04243 (SFD) Title 24HERZBERGER ENGINEERING
CALIFORNIA -THEATRE BLDG.
1122 4TH. AVE. SUITE 702
SAN DIEGO C092101
(619)239-4636~ (619)563-5176
SEPT 23 1986
ENERGY ANALYSIS
FOR
DESERET HOMES
1
TITLE 24 NOTES
-----------------
1. Doors and windows fully weatherstripped.
2. Openings caulked and sealed, i.e. around
joints in windows, wall sole plates, op-
enings for utility piping and wiring,etc.
3. Manufactured doors and windows meet appl-
icable ANSI or NWMA standards and are so
labeled.
4. Back draft or automatic dampers on exhaust
fan and other exhaust systems.
5. Masonry and factory-built.fireplaces must
have closeable metal or glass doors cove-
ring firebox openings. Combustion air in-
take ducts are requ:Lred(6 sq.in. min.)
with dampers if the fireplace is on an
exterior wall. Flue dampers are required.
(Show all of the above on plans)
6. Ductwork must comply with Chapter 10, UMC.
7. Provide thermostat that has automatic set-
back capability for 2 periods during 24
hours. (N/A for heat pumps)
8. Indicate' that water heaters) is (are) on
the C.E.C. approved list.
9. Insulation wrappin on exterior of storage
type water heater fR-12 minimum or factory
installed insulation plus additional to
total R-16.),Insulation wrapping on first
five feet of piping in unconditioned space.
.(R-3 minimum)
10 Indicate.showerhead and faucets are on C.E.
C. approved list.
LIGHTING:
General lighting ii%"kitchens and bathrooms must
provide 25 lumens per -watt or more(e.g., Fluo-
rescent).
Exceptions:
-----------
Kitchen counter or sink; dining table; bathroom
mirror luminaires which are the only lighting.
T
Regular Window GLASS
(asaacsaL average aa)
sl:&la &Lasias
d oubla SL . at
tr41 a &L42d a�
Gust Plascu sk7,L iht
?lBLi 2-3
SUDMM COMIC=m
for
CLAZ= saran T2ZA=U=
Coofftelfat
0.70
0.38
0.48
0.99
Iasdd a Dario ROUST Shade 0.31
Draw
Z"U4 Dark TWMC M ZMA 0.73
TsLl7 Draw
Clear 'PZaat� �� Sk7ii8ht 0.61
w1ch TraaaLument Du tsar
'assstraCSoa Tabria Cartaim 0.38
Darla `tray
3tavasa.Comtvrt Sereea
TramaLaaeat (Dada - '34ar
3roase0) Plastte Damad
ss�7ls�ht ,
Osesida-74rulcaL TL%W Tial
East West Sides
Oatsdd a Ciavas lwSas
CAVIL or `.Sad I=
Shad4saraaa-=a134C
30' PralSle=a
zooL shad a-Ba�sLat .
30 • Pr0931a • AngLa
40' Progn a flail e
TranaLaeeat Cttostfd). 0.37 Lalabada-;.a+r Sast 1a81i
Pi aatd c Dan" Sfc7118ht 30• P:'olil a mile
Taa=de WUta Penaclam 3�iad O.J6
FULLY Drawn
Peaastraeloa Tabtic Curtala 0.47
Llghc Cray
Tasida QeaaCisQ 8ltad 0.41
Bata eceive AI=L=m
Oat sad a oesatlan M lcd
Wh1ca-Cream Colored
OaCadd a Teastlaa 3LSad
"mime Type, White
0
Caal�iGieat ....
0.34
0.34
0.]1
0.27
0.13
0.18
0.13
0.0
O.0
O%Cslda !Saveable 0.13
Teaastrstioa Tabric Carta 0.44 Sas'isoaCal Louvers
' Ota'-iihit+
. Adapted trams Design wtCh , Ctmace,
Iaalde Whits iiviles Shade 0.41 Tktor OL17s7. PrlaeeCoa QalverslC7
TuLl7 Dura PresetPrlazacoa, ?leer Jersey, 1963
pp.
' In addlCloa Cc pesZaaeac shadier devices, Cho scavA4Lv! s allow movable shadt=q
avices, avch as operable louvers, movable external shading dsvieda. andC�hC-!!colas Latast:aL ahadfa'co memo Che ahadiaS requirement.
55,
H _ V _ A _ C - DATA F= 0F::Z nL_DG _ PLAN
F= ACTOR TABLE F= OFA BLDG _ I=N L.._AFVA
MINTER OUTSIDE DES. TEMP. = 31.00
MINTER INSIDE DES. TEMP.
