Monthly performance report

MISSING IMAGE

Material Information

Title:
Monthly performance report Ortiz & Reill Developers, Inc. house lot 8
Uncontrolled:
Ortiz & Reill Developers, Inc. house lot 8
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 -- California -- Escondido   ( lcsh )
Solar houses -- California -- Escondido   ( lcsh )
Genre:
federal government publication   ( marcgt )
non-fiction   ( marcgt )

Notes

General Note:
National solar data program.
General Note:
Monthly Catalog Number: gp 80010081
General Note:
National solar heating and cooling demonstration program.
General Note:
"SOLAR/1087-78/12" ; "SOLAR/1087-79/01" ; "SOLAR/1087-79/02" ; "SOLAR/1087-79/03" ; "SOLAR/1087-79/04."

Record Information

Source Institution:
University of Florida
Rights Management:
All applicable rights reserved by the source institution and holding location.
Resource Identifier:
aleph - 027069570
oclc - 05895689
System ID:
AA00013872:00001


This item is only available as the following downloads:


Full Text
I /I,


I


MASTER


SOLAR/1 087-79/01


Monthly
Performance

Report


ORTIZ & REILL DEVELOPERS,
HOUSE LOT 8


INC.


JANUARY 1979


U.S. Department of Energy

1National Solar Heating and
Cooling Demonstration Program

National Solar Data Program












































_________________NOTICE ________
This report was prepared as &n 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


ORTIZ & REILL DEVELOPERS, INC.
HOUSE LOT 8

JANUARY 1979


I. SYSTEM DESCRIPTION

The Ortiz & Reill Developers, Inc., House Lot 8, is one of two instrumented
single-family residences in Escondido, California. The home has approximately
1536 square feet of conditioned space. Solar energy is used for domestic-hot-
water (DHW) heating and space heating. The solar energy system has an array
of flat-plate collectors with a gross area of 192 square feet. The array
faces 29 degrees east of south at an angle of 45 degrees to the horizontal.
Water is the transfer medium that delivers solar energy from the collector
array to storage and to the space heating and hot water loads. Solar energy
is stored in a 750-gallon tank located in the ground floor utility room.
Heated city water is stored in a 66-gallon DHW tank. When solar energy is
insufficient to satisfy the space heating load, a gas furnace provides auxiliary
energy for the space heating system. Similarly, an electrical heating element
in the DHW tank provides auxiliary energy for DHW heating. Energy from an
hydronic fireplace radiates directly into the living space and supplements
solar modes 1 and 2. The fireplace-to-storage mode activates if the fireplace
is being used, the tli .,erature difference between its water plenum and storage
output is more than 9"F, and there is no demand for space heating. During
operation, water is circulated from storage through the fireplace heat exchanger.
The system, shown sc, .tically in Figure 1, has four modes of solar operation.

Mode 1 .lc4 *- -ct,," -is mode activates when the temperature at
the outlet of the collector array exceeds the temperature at the bottom of the
storage tank by more than 9"F. Water is circulated from the tank through the
collectors until the t.-,.''. rature difference is less than 3F.

Mode 2 Storage-to-Space Heating: This mode activates when the manually
preset thermostat located in the heated space indicates a demand for space
heating. Heated water is circulated from storage through a heat exchanger in
the air-handling unit and returned to storage. If the demand cannot be
satisfied by energy fry.. storage, the gas furnace is activated to provide
auxiliary heat. The fireplace can also add energy to the water circulating
from storage before it ente the air-handling unit. If the fireplace is
being used and the l..erature difference between its water plenum and storage
output is more than 9F, valve D400 is activated and energy is added to the
water from the fireplace heat exchanger.

Mode 3 -_ Storage-to-[i- .,: This mode activates when there is a temperature
difference e.,rei,-j pre-set differential between storage and the DHW tank
and there is no de,.iJnd for s, ,ce heating. Incoming city water enters the DHW
tank, where it is hea-' d.J by water circulating from storage through a heat
exchanger in the tank.












*111 CO, CIOR P I.AN IOTAI INS-OLA1ION SPACF HE EATING OR
VTTKI O Tl ITMPURATL j COOL ING SUPPLY
I TtJ INNIOR TEMP[RAIUR( Tt MPi RING t
VALVE
DO)ME ST IC W401
WA.f HWATER

AIR
y-E-,~~ WtRT325T4
ORINGAL COND
t HW-- ^
HEATER T301
T302 EP401 T429
TIO ...... 00 (


Figure 1. ORTIZ AND REILL DEVELOPERS, INC., LOT NO. 8 SOLAR ENERGY SYSTEM SCHEMATIC









Mode 4 Collector-to-DHW: This iode activates when the temperature in the
DHW tank falls below 140F and the collector output temperature exceeds the
DHW tank temperature. Water circulates through the heat exchanger in the DHW
tank and returns to the collectors.


