREA) .3.43 I
<br />0 I
<br />-'
<br />LL FOR SLAB ON GRADE USE PERIMETER LENGTH AROUND CONDITIONED FLOOR. FOR RAISED FLOORS USE AREA OVER UNCONomoNED SPACE,
<br /> --
<br />
<br />Cl UNDER ATTIC f7-4'l. ,6 1/6 1< - \ C,\ I '2.c( '<. \, \ J 4.L '-
<br />z OR SINGLE .6
<br />:J
<br />W ASSEMBLY
<br />u BASE CEILING AREA EQUALS FLOOR AREA DIRECTLY UNDER CEILING, AS.BUILT CEILING AREA EQUALS ACTUAL CEILING SQUARE FOOT/;CE.
<br />
<br />'f'
<br />TOTAL COMPONENT BASE SUMMER POINTS I '2- 5,1"Vl
<br />l"~----'-'_.J
<br />TOTAL BASE BASE
<br />x SUMMER = COOLING
<br />POINTS POINTS
<br />25~7J'6 r'.t:::.';>o
<br />''''L.,..I ) 0
<br />
<br />INFILTRATION
<br />
<br />COOLING
<br />SYSTEM
<br />
<br />HOT
<br />WATER
<br />SYSTEM
<br />
<br />
<br />BASE COOLING
<br />SYSTEM
<br />MULTIPLIER
<br />,37
<br />
<br />
<br />10,9
<br />
<br />BASE
<br />HOnVATER
<br />MULTIPLIER
<br />3527
<br />
<br />v
<br />
<br />
<br />LQ,~r
<br />
<br />\'<
<br />
<br />BASE
<br />= HOT \'JATER
<br />POiNTS
<br />"054-
<br />
<br />AS-BUILT
<br />HOT WATER
<br />SYSTEM DESC,
<br />I
<br />
<br />;:2,
<br />
<br />AS'BU!Lf-r-AS~BUilTl
<br />I1WCM == HOT WATER
<br />POiNTS
<br />i(
<br />
<br />'H = HORIZONTAL GLASS (SKYLIGHTS)
<br />
<br />2FOR GLASS WITH KNOWN SHADING COEFFICIENT, SEE SECTION 1.1 OF APPENDIX C, TINT MULTIPLIERS MAYBE
<br />USED FOR GLASS WITH SOLAR SCREENS, FILM, OR TINT,
<br />
<br />-2-
<br />
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