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Title:
Monthly performance report Chester West
Uncontrolled:
Chester West
Physical Description:
v. : ill. ; 28 cm.
Language:
English
Creator:
United States -- Dept. of Energy
Publisher:
Dept. of Energy
Place of Publication:
Washington
Publication Date:

Subjects

Subjects / Keywords:
Solar energy -- Alabama -- Huntsville   ( lcsh )
Solar houses -- Alabama -- Huntsville   ( lcsh )
Genre:
federal government publication   ( marcgt )
non-fiction   ( marcgt )

Notes

General Note:
National solar data program.
General Note:
Monthly Catalog Number: gp 80010075
General Note:
National solar heating and cooling demonstration program.
General Note:
"SOLAR/1030-78/12" ; "SOLAR/1030-79/01" ; "SOLAR/1030-79/02" ; "SOLAR/1030-79/03."

Record Information

Source Institution:
University of Florida
Rights Management:
All applicable rights reserved by the source institution and holding location.
Resource Identifier:
aleph - 027069428
oclc - 05859833
System ID:
AA00013797:00001

MISSING IMAGE

Material Information

Title:
Monthly performance report Chester West
Uncontrolled:
Chester West
Physical Description:
v. : ill. ; 28 cm.
Language:
English
Creator:
United States -- Dept. of Energy
Publisher:
Dept. of Energy
Place of Publication:
Washington
Publication Date:

Subjects

Subjects / Keywords:
Solar energy -- Alabama -- Huntsville   ( lcsh )
Solar houses -- Alabama -- Huntsville   ( lcsh )
Genre:
federal government publication   ( marcgt )
non-fiction   ( marcgt )

Notes

General Note:
National solar data program.
General Note:
Monthly Catalog Number: gp 80010075
General Note:
National solar heating and cooling demonstration program.
General Note:
"SOLAR/1030-78/12" ; "SOLAR/1030-79/01" ; "SOLAR/1030-79/02" ; "SOLAR/1030-79/03."

Record Information

Source Institution:
University of Florida
Rights Management:
All applicable rights reserved by the source institution and holding location.
Resource Identifier:
aleph - 027069428
oclc - 05859833
System ID:
AA00013797:00001

Table of Contents
    Front Cover
        Front Cover 1
        Front Cover 2
    Main body
        Page 1
        Page 2
        Page 3
        Page 4
        Page 5
        Page 6
        Page 7
        Page 8
        Page 9
        Page 10
        Page 11
        Page 12
    Back Cover
        Back Cover 1
        Back Cover 2
Full Text
I1 .4 -


SOLAR/1030-79/02

Monthly

Performance

Report




CHESTER WEST
FEBRUARY 1979


Li

\\ *\


U.S. Department of Energy

National Solar Heating and
Cooling Demonstration Program


National Solar Data Program


4258


4


I A
Tj
7'-~9*







































NOTICE
This report was prepared as an account of work sponsored by me United States
Government. Neither the United States nor the United States Department of Energy, nor
any of their employees, nor any of their contractors, subcontractors, or their employees,
make any warranty, express or implied, or assume any legal liability or responsibility for
the accuracy, completeness or usefulness of any information, apparatus, product or
process disclosed, or represents that its use would not infringe privately owned rights.









MONTHLY PERFORMANCE REPORT


CHESTER WEST

FEBRUARY 1979


I. SYSTEM DESCRIPTION

The Chester West site is a single-family residence in Huntsville, Alabama.
Solar energy is used for space heating the home and preheating domestic hot
water (DHW). The solar energy system has an array of flat-plate collectors
with a gross area of 225 square feet. The array faces south at an angle of
49 degrees to the horizontal. A glycerol-water solution is used as the medium
for delivering solar energy from the collector array to storage, and water is
the medium for delivering solar energy from storage to the space heating and
hot water loads. Solar energy is stored aboveground in a 500-gallon water
storage tank. Auxiliary space heating is provided by an air-to-air heat pump
and electrical heating elements which are designed to function in parallel
with the solar energy space heating loop. Auxiliary hot water heating is
provided in series with the solar energy hot water heating loop through the
use of electrical heating elements in an 80-gallon DHW tank. The system,
shown schematically in Figure 1, has three modes of solar operation.

