Monthly performance report

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Material Information

Title:
Monthly performance report Terrell D. Moseley
Added title page title:
Terrell D. Moseley
Physical Description:
v. : ill. ; 28 cm.
Language:
English
Creator:
United States -- Dept. of Energy
Publisher:
Dept. of Energy
Place of Publication:
Washington, D.C.
Publication Date:

Subjects

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

Notes

General Note:
National solar data program.
General Note:
Monthly Catalog Number: gp 80007799
General Note:
National solar heating and cooling demonstration program.
General Note:
"SOLAR/2011-79/03" ; "SOLAR/2011-79/04" ; "SOLAR/2011-79/05."

Record Information

Source Institution:
University of Florida
Rights Management:
All applicable rights reserved by the source institution and holding location.
Resource Identifier:
aleph - 027035464
oclc - 05877400
System ID:
AA00013843:00001


This item has the following downloads:


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
        Page 13
        Page 14
    Back Cover
        Back Cover 1
        Back Cover 2
Full Text
F: t. 7 I-~:'1Dt A be.


SOLAR/2011-79/04


Monthly

Performance

Report



TERRELL D. MOSELEY
APRIL 1979


U.S. Department of Energy

SNational Solar Heating and
Cooling Demonstration Program

National Solar Data Program


LJ


r
/~~O --- ~





































NOTICE
This report was prepared as an account of work sponsored by the 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
TERRELL D. MOSELEY
APRIL 1979


I. SYSTEM DESCRIPTION


The Terrell D. Moseley Co. site is a 1,780-square foot, single-story, com-
mercial office building with attached warehouse in Lynchburg, Virginia.
The solar energy system is designed to provide approximately 70 percent of
the space heating and hot water energy requirements of the office building.
Because the hot water consumption is very low (nominally 10 gallons per day),
only the space heating system is monitored for performance evaluation. The
site has a collector array of 24 flat-plate collector panels built by T. D.
Moseley. The collector array has a gross area of 400 square feet, and faces
south at a tilt angle of 50 degrees from the horizontal. Water is the heat
transfer medium throughout the solar energy system. Collected solar energy
is delivered to the 2,000-gallon storage tank, which is in an unheated
attached warehouse building. The insulation on the tank is four inches of
fiberglass.


When solar energy is insufficient to maintain a nominal 1050F storage tem-
perature, a natural gas-fired boiler (auxiliary heater) provides additional
energy to storage. Space heating is provided by circulating storage water
through a heat exchanger located in the air distribution system of the
building. Since the collector fluid automatically drains into storage
after each solar energy collection operation, additional collector freeze
protection measures are not required.


The system, shown schematically in Figure 1, has three modes of solar
operation, which are described below.


Mode 1 Collector-to-Storage: This mode is entered when the collector
absorber plate temperature exceeds the bottom storage temperature by
20F. The transfer fluid is pumped from storage through the collectors





















C I (CTO H, P 'ANI T TAL IS(OLATION
UT IKX)RI T(MP RA TU H
IN(XX.) T MP-RATU l


REVISED 2/6/79


Figure 1. T. D. MOSELEY SOLAR ENERGY SYSTEM SCHEMA TIC


* 'L:,
A T)L,
A t&O(


WATER










and back to storage until this temperature differential drops to less
than a nominal 30F.


Mode 2 Storage-to-Space Heating: This mode is entered when there is a
demand for space heating and the sensed temperature of the storage water
is greater than a nominal 850F. Water is circulated between storage and
liquid-to-air heat exchanger HX1 in the air-handling unit distribution
duct until the space heating demand is satisfied, or the sensed storage
temperature drops below 850F.


Mode 3 Storage-to-Heat Pump: This mode of operation will provide
space heating when Mode 2 operation is not available. This mode is
entered when there is a demand for space heating and the temperature of
the storage water is below 850F. Energy input to the heat pump is
supplied by opening the normally closed valve V2, closing the normally
open valve Vl, and circulating storage water through heat pump evaporator
HX2. This mode is terminated when either the sensed storage temperature
rises above 900F, or when no space heating demand exists.


