   ‘’Ê,(<(A¨Q¨R¨RW¨D¨IW¨S¨RF¨TC¨N¤IC¨DM¨IN¨A¤NL¨WW¤DW¤D¤DD¤HP¤FU¤ÆÇTEMÐÉKÄËÊIÔPËÁOÔDÔQ±TÑQ²NØIØC×N×È×RÍÎCÄÔD×HÏHÉTÙRÉNÔCÈÐCÉFÉTÆDÉTÁØDÄE±E²FÔPÃEÒCÏM±M²MÓPÂ A     A*   AT   A~   Aö   A  A\  Až  A¶  	Î0 2 A
   A$  AD  V   AW  {  |   }   ~   ’   “  
  @     @     @3     @     @     @     @     @u     @     AU    @      @e     !       "       #       $@     %@     &A     '@     (@$     )@H     *?    +       ,       -       .       /       0       1       2       3       4       5       6       7       8       9       :       ;       <       =       >       ?       @       A       B       C       D       E       F      d 1@‚          1 } HOME ENERGY PROGRAMn 	 	 – A€    ª ##@    @          K:´ bb€9@    ,9@    ,‚9@    ,ƒ9@    <@    ,„9@    ,…9@    <@    ,†9@    ,¾ mm‡9@    ,ˆ9@    ,‰;@    $@    ,Š9@    ,‹9@    <@    ,Œ9@    ,;@    ,Ž9@    ,¿ GG;@    ,;@    ,‘;@    ,’;@     ,“;@    ,”;@    ,È  WINDOW R VALUES›Ò 1.01,2.22,1.815,3.155›Ü .909,1.667,1.437,2.137›æ .909,2,1.724,2.564›ð  DOOR R VALUES›ú .41,.75,.95,1.1›"" FLOOR R VALUES AND TEMP CORR›3.2,0,3.2,30,1.23,0›## CEILING INSULATION R PER INCH›"3.5,3,2.5,4.5,5.5›,D6‰7@    ,.WINDOWS/6‰7@    ,.DOORSD6‰7@!    ,.WALLS626‰7@1    ,.CEILING26‰7@A    ,.FLOORS *;l6Ž8@    ,-@    -6Ž8@    ,-@    B6Ž8@    ,-@    W6Ž8@    ,-@    l6Ž8@    ,-@    @ DUCT MULTIPLIERS›J%%.2,.15,.1,.15,.1,.05,.1,.05,.05›T%%.2,.15,.1,.1,.1,.05,.05,.05,.05›^## AIR CHANGES PER FOOT OF CRACK›h39,74,52,24,32,33›r READ WINDOW R VALUES›|•-@    @    †–-@    @    "—6ƒ8–<•,-—š	–	•¤ READ DOOR R VALUES›®(˜-@    @    "—$6„8˜,-—(	˜¸$$ READ FLOOR R VAL AND TEMP CORR›Â5˜-@    @    "—$6‡8˜,-—("—16ˆ8˜,-—5	˜Ì   READ INSULATION R PER INCH›Ö(˜-@    @    "—$6Š8˜,-—(	˜à READ DUCT MULTIPERS›ê™-@    @    ôš-@    @    þ›-@    @    "—6‹8™<›%š$@    ,-—	›	š	™'' READ AIR CHANGES FOR INFILTRATION›&˜-@    @    0›-@    @    :"—6…8˜<›,-—D	›	˜N INSIDE DESIGN TEMP›X6œ-@u    6-@    Y%(	(%(PRESS ÒÅÔÕÒÎ TO BEGIN:])@    žb,, #}WINTER OUTSIDE DESIGN TEMPERATURElŸv6 -œ&Ÿ€A     WINDOWS›ŠA      DOORS›”A0     WALLS›žA@     CEILING›¨AP     FLOOR›²AR     DUCTS›¼A`     REPORTS RESULTS›Æ6¡-¢' Ð++ "DO YOU WISH TO MAKE IMPROVEMENTS?:Ú)@    ž6.>:ž,ä6š-@    4NA	™   î.* !}DO YOU WISH TO IMPROVE WINDOWS.ø4YA    ,( }DO YOU WISH TO IMPROVE DOORS,4YA     ,( }DO YOU WISH TO IMPROVE WALLS, 4YA0    *.* !}DO YOU WISH TO IMPROVE CEILING.44YA@    >-)  }DO YOW WISH TO IMPROVE FLOORS-H4YAP    R,( }DO YOU WISH TO IMPROVE DUCTS,\4YAR    fA`     REPORT RESULTS›p6£-¢' z$ $ HIT RETURN TO GET SAVINGS„)@    žŽ+Ap    + CALCULATE A YEAR OF SAVINGS›çè WINDOW SUBROUTINE›ò#6˜-@    #!