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<br />WINTER CALCULATIONS <br /> <br />I BASE I <br />GLASS x WINTER = <br />AREA PT. MUL T. <br />? G -3.4 <br />.3.4 <br />1 4- .3.4 <br />.3.4 <br />5:5 -3.4 <br />-3.4 <br />.3.4 <br />-3.4 <br />.3.4 <br /> <br />CLIMATE ZONES 4 5 6 <br /> <br />BASE <br />WINTER <br />POINTS <br />- 'z5'2S <br /> <br />GLASS J. <br />AREA x <br />'L. G <br /> <br />SINGLE-PANE <br />WINTER POINT MUL T. <br />CLE ,8 TIN'f <br />(9, V 9.6 <br />A: 7,3 <br />(. 2.2,/ - 2.0 <br />- j'O.a. . 9.7 <br />(-10.s) -10.2 <br />.10.3 . 9.7 <br />- 2.2 - 2.0 <br />7,4 7,3 <br />-32.1 -28,0 <br /> <br />OIR DOUBLE-PANE <br />WINTER POINT MUL T. <br />CLEAR TIN'f <br />5.6 6,1 <br />3,5 4,2 <br />.5,6 - 3.6 <br />-13.4 -10.4 <br />-14.0 -11.0 <br />-13.4 -10.4 <br />- 5.6 - 3,6 <br />3.5 4.2 <br />-27.0 -21.5 <br /> <br />J. WINTER I <br />x OVERHANG = <br />FACTOR (6A.l0) <br />\,7 <br /> <br />AS-BUILT <br />GLASS <br />WIN, PTS <br /> <br />N <br />NE <br />E <br />SE <br />S <br />SW <br />W <br />NW <br />H' <br /> <br />N <br />NE <br />E <br />SE <br />S <br />SW <br />W <br />NW <br />H' <br /> <br />...,C)::") <br /> <br />- Lfi? <br />-\ g I <br /> <br />14- <br />55 <br /> <br />" \ <br /> <br />"", 2- <br /> <br />''1 c <br /> <br />-~ ,"1 t) <br /> <br /><J) <br /><J) <br />~ <br />CJ <br /> <br /> <br />'Y <br />AS-BUILT <br />GLASS <br />SUBTOTAL <br />_ r.l; I <br />'Y <br />AS-BUILT <br />WINTER <br />POINTS <br />c)~-'! .~. <br />''''.;.; I <br /> <br />.15 <br /> <br /> COMPONENT 1 BASE WINTER I BASE <br /> AREA WINTER <br /> DESCRIPTION x POINT. MUL T. = POINTS <br /> EXTERIOR CJ II 1.1 I 0 O'l.c <br />-J ADJACENT 32'S 1.8 I':: 'i? ( <br />-J <br />c( <br />~ <br /> <br /> <br />WINTER <br />x POINT. MULT. <br />6A.l1 THRU 6A.15 <br />L''l <br /> <br />COMPONENT <br />DESCRIPTION <br /> <br />~ DC <br />, \\1 E: <br /> <br />AREA <br /> <br /> 'Y 'Y <br />rn EXTERIOR ~~ 5.1 lo'l. I I T"J<;~C~I ?CJ Ef.\ ~ loc <br />4.0 ,7- ~" 1''2. <br />g ADJACENT L I. () <br /> 'Y 'Y <br /> <br />CJ UNDER ATTIC .1 "Z q'~ .6 1/(.., 7< - I Cf I'L'f'< \-0 1'/ (l"? <br />z OR SINGLE ,6 <br />::J <br />W ASSEMBLY .6 <br />(.) BASE CEILING AREA EQUALS FLOOR AREA DIRECTLY UNDER CEILING, AS.BUIL T CEILING AREA EQUALS ACTUAL CEILING SQUARE FOOTAGE. <br /> <br />'Y <br /> <br />a: SLAB (PERIMETER IGS -1.9 - :, \ Lj.. c::: -0- 6-: I G'S '2'5 '--t- i '( <br />0 RAISED (AREA) - .2 <br />0 <br />-J <br />"'- <br /> FOR SLAB ON GRADE USE PERIMETER LENGTH AROUND CONDITIONED FLOOR FOR RAISED FLOORS USE AREA OVER UNCONDITIONED SPACE <br /> <br />'Y <br /> <br />INFILTRATION <br /> <br /> <br /> <br />4.1 <br /> <br />TOTAL COMPONENT BASE WINTER POINTS <br />'Y'~'- 0 <br />TOTAL BASE <br />HEATING x WINTER <br />SYSTEM POINTS <br />')00 <br /> <br />. 'Y <br />'I r, .." <br /> <br />I I <br /> <br />TOTAL COMPONENT AS-BUILT WINTER POINTS <br />'Y"ooo ou 0 '0' 0_ <br /> <br />TOTAL <br />AS-BUILT x x x = <br />WIN. PTS, <br />Cf39\ <br /> <br /> <br />BASE <br />HEATING <br />POINTS <br />,3'0 <br /> <br />AS-BUILT <br />HEATING <br />POINTS <br />- ,-r- <br />~ O~j (.., <br /> <br />-J <br />c( <br />.... <br />o <br />.... <br /> <br />TOTAL <br />AS-BUILT <br />POINTS <br />Enter on P. 1 <br />\, .T:'\ <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 />.4. <br />