Laserfiche WebLink
<br />SUMMER CALCULATIONS <br /> <br /> I BASE I BASE GLASS I SINGLE <br /> GLASS x SUMMER = SUMMER AREA x SUMMER P <br /> AREA PT. MUL T. POINTS - CLEAR <br /> N rtl~ "- 82.2 vq. LI N 'I~ )( 51.0 <br /> NE 82.2 NE 77.2 <br /> E 82.2 --. E 109.2 <br /> SE 82.2 SE - 112.9 <br /> S '1)\ ^ 82.2 LAI.L.. S l~ I X 100.2 <br /> SW 82.2 SW 112.9 <br /> W 82.2 W 109.2 <br /> NW 82.2 NW 77.2 <br />U) H' 82.2 H' 367.7 <br />U) <br />:5 <br />Cl <br /> - . <br /> 1..1 ^.J.'+ <br /> T T <br /> .151 COND ! TOTAL I BASE T BASE I ADJUSTED <br /> FLOOR GLASS I ADJUST. i GLASS I GLASS <br /> AREA T AREA FACTOR SUBIOIAJ. B~SE SP <br /> .15 I IU."")v I I .,\.tI II.ur I I '" t'Ll"'t I I .1 '1.5 .1 <br /> 'f <br /> COMPONENT J BASE SUMMER I BASE COM <br /> DESCRIPTION AREA x POINT. MUL T. = SUMMER DESC <br /> POINTS <br /> EXTERIOR IO'1U 1.0 IU'1U I:. YT <br />..... ADJACENT .7 !~f <br />..... <br />oct <br />3= <br /> <br />Gv <br /> <br />II <br /> <br />.PANE <br />OINT MUL T. <br />TINf2 <br />51.5 <br />76.6 <br />107.1 <br />110.3 <br />98.3 <br />110.3 <br />107.1 <br />76.6 <br />303.3 <br /> <br />DOUBLE.PANE <br />OR SUMMER POINT MUL T. <br />CLEAR TINf2 <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 /> <br /> <br />T <br /><-tV <br /> <br />~o <br /> <br />rn EXTERIOR <br />8 ADJACENT <br /> <br />4.8 <br />1.6 <br /> <br />T <br /> <br />T <br /> <br />Cl UNDER ATTIC I U.'5lL:> .6 l.J ,,:)..,.. " -, 1~1l) U <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 />a: <br />o <br />o <br />..... <br />u.. <br /> <br /> <br />~ <br />2.. 2.. lZ2J <br />. I <br /> <br />-31.8 <br />-3.43 <br /> <br /> <br /> <br />INFILTRATION <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 />T <br /> <br /> <br />TOTAL COMPONENT BASE SUMMER POINT~ <br /> <br />BASE COOLING TOTAL BASE <br />SYSTEM x SUMMER <br />MULTIPLIER POINTS <br />.37 0 <br /> <br />= <br /> <br />BASE <br />COOLING <br />POINTS <br />8:2.01 <br /> <br />COOLING <br />SYSTEM <br /> <br />HOT <br />WATER <br />SYSTEM <br /> <br />NUMBER <br />OF <br />BEDROOMS <br />2 <br /> <br />10 ~e" <br /> <br />1H = HORIZONTAL GLASS~SKYLlGHTS) <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 />