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<br />- WINtER CALCULATIONS <br /> <br /> . <br /> GLASS I BASE I BASE GLASS ~ SINGLE <br /> WINTER WINTER WINTER-PO <br /> AREA PT. MUL T. POINTS, AREA CLEAR <br /> N lIC1 -3.4 ( - -z.l.:t. It,) )UM.~ I~ <br /> NE -3.4 - N 'Y1 9.6 <br /> E ~l -3,4 l- 1'1 3.4 ) NE 7.4 <br /> SE -3.4 , E ~ . ( - 2.2 <br /> S V) -3.4 , L.<--'r 0 \ SE -10.3 <br /> SW -3.4 "- '" S 1&>0 -10.9 <br /> W L"l -3.4 f .2oJ,4 ) SW -10.3 <br /> NW -3.4 \..... W [" \ - 2.2 <br /> H' -3,4 NW 7.4 <br />~ H' -32.1 <br />:5 <br />" <br /> ,.. .,. <br /> .151 COND 1 TOTAL 1 BASE 1 BASE I ADJUSTED <br /> FLOOR GLASS = ADJUST. x GLASS = GLASS <br /> AREA i AREA I FACTOR if" SUBTOTAl. T.... BASE WP <br /> .15 12~5~ 1:/3.1 1\\4\ { CJ.... ....,A \ a-I 7.1)<", .~ <br /> ......... .,. <br /> COMPONENT 1 BASE WINTER l BASE COM <br /> DESCRIPTION AREA x POINT. MULT. = WINTER DESC <br /> POINTS <br /> EXTERIOR 1\"63 1.1 \ ~\,3 1'- . I <br />.... ADJACENT 22.-4 1.8 Ao~."L '(2, <br />.... <br />c <br />. <br /> <br />-PANE DOUBLE-PANE <br />INT LI OR WINTER POINT MUL T. <br />- T1Nf2 CLEAR T1Nf2 <br /> <br />9.6 <br />7.3 <br />- 2.0 <br />.9.7 <br />-10.2 <br />- 9.7 <br />- 2.0 <br />7.3 <br />-28.0 <br /> <br />5.6 <br />3.5 <br />- 5.6 <br />-13.4 <br />-14.0 <br />-13,4 <br />- 5.6 <br />- 3.5 <br />-27.0 <br /> <br />6.1 <br />4.2 <br />- 3.6 <br />-10.4 <br />-11.0 <br />-10.4 <br />- 3.6 <br />4.2 <br />-21.5 <br /> <br /> <br /> <br />rn EXTERIOR <br />8 ADJACENT <br /> <br />l' <br />\0"2.0 <br />1)1..0 <br /> <br />II j';~J <br /> <br />"2D <br />13 <br /> <br />5.1 <br />4.0 <br /> <br />l' <br /> <br />l' <br /> <br />.0 <br /> <br />l' <br /> <br />(g~1. ~ <br /> <br />l' <br /> <br />~ <br /> <br />~ ~.'~ <br /> <br /> J <br /> SLAB (PERIMmR Z-IL.. -1.9 r~o1.,~ ) I {L-L::> 2. , -z.. L,S ~~O.O <br />a: RAISED (AREA) - .2 , I <br />0 <br />0 I <br />Ii FOR SLAB ON GRADE USE PERIMETER LENGTH AROUND CONDITIONED FLOOR. FOR RAISED FLOORS USE AREA OVER UNCONDITIONED SPACE, <br /> <br />CJ UNDER ATTIC L :'''5 ~ .6 ' I,Ll \\,'g fL-30 ? 'l;h '~ ,L., , 141 \. ~ <br />z OR SINGLE ,6 <br />::J ASSEMBLY .6 <br />iU <br />(,) BASE CEILING AREA EQUALS FLOOR AREA DIRECTLY UNDER CEILING, AS-BUILT CEILING AREA EQUALS ACTUAL CEILING SQUARE FOOTAGE, <br /> <br />INAL TRA T10N <br /> <br /> <br />4,1 <br /> <br /> <br />l' <br /> <br /> <br />l' <br />11~15'11, I <br />, <br /> <br />.... <br />j! <br />~ <br /> <br />TOTAL COMPONENT BASE WINTER POINT~ <br /> <br />BASE HEATING TOTAL BASE <br />HEATING SYSTEM x WINTER <br />SYSTEM MULTIPLIER POINTS <br />1.1 1\ 1~I, <; <br />l' <br />BASE <br />HEATING <br />POINTS <br /> <br />BASE <br />HEATING <br />POINTS <br />l"Z I L.llc4 .'l <br /> <br />I I TOTAL COMPONENT BASE WINTER POINTS <br />,.. <br />TOTAL <br />AS-BUILT <br />SUM. PTS. <br />13 5otl, I <br /> <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 />