II. PERFORMANCE EVALUATION


The system performance evaluations discussed in this section are based
primarily on the analysis of the data presented in the attached computer-
generated monthly report. This attached report consists of daily site
thermal and energy values for each subsystem, plus environmental data.
The performance factors discussed in this report are based upon the
definitions contained in NBSIR 76-1137, Thermal Data Requirements and
Performance Evaluation Procedures for the National Solar Heating and
Cooling Demonstration Program.


A. Introduction


The solar energy system at the T. D. Moseley site was operational through-
out April, and satisfied 80 percent of the space heating energy requirements.










The solar energy system saved 2.41 million Btu of fossil fuel energy, at
the expense of 0.46 million Btu of electrical operating energy. No data
was available for performance evaluation on April 5 due to instrumentation
n.aintendnce during a site visit.


B. weatherr


Tht long-term average outside ambient temperature for April in Lynchburg,
Virginia is 570F. The measured average outside ambient temperature was
570F. The measured insolation in the plane of the collector array averaged
1,334 Btu/ft2-day, which is 11 percent below normal for the area. The long-
terr average is 1,495 Btu/ft2-day. Long-term average temperature data and
long-term average insolation data are taken or derived from the Monthly
Environmental Data for Systems in the National Solar Data Network, Department
of Energy Report SOLAR/0019-79/36.


C. System Thermal Performance


Collector Of the 16.00 million Btu of solar energy incident on the col-
lector array during April, 13.16 million Btu were incident on the array
when the collector pump P1 (Figure 1) was operating. The system collected
3.27 million Btu, or 20 percent of the total insolation incident on the col-
lector array. The operational collector array efficiency, which is only
computed during collector pump operation, was 25 percent. In addition to
collecting energy, the array rejected 0.17 million Btu from storage as a
result of collector pump operation during periods of insufficient insolation
levels. This amount of rejected energy is included in the performance cal-
culations for solar-energy-collected, energy-to-storage, and collector array
efficiency. The operation of pump P1 required 0.38 million Btu.


Storage The solar energy systerr delivered 2.85 million Btu to storage
during April. There was an apparent transport energy loss of 0.42 million
Etu between the collectors and storage. The auxiliary heater supplied
0.41 million Btu of auxiliary thermal energy to storage. A total of










1.81 million Btu was extracted from storage during the month and sent to
the conditioned space. The average storage temperature was 1240F. The
energy loss from storage was 1.59 million Btu, which was computed by sub-
tracting the sum of the change in storage energy (-0.14 million Btu) and
the energy removed from storage, from the total thermal energy delivered
to storage (3.26 million Btu). The amount of energy supplied to the domes-
tic hot water (DHW) subsystem is included in this energy loss calculation
because the DHW subsystem is not instrumented for performance evaluation.


Space Heating Load The space heating load for April was calculated to
be 1.81 million Btu. Solar energy satisfied 80 percent of the space heat-
ing load. The subsystem operated in Mode 2 throughout the month when space
heating was required. Auxiliary thermal energy, 0.36 million Btu, was sup-
plied to the space heating subsystem via the storage tank through the
operation of the auxiliary heater. The electrical energy needed to operate
pumps P2 and P3, and the blower B1 amounted to 0.19 million Btu.


D. Observations


Due to a site visit for instrumentation maintenance on April 5, a signif-
icant number of measurements were invalid which prevented an accurate
calculation of performance factors for that day. The measurement bias on
measurement W210, which was mentioned in previous reports, was corrected.


The operational collector array efficiency was calculated to be 19 percent
greater than the collector array efficiency as tabulated in the collector
array performance data for this report. This result is believed to be due
to the high storage temperature (1240F average) for April, which limited
the operating time of the collector pump P1 for efficient collection of
solar energy.


Auxiliary thermal energy was added to storage on only five days during the
month. As a consequence of this reduced operation, the majority of the
amount of auxiliary fossil fuel tabulated in the space heating subsystem











performance report was for pilot-light operation, while the natural gas-
fired heater remained in a standby condition.


The previously reported erroneous heat transfer condition at the duct
heat exchanger HX1 has not been observed to recur since the control
signal to valve V2 was removed by the site contractor on March 27. The
site contractor indicated that the control signal to V2 is required for
space cooling by the heat pump and would therefore have to be restored
in May. The calculation of the space heating load performance factor
for April was again made from measurements at the space heating outlet
of the storage tank. This was because a small (four percent) energy
gain was computed between the tank and the load during the month. This
condition, although small, is unexplained; therefore, for consistency in
the method of reporting the space heating system performance, the cal-
culation remains unchanged.