II. PERFORMANCE EVALUATION


INTRODUCTION

The site was occupied in January and the solar energy system operated contin-
uously during the month. Solar e,,,-,rgy satisfied 51 percent of the DHW require-
ments and 26 percent of the space heating requirements. The solar energy
system provided electrical energy savings of 0.11 million Btu and a fossil
fuel energy savings of 0.56 million Btu.


WEATHER CONDITIONS

During the month, total incident solar energy on the collector array was 6.4
million Btu for a daily average of 1077 Btu per square foot. This was below
the estimated average daily solar radiation for this geographical area during
January of 1504 Btu per square foot for a plane facing 29 degrees east of
south with a tilt of 45 degrees to the horizontal. The average ambient tem-
perature during January was 51 F as compared ,.ith the long-term average for
January of 55F. The number of heating degree-days 'for the month (based on a
65F reference) was 428, as (,-'inared with the long-term average of 314. The
number of cooling degree-days was zero, as co:,iared with the average of 10.


THERMAL PERFORMANCE

Collector The total incident solar radiation on the collector array for the
month of January was 6.4 million n Btu. During the period the collector loop
was operating the total insolation i.cii-unted to 5.1 million Btu. The total
collected solar energy for the icnth of January was 1.7 million Btu, resulting
in a collector array efficiency of 26 percent, based on total incident insola-
tion. Solar energy delive,, I f.,i, the collector array to storage was 0.80
million Btu, while solar energy il-ivered fr,-', the collector array directly to
the loads amounted to O.2') milli,.i Btu. Energy loss during transfer from the
collector array to storage and loads was 0.60 :'Ilion Btu. This loss repre-
sented 35 percent of the ener-" collected. Operating energy required by the
collector loop was 0.064 million Btu.

Storage Solar energy delive-"el to storage was 0.80 million Btu and auxiliary
energy contribution to storage was 0.18 million Btu. There were 0.46 million
Btu delivered from storage to the DHW and space '2_ating subsystems. Energy
loss from storage was 0.54 million Btu and represented 55 percent of the
energy delivered to storage. The storage ef-'ici-ncy was 45 percent: This is
calculated as the ratio of the sum of the energy removed from storage and the
change in stored energy, to th--: ern:.,y delivered to storage. The average
storage temperature for th'- irenth was 92F.










T, ,]-1 subsysti, c ns ,"'. 0.42 million Btu of solar energy and
lit .u of auxiliary electrical energyqv to satisfy a hot water load of
i 'u. The solar fraction of this load was 51 percent. The DHW
Sc ns,:;ed a total of 0.22 million Btu of operating energy, resulting
Strical enprr. savings of 0.20 million Btu. The amount of solar
*. by thr [D'w subsystr'-i is believed to be slightly greater than in-
T discre;i iy is attributed to problems in data resolution and to
* s,'sor re.,,l)ution l i'-iitations. The DHW solar fraction and energy
. bu.lieved to be sli-:htly greater than indicated for the same reasons.
v ra,.. of 54 .i11c'', of -.- was consumed at an average temperature of
Svet. f-,, the ta,- .

-'' The s;-..ce heating subsystem consumed 0.34 million Btu of
a 1.0 million Btu of auxiliary thermal energy (equivalent to
i Btu of auxiliary fossil fuel energy) to satisfy a space heating
1 ii1i..ni Btu. The solar fraction of this load was 26 percent. The
subsystf-:, cons w;.j a total of 0.23 million Btu of operating
1-s i At.-: in an electrical energy expense of 0.027 million Btu and a
4ie Iene'-,y savings of 0.56 million Btu.




..,.,r.Lent of the combined DHW and space heating demand a total
*i1 lion Btu was lost fr,.:; the system. The system loss represented 65
S:e errgy collected.

h' ..rs during the rnth the control system allowed simultaneous
in e c-,nvol national space heating mode and the storage-to-space
:e. is resulted in an ':,iall ir,,unt of fossil fuel energy being
to storage f,.-., t,:e s,,.ice heating subsystem.

; e operated interitt',--,,tly during the month in the fireplace-to-
*.e ar' contributed a ,;roximately 0.17 million Btu to storage.

