Technical Data
3
Technical Data
Model - Vitosol 100-F
SV1
SH1
Total surface area
ft.
2
/ m
2
27.0 / 2.51
27.0 / 2.51
Absorber surface area
ft.
2
/ m
2
25.0 / 2.32
25.0 / 2.32
Aperture
*1
ft.
2
/ m
2
25.1 / 2.33
25.1 / 2.33
Dimensions
*2
Width
Height
Depth
inches
mm
inches
mm
inches
mm
41¾
1056
93¾
2380
2¾
72
93¾
2380
41¾
1056
2¾
72
Optical efficiency
*3
%
74.3
74.3
Heat loss coefficient U
1
Heat loss coefficient
U
2
W/(m
2
⋅
K)
W/(m
2
⋅
K
2
)
4.16
0.0124
4.16
0.0124
Thermal capacity
kJ(m
2
⋅
K)
6.4
6.4
Weight
lb / kg
94.8 / 43
94.8 / 43
Fluid capacity
(heat transfer medium)
USG
ltr
0.44
1.67
0.62
2.33
Maximum working pressure
*4
psig
bar
87
6
87
6
Maximum stagnation temperature
*5
ºF / ºC
430 / 221
430 / 221
Connection
inches
mm
¾
22
¾
22
Requirements for installation surface and
anchorage
Roof construction with adequate load capacity for prevailing wind forces
*1
Important for system design considerations.
*2
Dimensions rounded to the nearest ¼ inch.
*3
Based on absorber surface area.
*4
In sealed systems, operating pressure of at least 22 psig + 0.45 psig x static head (ft.) / 1.5 bar + 0.1 bar x static head (m) must be
present in the collectors in cold condition.
*5
The stagnation temperature is the temperature which applies to the hottest point of the collector at a global radiation intensity of
3412 Btu/h / 1000 W when no heat is conducted by the heat transfer medium.
5354
729
v1
.0
CR
CS
41¾”/1056 mm
93¾
”/
2380
mm
86½
”/
2200
mm
3½
”
90
mm
2¾”/ 72 mm
1½”
38 mm
Model SV1
CS
CR
Model SH1
41¾
”/
1056
mm
93¾”/2380 mm
34½
”/
876
mm
3½
”
90
mm
2¾”/ 72 mm
1½”
38 mm
Legend
CR Collector return (inlet)
CS Collector supply (outlet)