E. Energy Savings


The T. D. Moseley solar energy system provided savings of 2.41 million
Btu of natural gas during April, at the expense of 0.46 million Btu of
electricity for operating the solar portion of the system. The savings
of 2.41 million Btu are the natural gas equivalent of the 1.45 million
Etu of solar energy removed from storage and supplied to the conditioned
space. The burning efficiency of the natural gas boiler used in the
fossil fuel savings calculations was assumed to be 0.60.


III. ACTION STATUS


A site visit was made to the Terrell D. Moseley site for instrumentation
maintenar.ie. During this visit (April 5 and 6), the erroneous flow
indication fror flow sensor W210 was corrected.












SOLAR HEATING AND COOLING DEMONSTRATION PROGRAM


MONTHLY REPORT
SITE SUMMARY


SOLAR/2011-79/04


SITE: MOSELEY
REPORT PERIOD: APRIL,1079


SITE/SYSTEM DESCRIPTION:
T. D. MOSELEY SOLAR ENERGY SYSTEM IS DESIGNED TO PROVIDE HEATING FOR A
1,780 SQUARE FCCT OFFICE BUILDING. ENERGY COLLECTION AND STORAGE IS PROVIDED
BY A 400 SQUARE FOOT FLAT-PLATE COLLECTOR ARPAY AND A 2,000 GALLON STORAGE
TANK. WATER IS USED AS THF HEAT COLLECTION, TRANSFER, AND STORAGE FLUID.
SPACE HEATING IS PROVIDED BY A WATER/AIR HEAT EXCHANGER LOCATED IN THE AIR
HANDLER UNIT DUCTING.A NATURAL GAS-FIRED BOILER PROVIDES THERMAL ENERGY
TC STORAGE TO SUPPLEMENT SOLAR ENERGY.


GENERAL SITC DATA:
INCIDENT SOLAR ENERGY


CCLLECTED SOLAR ENEPGV
AVERAGE AMBIENT TEMPERATURE
AVERAGE BUILDING TEMPERATURE
ECSS SOLAR CONVERSION EFFICIENCY
ECSS OPERATING ENERGY
TCTAL SYSTEM OPERATING ENERGY
TCTAL ENERGY CCNSUNFD


16.006
4C0014
3.272
8190
57
71
0.09
0.379
0.566
5.569


MILLION BTU
BTU/SQ.FT.
MILLION BTU
BTU/SQ.FT.
DEGREES F
DEGREES F
MILLION BTU
MILLION BTU
MILLION BTU


SUBSYSTEM SUMMARY:
LCAD
SCLAR FRACTION
SCLAR ENERGY USED
OPERATING ENERGY
AUX. THERMAL ENERGY
AUX. ELECTRIC FUEL
AUX. FOSSIL FUEL
ELECTRICAL SAVINGS
FCSSIL SAVINGS


HOT WATER
N.A.
N .A.
N.A.
N.A.
N.A.
N.A.
N.A.
N.A.
N.A.


HEATING
1.807
1,807
1,448
0.187
0.359
0.000
1,722
-0.079
2 413


COOL ING
N.A.
N.A.
N.A.
NA.
N. A.
N. A.
N.A.
N.A.
NA.


SYSTEM TOTAL
1.807 MILLION BTU
80 PERCENT
1.448 MILLION BTU
0.566 MILLION BTU
0.359 MILLION BTU
0.000 MILLION BTU
1.722 MILLION BTU
-0.457 MILLION BTU
2.413 MILLION BTU


SYSTEM PERFORMANCE FACTOR:


0.501


* DENOTFS UNAVAILABLE DATA
@ DENCTES NULL DATA
N.A. DENOTES NOT APPLICABLE DATA
REFERENCE: USER'S GUIDE TO THF MONTHLY PERcORMANCc RcPORT
OF THE NATIONAL SOLAR DATA PROGRAM,FEBRUARY 2P,1978,
SOLAR/0004-78/18










