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<br />SUMMER CALCULATIONS <br /> <br />I BASE I <br />GLASS x SUMMER <br />AREA PT. MUL T. <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 /> ... <br /> COMPONENT I BASE SUMMER T BASE COM PONENT <br /> DESCRIPTION AREA x POINT. MUL T. = SUMMER DESC RIPTION <br /> POINTS <br /> EXTERIOR ~l-, 1.0 lIZI <br />....I ADJACENT /.: -1 C;' .7 Zlt~ <br />....I <br /><C Ai)., Ac"...7 'Of.J I "l 7b. <br />;= <br /> K__ . ) .... '-' II t'') c.. '''1 <br /> T <br />rn EXTERIOR I i-{'1.v- I 4.8 OJDI I I <br />1.6 ... <br />8 ADJACENT <br />c <br /> <br />N <br />NE <br />E <br />SE <br />S <br />SW <br />W <br />NW <br />en H1 <br />en <br />:3 <br />Cl <br /> <br />11 [, 1- <br />. <br /> <br />uc; ..9' <br /> <br />,,(. I <br />'" <br /> <br />.l COND <br />FLOOR <br />.15 i AREA <br />.15 I P,lAb <br /> <br />'f' <br />1 TOTAL <br />[- GLASS <br />AREA <br />I 1a..1 <br /> <br />BASE <br />SUMMER <br />POINTS <br /> <br />GLASS .l <br />AREA x <br /> <br />SINGLE-PANE <br />SUMMER POINT MUL T. <br />CLEAR TINT2 <br />51.0 51.5 <br />n,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 />n,2 76.6 <br />367.7 303.3 <br />I <br />I <br /> <br />I ADJUSTED <br />= GLASS <br />T BASE SP <br />I ') D a--f r., <br /> <br />DOUBLE-PANE <br />OR SUMMER POINT MUL T. <br />CLEAR TINT2 <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 />">l (H~ <br /> <br />N <br />NE <br />E <br />SE <br />S <br />SW <br />W <br />NW <br />H1 <br /> <br />7'. ( <br /> <br /> <br />T <br />~O) <br /> <br />..,. ~ ~I.+ <br /> <br />db. 1- <br />LIO<7 <br /> <br />~:J,v <br /> <br />1f~r <br /> <br />Z\~'" <br /> <br />^"T <br />I BASE I BASE <br />= ADJUST. x GLASS <br />T FACTOR.. j..- SUBTOTAl. <br />I . 1-;"17" j ~ n9, ., <br /> <br />T <br /> <br />T <br /> <br />Cl UNDER ATTIC I.~ (, ~ .6 ~z.. /2 f-,. C ,(, ~7_ <br />z OR SINGLE .6 <br />::::i <br />W ASSEMBLY <br />(,,) 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 />....I <br />u.. <br /> <br /> <br />-31.8 <br />-3.43 <br /> <br />INFILTRATION <br /> <br />FOR SLAB ON GRADE USE PERIMETER LENGTH AROUND CONDITIONED FLOOR. FOR RAISED FLOORS USE AREA OVER UNCONDITIONED SPACE. <br />T <br /> <br />TOTAL COMPONENT BASE SUMMER POINT~ <br /> <br />COOLING BASE COOLING TOTAL BASE <br />SYSTEM x SUMMER <br />SYSTEM MULTIPLIER POINTS <br />.37 d- J 'p <br /> <br />HOT <br />WATER <br />SYSTEM <br /> <br />NUMBER <br />OF <br />BEDROOMS <br />.J- <br /> <br />10.9 <br /> <br />T <br />I It;{, tit> I I <br /> <br /> <br />= <br /> <br />T . <br />tQ 1'7'( <br /> <br />AS-BUILT <br />HOT WATER <br />SYSTEM DESC. <br /> <br />AS-BUILT <br />COOLING <br />POINTS <br />(90 <br /> <br />NUMBER <br />OF x <br />BEDROOMS <br />.:)... <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 />