.ntribution was insignificant during January. There was erratic
i replace and storage-to-space heating mode for only 20 min-
*nth.




syst rovi.' a net electrical energy savings of 0.11 mil-
i foss il fel ... savings of 0.56 million Btu. The DHW subsystem
SI 1trical ,er savings of 0.20 million Btu, while the space
St ur an electrical energy expense of 0.027 million Btu
S v n s of 0. .', mi l ion Btu.




SI invsti ti< nting control system i-iprovemrients. No
*i t t is ti











SOLAR EATING AND CCCLING DENCNSTRATICN FRCGRAW


NCNTFLY REPORT
SITE SUMMARY


SITE: CRTIZ2 AND REILL. LCT 8
REPORT PERICC: JANUARY,1977


ESCCNDICO, CALIFORN


SCLAR/10E7-79/01


SI1i/SYSIEN DESCRIFTICN:
CRTIZ ANC REILL IS A SINGLE FAMILY DUELLING. ThE SCLAR ENERGY SYSTEM
PROVIDES SPACE EATING AhC CCNESTIC FCT tATER HEATING. WATER IS LSED
AS T-E ENERGY CCLLECTICr ANC STCPAGE MEDIUM. SCLAR ENERGY IS SUPPLIED
TC TFE DFW TANK ThRCUCF A hEAT EXCHANGER tHICh CONNECTS TO THE CLLL-
ECTION LCCP C-P TOC TFE STCRAGE TANK. ELECTRICAL RESISTANCE COILS PRO-
VIDE AUXILIARY ENERGY AS FEGlIREC. SCLAR ENERGY IS SUPPLIED TC THE
SPACE HEATING SYSTEM FRCN TFE STCOAGE TANK. A FIREPLACE ANC A GAS
FIRED FUFN 5"E P ,7:VICE AUXILIARY ENERGY AS REQUIRED.


NEPAL SITE DATA:
INCIDENT SCLAR ENEACY


C":.LECTEC SOLAR ENERGY

A'LRAGE AMBIENT TEMPERATURE
AVERAGE ELILCING TEMPERATURE
ECSS SCLAR CONVERSION EFFICIENCY
ECSS OPERATING ENERGY
TCTAL SYSTEM CPEAATING ENERGY
TCTAL FC-RGY CONSUMEC


Z'. 9SfSTEN SLNPAkY:

LCAC
SOLAR FRACTION
SCLAR ENERGY USEC
OPERATING ENERGY
AUX. THERMAL ENERGY
AUX. ELECTRIC FUEL
AUX. FOSSIL FUEL
ELECTRICAL SAVINGS
FOSSIL SAVINGS


hOT IATER
51
0 *958

C .417
C .219
0 ,494
0 .494
N .A.*
0 198
N .A .
(] 4S4
1' oA o
O.ise
N,*A.o


EATING
1 3QI
26
C .328
0.230
0.962
N.A.
1.719
-0C 027
0.563


COOLING
N A.
N.A.
N.A.
N .A.
N.A.
N.A.
N.A.
N oA.


6.409 MILLION BTU
33379 BTL/SQ.FT.
1I695 MILLION BTU
8826 BTL/SQo.FT.
51 DEGREES F
69 DEGREES F
0o12
0.064 MILLION BTU
0.513 MILLION BTU
4.431 MILLION BTU


SYSTEM TOTAL
2.165 MILLION BTU
34 PERCENT
0.755 MILLION BTL
0.513 MILLION BTU
1.462 MILLION BTU
0,494 MILLION BTU
1 719 MILLION BTU
0. 108 MILLION BTU
0.563 MILLION ETU


SYSTEM PERFORMANCE FACTOR:


0.427


* DENOTES UNAVAILABLE DATA
@ DENOTES NULL DATA
N.A. DENOTES NOT APPLICABLE CATA

REFERENCE: USER'S GUICE TC TkE NCMONTHLY PERFORMANCE REPORT
OF THE NATIONAL SCLAF DATA FPRCGRAM,FEERUARY 28l1978,
SCLAR/0004-78/1E













F)I T ; : : T I Z ; I YL I LI
KEPCRIT PE ICC : JAtL,f~lqY ,.ls7^


(C LM)D I OC AL I FI tL.