Mode 1 Collector-to-Storage: This mode activates when the control system
senses a sufficient temperature difference between the collector and storage
and remains active until the temperature difference drops below the accepted
minimum. The collected energy is transferred to storage through a ring-type,
liquid-to-liquid heat exchanger located in the storage tank. Pump P1 is
operating.

Mode 2 Storage-to-Space Heating: This mode activates when there is a demand
for space heating. Solar energy is circulated to the conditioned space by
solar heated water from storage through a liquid-to-air heat exchanger located
in the air-distribution duct. Pump P3 is operating.

Mode 3 Storage-to-DHW Tank: This mode activates when the control system
senses a sufficient temperature difference between storage and the DHW tank,
and remains active as long as a sufficient difference exists. Water circu-
lates from the top of storage through a liquid-to-liquid heat exchanger
located in the bottom of the DHW tank. Pump P2 is operating.


II. PERFORMANCE EVALUATION


INTRODUCTION

The site was occupied during the month of February and the solar energy system
operated continuously during the month. Solar energy satisfied 10 percent of
the space heating requirements. In supporting the space heating requirements,
the solar energy system provided electrical savings of 0.45 million Btu. The
solar energy system also supported the DHW subsystem during the month. However,


1 4258














1001 COLLECTOR PLANE TOTAL INSOLATION
AT001 OUTDOOR TEMPERATURE
AT600 INDOOR TEMPERATURE
AT900 J-BOX EXTERNAL TEMPERATURE


T150 4






/oo HEAT
REJECTOR
T100





W100
DHW -- --
T351




80-GAL
DHW < T302
HEATER


COLD T301
WATER m --T350 -W3
SUPPLY -- W301


RETURN
EP301 AIR


Figure 1. CHESTER WEST SOLAR ENERGY SYSTEM SCHEMA TIC








a problem with the sensor measuring the flow of solar-heated water from storage
to the DHW subsystem produced invalid data. This problem invalidated many DHW
subsystem and storage performance factors.


WEATHER CONDITIONS

During the month, total incident solar energy on the collector array was 5.5
million Btu for a daily average of 866 Btu per square foot. This was below
the estimated average daily solar radiation for this geographical area during
February of 1257 Btu per square foot for a south-facing plane with a tilt of
49 degrees to the horizontal. The average ambient temperature during February
was 40F as compared with the long-term average for February of 440F. The
number of heating degree-days for the month (based on a 65F reference) was
701, as compared with the long-term average of 605.


THERMAL PERFORMANCE

System During February the solar energy system performed somewhat poorer
than expected. The expected performance was determined from a modified
f-chart analysis using measured weather and subsystem loads as inputs. Solar
energy collected was 2.2 million Btu versus an estimated 1.8 million Btu.
Because of the missing DHW subsystem performance information, the following
was based only on space heating subsystem loads. This would approximate
system performance, since the space heating subsystem share of the load in
February was over 96 percent of the total system load. Solar energy used by
the space heating subsystem was estimated by assuming that all energy col-
lected would be applied to the space heating subsystem load. Actual solar
energy used by the space heating subsystem was 0.86 million Btu. The space
heating solar fraction was 10 percent versus an estimated 21 percent.

Collector The total incident solar radiation on the collector array for the
month of February was 5.5 million Btu. During the period the collector loop
was operating the total insolation amounted to 4.4 million Btu. The total
collected solar energy for the month of February was 2.2 million Btu, result-
ing in a collector array efficiency of 41 percent, based on total incident
insolation. Solar energy delivered from the collector array to storage was
2.1 million Btu. Energy loss during transfer from the collector array to
storage was 0.1 million Btu. This loss represented 5 percent of the energy
collected. Operating energy required by the collector loop was 0.16 million
Btu.

Storage Solar energy delIvered to storage was 2.1 million Btu. There were
0.86 million Btu delivered from storage to the space heating subsystem. The
average storage temperature for the month was 890F.

DHW Load The DHW subsystem consumed an unknown amount of solar energy and
0.52 million Btu of auxiliary electrical energy to satisfy a hot water load of
0.33 million Btu. The DHW subsystem consumed a total of 0.17 million Btu of
operating energy. A daily average of 16 gallons of DHW was consumed at an
average temperature of 140F delivered from the tank.