= 72.00
LIGHTING WATTS PER S.F. =
2.50
' SUMMER OUTDOOR DES. TEMP. =110.00
SUMMER INDOOR DES. TEMP.
= 75.00
COIL BYPASS FACTOR a
0.20
ATTIC MINTER TEMPERATURE = 50.00
ATTIC SUMMER TEMPERATURE
=125.00
APPARATUS DEM POINT a 55.00
'U' VALUE FOR MOST MALLS = 0.09
'U' FOR SECOND TYPE MALL
= 0.00
ROOF 'U' FACTOR a
0.03
MINTER 'U', MOST GLASS = 0.65
SUMMER 'U', MOST GLASS
= 0.65
DOOR 'U' FACTOR =
0.69
MOST GLASS SOLAR FACTOR = 0.80
MOST GLASS SHADE FACTOR
= 0.80
PPI. CASUAL WORK FACTOR =
0.70
WINTER 'U' 2ND GLASS TYPE = 0.00
SUMMER 'U' 20 GLASS TYPE = 0.00
DOOR INFILTR. C.F.H./S.F. =
1.00
SOLAR FACTOR 2ND GLASS = 0.00
SHADE FACTOR TND GLASS
= 0.00
WINDOW INFILT, C.F.H./S.F.=
0.50
GLASS DIRECTION SOLAR HEAT BTUH/S.F:
NORTH = 33.00 EAST = 43.00
SOUTH =126.00 WEST =100.00
WINDOM INFILT, C.F.H./S.F.=
MALL DIRECTION SOLAR HEAT DEG./S.F:
NORTH = 8.00 EAST = 10.00
SOUTH = 14.00 WEST = 12.00
TOT SF N
E S W
TOT
CL6
SFIA R CFM
BTUH
COOL BTUH HEAT
1 6LA 101
66 75 18
260
ROF
1338! IMF 150
SOLR)
8,629 12,456 (TRANS) 13,123
PPL MAL 411
194 438 243
1286
FLR
0 ADO 0
INT.)
12,633 5,67010SAIR)_ 6,642
4 DOR 0
0 20 0
20
TOT
0 FAN 2,279
TOTALS
39.387 (CAPAC) 19.765X1.3=25,695
RM. SF N
E S
W TOT
CLS
SF AIR CFM
BTUH
COOL BTUH HEAT
1 GLA 101
66 75
18 260
ROF
1338! INF 150
SOLR)
81629 12,456 (TRANS) 130123
PPL MAL 411
194 438
243 1286
FLR
0 ADO 0
INT,)
12,633 5,670 (OSAIR) 6,642
4 DOR 0
0 20
0 20
TOT
1338 FAN 2,279
TOTALS
39,387 (CAPAC) 19,765
H _ V _ A _ C _ DATA F= OFA SL_DG _ PL_Af%Ja
F= ACTOF Z TABLE F= OFZ
BLDG
_ PLANS
CL6
WINTER OUTSIDE DES. TEMP. = 31.00
MINTER INSIDE DES. TEMP.
= 72.00
LIGHTING WATTS PER S.F. =
2.50
SUMMER OUTDOOR DES. TEMP. =110.00
SUMMER INDOOR DES. TEMP.
= 75.00
COIL BYPASS FACTOR a
0.20
ATTIC MINTER TEMPERATURE = 50.00
ATTIC SUMMER TEMPERATURE
=125.00
APPARATUS OEM POINT = 55.00
'U' VALUE FOR MOST WALLS = 0.09
'U' FOR SECOND TYPE MALL
= 0.00
ROOF 'U' FACTOR =
0.03
MINTER 'U', MOST GLASS = 0.65
SUMMER 'U', MOST GLASS
= 0.65
DOOR 'U' FACTOR =
0.69
MOST GLASS SOLAR FACTOR = 0.60
MOST GLASS SHADE FACTOR
a 0.80
PPL. CASUAL WORK FACTOR s
0.70
WINTER 'U' 2ND GLASS TYPE = 0.00
SUMMER 'U' 2ND GLASS TYPE
= 0.00
DOOR INFILTR. C.F.H./S.F. =
1.00
SOLAR FACTOR 2ND GLASS = 0.00
SHADE FACTOR 2ND GLASS
= 0.00
WINDOM INFILT, C.F.H./S.F.=
0.50
GLASS DIRECTION SOLAR HEAT BTUH/S.F:
NORTH = 33.00 EAST a 43.00
SOUTH =126.00 NEST =100.00
MALL DIRECTION SOLAR HEAT DEG./S.F:
NORTH = 8.00 EAST = 10.00
SOUTH = 14.00 WEST =
12.00
TOT SF
N E S W
TOT
CL6
SF AIR
CFM
BTUH
COOL
BTUH HEAT
1 GLA
39 75 74 20
208
ROF
1474! IMF
124
SOLR)
8,028
11,716 (TRANS) 12,108
PPL MAL
426 245 391 300
1362
FLR
0 ADD
0
INT.)