SITE/SYSTENV CESCPIFITICh :
CRTIZ ANC REILL IS A SINGLE FAMILY DWELLING. ThE SI-LAR ENERGY SYSTEM
P RCVIDES SPACE EAT INGC AND CCMiSTIIC FCT AATER HEATING. o ATEtR IS USEU
AS THE LNEkEG CCLLECTIC I C- AC STNTCACE tvECIUM.N SCLAP ENERGY IS SU-PLIECL
TO TFE ChF TANK ThRCUGh A HEAT EXCHANGER WHICH CONNECTS TC THE CCLL-
ECTICN LCCP CR TC ThE STChACE TAhK. ELECTRICAL RESISTANCE COILS PRO-
VIDE AUXILIARY ENERCY AS FECLIRED. SCLAR ENERGY IS SUPPLIED TO THE
SPACE EATING SYSTEM FRCN ThE STCRACE TANK. A FIREPLACE AND A GAS
FIRED FURNACE PROVIDE ALXILIARY ENERGY AS REQUIRED.


GENERAL SITE DATA:
INCIDENT SOLAR ENERGY


COLLECTED SCLAR ENERGY

AVERAGE AMBIENT TEMPERATURE
AVERAGE BUILDING TEMPERATURE
ECSS SCLAP CCNVERSICN EFFICIENCY
ECSS OPERATING ENERGY
TCTAL SYSTEM CPERATINC- ENERGY
TOTAL ENERGY CONSUMED


SUBSYSTEM SUMMARY:

LCAC
SCLAR FRACTION
SCLAR ENERGY USED
OPERATING ENERGY
AUX. THERMAL ENG
AUX. ELECTRIC FUEL
AUX. FOSSIL FUEL
ELECTRICAL SAVINGS
FOSSIL SAVINGS


-CT UATEF
1 .0 1 C
51
C.44C
0 .231
0.521
0.521
N. A.
0 .209
N.A.


hEATING
1 .378
26
0.357
0.243
1.015
N.A.
1 .814
-C.026
0 .594


COOLING
N.A.
N.A.
N.A.
N.A.
N. A.
N.A.
N.A.
N.A.
NoA.


6.761 GIGA JOULES
379052 KJ/SO.M.
1.7EE GIGA JCULES
100228 KJ/SQ.M.
11 DEGREES C
21 DEGREES C
0.12
0.067 GICA JOULES
0.541 GIGA JCLLES
4.675 GIGA JOULES


SYSTEM TOTAL
2.284 GIGA JCULES
34 PERCENT
0.797 GICA JOULES
0,541 GIGA JCULES
1.542 GIGA JOULES
0.521 GIGA JOULES
1.814 GIGA JOULES
0.114 GIGA JCULES
0.594 GIGA JOULES


SYSTEM PERFORMANCE FACTOR:


0.427


* DENCTES UNAVAILABLE CATA
a DENCTES NULL DATA
N.A. DENOTES NCT APFLICAELE CATA

REFERENCE: USER'S GUIDE TO ThE NCNTHLY PERFORMANCE REFCRT
OF THE NATIONAL SELA9 CATA FFCCRAM,FEERUARY 28,1S78,
SOLAR/0004-7E/Il


0 l, ( A ,9


'I T L H LY -'ht ,Y
t I I. S M hY


!,) L A R/ 10 8 7 I 9 / 0 1








SOLAR hEAIlING AND CCCLING DEMCNSTRATICN PROGRAM

NCNTFLY REPCRT
ENERGY CCLLECTICN ANC STORAGE SUBSYSTEM (ECSS)


SITE: CRTIZ ANC REILL, LCT 8
REPCPT PERICC: JANUARY,197?


ESCLNCDCC, CALIFGRN


SOLAR/1087-79/01


DAY
CF
MONTH

I

2
3 |
4
5
6
7
8
9 I
10
II
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31

SUM

AVG

NBS ID


--------I
INCIDENT
SCLA|
ENERGY
NILL ICN
BTL

0.36 1
C,217
0.218

0.064
C.090
0.224
C.360
0.077
0.3227
C *.2E5 2
0.116
0.273
0.158
c. c5E
0.114
C. 091
0.127
0.344
0.311
0.137
C. 16E
0.365
C. 074
0.132
C.3eo
0.399
00*29';
0. 12-2
0.269
0.096
0.081

6.409

C.207

G001


AMBIENT
TEMP


DEC--F

48
5
53
54
55
56
54
54
52
i52
56
c- =
52
52
57
52
47
46
51
51
50
54
5 -a
48
45
46
43
41
47
49
-----------I


51

N1 13


EI E&GY
E N' E; 1, GY
TC
L f-.A C 5
LZACS |
NILLICN
ETU

0 .042
C.C 19
C.022 i
C.020
C .000
C .01 1
C .030
0.024
C .010
0.022
C. 0020
0.024
C.007
G.015
0.003
C.008
0.003
0.007
0 .021
C.C18
0.013 |
C 015
C.C79
C.053
0.005j
0.022
C .026
0.029
C.05C
0.092
C.035

