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<br />SUMMER CALCULATIONS
<br />
<br />CLIMATE ZONES 4 5 6
<br />
<br /> I-' I BASE I BASE I-' I SINGLE-PANE I DOUBLE-PANE I SUMMER I AS-BUIL T
<br /> :z GLASS :z GLASS x SUMMER POINT MULT. OR --St1MMER POINT MULT.
<br /> w x SUMMER = SUMMER w x OVERHANG = GLASS
<br /> a: AREA a:
<br /> 0 PT. MULT. POINTS 0 AREA CLEAR TINT''C/ CLEAR TINT' FACTOR (9B) SUM. PTS,
<br /> N \~,~ 47.8 ''''1.3(" 'f N \qC. 51,0 51,5 47.8 43,5 ."6~ 8a).g
<br /> NE 71,7 NE 77.2 76,6 71.7 63.4
<br /> E '2..<<0,0 102,0 1'/ f~SZ. 0 ~ ~ 109.2 107.1 102,0 87,3 ,16 1"-,17LP
<br /> SE 104.1 SE 112.9 110.3 104,1 89.4
<br /> S Zu.Cj 90.9 I. fJQ'1. g- S 2Q,a, 100,2 98,3 90.9 78,8 ,10'"\ f 3. ,Go. .S"
<br /> SW 104.1 SW 112.9 110.3 104.1 89.4
<br /> W 17 $, ~ 102.0 12 S"tI,8 W A\q 109.2 107.1 102.0 87,3 ,llS 3, S"OO ,1..
<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 />en W' B~ W"),I \~G. e 1.1'". '")
<br />en
<br /><C
<br />...J
<br />Cl
<br /> ,
<br /> I COND, I TOTAL I BASE I BASE I ADJUSTED AS-BUILT
<br /> .15 x FLOOR '1 GLASS ADJUST. x GLASS = GLASS GLASS
<br /> 1 AREA AREA I FACTOR I SUBTOTAL I BASE SP SUBTOTAL
<br /> .15 1 \?. \ '-I. 1 \q2.,4 AS- 1/8.!.3C> -S' Iftl4''I,o 1/~11(,3,1..
<br /> ,
<br /> COMPONENT ~ BASE SUMMER ~ BASE COMPONENT I SUMMER I AS-BUILT
<br /> AREA SUMMER AREA x POINT MULT, = SUMMER
<br /> DESCRIPTION POINT MULT, POINTS DESCRIPTION (9C THRU 9G)
<br /> POINTS
<br /> EXTERIOR 8/0 1,0 R'?O. (} 1;.,\(.."0;, r.,.;; ~."')O 11'1 1.(,,5.3.0
<br />...J I (" c... II~, '2.. \.:.\\ \'1 1/(,,1.-
<br />...J ADJACENT ,7 I L.v
<br /><C
<br />3: f----
<br />
<br />2-'"'
<br />/6
<br />
<br />4.8
<br />1.6
<br />
<br />,
<br />
<br />~~:~ II
<br />
<br />,
<br />
<br />2.0
<br />tg,
<br />
<br />i',~
<br />
<br />,
<br />~.o
<br />,c..
<br />
<br />rn EXTERIOR
<br />g ADJACENT
<br />o
<br />
<br />\t.J-;.
<br />
<br />,
<br />
<br />Cl UNDER ATTIC l 'Ll i-( .6 72B, l./ k~ 1")\'4 I~ r)22, 1../
<br />Z OR SINGLE ,6
<br />::::i
<br />iii ASSEMBLY ,6
<br />0 BASE CEILING AREA EQUALS FLOOR AREA DIRECTLY UNDER CEILING. AS-BUILT CEILING AREA EQUALS ACTUAL CEILING SQUARE FOOTAGE.
<br /> , "- /' , """
<br /> SLAB (PERIMETER) \S'y -31,8 ~ -14, QG,O. lS ~O \'S"lJI> - ~l ,0. ( -49?fo,f.{ )
<br />a: RAISED (AREA) - 3,43 , t-
<br />O
<br />0
<br />...J
<br />II. FOR SLAB-ON-GRADE USE PERIMETER LENGTH AROUND CONDITIONED FLOOR. FOR RAISED FLOORS USE AREA OVER UNCONDITIONED SPACE.
<br />
<br />INFILTRATION
<br />
<br />
<br />10.9
<br />
<br />
<br />TOTAL COMPONENT BASE SUMMER POINTS
<br />..-
<br />TOTAL BASE
<br />COOLING x SUMMER
<br />SYSTEM POINTS
<br />
<br />I~,. $'2S. ~ I
<br />,
<br />
<br />TOTAL COMPONENT AS.BUIL T SUMMER POINTS
<br />,
<br />TOTAL
<br />AS-BUILT x x x
<br />SUM, PTS.
<br />
<br />
<br /> 1991
<br /> 1992 27. 5"2. $. '- /O,'8c.J,3 27 6S~. L..
<br /> BASE AS-BUILT
<br />HOT x HOT WATER HOT WATER x x
<br />WATER MULTIPLIER SY TEM DESC.
<br />SYSTEM 3 3527 pj9
<br />
<br />
<br />BASE
<br />= COOLING
<br />POINTS
<br />
<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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