13.789
4.681 (DSAIR) 5,491
4 DOR
0 0 20 0
20
TOT
0 FAN
2,212
TOTALS
38.221
(CAPAC) 17.598 X1.3=22,877
H _ V _ A _ C _ DATA FOR BLDG _ PL*Aa NC
FACTOR TAS!_E FOR
BLDG
_ FP'ILANC
CL6 SF
MINTER OUTSIDE DES. TEMP. = 31.00
MINTER INSIDE DES. TEMP.
- 72.00
LIGHTING WATTS PER S.F. =
2.50
SUMMER OUTDOOR DES. TEMP. =110.00
SUMMER INDOOR DES. TEMP.
= 75.00
COIL BYPASS FACTOR =
0.20
ATTIC WINTER TEMPERATURE = 50.00
ATTIC SUMMER TEMPERATURE
=125.00
APPARATUS DEN POINT =
55.00
'U' VALUE FOR MOST WALLS = 0.09
'U' FOR SECOND TYPE WALL
= 0.00
ROOF 'U' FACTOR =
0.03
WINTER 'U', MOST GLASS = 0.65
SUMMER 'U', MOST GLASS
= 0.65
DOOR 'U' FACTOR =
0.69
MOST GLASS SOLAR FACTOR = 0.80
MOST GLASS SHADE FACTOR
= 0.80
PPL. CASUAL WORK FACTOR =
0.70
WINTER 'U' 2ND GLASS TYPE = 0.00
SUMER 'U' 2ND GLASS TYPE
= 0.00
DOOR INFILTR. C.F.H./S.F. =
1.00
SOLAR FACTOR 2ND GLASS = 0.00
SHADE FACTOR 2ND GLASS
= 0.00
WINDOW INFILT, C.F.H./S.F.=
0.50
GLASS DIRECTION SOLAR HEAT BTUH/S.F:
NORTH = 33.00 EAST
= 43.00
SOUTH =126.00 WEST =100.00
WALL DIRECTION SOLAR HEAT DEG./S.F:
NORTH = 8.00 EAST = 10.00
SOUTH = 14.00 WEST = 12.00
TOT SF
N E S W
TOT
CL6 SF
AIR
CFM
STUN
COOL STUN HEAT
I GLA
80 82 80 60
322
ROF 7614!
INF
181
SOLR)
11,877 15,619 (TRANS) 169526
PPL MAL
409 446 408 448
1711
FF R 0
ADD
0
INT.)
14.979 6.842 (OSA1R) 8.015
4 DOR
0 0 20 0
20
TOT 0
FAN
2.854
TOTALS
49.317 (CAPAC) 24.541 X 1 .3 =3 1 , 9 03
PROPOSED -CONSTRUCTION ASSEMBLY
AVERAGE U -VALUE (DesIgn)
_ Deseret Homes •15
proiea title cimsts sone
T,a..Ouinta 111 /1
RESIDEP7IAL
Form' 3A
EntoroamantAaency Use Only
buildins permit number
d"dwd by
dace
List of Construction,Components R•Value
tier racoon baween framing members) of Components
i 8J ILD i f.J6 Pk.P.
3. 1%Ztl PLYL%Ob
4.
awvu.�� ui wnsuutz�vn r�isemvn�► �
Framing Sin '.— x _ 7.
Framing spacing = ex. $•
Chw* ons:
❑ Floor
❑ wall.
Ceiling/Roof
Jy w44 awcr the
civ " rune W04v
❑ les own 25 Wtts
❑ zs to so routs
13 • greaw tMn 40 Ib/fts
9.
Inside Surface Air Film
Was Table 2. Design Values)
Outalde Surface Air Film e) • 1-7
Nae Table 2. Design Valuesi
Total Thermal Resivance (R T I �•�• 0�
sum at the above
AVERAGE U VALUE OF ASSEMBLY
6-15 ZIA!> Btu/(hr.. h= • °F7
Framing. RT tronn
Fscttx above
L)w this L-Vahe for heat load calci dation
PROPOSED -CONSTRUCTION ASSEMBLY RESIDENTIAL
AVERAGE U -VALUE (Design) Form 3A
(Rev. 9/631
Deseret 11ornes 15
proiect title climate sone
Auinta
v iect location. 9-29-86
meumantation au or A date
tumorcement
building permit number
checked by
date
List of Construction Components R -Value
(for section Ortween fiiming membersl of Components
1.7 S-ruCLO
2. j6UILDIWa PAF Z o• o�
3.12-I l wsuLkmoki I 1 . b0
4.I/Z.GYPSLA& 6D.