C .755
C024----------
-


AUX
THERMAL
TC ECSS
MILLION
ETU

0.000C
0.001
0.000
0,007
0.000
0.014
0.018
0.000
0.000
0.000
0 000
0.000
0.039
0.000
0.000
0.000
0.000
0.000
0.000
0.001
0.000
00000
0.001
0.000
0 *0 01
0.000
0.000
0C. 000
0 0021
0*021
00001
0.000
C 08C

0. 184

0.006


ECSS
OPERATING
ENERGY
NM ILL I C
BTU

0.004
0.003
0*003
0.005
0.000
0.001
0.004
0.004
0.000
0.003
0.003
0.001
0.002
0.001
0.000
0.000
0.000
0.002
0.004
0.003
0.001
0.003
0.004
0.000
0.000
0.004
0.004
C .000
0.003
0.000
0 .000uo


0.064


ECSS
ENERGY
REJECTED
MILLION
BTU

N
C
T

A
P
P
L
I
C
A
B
L
E


N .A.


-1------_--


0.002

0102


N.A.


ECSS SOLAR
CONVERSION
EFFICIENCY



0.117
0.086
0.100
00067
0.007
00123
0.135
0.066
00128
0.066
0 .080
0.208
0.026
0.094
0.050
0.071
0.030
0.056
0.061
0.060
0.095
0.090
0.216
0.716
0.035
0.057
0.065
0.320
0.135
0.956
0.432



0.1 18

NI 11
ohllo


* DENOTES LNAVAILAELE CATA,
2 DENOTES NULL DATA.
N.A. DENOTES NCT APPLICAELE CATA.






SCL fi ILAI IN( A"N C CCL ING LJEMCLST ATJCN FPCG( AM


NChTiLY FEFCIPT
CGLLECTIC AkRAY PERFGRMANCE


SITE: Ck TIZ AhC PE ILL. LET 8
VEF-C T PE ICC: JANLAIr 197,


ESCCNCIDC, CAS.I AR/10F7-79/01


DAY
CF
MCNTH



1
2
3
4
5

7
8
9 |
I C

12
12
14

15
16
17
18
19
20
21
22
22
24
25 i
26
27
28
29
20
31



AVG

NES IC


INC lCENTI
SCLAF
ENEACY
WILL ICN
B ILU
0.261
0 .3 1
C .217
0.218
0.202
0.064
0.C90
0 .224
C .360
0.077
0.227
0.252
0.116
C .273
04.1 5 E
0.058
0.114
0 .C9 1
0.127
0.344
0.311
C 1 37
C.p127
0 168
G cr
0.074
0.132
C .380
C .399
0.123
C .269
C .C96
0.081
00 001

6.409

0.207

G001


CPERATICNAL
IC ICEINT
E IEFGY
tv ILL ION


0.355
C 190
0.199
C.299
0.023
C. 0 2
0.217
0.337
0 .C15
C .290
C .207
0 .0E6
C .227
C .E10
0.000
C.C09
0 C28
0.092
0.315
C .280
C .Ce3
0.149
0.341
0 .00e
C. 05e
C .355
0.358
0. C.32
0.326
C .020
0.038

5.089

0.*164


COLLECTED
SOLAR
ENERGY
W ILLICN
ETU

0.062
0o. C3e
0.044
0.0 C54
0.001
0.C09
O.C6 1
0.164
O.C03
0.126
0.073
0.024
c. es
0. 122
0.000
-0.CO0
-0.005
0.028
0. 10e
0.110
0. C20
0.028
0. 164
-0.002

0.174
00148
-0 .C06
0.124
0.005
0.001
00005

01 095

0O.C5
0IO00


DAYT I E
AMB IENT
TEMP
DEG F


62
67
68
73
57
57
63
66
55
65
64
62

62
56
64
54
51
55
67
63
60
68
61
52
5s
61
4S
53
54
52



60


CCLLECTGC
ARRAY
EFFICIENCY



0.172
0.174
0.200
0. 1 78
0.022
0.103
0.270
0.455
0.043
0.287
0.289
0.211
0 .361
0.148
0.000
-0 .000
-0.051
0.220
0.315
0.254
0.149
0. 1C5
0.450
-0.C46
0.123
0.457
0.370
-0.046
0.335
0.054
0.008



0.2 4

N100


* DENOTES UNAVAILAeLE CATA.
@ DEhCTES NLLL CAIT.
N.A. DENOTES NCT APPLICABLE DATA.






