HomeMy WebLinkAbout148 Brush Creek Rd1 I
CITY OF SANFORD, FLORIDA
lPERMITNOv ( ` q DATE (!9
THE UNDERSIGNED HEREBY APPLIES FOR A PERMIT TO INSTALL THE FOL.
LOWING PLUMBING WORK:
OWNER'S NAME
ADDRESS OF JOB
PLUMBING CONTR.
it
Res. —
Subject to rules and regulations of Sanford plumbing code.
Ressidt3ntial I Number 11 Amount
Alteration dition e air !
I
New Residential:
One Water Closet
Additional Water Closet
Commercial:
Fixtures. Floor Drain, Trap
Sewer r
I
Water Piping
Gas Piping
Factory -built housing I
Mobile Home
Application Fee
Minimum Commercial Permit: s25.00 1 r\ Total c—
Matter Plumber
COMPETENCY CARD NO.
S,UM MA.RY INFOIRpIf' A 1'1UW bk' r-r— I 1993
FLC~'RIDA SOLAR ENERGY CENTER ^
September
FSEC # 921
300 STATE ROAD 401. CAPE CANAVERAL. FLORIDA 32920-4099. (4o7) 783.0300 . /r1\ 7.
r MANUFACTURER '
Collector Model
912
FAFCO, Inc.
2690 Middlefield Road
Redwood City, California 94063
This solar collector was tested by the Florida Solar Energy Center (FSEC) in accordance with prescribed methods and „was found to meet
minimum standards established by FSEC. The purpose of the tests is to verily initial performance conditions and quality of construction o
The resulting certification is not a guarantee of long term performance or durability.
DESCRIPTION
Gross Length 3.652 meters 11.98 feet
Gross Width 1.216 meters 3.99 feet
Gross Depth 0.007 meters
4.440 square meters
0.02
47.79
feet
square fe
Gross Area
Transparent Frontal Area 4.440 square meters 47.79 square fe
Volumetric Capacity 18.9 liters 5.0
15.5
gallons
poundsWeight (empty) 8.8 kilograms
4.0
Recommended Flow Rate 252 ml/s
45
gpm
Maximum Operating Pressure 310 kPag psig
Maximum Wind Load Not Applicable
Number of Cgver Plates
Flow Pattern
None
Parallel Forced circulatiot
Number of Flow Tubes ttultitube mat
MATERIALS
Enclosure None
Glazing None
Absorber Polymer plastic with UV stabilization
Absorber Coating None
Insulation None
THERMAL PERFORMANCE
Tested per ASHRAE 96-1980 (RA 1989)
Incident Angle Modifier Kra = 1.0 - 0.02 C cos0 -
1
Test Flow Rate - 310 ml/s 4.91. gpm
Efficiency Equations
17 =• 82.1 - 1547 (Ti-Ta)/I 82.1 - 272 (Ti-Ta)/l
1= 82.8 - 1336 (Ti-Ta)/I - 10126 [(Ti-Ta)/Q1 n = 82.8 - 235 (Ti:Ta)/I - 314 [(Ti
Units of Ti-Ta/1 are °C/WalVml
Units of Ti-Ta/1 are °F/E
RATING
The collector has been rated for energy output on measured performance and an assumed standard day. Total solar energy availa
standard day is 5045 wall-hours/ml (1600 Btu/11-1) dislribuled'over a 10 hour period.
Output energy ratings for this collector based on the second -order efficiency curve are:
Energy Output
Collector Temperature 00 B
Low Temperature,35°C (95°F)
Intermediate Temperature, 50°C (122°F)
Hioh TemnerahirP 100*r. f919°F1
51,100' Kilo)oules/day 48, 5
22,800 Kilojoules/day 21,600 B .
o Kiloioules/dav 0 13
ar 1 ® Solar Control System Hydraulic diagram -
CornpooI Solar Control Model 142012TX
Solar
Collectors
Valve
Water
Sensor
S01ar
Sensor
Option 1
Vacuum Relief Valve
At Solar Panels
pall
S
f
Soar Valve
and Actuator
Option 2
Vacuum Relief Valve
At Rvcs
Valve