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<br />SUMMER CALCULATIONS <br /> <br />1 BASE I <br />GLASS x SUMMER = <br />AREA PT. MULT, <br />'3 ~ 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 /> <br />N <br />NE <br />E <br />SE <br />S <br />SW <br />W <br />NW <br />H1 <br />~W <br />~ <br />CJ <br /> <br />~ <br /> <br />\5 <br /> <br />~~ <br /> <br />~u. <br /> <br />BASE <br />SUMMER <br />POINTS <br />\5$' 6 <br /> <br />\"3(0 ~ <br /> <br />~('I)~\ <br /> <br />lac::. l'.~ <br /> <br />T <br />I COND I TOTAL I BASE <br />.15 i F;~~: i ~~ES; i ~~~~t~ <br />.15 I I" ~ I c,l.~ ~ I I 'lD <br /> <br />COMPONENT <br />DESCRIPTION <br /> <br />EXTERIOR <br />:::l ADJACENT <br />cc <br />3= <br /> <br />rn EXTERIOR <br />8 ADJACENT <br />Q <br /> <br />AREA <br /> <br />I BASE SUMMER I <br />x POINT, MUL T. = <br /> <br />1.0 <br />.7 <br /> <br />N <br />NE <br />E <br />SE <br />S <br />SW <br />W <br />NW <br />Hl <br />W <br /> <br />GLASS I <br />AREA x <br /> <br />3~ <br /> <br />SINGLE-PANE <br />SUMMER POINT MUL T, <br />CLEAR T1N'f <br />51.0 51.5 <br />77.2 76,6 <br />109,2 107.1 <br />112.9 110,3 <br />100.2 98.3 <br />112.9 110,3 <br />109.2 107,1 <br />77,2 76.6 <br />367,7 303.3 <br />I <:I~, '::L. <br /> <br />DOUBLE-PANE <br />OR SUMMER POINT MUL T, <br />CLEAR T1N'f <br />47.8 43.5 <br />71.7 63.4 <br />102.0 87.3 <br />104.1 89.4 <br />90,9 78.8 <br />104.1 89.4 <br />102.0 87,3 <br />71.7 63.4 <br />324,6 238.1 <br /> <br /> <br /> <br />I ADJUSTED <br />= GLASS <br />T BASE SP <br />I IS~\"::> <br /> <br />COM <br />DESC <br />F:X <br />~~, <br /> <br />II~~ <br /> <br />s-,. <br />~ <br /> <br />%.1, <br /> <br />4.K <br />l, (0 <br /> <br />'f <br /> <br />~~ <br /> <br />\4~ <br />\' llb <br /> <br />I ~\ <br /> <br />4.8 <br />1.6 <br /> <br />4-to <br />\~ <br />31 <br /> <br />)$"'4 <br /> <br />~ <br />I BASE <br />x GLASS <br />T SUBTOTAL <br />I , "). ool..~ <br /> <br />T <br /> <br />BASE <br />SUMMER <br />POINTS <br />, \J NIl:: <br />\~ <br /> <br />'f <br /> <br />\~4 <br /> <br />'f <br /> <br />'f <br /> <br />CJ UNDER ATTIC IL-K .6 \ ~ ;)... c"'\ (':~'L. \ l/l\Q)' \~ (n ~ ~") <br />z OR SINGLE .6 <br />::i <br />W ASSEMBLY <br />(.J BASE CEILING AREA EQUALS FLOOR AREA DIRECTLY UNDER CEILING. AS-BUILT CEILING AREA EQUALS ACTUAL CEILING SQUARE FOOTAGE. <br /> <br /> <br />a: <br />o <br />o <br />...J <br />U. <br /> <br />INFILTRATION <br /> <br />-31,8 <br />-3.43 <br /> <br /> <br />10.9 <br /> <br />FOR SLAB ON GRADE USE PERIMETER LENGTH AROUND CONDITIONED FLOOR FOR RAISED FLOORS USE AREA OVER UNCONDITIONED SPACE. <br />'f <br /> <br />TOTAL COMPONENT BASE SUMMER POINT: <br /> <br />COOLING BASE COOLING TOTAL BASE <br />SYSTEM x SUMMER = <br />SYSTEM MULTIPLIER POINTS <br />,37 30 \"3 '3 <br /> <br />HOT <br />WATER <br />SYSTEM <br /> <br /> <br />BASE <br />x HOT WATER <br />MULTIPLIER <br />3527 <br /> <br />BASE <br />= HOT WATER <br />POINTS <br />SS'I <br /> <br />1H = 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- <br />