SOLAR EATING AND CYCLING OEWCNSTRATICN PROGRAM


STCRAGE

SITE: GRTIZ AIN REILL, LCT e
REPORT PERICCD: JANUARf,S1979


iCNT-FLY REPCRT


PERFOCFANCE

ESCONDIDC, CASOLAR/1l0E7-79/01


DAY
CF
NCNTH



1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31

SLM

AVG

NES ID


ENERGY
TC
STCFAGE
MILLION
ETL

-0. 011
0.005
0.002
0.004
0.004
0 022
0 .C20
0.071
-0 OCO
0.068
0 C623
0 .006
C 109
0.018
0.000
C .CCO
0.000
0.005
0 O C 5
0 050
0 066
0.009
C. OCO
C 0 0 0
0.083
-0.000
0.1 c IE
0 096
C0 1C7
0 .C19
0 099
0.005
6C 084
0.9e2

0 .022

C200


ENE-CY
FROM
STORAGE
NILLICN
ETL

0 00C3
C 004
C .0C2
0.001
0.001
0.002
C COC 4
0.001
C .011
0.003
0C 006

C*C14
0.018
0.002
C0014
0 005
C .012
0.005
0.002
0 .006
0.011
c *onI
0.012
0 045
0 046
C CC5
0.001
0.036
0.031
S0.0532
0.085
.C 020

0 .456

0.015

C201


CHANGE
IN STORED
ENERGY
WILLICh
ETL

-0.029
-0.019
-C .010
-06010
-0 .004
0 041
0.019
0:048
-0c034
0.053
-0.009
-0.032
0.088
-0.032
-0.040
-0.032
-0.020
-0.007
0.048
0.041
-0. C35
-06037
0. C30
-0 063
-0 009
0.094
C 0.C50
-0 034
0.015
-0.110
0.019

-0.017
-0.001

C202


STORAGE
EFFICIENCY


STORAGE
AVERAGE
TEMP
DEG F


8e
85
82
80
79
80
86
94
95
97
101
97
101
107
100
94
go90
87
90
99
99
93
91
86
83
93
106
104
108
90
81



92


0.446

N 108


* CENCTES UhNAVAILAELE CATA.
Z DENOTES NLLL DATA.
N.A, DENOTES NCT AFFLICAELE CATA.


2.494
-2&741
-3.314
-1.926
-0.737
2.010
1 .155
0.692
122.345
0.840
-0.140
-2 531
0.825
-00989
1.000
-70.848
-30.142
-0.905
16079
0.749
-2,663
-52 .538
0.906
55.600C
-0.241
0.984
0.810
-0.143
0.692
-56060
0.465







h( t"T4 i. I
h( I. 7 it Ifc


Si T I R I Z AND R E ILL LCT d
E: PChT PE[ ICC: JANUakY. I

ESCLhC ICC L, (AL I F I


I L A o,/ 10e7-79/01


AY
i N
3N.


1
2
3
2
4

6
7
e


SOL>,,
EN E 4 G Y
USED
U L L I1C)
I ILL ION
I TL

0.C42
0.c 1 e
0.022
0.020
0.000
0.0 1I
0.030
0.024
0,010
0.020
0 o 0204


FL,T
t i.1
LCAC
MILL I CI
BTU

C. 05
0.057
0. 032
0.032








I G
C. 024
0.03u
0. 048

0.057
0.022
0 0,} 4
*



0 02 7
.002









0D 0 3 3
*J + :: 2 }

0 0 0 7


0- 2
0.005
0.095
0.031

Q202


ECLAF
F R CF
LCA)
CE T
CEM]

6t
73
65
61
459
4
55

63










2 C
(6
4









4
ti


42{
25
I 2C
16



511

N3.CC


CFEf.
[EECY
E EF-L (Y

SILL I CN
7L

C. CCS
c. cc^
0. CC9
C.CC7
0.012
C. C 1 2
C.CCE
C. CC4
0 .00 e
0 CC4
0. C07

SC 1C




C, CC7



C
ko C C

0 G I



( 0 C /
} ( ., ( C 4




I C 2 C Csf
0 C C 7,

0.00
C. 2 I9

0. CC7

G302


ALX
T FENWAL
SLSEC
I ILLIC N
ETL

0.012
C .C 15
0.015
C G 1 7
0.015

0.014
0.026
0C .012
0.013
C .C 1 0
C .0 1 0
0.007
0 0C22
C C 2 2


C, t
C. CIS
C C 1 6,
0 0C2
0 -.C0
.CI(
oCI


C (G 4








( C 1
G. 3` C I


ALX
ELECT
FUEL
F- UELL
NILL I CN
ETU

0.012
0.015
0.015
0.017
0.014
0 026
0.012
0.012
0 0 01 C
0.01--C
0.010
0.007
0.022
I.C22


0 0 1 bc
0. 0Z3tE
0 *002c

0.04 0
0.016
0.012

t, 0 1 7


0 C I
0 o 0 ..3 <,
0.01 1

0 .025
0. 03C

0.494

0.016

C305


AUX
FOSSIL
F ULSSIL.
FUEL
MILL ICN
ETU


N.A.