3 4258








Space Heating Load Ten percent of the 8.6 million Btu space heating load was
satisfied by 0.86 million Btu of solar energy. An auxiliary electrical heat
pump and resistance heater used 8.0 million Btu of electrical fuel to satisfy
the remaining 7.7 million Btu space heating load. This auxiliary requirement
indicated a heat pump operating below its optimum performance level. The
space heating subsystem consumed a total of 0.49 million Btu of operating
energy, resulting in an electrical energy savings of 0.45 million Btu.


OBSERVATIONS

Problems existed with liquid flow sensors in both the DHW and space heating
loops. In the latter case, a fall-back position to the air side of the space
heating subsystem was possible; however, a work-around was not possible for
the DHW subsystem. Therefore, many DHW and storage performance factors were
invalidated. Additional anomalies in the DHW subsystem should be noted. The
DHW loop pump tended to stay on too long and resulted in some energy being
removed from the DHW subsystem and returned to storage. The amount was
unmeasured but believed to be small. Also, there was a slight water seepage
from the storage tank.


ENERGY SAVINGS

The space heating subsystem contributed an electrical energy savings of 0.45
million Btu.


III. ACTION STATUS

A new storage tank is to be installed in March by the grantee. Flow sensor
operation in the DHW and space heating loop is to be investigated during the
next site visit by Boeing. The system designer is investigating pump opera-
tion in the DHW loop.


4 4258







SOLAP HFATING AND CnOLING npMrNSTRATION PPnGA m
MONTHLY RFPOnT
SITC SUMMARY


SOLAl lo2 3-' /32


SITE: CHESTER WEST
REPORT PFRIO): r=cRRUARY,1c79


SITFISYSTEM DESCRIPTION:
THE CHESTER WEST SITE IS A THPEE-REDPnrlM TWO-STORY SINGLE FcMILY DWELLING nP
APDROXIMATELY 2300 SQUARE FFT P= LIVING. ARFA. TwN SLAP MOUNTED FLAT PLATE COLLECTORS. A MIXTURE OF ANTIFREF7F ANM WATER SERVES AS
THE COLLPCTOR-TO-STCRAGE HFAT TRANSPOPT cLUIn. H-AT STOPAGF IS A 5P00 ALLON
TANK OF WATER LnCATED IN THE GARAGE. THCE SOLAR SYSTEM cFEVICES IHW DPDEHFAT
AND SPACE HEATING NFcDS (0F TME rOWLLI Nr- cROM STOCRAG ONLV. AJUXTLIARY SPACC
HEATING IS PROVIDED BY A HFAT PUMP AND RESISTANCE HEATING CnOMINATION.


GENERAL SITE DATA:
INCIDENT SOLAR ENERGY
COLLECTED SOLAR ENERGY
AVERAGE AMBIFNT TEMPERATURE
AVERAGE BUILDING TEMPERATURE
ECSS SOLAR CONVERSION EFFICIENCY
FCSS nOEPATING ENERGY
TOTAL SYSTEM OPERATING ENERGY
TOTAL ENERGY CONSUMED


SUBSYSTeM SUMMARY:

SOLAR FRACTION
SOLAR ENERGY USED
nDFPATING ENERGY
AUX. THERMAL ENERGY
AUX. FLECTOIC FUEL
AUX. FOSSIL FUEL
FLECTPICAL SAVINGS
FOSSIL SAVINGS


HOT WATFR
0.327
*
0. 160
0.516
0.516
N.A.
*A
N.A.


5.456
24248
2.210
OP74
40
6F


HP AT ING
8.625
Itn
0.85

8.015
N.A.
1.4rA0
N.A.


COOL ING
N. A.
N. A.
Nm A
N. A.
N. A.
N A
N. A.
.4. A


MILLION RTU
BTU/SO. FT.
MILL ION PTU
RTI/ SQ.c T
DEGRcFS F
nfFGRFS c


0.157 MTLLTON RTLU
n.in MILLION PTJ I
11.52 MILLION BT1

SVrTFM TOTAL
P.052 MILLION RTU
DCRCENT
MILLION RTU
0.,Q0 MILLInN ATU
8.9a MILLION 'RTI
P.k31 MILLION RB'J
N.A. MILLION PTU
MILLITOm PTU
N.A. MILLION RTU