5.
Sketch of Construction Assembly
6.
Framing SizeZ .• a i • 7•
Framing spacing o.c. B. Inside Surface Air Film O. 6s
(Use Table 2. Design Values)
9. Outside Surface Air Film 0-17
(Use Table 2. Design Values)
cn.cit one:
Total -Thermal Resistance (R T 1
❑ Floor sum of the above
Well
O Ceiling/Roof AVERAGE U VALUE OF ASSEMBLY
It W.u, cheer the
owworiva weight'
Was than 25 Iblrii Btu/(hr. a W a OF)
Framing R T from
❑ 25 to 40 Wits Factor above
UN 11116 G-Vaka for heat bed Calculation
❑ greats then 40 Ib/ht
iii■
■
tumorcement
building permit number
checked by
date
List of Construction Components R -Value
(for section Ortween fiiming membersl of Components
1.7 S-ruCLO
2. j6UILDIWa PAF Z o• o�
3.12-I l wsuLkmoki I 1 . b0
4.I/Z.GYPSLA& 6D.
5.
Sketch of Construction Assembly
6.
Framing SizeZ .• a i • 7•
Framing spacing o.c. B. Inside Surface Air Film O. 6s
(Use Table 2. Design Values)
9. Outside Surface Air Film 0-17
(Use Table 2. Design Values)
cn.cit one:
Total -Thermal Resistance (R T 1
❑ Floor sum of the above
Well
O Ceiling/Roof AVERAGE U VALUE OF ASSEMBLY
It W.u, cheer the
owworiva weight'
Was than 25 Iblrii Btu/(hr. a W a OF)
Framing R T from
❑ 25 to 40 Wits Factor above
UN 11116 G-Vaka for heat bed Calculation
❑ greats then 40 Ib/ht
HERZBERGER ENGINEERING
CALIFORNIA THEATRE BLDG.
112 4TH.AVE,SUITE 702
SAN DIEGO CA. 9101
(619)239-4636,(619)56!-5176
FLAN E,
PROJECT SUMMARY �
-------------------
CEILING INSULATION .......R-38
WALL INSULATION ...................... R-11
FLOOR INSULATION ...................... NA
GLAZING.................................ALL DOUSLE
SHADING................................DRAPES
THERMAL MASS
KITCHEN
125
BATHR1`1
4
ENTRY
---------------------------
V-)
TOTAL
?CSG
I certify that the computer performance calculations used to generate
the above results were done following procedures approved by the
California Energy Commission for compliance with the New Residential
Energy Standards.
dards.
Signed--------•--•------- - ------------•----- --
Page
ISI I CROPAS 1.2 File -TOM Weather-CZ15 Program -SUMMARY
Run-PkbPOSED Project -PLAN B Date -9-2.3-86
M I C F 0 P A S Version 1.2 - 1/9/B4
Calculations By:
HF_RZBERGER ENGINEERING
1122 4TH AVE SUITE # 702
SAN DIEGO California 92101
( 619 ) 239-4636
PROJECT DATA
Faun Title PROPOSED
Project Title ............. PLAN B
Owner's Name DE.SERET HOMES
Site Location ........................... LA QUINTA
Run Type..........a..................... COMPLIANCE
Building Type ........................... SINGLE
DESIGN DATA
Floor area (sf) ......................... 1474
Glazing area (sf) ....................... 207
Glazing percentage K) .................. 14%
Glazing UA (btu/hr--F) ................... 134 (22%)
Opaque UA (btu/hr-A) .................... 376 (61%)
Infiltration UA (Btu/hr-F) .............. 106 (17%)
Total UA (btu/hr-F) ..................... 616 (100%)
MECHANICAL SYSTEMS
Heating System .......................... HEATPUMP
Cooling System AC
Ventilation System ....... NATURAL
CLIMATE DATA
Weather Data Location ................... EL CENTRO CA MKW/RED
Average Temperature (F) 73
Minimum Temperature (F) 34
Max1mum Temperature (F) ................. 110
Page 2
MICROPAS 1.2 File -TOM Weather -CZ 15 Program -SUMMARY > .