< A( LAP Ai- T I N" r LI >Mr AT I


MONTHLYL Y PF r'=T
ITF SqIj~MARP


OL C /20I11-70/04


SIT r: "4' Le
cPECPT PER I": APRIL,1970


SITP/SYSTYM ')SCRIPTIrN:
T. k.. I(CLCY SOLAo crIERGY SYSTEM IS DESIGNED TO OPOVID)F HEATIN3 F'-- A
1,70O S5) ;,P-c FCCT OFCICF BUILDING. FNERGY C CLLCCTION ANr STOFRAGF IV r1 '" /1"
RV A 400 SQUAPR FOOT FLAT-PLATE COLLFCTOR ARRAY AND A 2,000 GALLON STOAGE
TANK. WATER IS USFD AS THE HEAT COLLFCTIP N, TrpAN Fr YAN STCrAG( LUID.
CPdCE HEATING IS PROVInED BY A WATEP/AI4 HFAT EXCHA':EP LW]CATED IN THE AIR
HANDLER UNIT DUCTING.A NATURAL GAS-FIRPo ROILER PROVIOFS THpFMAL r'CCP
TC STOPAGc TO SUPPLEMENT SOLAR FNFRGV.

;GENRh AL SI TF r)ATA:
INCIOFNT SOLAP ENERGY 16*~,6 GIG


COLLECTED SOLAR ENERGY
AVERAGE AMBIENT TEMPERATURE
AVERAGE BUILDING TEMPERATURE
ECSS SOLAR CONVERSION EFFICIENCY
FCSS OPERATING ENERGY
TOTAL SYSTEM 0ERATING ENERGY
TOTAL ENERGY CONSUMED


SUBSYSTEM SUMMARY:
LCAD
SOLAR FRACTION
SOLAR ENERGY USED
CDERATING ENERGY
AUX. THE MAL ENG
ALX. ELECTRIC CUFL
AUX. FOSSIL FUEL
ELECTRICAL SAVINGS
FOSSIL SAVINGS


HOT WATEP
N.A.
N.A.
N.A.
NA.
N.A.
N.A.
N.A.
N.A.
N.A.


HATING
1.907
80
1.528
0. 197
0.379
0.000
1.817
-0. 083
2* 546


COOLING
N. A.
N,A.
N. A.
N. A
N. A.
N. A.
N.A.
N. A.
N. A.
N. A.


A JOULES


45430C KJISJ.M.
3.452 GIGA J. MILES
028Q4 KJ/SQ.M.
14 DEGREES C
21 rEGrPF S C
0.09
0.399 GIGA JOULFS
0.597 GIGA JOULES
5.875 GIGA JOULeS

SYSTEM TOTAL
1.907 GIGA JOULES
80 PERCENTT
1.528 GIGA JOULES
0.597 GIGA JOULFS
0.37Q GIGA JOULES
0. 00 GIGA JOULES
1. 17 GIGA JOULES
-0.482 GIGA JOULES
2.546 GIGA JOULES


SYSTEM PEFCOPMANCE ACTOR:


0.501


* DENOTES UNAVAILABLE DATA
@ DFNCTES NULL rATA
N.A. DENOTES NOT APPLICABLE DATA
REFFPFNCE: USER'S GUIDE TC THF MONTHLY PFRFOPMANCP PFPOIRT
CO THE NATIONAL SOLAP DATA PPOGRAM,FERRUARY 2R,1978,
SOLAR/0004-7R/1R


.> L? A k










SCLAR HATING AND COOLING DEMONSTRATInN PROGRAM
MONTHLY REPORT
ENERGY COLLECTION AND STORAGE SUBSYSTEM (ECSS)


SOLAP/2011-79/04


SITE: MOSELEY
REPORT PERIOD ADRILL197


DAY
OF
MONTH


1
2
3
4
5
6
7
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
SUM
AVG
NBS ID
i- -I


~---~-------
INCIDENT
SOLAR
ENERGY
MILLION
BTU
0.420
0.266
0.050
0.037
*
0. 63
C.QOl
0.737
0. 37
0. 70
0. 60
0.432
0.044
0.703
0.454
0.556
0.497
0.878
0.874
0.826
0.789
0.529
0.308
0.306
0.402
0.082
0.540
0.515
0.755
0.770
16.006
S 0.534
Q 001