SYSTEM *ERFOrMANCE FACTOR:


0.280


* DENOTES UNAVAILABLE DATA
a DENOTFS NULL DATA
N.A. DENOTES NOT APPLICABLE DATA
REFERENCE: USFR'S; GUIDF TO THE MONTHLY PPRFORMANCP RCPrRT
OF THE NATIONAL SOLAR DATA DRrGRAM,FEBRUARY 2Q,1078,
SOLAR/0004-78/ 18







SOLAP HMATTNG NAn C 'LIN M PMOMIt TR NATION PP qQ 'A


MlNMTHLY PEPnPT
ST r SUMMARY


S-LAR /l -2,---c fo'2


SITE: CHESTER WEST
REPORTT PRIpion: FFBRUARV,1070


SITF/SVSTFM nFSCPIPTTON
THE CHFrTER WEST SITP IS A THREE-RFPROOM TWO- TnRY SINGLE FAr1LY DWFI.lIING OF
ADPROVYIMATFLY 2a0On SQUARF PFFT Oc LIVTN' AReA. TMF SrLAP SYSTFy Isc< nnne
MOUNTED FLAT PLATF COLLPr(TnRS. A MIXTURE nf ANTIFPFF7F AND WATO RsPVEq AZ
THE COLLPCTOP-TO-cTnRAGc HFAT TRANSPORT PL(lT'r. HFAT STOPAGP TS A 90V GALLON
TANK OF WATER LOCATeD IN THE GAoAGc. THC SOLAQ SYSTEM SERVICES nHW DEHFAT
AND sPACC HCATT!N NFFn1S nC THC WEcLLTNGr PpOM fTORAc' OMLY. AUXIL IAP' SPACE
HEATING IC DPOVVInFr RY A HEAT UM0P AND RESISTANCE HFATING COMRINATION.
GENERAL SITC DATA:
INCIDENT SOLAP ENP rV 5.7q6 ITG


COLLECTED SnLAR ENEPGY
AVERAGE AMRIPNT TFMOPPATUPF
AVFRAcG= PUILDINr TEMPPRATIJRF
FCSS SOLAR CONVERSION EFFICIENCY
FrSS nPFPATING FNPRGY
TOTAL SYSTEM ODFPATING FNPPGV
TOTAL FNFRGY CONSUMrcn


SUBSYSTEM SUMMARY-
LnAO
SOLAR FACTION
SOLAR FNfPGV USFnf
ODFRATING ENERGY
AIIX. THERMAL ENGr
AIJX. LPFCTRIC FUFL
AUX. FPScIL UtJEL
FLFCTPICAL SAVINGS
FOSSIL rAVINqGS


HPT WATER
0.345
*
*
0.179
0.r44
0.544
N.A.
*
N.A.


HIATING
10
0.030
0.512
9.31?
q.456
N.A.
N.A.


COOL T71I
N. .

N.A.
N.A.
111. A
N.A.
M.A.
N.A.
Nle A


& 10Uti c


?7c5'- 7 KJ f ln.v.
2.?32 GIGA Jn!ILFQ
111A? KJ/%Q.M.
4 rEG9Q=p C

N.A.
:.16' Gr r-A .J'-'tlIL'
0. 0 GIGA i.uLFS
l?.19Q r.IGA JC'Lce

SVqTCM Tr-rL
o.4 GC-IGrA I-tlL'CS
OPRC -=NT

6. I T6 4 GICA in"LCee
c.No 6 IGA J ULe1
N. A. GI A J.-ID cm
Ir-A JOi'lt c
G* G rTG& In1Le


SYSTEM oFpFnPMANCE FACTOR:


0.2?0


* DENOTE- UNAVAILABLE )ATA
a DENOTFS NULL OATA
N.A. DENOT=S NOT ADPLICABLE DATA
PFFpcRfNC: USER'S I UT)f= TO THP MONTHLY PPerPrMANCE REPORT
OF THP NATIONAL SOLAR frATA PRO QAM,crPQOUARY 2?,1io',
SOL AP /0(04-7P f /1