Faun -P'ROP'OSED Project -PLAN B Date --9-23--0
-------------------
PERFORMANCE SUMMARY
-------------------------
ENERGY BUDGET COMPARISON
----- LOADS -----
------ CONSUMPTION --------
ANNUAL. PEAK
FUEL ELECTRIC COST
(k:Btu) (IeEttu/hr)
(kBtu) (kWh) (V
BUILDING Heating
2957 14.2
1183 U
$(:)
Cooling
-43414 -27.0
4570
TC)
Venting
46750 31.7
0
:i:ii
Totals
--------------------------------------------------------------------
0 0.0
1183 4570
X)
-------------------------
ENERGY BUDGET COMPARISON
Fuel Cost = $0.000 per Therm (1 Therm = 100 k:Btu)
Electricity Cost = $0;000 per kWh
1 kWh x 3 x 3.41 = 1 source kBtU
*** Peak: season(s) not simulated - Check peak loads
---- BUDGETS -----------
CONSUMPTION ----•-•----
SOURCE SOURCE FUEL
ELECTRIC TOTAL
(k:Btu) (kDtu/sf) K)
($) (S)
BUILDING: 1474
sf of Conditioned Floor Area
Heating
110.=: 0,0
4:0 4:0
$0
Cooling
46750 31.7
so
$0
Venting
0 0.0
::0
_t0
Totals
47933 32.5
$0 $0
$c_i
( 6U. Oar/sf )
CALIF. STANDARDS
BAGET: Single Family Home in
Climate Zone 15
Heating
1032 0.7
$0 $0
40
Cooling
53359 36.2
$0
$0
Totals
54391 36.9
$0 $0
$0
Fuel Cost = $0.000 per Therm (1 Therm = 100 k:Btu)
Electricity Cost = $0;000 per kWh
1 kWh x 3 x 3.41 = 1 source kBtU
*** Peak: season(s) not simulated - Check peak loads
Page 1
. MICROPAS 1.2 Fi1e-TOM Weather -C1- 15 Program -FORMAT > .
Fun -PROPOSED Project -FLAN D Date -9-•23-86
Input file TOM last edited on 9-23-86
CONTROL DATA
RUN DATA
1> RUN TITLE (25 characters maximum) . ..................
..... PROPOSED
2> PROJECT TITLE (25 characters maximum) .
..... PLAN B
Z> OWNER'S NAME (25 characters maximum) . ..............
..... DESERET HOMES
4> SITE LOCATION 125 characters maximum) . ..............
..... LA QUINTA
5> RUN TYPE (COMPLIANCE, DESIGN) . • ..................... COMPLIANCE
................
6• BUILDING TYPE (SINGLE, CLUSTER, APARTMENT, NONE) . .. SINGLE.
SITE. AND WEATHER DATA
1: BUILDING LATITUDE (decimal deg.) . .................. 32.8
BUILDING ROTATION (deg., O=S, 90vW , -90=E, 180=N) : . 0
3> NUMBER OF WARMUP DAYS (10 maximum) . ................ -
4> CLIMATE ZONE (compliance runs) . .................... 15
5> WEATHER DATA FILE NAME QZ 12, etc.) • ............... CZ15
6> WIND CORRECTION FACTOR (fraction) : ................. .40
7• GROUND REFLECTIVITY (fraction) .................... .2
0> GROUND TEMP. DAILY FACTOR (fraction) : .............. Q
9> GROUND TEMP. MONTHLY FACTOR (fraction) : ............ 1
10GROUND TEMP. ANNUAL FACTOR (fraction) : 0
.SIMULATION CONTROL DATA
1 • NUMBER OF SIMULATION SEASONS
2> RDW SEASON S I IvIU-
NAME LATE
SEASON
--- -----1------ ---2----
1 WINTER Y
2 WINTER/SPRNG Y
_ SPRNG/SUMMER Y
4 SUMMER Y
5 SUMMER/FALL Y
6 FALL/WINTER Y
7 PEAK HEATING N
8 PEAK COOLING N
(8 only) . ............. B.
Page 2 N
M I GF:OF'AS 1 Fi 1 e -TOM Weather -CZ 15 Program -FORMAT :>
Run --PROPOSED Project -FLAN D Date -9-23-86
SEASON OUTPUT SPECIFICATIONS
1> COPY OF INPUT DATA (Y,N or F= for formatted data) : .. F
2> AMBIENT SUMMARY (Y/N) . ......... ........ :........... N
-. ZONE LOADS (Y/N) . .................................. N
4:> ZONE -HEAT FLOWS (Y/N). ... ......................... : N
5> MASS SUMMARY AY/N) ................................. N
6> TEMPERATURE SUMMARY (Y/N) . N
7:> PEAK CONDITIONS (Y/N) . ............................. N
DAILY OUTPUT SPECIFICATIONS
1> ROW SEASON AMD- ZONE ZONE MASS TEMP.