@    A@   ü.. %}HOW MANY DIFFERENT TYPES OF WINDOWS¤96¥-@    6¦-      *6€8˜,-      968˜,-      &&  ARE WINDOWS WEATHERSTRIPPED$.4Y6¥-@    8›-@    ¤B# SIZE ›#!@    A`   L NUMBER OF WINDOWSV§`!! SIZE OF WINDOWS (H,W) FTj		¨©t6†8›,-¨$©$§~6¦-¦%+¨%©,$§ˆ6€8˜,-€8˜,%†8›,’ TYPE OF WINDOWSœ 1. SINGLE GLASS¦ 2. SINGLE + STORM° 3. DOUBLE PANEº%% 4. TRIPLE (DOUBLE + STORM)Ä–Î TYPE OF WINDOW FRAMEØ 
1. WOODâ 2. METAL OR JALOUSEì 3. FIXEDö• 6ª-ƒ8–<•,
68˜,-8˜,%†8›,$ 'ª6‚8˜,-ª }(	›26Œ8˜,-?€   $ $…8¥<•,$¦<$Ð DOORS SUBROUTINE›Ú#6˜-@    #!@    A €   ä }NUMBER OF DOORSî«ø SIZE OF DOORS (H,W) FT		¨©6€8˜,-¨$©$«6¬-+¨%©,$«  TYPE OF DOORS* 
1. WOOD4 2. WOOD + STORM>!! 3. METAL URETHANE COREH$$ 4. METAL POLYSTYRENE CORER­\6‚8˜,-„8­,f68˜,-€8˜,$ '‚8˜,p6®-A8   z## ARE DOORS WEATHERSTRIPPED„Ž4Y6®-@i    ˜6Œ8˜,-?€   $ $®$¬¢$¸ WALLS SUBROUTINE›Â'6˜-@    6¯-?    '6°-?h    Ì## }TYPE OF WALL CONSTRUCTIONÖ 1. BRICK VENEERà 2. STONEê 3. WOOD SHINGLESô 4. STUCCOþ 5. MASONRY BLOCK 	6. LOG 7. OTHER:,, $ENTER CALCULATED R VALUE DIRERTLY&,, $WHEN ASKED FOR INSULATION R VALUE0±:??±A1@   A1P   A1`   A1p   A1€   A1   A2    D)6ª-?     $@P   !
A2   ) BRICK›N)6ª-?    $@    !
A2   ) STONE›X 6ª-?‡    
A2     WOOD›b*6ª-?     $@    !
A2   * STUCCO›l#6ª-@    
A2   # MASONRY›v'6ª-@%   $@    !
A2   ' LOG›€6ª-       OTHER›Š.. &FOR LIST OF R VALUES FOR INSULATION”** "ENTER -1 FOR INSULATION R VALUEž   INSULATION R VALUE¨²²#²       A5    #
A20   ¼&6‚8˜,-¯%ª%²%°&!@    A3@   Æ"" HOW MANY STORIES IN HOUSEÐ³Ú(( WHAT IS THE CEILING HEIGHT (FT)ä´î%% WHAT IS TOTAL PERIMETER (FT)øµ&&6€8˜,-³$´$µ&€8@    ,&€8@    ,68˜,-€8˜,$ '‚8˜,$¬!! LIST OF INSULATION R VALUES›¶,, $}LIST OF INSULATION R VALUES, WALLSÀ** "NO INSULATION (AIR) = .94Ê((  BATT INSULATION IN WALL = 11Ô)) !HALF INCH ASPHALT BOARD = 2.4Þ** "1/2 IN GYPSUM OR PLASTER = 1.39è** "1/4 IN WOOD FIBER BOARD = 1.12ò** "FIR OR PINE SHEATHING = 1.92ü** "3/4 IN PLYWOOD PANELS = 1.88** "1/2 IN PLYWOOD = 1.57	 	 $  CEILING ROUTINE›ª6˜-@    ´/6°-?a    6¯-?a    /!@    A@`   ¾&& }WHAT IS TOTAL CEILING AREAÈ OF THE HOUSEÒ—6€8˜,-—Ü11 (HOW MANY INCHES OF INSULATION IN CEILINGæ¶ð## TYPE OF INSULATING MATERIALú   1. FIBERGLASS   2. MINERAL WOOL##   3. VERMICULITE OR PERLITE   4. CELLULOSE FIBER"   5. U-F FOAM,­66ª-¶$Š8­,@6‚8˜,-¯%ª%°J68˜,-€8˜,$ '‚8˜,T$ˆ FLOOR ROUTINE›’#6˜-@    #!@    AP@   œ## }WHAT IS TOTAL FLOOR AREA¦—6€8˜,-—°.. %HOW MANY ITEMS OF INSULATION IN FLOORº·!@    AQ   Ä TYPE OF FOUNDATIONÎ 1. OPEN CRAWLSPACEØ-- %2. ENCLOSED CRAWLSPACE OR BASEMENTâ 3. CONCRETE SLABì¸ö6‚8˜,-¯%·$@   %‡8¸,%° 68˜,-€8˜,$+ &ˆ8¸,,'‚8˜,