-~---~-------
AMBIENT
TFMP

DEG-F
68
65
54
45
*
48
48
5Q
53
49
54
65
52
54
54
50
50
55
58
56
60
68
67
65
66
61
63
55
52
57




N 13
57
N113


ENERGY
TO
LOADS
MILLION
BTU
C .000
0.032
0.013
0.171
*
0.170
C.135
0.059
0.078
0.168
0.111
0.036
0.024
0.053
0.073
0.114
0.142
0.116
0.087
0.030
0.010
0.000
0.008
0.010
0.000
0.000
0.000
C.000
0.030
0.058
1.807
0.060

----------I


AUX
THERMAL
TO ECSS
MILLION
BTU
0.000
0.000
0.000
0.143
*
0.000
0.075
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.054
0.074
0.051
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.0C
0.000
0.000
0.000
0.411
0.014
----------]


I-----------I-----------


FCSS
OPERATINrG
ENERGY
MILLION
RTU
0.011
0.007
0.0000
0.000
*
0.016
0.010
0.017
0.007
0.018
0.016
0.015
0.000
0.010
0.008
0.010
0.015
0.019
0.019
0.018
0.01
0.016
0.010
0.012
0.014
0.000
0.016
0.011
0.018
0.016
0.370

0.013
0102


ECSS
ENERGY i
REJECTED
MILLION
BTU
N
0
T
A
P

L
I
C
B
L
E














N.A.
N.-A.

--------


ECSS SOLAR
CONVERSION
EFFICIENCY


0.000
0.094
0.200
3.497
*
0.142
0.108
0.059
0.157
0.153
0.135
0.073
0.477
0.065
0.144
0.181
0.241
0.105
0.081
0.040
0.011
0.000
0.023
0.029
0.000
0.000
0.000
0.000
0.036
0.070


0.090
N111


* DENOTES UNAVAILABLE DATA.
@ DENOTES NULL DTA.
N.A. DENCTES NOT APPLICABLE DATA.










SCL f HE EATING AND C('OLINS DE ONSTRATI( US" r- M,


I1NTHLY REPORT
CCLLrCTOR AP AY PEFOc cUT AN


SIT ~ : LCSEL EY
PrP' LT pF C : APRRIL,1'070


S'LAF/2311-79/04


DAY
fl
MONTH


1
2
3
4
5
6
7
o
19
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
20
30

SUM
AV
NPSI O


I IDENT
SOLAR
ENFPGY
MILLION
BTU
C.42C
C.?6A
0.050
0.037
3

C.cal
O. 7.f7
0.3R7
C.87C
C.680
0.432
3.044
C.703
0.454
0.556
0.407
0.878
0.874
0.826
0. PQ
0. 29
0.306
0.402
0.082
0.540
0. 51
0.755
,.770
1A.006
0. r

1300 1
---------


LPFRATIONAL
INCIDENT
ENERGY
MILLION
BTU
0.299
0.12
0.000
C.000
3.773
0. R
C. P
0.261
0.786
0.598
0.357
3.000
0.656
0. 10
0.407
0.374
0.801
0.79P
0.742
0.700
0.464
0.177
0.208
0.290
0.000
0.445
0.332
0.673
3. 56-
0.661
13.1 0
0.439


UAYTIMV CCLLECTCp


CCLLECT r
SOLA40
ENERGY
MILLION
RTU

0.051
-0.01
0.000
0.000
*
0.214
0.26
C.1~0
0.048
0.233
0.102
0.061
0.000
0.181
0.075
0.110
0.058
0.242
0.237
0.203
0.177
0.093
-0.00
0.003
0.043
0.000
0.080
0.078
0.172
0.199
----------(
3.272
0.109
Q100
----~------


AMR IEFNT
TPFMP
DEC F

77
A5
44
54
5?

A
R4

71
52
60
61
54
58
62
65
70
79
75
67
72
61
68
66
62
68


* DONOTES UNAVAILABLE DATA.
i DENOTES NULL DATA.
N.A. DENOTES NOT ADPLICABLE DATA.