SCLAR HFATING AN) CPOLINn OFMnNSTPATInNM PPOflrAM
MrnNTHML PcDrQT
FNcRr-V COLL-CTION CAn STORA(,C S'lACy-TFM (FCSS)


SITE: CHESTER WEST
PFPORT PERpnn: cBRIUARY, 1o-v
I---- ----- -------- --- -
DAY I NCTnENT AMPTIENT FNrRv | U y
OF S MONTH FNFPrY LnOr)S TO EFrg
MILLION MILLION MILLTON
BTIJ DFG-C BTUI PTIJ
------ -------- ----------- ---------- ----------
1 .474 21 N
2 0. 14 20 n
3 0.013 37 I T
4 0.311 37 *
5 ^.n 20 ?0
6 0.025 34 P
7 1 0. ?'2" 5 *
8 0.203 35 L
9 0.466 19 T
10 0.504 26 r
11 0.40 36 A
12 0.)02p 45 *
13 &n 40 L L
14 0.005 4 (
15 1.101 61 *
16 o. 0.34 38 *
17 0.044 3? *
IR 0.n34 31 I
10 f. 470 31 i
20 0.1 1 41 I
21 0.12 5? A
22 I 0.134 59
23 0.85 64 *
24 0. 0'3 62 *
25 0.013 47 *
26 0.0 34 *
27 C. 77 41 *
28 0.27" 5? *
SUM 5.456 N.A.
AVG 0.101 40 M.A.

-- I ---------- I---------- ---------- ----------
* DENOTEr UINAVAILARLE nATA.
@ DENOTFS NWILL nATA.
%.A. DEMOTES NoT AOLICABLE DATA.


----------- ------------ -------------
FCcS FPrs 1 Frs< r nLA) I
ro pATINI FNF P'q, r ONVFPSTnM l
cKp'vF pFjrn r Tr FPFFrTFNCV I
MTLLION MILLTON I
BTUJ 1 TU 1

---~-------- ----------I------
0.000
0. 0 C) q
0.010 *
0.01

0.004 P
"11 I C
0.013 II *
0.013 a *
0.000 *
12 L *
0.00 I F I *

0.000 *

0.013
0.003 *
r I I
0.O02 I I

0.000 ..I
0. 02 I I
S.013 *

- - - - - - - - - - - - - - - 1
0.107 N.A.
0.006 N.A. I
0102 II Nl1
---------------------------------
----- ---------------I----------------






SOLAD HEATINr AND ronLtTNM nFMONSTR&TTIN PPROR M


MfINTHLY RFPOPT
COLLFCTnD ARPAY PEPFORMANCC


SOLAR/P 00-70/0?


SITT: CHESTER WEST
PEOPT PEP IOD: FEBPUAPY, 1970


DAY
nOF
MONTH


1
3
4
5
6
7

10
11
12
1 3
14
15
16
17
18R
1 20
21
22
2-A
24
25
26
27
28
SUM
AVG
NRSTn


I----------
INC ITOENT
ENERGY
MILLInN
RTU
0. 474
0. 194
0.013
0.311
0.075
O.O?0
.025 0
0.?03
0.466
0.504
0.492
0.028
0.401
0.0oc
0.103
0.034
0.044
0.034
0.470
0.1R2
0.134
0.0P5
0.073
0.013
0.02
0.377
0.277
5.456
0. 1
QOO1


OPERATIONAL
INCIDENT
FNFOGv
MILLION
BTU

0.435
0.100
0.01
0.0i0A
O.nnn I
0.000
0.16?
0.412 I
0." A I
0.462 )
0.00n
0.77 |
0.08
0.165
0.000
0.000
0.000
0.456
0.043
0.151
0.002
0.050
0.0'r
0.000
0.036
0.345
0.2? I
4.34A
0.16

--- - -


DAYTT TM
AMRI ENT
TPMP
DEG F


COLL CTPn
ntLAR
MILLION
RTUI

0.??3



0 2
0.0l0
0.000




0.23
0.240

0.026
0.0p1
0.000
0.00 C
0.000
0.?40
0.n20?
0.07F,
0.044
0.025
0.008
0.000
0.017
0.17r
0.128

2.210
0.079
00 --
0100


* DENnTES UNAVAILABLE DATA.
? DFNOTFS NULL DATA.
N.A. DENOTEr NOT APPLICABLE DATA.