NG0A
G 0 4


ELE CT
ENERGY
S A V I r, C S,
SAV INGS-
ILL IC N
ETU
0.03;
0. OC
0.012
0.013
-0.012
-0.001
0.022
0.020
0.002
0.017

0.01IC
0 0 1 E
0.0C4


FCS SIL
ENtER
S A V I N
SI L L I C.
BTU

N
C
T

A
P
p
L
I
C
A
H


0. 01
3 C C 7
0 o 0 ,) c

0 o C.; 7
- 0, 00c;
-0. .0--


04
--0U
0.

-0.
O .


006

001


0.19b

0. 006

G311


N A.



C213


* DENOTES UNAVAILABLE DATA.
@ DENOTES NULL CATA.
N.A, DENOTES NCI APFLICAELE CATA.


I~[ I ~ I
U V 'i'


C21
O11
C 1 3


0 .}001
06J4
C G C4
0.004

0.417

0.012

3(0


I I


L0
30
3 1

SUN

AVG

NtBS


14AT
TENP
CEG
I.-

6 1
6-'
64
63
62
64

65
*

64

*





,'o











6
c .. .. 1



I -~ 1





63

I---
N 3. 0


ikAT.
TE P,
DEC
F


132
1 ,70
I37
137


122

N307,


t-.OT
eATER
USED

GAL
ee
103
56
57
42
6t
40
*
96
29
74
58

*





41


4

4N
4 7

47

5. 7
83
1 2
i 40
99

1678

54

N308


1. A F, E. A T I N (.: A N\ 1 C i L L, I N (i [; 1 9 L N l. I k A I I I1., th F, ;, r L i, h A Nv








SCLAR HEATIIC ANC CCCLIhC CEMCNSTRATICN PROGRAM


MCNTHLY REPCRT
SFACE -EATINC SLESYSTEM


SITE: ORTIZ AND REILL, LCT e
REPCRT PEAICC: JANUAFY.S197


ESCCNDIOC, CA


SGLAR/1087-79/01


SPACE
HEATING
LCAD
MILLION
BTU


SCLA F;
FR.OF
LCAD
PCT


DAY
OF




1
MJ N




2
3
4
5
6



10
14
I1

1 4

16
17
18





19
20
21
22
23
24
25
26
27
28
29
30
21

SUM

AVG

NBS


SCLAP
ENERGY
USED
NILLICh
ETU

0.001
0.001
0.000
0.000
O. COO
0.000

00 0 0
0, 000
0 .000
0,000

0.000
000001
0,000
0.000

0.000
0,000
0.000


0.000
0.000
0~ 0 00



0.000

0.004
0,050
0.053
0 .000
0,000

0.C12
0.040
0 C49
0.008




0.031

0.338

0.011
0400


CFEF
C P E 1;-
E1'EFGY

N ILLICh
1TU

O.CC7
o .oce
0 o cce
0 .C04
| 0 C C a
0 .C C C
0 C 0 q
0. Cc --
0 o, c 4c
0. CC I



0. C0


0. C0C!
0 CC4


o. cosI
O 0Ct





0.005
0.007

CCC 1
O.COS
C0 C2C
0.0C 17
0.004
0.C0c|
0.CCS*



O.C121
0. C 015


0 C27|
0.02 1


0.20C
O.OC7


0402
0.271
G 202


AUX
ThERMAL
USEC
N ILL IlC
BTU

0.057
0,040
0. C4
0 .042
0.025
0 .C20

0,035
0
0 0 1 f
0.022
C C09
0,0l9
0 .0 '

o *040
0.C14
0. C22
0. *036
0.045i
0,048
C .C06
0.041
C.C24
0.017
0.028
0 .034
0.045
0 C39
0.042
C.,C47
0,042
0.9

0 *042
0 962

0 .021


0.05 1
0.041 2
0.045 0
0,038 0
0,025 C
0.020 1
O.OC-S C
0.008 c
0.006 0
r0
0.038 C

0.032 0
0.009 0
C,-2 C,
0.019 C
0.043 0
0.014 C
0.022 0
0.036 C
0.046 1
0.055 14
0.006 0
0. C49 8
0.074 68
0.070 76
0.028 C
0.034 0
0.057 21
0.079 51
0. 091 E
0.136 65
0.073 43

1.306 -

0.042 26

C402 h400


AUX
ELECT
FUEL
IV ILLICN
BTU



T


p
P
F
L
I
C
Ai
e
L
E


N .A.