NAME IENT LOADS HEAT SUM- SUM -
SUM. FLOWS MARY MARY
--- -----1------ --2-- ----- --4-- --5-- --6--
1 WINTER N N N N N
WINTER/SPRNG N N N N N
SPRNG/SUMMER N N N N N
4 SUMMER IV N N N N
5 SUMMER/FALL N N N N N
6 FALL/WINTER 1`4 N N N N
7 PEAK HEATING N N N N 1`J
8 PEAK COOLING N N N N N
HOURLY OUTPUT SPECIFICATIONS
1> ROW'
SEASON
AMD-
ZONE
ZONE
MASS
TEMP.
TEMP.
NAME
IENT
LOADS
HEAT
SUM-
SUM-
GRAPH
SUM.
FLOWS
MARY
MARY
1
WINTER
N
N
N
N
nl
N
WINTER/SPRNG
N
N
N
N
N
N
-
SPRNG/SUMMER
N.
N
N
N
N
N
4
SUMMER
N
N
N
N
N
N
5
SUMMER/FALL
N
N
N
N
N
N
6
FALL/WINTER
N
N
N
N
N
IV
7
PEAK HEATING
N
N
N
N
N
N
8
PEAK COOLING
N
N
N
N
N
N
Page .. 1
---
-TOM -ct-^=CZ15- Program -FORMAT File
Ron -PROPOSED Project -PAN B Dat -9-23-86
ZONE DATA
ZONE DATA
1> NUMBER OF ZONES (.= maximum) . ....................... 1
ZONE #1
1>
ZONE NAME (HOUSE, SUNSPACE, etc.).: .................
HOUSE
2>
FLOOR AREA (sf) . .......... ........... ....... n..
1474
3>
VOLUME (cf) . .........................71..1..1......
11792
4>
ZONE HEAT CAPACITY (Btu/F) .......................
.211
5>
INTERNAL GAIN (Btu/day) . ...........................
06991
6>
INTERNAL GAIN SCHEDULE (INTERNAL,. NONE, etc.) . .....
INTERNAL
7:>
INFILTRATION BASE ACH (ac/hr) .....................
.5
8%
INFILTRATION TEMPERATURE ACH (ac/hr-F) : ............
0
9>
INFILTRATION WIND ACH (ac/hr-mph) : ... ..v.
u
10>
HEAT EXCHANGER SYSTEM NAME (HEATEX, NONE--, etc.)': ..
NONE
11•
HEATING SYSTEM NAME (FURNACE, NONE, etc.) : ........
HEATPUMF-
12:>
COOLING SYSTEM NAME (HEATPUMP, NONE, etc.) .......
AC
13>
VENTILATION SYSTEM NAME (NATURAL, NONE) : ..........
NATURAL
14>
HEATING THERMOSTAT NAME (HEATCNST, HEATSETB,etc.): .
HEATCNST
15>
COOLING THERMOSTAT NAME (COOLCNST, COOLSETB,etc.): .
COOL.CNST
OPAQUE SURFACE DATA
OPAQUE SURFACES BETWEEN ZONE AND AMBIENT
1:: NUMBER OF SURFACES (20 maximum) . ................... 6
2> ROW
OPAQUE
AREA
U -VALUE
AZIMUTH
TILT
ABSORP-
ZONE
SURFACE
(sf)
(Btu/hr
(deg.)
(deg.)
TIVITY
NAME
NAME
-sf-F)
(FRAC.)
1
NWALL
390.5
.49
110
90
.5
HOUSE
2
SWALL
425.5
.09
0
90
.5
HOUSE
-
EWALL
245
.09
--90
90
.5
HOUSE
4
WWALL
300
.09
90
90
.5
HOUSE
5
ROOF
1474
.026 X26
0
90
�s
HOUSE
6
SLAB
196
1.1
0
90
0
HOUSE
Pages 4 1
hIICFtUF'AS 1. 2 1=i l e -TONT Weather -CZ 15 Program --FORMAT :> r
Run -P'ROP'OSED Project -FLAN D Date -9-23-86
GLAZING SURFACE DATA
GLAZED SURFACES BETWEEN ZONE AND AMBIENT
1> NUNBER
OF SURFACES
(20 maximum) .
......... :......... 4
2> ROW
GLAZING
AREA
U-VAL.
AZIMU.
TILT
GLAZ-
ZONE
TREAT --
SURFACE
(sf)
(Btu;
(deg.)
(deg.)
INGS
NAME
MENT
NAME
sf -F)
NAME
-- -
---1----
--2•---
--- 3---
--4---
--5---
-6 ---
--- 7----
--- 8----
1
NGLASS
73.5
.65
187
90
2
HOUSE
DRAPES
2
SGLASS
38.5
.65
0
90
2
HOUSE
DRAPES
_
EGLASS
75
.65
-90
90
2
HOUSE
DRAPES
4
WGLASS
20
.65
90
90
2
HOUSE
DRAPES
GLAZING TREATMENTS
1> NUMBER OF TREATMENTS (10 maximum) . ................. 1
2> ROW TREAT- GLAZ. OVER- OVER- HEAT. COOL. SHADING SHUT. SHUT. SHUTTER
MENT HET- HANG HANG SHAD. SHAD. SCHED. U-VAL TRAN. SCHED.