CnLLPCTOP
FFFIClIccv
- - - - -- -

0. a'rr
0.270
0. 000
0.0c6
0.000
n0.000

0.41P
0.467
0.000
0. 40'
0.778
0.421
0.000
0.000
0.000
0.501
0 .1o
0.42n
0. 30
0.200
0.108
0.000
0. ? lO
0.464
0.463
I

0.405
N100






SOLAR HEATING AND COPING nEMONSTPATIPN PRnOGA'
MONTHLY P POPT
STOPAGF PERFORMANCE:


SITE: CHFCTER WEST
REPORT PERIOD: FFRRUAPY,1979


SOLAR/ 100-70Iy?


I O.)I

MONTH


1
2
3
4

7
8
0
10
11
12?
S13
14
15
16
17
19
20
21
72
23
24

26
27

SU IM

nSVG
NnS ID!


ENERGY
TO
STORAGE
MILLION
RTU

0.209
n.04P
0.000
0.162
0.004
0.000
0.000
0 074
0.184
0.227
0.C00
0.188
0.0?5
0.07
0.00
0.000
0.000
0.230
0.017
0.073
0. 042
0.023
0. nn06
0.0nO
0.015
0.162
0. 124
2.081


0200


FNERGV
CROM
STORAGF
MILLION
BTU
*
*







*
*
*
*
*
*
*
*
*
*














-0*


0201


CHANGF
IN STORPn
FNFRv C
MILLION
BTU

0.037
-0.0?7
0. 000
-0.016
-0.015
-0.011
n.055
-0.n32
0.056
0.083
-".136
0.05Qr
-0.068
0.051
-0.013
-0.022
0.086
-0.0)1

-0.014
0.010
-0.014
-0.034
0.00 ?
0.n078


0.002

Q?07


TfTOPAGE
AVFRArG=
TCMP
nopr


PA
8"
R2
A2
70
76
I A2
Q?
07
103
R7
P7
7a
no
77
74
P5
90
0o
a C;

R&
99
go


STORAGE
FFFIClINCV



*
*
*
*
*
*
*
*
*
*
*
*
*
*
*






-
*
*
*
*
*
*
*
*
*
*
*
-

W:

w
wk
k
wk
*k
*k










NIO


* nVcNOTES UNAVAILABLE DATA.
r DENOTES NULL DATA.
N.A. nFNOTcS NOT APPLICARLF DATA.






SOLAR HcATIN( ANn COLTINC- nPMNShSTa'TTnN PPOGR'v'
'MnNTHLY opDOpT
HOT WATcP SURISVSTPM


SITE: CHESTED WEST
REPORT PERIOn: oFBRUAPY.1Q79


DAY
OF
MON.


1
2
3
4
59
6
7

10
11
12
13
14
15
16
17
18
10
20
21
22
23
24
?25
26
27
28
S UM

AVG
NRS


HOT
WATER
LOAD '
MILLION
RTU

0.011
0.000
0.314
0.02Q
C.00q
0.0131
0.00p
0.00o


0.005'
0.0141
0.0 513
0.3101

0.0231
0.001
0.0621
0.0021
0.007
C.0 1
0.0021
Co300
0.0911
0.00C
0.00 C3'
C. 0003
0.009

-------- I
0.32"1
0.012
0302


SOLAR,
'R.OF'
LOAr)
PER
CFNT
*
*
*
*
*
*
*
*
*





X(
*
*
*
*
*
*
*
*
*
*
*
*
*
*I
*
*
*
+











*
N0

*_


N300


SOLAR
ENERGY
USFOeD
MILLION
ATU
*1
*1
*
*
*
*1
*
*
*1

*
*
*
*1
*
*
*
*
*
*
*1

*
*
*
*

*
*
- I

*3

0300


OPFR
ENERGY

MILLION
BTU
0.008,
0.005'
0.004
0.000o
0. OQi
0.0041
o.nci
0.004
0.01 !
n.012
0.012
0.012
0.0001
0. 003
0.007
n.oo0

0.0^8
0.0052
SC07
0.011
.C 04
0.000
occ
0.002
0.000
C.007
0.008

-------- I
O.16qI
0.006
0303


A lJX
THFPMAL
US=n
MILLION
RTU

0.018
0.011
0. CI 1
0.027
0.010 I
0.0211
0. r".I
0.017
C .13
0. 015
0.014'
0.012
0.0?0
0.011
0.015
0.023
0.027
0.060
0.M5
C .15
0.010l
0.014
0. 1?
0.012
C.CPO
0.011.

