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<br />SUMMER CALCULATIONS
<br />
<br />CLIMATE ZONES 4 5 6
<br />
<br /> I-' I BASE 1 BASE I-' [ SINGLE-PANE ~/DOUBLE-PANE I SUMMER lAS-BUILT
<br /> z GLASS )( SUMMER z GLASS )( SUMMER POINT MU 0 SUMMER POINT MULl
<br /> w = SUMMER w )( OVERHANG = GLASS
<br /> a: a:
<br /> 0 AREA PT MULT POINTS 0 AREA CLEAR TINT' CLEAR TINT' FACTOR (9B) SUM, PTS,
<br /> N 2-1, '-{ 47.8 I en. 1. C; N "l.. \, '-\ 51.0 51.5 47.8 43.5 ,\~, ',D<>(, q
<br /> NE 71.7 NE 77.2 76.6 71.7 63.4
<br /> E "n .1.- 102.0 'R3.b~''-( e-L- .Ll7.'L 109.2 107.1 102,0 87.3 .g1. IY,\8\ .~
<br /> SE 104.1 SE 112.9 110.3 104.1 89.4
<br /> S Z~."L 90.9 2.'08,'\ S 1~.t. 100.2 98.3 90.9 78.8 ,9,7 \.c,~,-" I
<br /> SW 104.1 SW 112.9 110.3 104.1 89.4
<br /> W :n.,"i 102.0 3:;'o'-\,~ W 3'2 -.j 109.2 107.1 102.0 87.3 . 'l?... 3,1'42A
<br /> NW 71.7 NW 77.2 76.6 71.7 63.4
<br /> H' 90.9 H' 367.7 303.3 324.6 238.1
<br />Ul t3:- 40.0 ,5"8 2,L(gY,l
<br />Ul
<br /><(
<br />...J
<br />Cl
<br /> ,
<br /> I CONDo T TOTAL I BASE I BASE I ADJUSTED AS-BUILT
<br /> ,15 )( FLOOR 'I GLASS ADJUSl )( GLASS = GLASS GLASS
<br /> I AREA AREA I FACTOR I SUBTOTAL I BASE SP SUBTOTAL
<br /> .15 I I~L.-' I I $'G . l. I 'L~ I \""' €>1..\," 11851.<-,3 12. 'B4'S. '-'
<br /> ,
<br /> COMPONENT ~ BASE SUMMER ~ BASE COMPONENT I SUMMER I AS-BUILT
<br /> AREA SUMMER AREA )( POINT MULT, = SUMMER
<br /> DESCRIPTION POINT MULl POINTS DESCRIPTION (9C THRU 9G)
<br /> POINTS
<br /> EXTERIOR ~1't,""'1 1.0 81e,4 f- II ~-'e,\..( IA '(,,~<;,()
<br />...J ADJACENT I (,<-J. !..> \ \,-"Q, ('. I', 1 t~1.t 0 ,7 ,\ L\ ,B
<br />...J ,7
<br /><(
<br />:it -.
<br />
<br />Ul EXTERIOR 40 4.8 '~1... 0
<br />a:
<br />0 ADJACENT 1.0 1.6 32.0
<br />0
<br />0
<br />
<br />,
<br />
<br />l.io,o
<br />"2.0.0
<br />
<br />4."1)
<br />2. ' (./
<br />
<br />,
<br />\q-Lo
<br />'+8,0
<br />
<br />I f.) '>
<br />wc.vi)
<br />
<br />Cl UNDER ATTIC I :'1 ..., ,6 "\~,",.'- \2. 2'> \'?<.I,O 7.. '"'A "" . "'-
<br />z OR SINGLE ,6
<br />:::; ASSEMBLY
<br />iii ,6
<br />(.) BASE CEILING AREA EQUALS FLOOR AREA DIRECTLY UNDER CEILING. AS-BUILT CEILING AREA EQUALS ACTUAL CEILING SQUARE FOOTAGE.
<br /> '" , " I , \
<br /> SLAB (PERIMETER) . 7,A..1 -31,8 ( ,-\,1..?~, S ) k:-O I;' '-' <j -'3\'1 J /-~1..c;l,..q ')
<br />a: RAISED (AREA) - 3,43 - / -. /'
<br />0
<br />0
<br />...J
<br />"'- FOR SLAB-ON-GRAOE USE PERIMETER LENGTH AROUND CONDITIONED FLOOR. FOR RAISED FLOORS USE AREA OVER UNCONDITIONED SPACE.
<br />
<br />,
<br />
<br />,
<br />
<br />INFILTRATION
<br />
<br />
<br />10,9
<br />
<br />
<br />131::>, '77-0. S
<br />,
<br />
<br />I I
<br />
<br />TOTAL COMPONENT AS-BUILT SUMMER POINTS
<br />,
<br />TOTAL
<br />AS-BUILT )( )( )(
<br />SUM. PTS.
<br />
<br />2S.'i;3Z . ~
<br />
<br />AS-BUILT
<br />= COOLING
<br />POINTS
<br />
<br />Q,l7fo.Y
<br />
<br />HOT
<br />WATER
<br />SYSTEM
<br />
<br />BASE
<br />)( HOT WATER
<br />MULTIPLIER
<br />
<br />3527
<br />
<br />BASE
<br />= HOT WATER
<br />POINTS
<br />
<br />!6,58f,D
<br />
<br />AS-BUILT
<br />HOT WATER
<br />SYSTEM DESC.
<br />\~~
<br />
<br />
<br />,
<br />12S',e.~"7..,6
<br />
<br />TOTAL COMPONENT BASE SUMMER POINTS
<br />.-
<br />TOTAL BASE
<br />)( SUMMER
<br />POINTS
<br />
<br />30,,1.0.5:"
<br />
<br />1991
<br />1992
<br />
<br />
<br />BASE
<br />= COOLING
<br />POINTS
<br />
<br />!I, 3l.c. . Co
<br />
<br />COOLING
<br />SYSTEM
<br />
<br />'H = Horizontal Glass (Skylights)
<br />2For glass with known Shading Coefficient, see section 903.2(a). Tint Multipliers may be used for glass with solar screens, film, or tint.
<br />
<br />-2-
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