NAME BHT LEND.. HIGH. FACT. FACT. NAME --UE FACT. NAME
- -- ---1---- --2-- --3-- --4-- --5-- --6--- ---7--..-- --8-- -..-9-- ---10---
I
i--.-
1 DRAPES 4 1.5 .5 1 .40 NONE 0 0 NONE
ABSORBED INSOLATION FRACTIONS
1: NUMBER OF FRACTIONS (20 maximum) . .................. 8
2> FLOW GLAZING ZONE OR HEATING COOLING
SURFACE MASS FRACTION FRACTION
NAME SIDE
--- ---1---- ---2--- -------.---4----
1 NGLASS SLABTDP .08 .04
i4
2 SGLASS SLABTOP .08 .04
EGLASS SLABTOP . e .04
4 WGLASS SLABTOP .08 .04
5 NGLASS CSLABTOP .18 .09
6 SGLASS CSLAE{-I-OP .18 .09
7 EGL -ASS CSLABTOP .13 .09
3 WGLASS CSLABTOP .18 .09
Page S
< MICROPAS 1.2 File -TOM Weather-CZ15 Program -FORMAT
Run -PROPOSED Project -FLAN B Date -9-23-•86
INTER -ZONE DATA
VENTILATION BETWEEN ZONES
15 NUMBER OF INTER -ZONE VENT SYSTEMS (._ maximum) ..... G
INTERIOR SURFACES BETWEEN ZONES
1: NUMBER OF SURFACES (20 maximum) . ................... i
MASS DATA
MASS DATA
1> NUMBER OF MASSES (5 maximum) . ...................... 2
MASS #1
1>
MASS NAME (SLAB, MASSWALL, WATER, etc.) : ..........
SLAB
2>
TYPE (NODAL, ISOTHERM) . ............................
NODAL
_.
SURFACE AREA (sf) ..................................
C-)0
4>
THICKNESS (inches) ................................
4
5;
VOLUMETRIC HEAT CAPACITY (Btu/cf-F) : ................
28
6:>
CONDUCTIVITY (Btu-ft/hr-sf-F) . .....................
1
7>
SIDE #1 MASS SURFACE NAME (SLABTOP,etc.) : ..........
SLABTOP '
8:•
SIDE #1 AIR FILM CONDUCTANCE (Btu/hr-sf-F) : ........
1.
9>
SIDE #1 ZONE NAME (HOUSE, AMBIENT, etc.) : ..........
HOUSE
10>
SIDE 42 MASS SURFACE NAME (SLABBOT,etc.) : .........
SLABBOT
11>
SIDE #2 AIR FILM CONDUCTANCE (Btu/hr-sf-F) : .......
0
12> SIDE #2 ZONE NAME (HOUSE, AMBIENT, etc.) : ......... GROUND
MASS #2
1:>
MASS NAME_ (SLAB, MASSWALL, WATER, Etc.) : ..........
CSLAB
2>
TYPE (NODAL, ISOTHERM) . ............................
NODAL
>
SURFACE AREA (sf) ...............................
1150
4:>
THICKNESS (inches) •........................... V ...
4
5>
VOLUMETRIC HEAT CAPACITY (Btu/cf-F) .....,
6:
CONDUCTIVITY (Btu-ft/hr-sf-F) . ..... .....'..........
1
7-
SIDE #1 MASS SURFACE NAME= (SLASTOP,etc.) : ..........
CSLABTOP
8:>
SIDE #1 AIR FILM CONDUCTANCE (Btu/hr-sf-F) ........
.?6
9i
SIDE #1 ZONE NAME (HOUSE, AMBIENT, etc.) ..........
HOUSE
lu•
SIDE #2 MASS SURFACE NAME (SLAUBOT,etc.) : .........
CSLABDOT
11::>
SIDE #2 AIR FILM CONDUCTANCE (Btu/hr-sf-F) .......
0
12•
SIDE #2 ZONE NAME (HOUSE, AMBIENT, etc.) : .........
GROUND
Paye 6 1
===-I'ICFOn-1-2--File `-Weath1Program-FORMAT---------i
Run -PROPOSED Project -PLAN LDate-9�3-8b
'
SYSTEMS DATA
ENERGY COSTS
1> FUEL COST (dollars/therm) .