0. 16'
C.018
0301


AUX
ELECT
IIFL
MILLION
PTUJ
-------
-OI
*'.01RI
0.011
0.0271
n 021
0.015
0.017
0 0151
0 141
0.012
0.0111


0.0271
0.061o
0.0151
0.0132
..0151
0.0102
0 .011
0.014
S 0.012
S 02012
0.020
0.011

0.516
-------- I
0.01
0305
--- - I


AUX
FOSSIL
FUIcL
MILLION
PTII
--------N
N
T|
Al
P
P1
L
I
r
Al
p
Ll
F













--------
N.A.
0306


FLECT
FNF@RY-
SAVINGSS
MILLION

RJ-
*
*
*
*1
*

*
*
*1;
*
*
*
*1
*
*
*
*
*
*
*
*
*

*0
*


0311


FOS !IL
FN RG'Y
SAVI N'S
MI LLT ON
RTUt
N
0
T

A
0
P
L

A
L
F












M.A.
N.A.
Q013


* DENOTES UNAVAILABLE= DATA.
a nFNOT=S NULL DATA.
N.A. DENOTES NOT APPLICABLE DATA.


'OLAP /191'-'7/02


WAT. WAT.IW&ATED
TFMP T PID IISFr
OFG OFf
F I F AL
501 140 141
52 140 C
55 140 19
561 140 a
q6 140 11
53 14% 1Q
54 140 3
551 140 10
501 40 !1
I 5 1 140 10
599 140 72
61 140 7
5q 140 3'I
I 631 14n 5
671 1401 1
I 941 I n 2-
50 140 ROI
I 51 i4O 3
53 1401 a
61, 1401 ?
67 140
69 '.40 0
60 140 16
A41 14 0
541 140 &
91o 140 44
61 140 o

-4- 1-- ------1
5Rl 140 1!
N305 jN3fl7 N30O






SOLAP HEATTINr ANn COnTOLTM OFM'PNSTPATTnN DvoprpIM


MO4NTL.Y DPPPOT
,PACI HFATTMY SIJ SVSTFM


SITF: CHESTEP WFST
PEPnOT PERIOD: FFRPUAPY,107Q


i--- I
SAY
OF
MOm.


1
2
3
&4
5
6
7
P
0
IC
11
12
U1
14
16
17
IP
10
2C
21
?2
23
24
29
26
2P
I UM
A rV
NBS


SPACE
HEAT INrG
LOAD
MILLION
RTU
0.50-'
0. 534
0.4'1
C.2P4
0. 11
C.551
0.460
0.350
0.602
0.305
0.231
0.216
0.000
0.02'
0.2R0
0.553
0.536
0.265
0.3A6
0.116
0.024
0.000
So0.000n
0.250
0.404
0.204
0.103
P.625c
04 .C2
0402


SnLAP SOLAR
FR.Oc ENcPQY
LOAn USED
PCT MILLION
RTU
21 M.106
0 0.000
0 0.000
22 C.061
1 0.006
0 0.00
0 03.000
0 0.000o
20 0.120
10 0.074
2Q 0.067
3R 0.075
12 0.?
6 0.00058
15 r.044
0 0.000
o 0.000
24 0.064
7 0.027
6 0.006
f10> m.024
0 0.000
r 1 "). QOO
0.000
7 0.017
10 0.021