ARRAY
EFrC I NCY


0.121
-0 .* C02
0.000
0. 24
*

0.251
3. 25
3.127
3. 68
0.282
0.142
0.000
0.257
0.165
0.197
0.117
0.276
0.271
0.246
0.224
0.176
-0.023
0.010
0.107
0.000
0.148
0.152
0.22P
0. 59


0.204
N100











SOLAR HEATING AND COOLING DEMONSTRATION oPOGPAM


MONTHLY REPORT
STORAGE PERFORMANCE


SITE MOSFLFY
REPORT PERIOD: APRIL,107C


SOLA /2011-79/C4


DAY
OF
MONTH


1
2
3
4
5
6
7
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
SUM
AVG
NBS ID


ENERGY
TO
STORAGE
MILLION
BTU
C.036
-0.008
0.000
0.143
0.102
0.286
0.174
0.031
0.214
0.173
0.04P
0.000
0.162
0.063
0.148
0.118
0.280
0.215
0.183
0.155
0.078
-0.021
-0.008
0.014
0.000
0.066
0.06Q
0.153
3.183
3.257
0.109
Q200


ENERGY
CrOM
STORAGE
MILLION
BTU
0.000
0.032
0.013
0.171
0.170
0.135
0.050
0.078
0.168
0.111
0.036
0.024
0.053
0.073
0.114
0.142
0.116
0.087
0.039
0.010
C.000
0.008
0.010
0.000
0.00C
0.000
0.000
0.030
0.058
1.807
0.060
0201


CHANGE
IN STORED
ENERGY
MILLION
BTU
-0.021
-0.117
-0.110
-0.004
-C .038
0. 147
0.055
-0.123
0.010
0.005
-C.028
-0.135
0.110
-0.084
0.017
0.003
0.160
0.076
0.082
0.078
0.006
-0.108
-0.02
-0.031
-0 .04 -
0.051
0.010
O.O75
0.0751
0.C50

-0.135
-0.005
0202
i----------


STORAGE
AVERAGE
TEMP
)DE F

135
13C
122
113
117
120
127
125
12C
121
121
116
115
116
113
114
119
127
133
138
141
137
131
129
123
123
125
127
131


124


* DENOTES UNAVAILABLEP DATA.
@ DENOTES NULL DATA.
N.A. nENCTES NOT APPLICABLE rATA.


STORAGF
EF ICIENCY


----------I
-3.589
11.308
1.000
0.530
*
0.729
0.980
0.657
-1.420
0.820
0.671
0.183
1.000
1.005
-0.174
0.88C
1.226
0.987
0.757
0.664
.564
3.082
4.816
Q.242
-2.213
1.00C
0.773
0.130
0.685
0.630


513
NIOR
I-----------












MCNTHLY PEPOPT
C9A(F HFETINCG SUJFSY'TFM


S4'1 A-/2011-79/04


I : L :-v
C p F I 0 c: A1P IL, 1 9 79


A V


L A C A
HF A T IN
LOAD
MILLI
"T U
oU
C.03
C.C 12
C.171
0. 1 79
C.1 r
0 07 P
0.111
0.036
C.024
0.03
0.073
0.114
0.142
0. 16
0.039
0.01C
O.OOP
0.300
0.000
0.000

0.000

0.030
0.058
1.807
0.060
0402
-o-o-o


LOAD
or T


0
78
78
76
69
72
74
"7
79
83
86
87
87
89
89
R5
79
81
85
8 ?
0
) 0
0
0
0
01
92


83
N400


SOLA
CNFPqY
USED
IL LION
BTU

G COO
0.000
0.025
0.010
0.129
0.123
0.0 q
0.043
0.061
0.13?
0 092
0.031
0.021
0.C46
0.066
0.101
0.120
0.092
0.071
0.033
0 COQ
0 300
0.007
0.009
0.000
0.000
0.000
0.000
0.028
0. 354
1.448
0.048
0400


OPER
FNrP V

MILL ION
PTU
0 .000
0.000

0.021
0.018
3.00Fc
0.015
0.010
0.003
0.003
0.006
0 .007
0.016
0.015
3.007
0.003
0.001
0.000
0.001
0.001
0.000
0.000
0.000
O.OOC
0.002
0.004
9.187
0.006
0403


AUX
THP RMAL
USED
MILLION
BTU
0.000
0.0007
0. 003
0.041

0. 038
0.01 1
0.017
0.010
0.002
0.007

0.013
0.022
0.024
0.017
0.006
0.001
0.000
0.001
0.001
0.000
0.000
0.000
0.000
0.003
0.004
0.359
0.012
0401