N .A


AUX
FOSSIL
FUEL
MILLION
BTU

0,097
0.069
0.079
0 072
0.046
0 027
0.018
0,022
0,063
0 :.35
0,057
0.019
0.055
0,036
0 .069
0.029
04041
0.064
0.080
0.083
S0.015
0.072
0.044
00032
0.050
0.061
0.078
0.068
0 .072
0.081
0,072

1.719

0.055


0410


ELECT
ENERGY
SAVINGS
MILLION
BTU


0.000

0,000
-0.000
-0.000
0.000
0,000

0.000
0 .OCO


0,000
0.0000
0.000

0 0000
0.000
0.000
0.000
0.000
-0.000
-000011
0.000
-0.001
-0.004
-O. CC4
0.000
O.CC
-0.001
-0.002
-0.002
-0005
-0.0041

-0.027

-0.001

0415


FCSSIL
ENERGY
SAVINGS
MILLION
BTU

0.001
0.,002
0.000
0. 000
0.000
0*000
0 .,4000
0.000
0 000
0.000
0O 0o0O
0.000
0.o000
0.000
0.000
0 o.0On
0 0OL ,
0,000
0,001
0.012
0.000

0.007
0 .084
0.089
0.000
0.000
0.020
0.067
0 081
0.147
0.052

0.563

0.018

0417


* DENCTES UNAVAILABLE CATA.
@ DENOTES NULL DATA.
N.A. DENOTES NCT APFLICAELE CATA.


C4C I


BLDG
TEMPI

DEC.
F

72
71
71
72
71
71
72
69
69
69
69
70
7C
681
69
69
t7
68
66
71
68
69,
72
70
671
65
68
70
67
71
72



6N406
N406


AMB
TEMP,

DEG.
F

48
58
53
54
55]
55

54


54
52
52



55
52
52
57




48
52

47
496
51
51
N01
54|
53,
48
4 5
46
43|
4 1
47|
491



| 51

N1 13






SL A I -c Th- A Is I N (- A -Cc I I N u CE mI l it A II C N 0 J,

MUNThLY fEFClF
EhV If-CNMENTAL SUMMARY


SITE: CRTIZ AtNC fEIlLL, LCT t
REPCRT PERICE : JANkAPY,1S79


ECCNDIDOC, CALIFCLfN


SCLAI/10C7-79/01


DAY
F
MCKTH


1
2
3
4
5
6
7
F
9
IC
11
12
1
14
SI:
176
1 8
1 5
20
2 1
22


I C?7

COO I


C IFfLSE
INSCLAIlCh

BTL/.G.FT

C
f,a
T

A
F
F:
L
I
C
A
E
L


TC TAL
INSULATION

BTL/ Q.FT
lee2
I 12<
1136
1575
3134
471
1168
1 77
400
17C2
1:14
I}1
ec3




4/3
662
178S
1C I 7
71 I

711
) UO
I O


AiPE IEhTT
TLEFERATLRE

CEG F

48
5e
53
S54

5 It
54
S54
52
56
c5c


52

52
47
46
51
56
St4


4a
52

4 7~





42
41
47
46









51
13


RELATIVE
hUMIDITY

PERCENT

h
C
T

A
P
P
L
I
C
A
e
L
E


N, A.


DAYTIME
ANEIENT
TEMP
DEG F

62
67
68
73
57
57
62
66
55
65
64
62
*
62
i 56

54
51
55
67
C3
| 60





I 59

49
52


*IND
DIikECTIGN

DEGfREES

N
c
T

A
F
P
L
I
C
A
B
L





















N,A

NI 15
-


* DENCLET L'AAILAELE CI'TA.
S DENCTES I'LL DATA,
N*A. DENCTLE NCT AFPLICAELE


# INC
SPEED

M.P.h.

N
C
T

A
P
P
L
I
C
A
E
L
E




















N.A.

hI 14


A~G

LB ~3


LATA










UNIVERSITY OF FLORIDA

iiII3 1262 09052 6509111111111
3 1262 09052 6509


117, ; 2 189 l 4151




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