--------------
1" 6 3.n58
N40n 0400
- I----


IP FP
IFNEP'Y
MILLION
RTIJ
O1). O 4
0.040
0.010!
n .2c
0.024
0.01 '0
0.016
".0221
0 .01. rI
0.013
0.0141
0.001
0.024
0.022?
0.018,
C.0>?
0.005
0.000
0.000o
0.013
O."2m
0.010'

o.4P5
r. 1 7
n40 3


AU11X
THEPMAL
111Fn
MILLION
RTIJ
0.416
0.41
0.464'
0.22'
0.516
0.465'
0. 63
0.40 A
0.16 i
0. 126
0.104
O.n?22
0.026'
0.247
0. 550
0. 53
0.200'
0. 350
0.1000
0.000
o.onn

n 4Q.
0.1P3

7.871Q


0401


SI--------
&IUX a IUX
PLFrT FOSSIL
FUFL FtUL I
MILLION M!LLInN I
RATJ RTU
0.442 NK
!. 0 n
0.476 T
0.2?0
n.-8 Al
0. F1 01
9.474 01
0.370 L
0.505 I
0.32? CI
0.1,2 A
0 .1 29 R
n.1oq L
0.03? c
0.C26
0n 529
0.567
0.200
0.35i
0.1 O)
0.000
0.000
0.23?
A 404
0.04r
9 .* 4 N.A.
.- ------ NA.&

0410


=NEPpY
SAVINGS
MILLTnN
I RNIJ
N
T
A
p
L
I
C

L
I F


FLFF T
FM RG GV
SAVI NrS
MILLION
8ThJ
n. 067
0. Qt00
0.000
3.003
0.000
6 000
0. 000q4
n 045
0.030
3. 11
0022
1. 020

0. 007
0.000
0. o14
0. 00?
0. 008
0.000
0. 0"0
S.000
0. 000
n, 4??
0.4'0
0.01 f
04 1


I --I ---
LL0r, AMR I
TFMO TE4PI

I DE Ip I


,71 ) 71


6 vf l 3 r
671 35

6F 1 I
6PA I 361
AA, 2 l

I A0 All
6I I1
I O 4I


60 -All


I 61 341
671 41



'I 6 -
I 6 1 I
S l -A4


I ----I----?
I----, ----I
I MARA ^?q
-q 4 -


D* ONOTFC UN&VAIL&PLE DATN.
O DENnTES NULL DATA.
N.A. nENOTES NOT APnLICBRLE oTA&.


sotr Ap/f1"1-70/1j?


M. A.


041 7






SOLAR HP&TTNG ANn CrOLTMC nEMONMTPRATIrfN PFPrPAM
MONTHI- pcoDPT
FNVTPONMENTAL

SITE: CHESTO 'WE4T
PRDoPT DPIO0Q r) CRUIARV,o070
I ------- I -------- ------ I ---------I
)AY I TOTAL niFrIrSF AMBTFNT
DP INSnLATION INSOLATION TEMoEPATIJPE1
MONTH '
MONT TUSO.. CT RTUj/SQ. T nFr c i
-------i ----------____ --------- --------
1 2106 N 21 I
2 R61 0 2 1
:3 .Q T "A7
4 ll4 I7
S402 A ?
6 1 111 o 34
7 PR 3
S90? L 35 I
9 2070 I 10 I
In 77, C 26r
i 1 f88 A ?6
12 123 8 4 1l
13 1791 L 40 l
14 ;4?1 x= S4
1 857 A1 I5
16 I 152 -A
17 104 327
1 I 151 31
1 I 21? 31
2r 5R2 41
21 809 s3
22 5P7 5c
23 378 64
94 323 62?
?r 57 42
?6 36 A4
)7 1675 41
2 I '? 2 52

I-----I--------------- -----------
SUM '4?424 N.A. -
AVG A66 N.A. 4C
NBr T1 0001 N 13

* rENIGTrCS UNAVAILABLE r'ATA.
3 OENOTES NULL DATA.
N.A. rcNOTPS NOT APDLICABLF TATA.


-nL AP n 1 o.30-"o0V7


nVAYT TM
AMRTENT
TCMD
rEG r=
27
R
3P
47
30
3?
36
30
21
37

47
r, q
65
36
30
46
56
61
66
65
30
33
51



44


R ELAT T \V
HUNImT ITY
SPFrENT

N
n
T





A
A'
L
I
A '
















N.A.'
- - - -


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nTOECT TON
nEGPF:ES

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T

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A
R
L














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- - - - -


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SPFFO
M.0.H,

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F





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UNIVERSITY OF FLORIDA
11 llll II II 111112 2 11111111 IN II III 641 II ll 11111
3 1262 09052 6400