ELECTRICITY COST (dollars/kWh) . .................... (i
AIR--TO-AIR HEAT EXCHANGER SYSTEMS
1> NUMBER OF HEAT EXCHANGER SYSTEMS (3 maximum) : ... 4.. 0
HEATING SYSTEMS
0 NUMDER OF HEATING SYSTEMS (3 maximum) : ............. 1
2:?• ROW HEATING HEATING SEASONAL RATED DUCT
SYSTEM FUEL EFF. OR CAPACITY LOSS
NAME NAME COP (Btu/hr) FRACTION
1 HEATPUMP ELEC 2.5 2 oO(:)00 .15
COOLING SYSTEMS
0 NUMBER OF COOLING SYSTEMS Q maximum) : ............. 1
2> ROW COOLING SEASONAL COOLING LATENT DUCT
SYSTEM EER CAPACITY LOAD GAIN
NAME (Btu/Wh) (Btu/hr) FRACTION FRACTION
--_ ---1---- ---2---- --•-- _ ---- ---4---- --- 5----
1 AC 9.5 201:1000 0
VENTILATION SYSTEMS
1> NUMBER OF VENTILATION SYSTEMS (6 maximum) : ......... 1
."% ROW VENT. FAN FAN TEMP. INLET OUTLET HIGH. INLET STACK WIND
SYSTEM FLOW POWER DIFF. AREA AREA DIFF. AZIMUTH EFFIC-- EFFIC—
NAME (cfm) W/c•fm (F) (sf) (sf) (ft) (decd.) IENCY IENCY
--- ---1---- ----- --3-- --4-- --5-- --6--- --7-----Ei--- -9 --10--
1 NATURAL 0 0 0 21 21 8 0 1 1
THERMOSTAT SYSTEMS
1> NUMBER OF THERMOSTAT SYSTEMS (b maximum) : .......... 2
2> ROW THERMO- MINIMUM MAXIMUM DESIRED MIN. MAX. DESIRED HOURLY
STAT TEMP. TEMP. TEMP. SET- SET- SET- SCHEDULE
NAME (F) (F) (F) BACK BACK BACK(F) NAME
--- ---1---- ---•2--- --- 3 --- ---4--- --5-- --6-- ---•7--- ---8-----
1 HEATCNST 65 80 80 0 0 0 NONE
2 COOLCNST 65 80 65 0 0 0 NONE
Page 7
. < < MICROPAS 1.2. File -TOM Weather-CZ15 Program -FORMAT > .
Run -PROPOSED Project -PLAN B Date -9-23-86
SCHEDULE DATA
HOURLY SCHEDULES
1> NUMBER OF HOURLY SCHEDULES (5 maximum) : ............. 2
HOURLY SCHEDULE #1
1> HOURLY SCHEDULE NAME (INTERNAL, SETBACK) : .......... INTERNAL
2• HEATING HOURLY
SCHEDULE DATA
(fraction)
HOURLY SCHEDULE
Is
0.024
2..
0.022
3.
0.021
5.
0.021
6.
0-.026
7.
0.036
9.
0.056 156
10.
0.06o
11.
0. 059
13.
0.045
14..
0.030 30
15.
0.028
17.
0.057
18.
0.064
19.
0.064
21.
0.050
22.
0.055
2&
0.044
_:> COOLING HOURLY
SCHEDULE
DATA
(fraction)
1
1.
0.024
2.
Vi i. 022
3.
0.021'
5.
0.021
6.
0.026
!.
0.038
9.
0.056
10.
0.060
11.
0.059
13.
0.045
14.
0.030
15.
0.02B*.
17.
0.057
18,
0.064
19.
0.064
21.
0.050
22.
0.055
23.
0.044
HOURLY SCHEDULE #2
10 HOURLY
SCHEDULE NAME (INTERNAL, SETBACK)
2:> HEATING
HOURLY SCHEDULE
DATA
- (fraction )
1. 0
2.
0
_.
5. 0
6.
0
7.
9. 1
fo.
1
11.
Q. 1
14.
1
15.
17. 1
18.
1
19.
21. 1
22.
1
23.
_> COOLING
HOURLY SCHEDULE.DATA
(fraction)
1, 0
.2.
0
3.
S. 0
6.
0
7.
9. 1
10.
1
11.
1:3.. 1
14.
1
15.
17. 1
18.
1
19.
21. 1
22.
1
2'
4. 0.021
a. 0.059
12. 0.046
16. 0.031
20. 0.052
24. 0.027
4. 0.021
9. 0.059
12. 0.046
16. 0.031
20. 0.052
24. 0.027
.......... SETBACK
0 4.
1 12. 1
1 16. 1
1
20. 1
1 24. 0
4. 0
1 12. 1
1 16. 1
1 20. 1
1 4. 0