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<br />
<br />SUMMER CALCULATIONS
<br />
<br />
<br /> N
<br /> NE
<br /> E
<br /> SE
<br /> S
<br /> SW
<br /> W
<br /> NW
<br />U) H1
<br />U)
<br />:5 1;1
<br />CJ
<br /> I~'
<br /> 1/
<br /> ~
<br />
<br />CLIMATE ZONES 4 5 6
<br />
<br /> GLASS I SINGLE-PANE .1. DOUBLE.PANE .I. SUMMER I AS-BUILT
<br /> AREA x SUMMER.POINT MUL T. O~UMMER POINT MUL T, x OVERHANG = GLASS
<br /> CLEAR T1N'r v CLEAR TINT" FACTOR (6M) SUM. PTS
<br />N 15',(." 51.0 51.5 47.8 43.5 ,'07 ~' i'-l
<br />NE '8, '-I 77.2 76.6 71.7 63.4 ,x-:; 5~ 7
<br />E !t't,/" 109.2 107.1 102,0 87,3 .<;6 5,~ :;X, 'g
<br />SE l?'.'-\ 112,9 110.3 104.1 89.4 .x( '7SC .S"
<br />S 40,0 100.2 98.3 90.9 78.8 ,77 3,62..7,re.
<br />SW 112.9 110.3 104.1 89.4
<br />W 1L\1,?; 109.2 107.1 102.0 87,3 ,'i{5 ILf. 35"1, S-
<br />NW 77.2 76.6 71.7 63.4
<br />H1 367.7 303.3 324.6 238.1
<br />lJ 32.Q 5/. S' ,t&,3 1638.'2.
<br />/VIE: 2$',0 ~(. . G:. ,e:;-O 957. '5:
<br />."":> 40 ,(:) QX-,3 , <::;7 224\,'2....
<br />'S l"i) ~x.~ ,31- 5~'L-
<br />1/;") dlJ, Cl -7(.. to:> ,$"0 I 83:3. L(
<br />f,J" I C,,(~ ' ~) ft'.(... ,(..3 4, "3'2. ,~
<br />
<br />I?
<br />
<br />[;
<br />
<br /> .15 x = =
<br /> .15
<br /> COMPONENT AREA
<br /> DESCRIPTION
<br /> EXTERIOR 1.0
<br />.....I ADJACENT .7
<br />.....I
<br />c(
<br />==
<br />
<br />
<br />~~~
<br />e.. \"
<br />
<br />y
<br />
<br />y
<br />'16? D
<br />3Z.i)
<br />
<br />U) EXTERIOR "20 4.8 '-I(::.,D
<br />a::
<br />0 ADJACENT 20 1.6 32, D
<br />0
<br />C
<br />
<br />1'(;
<br />
<br />" us
<br />\ 1) ~-,
<br />
<br />;!L> 6
<br />Z-C>.O
<br />
<br />y
<br />
<br />y
<br />
<br />CJ UNDER ATTIC 2~\~.o .6 /. 3<-10, 5? ( ,":0 23-!R.o , (", /, 3 9cJ , '6
<br />z OR SINGLE ,6
<br />::::i
<br />iii ASSEMBLY ,6
<br />(,J BASE CEILING AREA EQUALS FLOOR AREA DIRECTLY UNDER CEILING, AS-BUILT CEILING AREA EQUALS ACTUAL CEILING SQUARE FOOTAGE.
<br />
<br />a::
<br />o
<br />o
<br />.....I
<br />LL
<br />
<br />
<br />-31.8
<br />-3.43
<br />
<br />
<br />
<br />o
<br />
<br />INFILTRATION
<br />
<br />
<br />FOR SLAB ON GRADE USE PERIMETER LENGTH AROUND CONDITIONED FLOOR. FOR RAISED FLOORS USE AREA OVER UNCONDITIONED SPACE.
<br />Y
<br />2S 2.Ck , '1.. <j "2.-
<br />USE TOTAL FLOOR AREA OF CONDITIONED SPACE,
<br />Y
<br />ISO,b20.$"' I I
<br />,
<br />
<br />10.9
<br />
<br />TOTAL COMPONENT BASE SUMMER POINT;
<br />
<br />COOLING BASE COOLING TOTAL BASE
<br />SYSTEM x SUMMER
<br />SYSTEM MULTIPLIER POINTS
<br />
<br />.37 0,(,,20.:>
<br />
<br />HOT
<br />WATER
<br />SYSTEM
<br />
<br />
<br />=
<br />
<br />BASE
<br />COOLING
<br />POINTS
<br /><9, '129,:-
<br />
<br />y
<br />14~: 25':. 9
<br />
<br />AS.BUll T
<br />= COOLING
<br />POINTS
<br />/~/&7. g
<br />
<br />BASE
<br />HOT WATER
<br />POINTS
<br />Ii '::;OC)
<br />
<br />AS.BUll T
<br />HOT WATER x
<br />SYSTEM DESC.
<br />2%
<br />
<br />AS-BUilT
<br />= HOT WATER
<br />POINTS
<br />0,(.,,/7, '2-
<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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