AUx
FLECCT
FUEL
MILLION
RTU

0.000
0.000
0.000
0.000'
0.0003
0.000
0.000
0.0001
0.0001
0.000
0.000
0.000
0. 000
0.000
0.000
0.000,
0.000,
0.000
0.000
0.000
0.0000
0.000,
0.000
0.000
0.000
0.000
O. 000
0.000
0. 000
0.000
0.000
0--------


r- ( s I t
AL^L


0.030
0.02 C
0.002
0 2-4

0.022
0.212
0 .02'
3.025
0.021
0.023
0.02
3.024
3.025
0.022
0.024
0.0288



0.023
0.024
3.028
0.022
0.024
0.024
0.023
0.023
0.023
0.023
0.017
3.024
0.027
1.722
0.057
Q410


s"L r s
0 'viq S
MIL I10l
r'T U

0.030
-3.00
-3,9!

-3. 001



-0. 004
-0.001
-0. 031
-0. 00
-0.009
-0.010
-0.008
-0.0022
-0. 000
-0 .000
000
-0. 000
-0.000
0.000
0. 0C0
0. 000
0.000
-0.001
-0.001
-0.0700
-0. 001
-3 001


r L
A V
I L L I L N
B9T

0.742

C. 15
0.204
C. 63
0 0.72
0.101
3.222
0. 1 3
0.052
0. 035
C 076
0. 130
0.168
0.200
0.153
0.118
0.056
0.014
0.000
0.012
0.015
0.000
0.000
0.000
0.000
0.046
0.090
2.413
0.080
0417


27
28
29
30
SUM
AVG
NBS


T Mp


71
4
70
(8
67
71
72
71
72
71
67
67
70
71
71
72
71
68
69
73
73
74
73
73
70
68
71


71
N406


A' .
TcA1p




65
54
45
4R
48'
55
53
40
54
65
52
54
54
50
50
55
58
56
60
68
67
65
66
61
63
55
52
57

5-'
57l
I--N113--
N113




.P D ALE DATA.
i~ft~alia^LC ^PLICARLE DAT.











SOLAR HATING AND COnLING DEMONSTRATION' PROGRAM

cNVIPM;UNhAEPLs ARY


SITE: *MOSEL :v
REPuRT DERICf: APRIL,1970

D&Y T'TAL 3DIFUSF AMPRIENT
OF INSOLAT ION INSULATION TEMPEPATURE
MONTH
BTU/SO. FT PTU/SO.FT DEG F

1 1049 N 6
2 665 C 65
3 126 T 54
4 92 45
5 A *
6 ?l5 D 48
7 2252 P 4P
194- t S
0c s6 I 53
1C 2176 C o
11 16cc A 54
12 107 B 65
13 109 L 52
14 1750 c 54
15 1134 54
1f 1301 50
17 124? 50
18 2196 55
Ie 21c= 5
20 ?065 56
21 1973 60
22 1322 68
24 764 65
25 1006 66
26 204 61
27 13 1 63
29 128R 95
2 19889 52
30 1926 57
SUM 40014 N.A.
---------- ----------- -----------
AVr 1334 N.A. 57
NP ln On1! Ni 11

SDENCTES UNAVA!LABLF DATA.
@ DENOTES NULL DATA.
N.A. CPNOTPS NOT APPLICABLE AnTA.


SOLAR/2011-79/04


DAYT I ME
AMBI NT
T VMD
DEC F
77
69
55
44

54
52
63
59
54
55
71
52
60
61
54
58
62
65
65
70
79
7"Z
67
72
61
68
66
62
68


63


L c \T IVE
HUMIDITY
EDtCENT
N
0
T

T

L
I
C
A
B
L

















N. A.


WIND
DIRECTION
DEGREES
N
0
T

A
P
L
I
C
A
B
L
E
















N.A.
N115


WIND
SoEED
M.P.H.
N
0
T
A
P
P
L
I
C
A
B
L
E
















N.A.
N114




I









UNIVERSITY OF FLORIDA
lil illi l lll II I6 ll 5ll111 1 ll I III I l IN
3 1262 09052 6822




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