$P DUCTS›Z6¹-?    d¸"@    6™-@    $n$$ IS YOUR DUCTWORK INSULATEDx‘!@    AS   ‚   LOCATION OF HEAT DUCTS:Œ"" 1. ATTIC OR CRAWLSPACE–%% 2. UNCONDITIONED BASEMENT  3. IN SLAB FLOORª'' 4. INSIDE CONDITIONED SPACE´™¾$p WRITE A REPORT›z   }HEAT LOSS EVALUATION„ 	 6¢-      Ž,,  ITEM AREA R-VALUE	HEAT LOSS˜  SQ.FT. BTU/HR ¢˜-@    @    ¬**6€8˜,-P:€8˜,$A    %?P    ,'A    ¶**6‚8˜,-P:‚8˜,$A    %?P    ,'A    À68˜,-P:8˜,%?P    ,ÊBB ‰7˜$@    &@	    <+˜&@    ,$@    %Ž8˜,,€8˜,‚8˜,8˜,Ô6º-º%€8˜,6¢-¢%8˜,Þ	˜è PRINT INFILTRATION LOSS›òAA INFILITRATIONP:+Œ8@    ,%Œ8@    ,,'@    %?P    ,ü))6¢-¢%+Œ8@    ,%Œ8@    ,,'@     CALCULATE DUCT LOSS›26»-¢'+€8@    ,$´$³,&6›-@    26š-@    » @E    6š-@    $» @5    6š-@    .##6¹-?    %?    $+@    &š,8‘4N*™ @    Ab@   =%™!@    6¹-      %
Ab@   BŸ @    6›-@    LŸ       6›-@    V6¹-‹8™<›%š$@    ,`"" 	DUCT LOSSP:¹$¢%?P    ,j6¢-¢%¢$¹t   (~  TOTAL  P:º,P:¢,ˆ ’ DESIGN CONDITIONS:œ!! OUTSIDE DESIGN TEMP:Ÿ¦!! INSIDE DESIGN TEMP:œ°!! TEMPERATURE DIFFERENCE: º$X$$ FIND SAVINGS USING DEGREE-DAYS›b 6¼-Ai	    6’.
LANSING MId6½-P:¡$¼$@$    ,f6¾-P:£$¼$@$    ,v"" }TYPE OF HEATING FUEL USED€   1. ELECTRICITYŠ   2. NATURAL GAS”   3. FUEL OILž¿6À-?U    ¨¿Aq    Ar    As    ²
Ap0   ¼ ELECTRICITY›Æ$$ IS HEATING UNIT A HEAT PUMPÐ“6Á-A4   Ú“0YAqP   ä1 ENTER EER OF HEAT PUMP#Á16Á-Á$A    î- AVERAGE $ COST PER KWH#Â-6”.KWHø6½-P:½'Á%?P    ,ý6Ã-½$Â6¾-P:¾'Á%?P    ,6Ä-¾$Â6Å-Ã&Ä
At      NATURAL GAS›*40 'AVERAGE $ COST PER THERM OF NATURAL GAS4Â4  6½-P:½'+B0   $À,%?P    ,96Ã-½$Â>  6¾-P:¾'+B0   $À,%?P    ,C6Ä-¾$ÂH6Å-Ã&ÄR6”.THERMS
At    „ FUEL OIL›Ž2. %AVERAGE $ COST PER GALLON OF FUEL OIL2Â˜  6¿-P:½'+B€   $À,%?P    ,6Ã-½$Â¢  6¾-P:¾'+B€   $À,%?P    ,§6Ä-¾$Â¬6Å-Ã&Ä6”.GALLONSè GIVE RESULTS›ò6Ã-P:Ã$A    ,'A    ü6Ä-P:Ä$A    ,'A    46Å-P:Å$A    ,'A    (Å"      46Å-=    /+ "TOTAL $ COST OF YOUR IMPROVEMENTS/¶6Æ-P:¶'Å$A    ,'A    $   REPORT SAVINGS AND PAYBACK›.$$ }ANALYSIS OF IMPROVEMENTS8	 	 B ENERGY NEEDEDL ORIGINAL HOUSE ½ ”V IMPROVE HOUSE ¾ ”` 	(j SAVINGS½&¾ ”t ~ OPER. COSTSˆ ORIGINAL HOUSE$Ã’ IMPROVED HOUSE$Äœ 	(¦ SAVINGS$Å°  PAYBACK Æ YEARSº	 	 Ä// 'ABOVE IS BASED ON ONE YEAR OF OPERATIONÎ IN ’Ø$@ DRAW HOUSE›J 	   T"@…    @    "(     	^&@…    @    &(          
h&@…    @    &(					r,@…    @    ,(     
|,@…    @    ,(™™    .@…    @    .(š$ €D:ENERGY