3.2Sizing pipe diameters and circulation pump
53
VITOSOL
Liquid capacity of solar heating system components
Vitosol 100, type s2.5
Vitosol 100, type w
2.5
Vitosol 100, type 5
DI
Vitosol 200, type D
10
type D20
type D
30
Vitosol 250
Vitosol 300, type H
20
type H
30
litres
litres
litres
litres
litres
litres
litres
litres
litres
2.20
3.00
4.20
2.00
4.00
6.00
4.50
1.20
1.80
SolarDivicon
(pump station for the collector circuit)
litres 0.70
VitocellB100 Cylinder capacity litres 300 500
Heating water capacity of bottom coil litres 10 13
VitocellB300 Cylinder capacity litres 300 500
Heating water capacity of bottom coil litres 11 15
VitocellV300, typeEVI Cylinder capacity
(with indirect coil/s)
litres 200 300 500
Heating water capacity of coil litres 11.9 11 15
Vitocell333 Cylinder capacity litres 750/42
Water contents − solar heat exchanger litres 10
Vitocell353 Cylinder capacity litres 750/42
Water contents − solar heat exchanger litres 6
Vitotrans200, type WTT Part no. 3003453 3003454 3003455 3003456 3003457 3003458 3003459
Heating water contents litres 4 9 13 16 34 43 61
Copper pipe Dim. 10×1 12×1 15×1 18×1 22×1 22×1.5 28×1.5 35×1.5
Water content litres/m
pipe
0.050 0.079 0.133 0.201 0.314 0.284 0.491 0.804
Threaded pipes Dim. Re" Rb" Rc" R1" R1a" R1b" R2"
Water content litres/m
pipe
0.12 0.20 0.37 0.58 1.02 1.38 2.21
Regarding the process medium
Heat transfer media containing glycol can
be damaged if they are subjected to
temperatures above 170 ºC for prolonged
periods. This can lead to the sludge and
hard deposits in the solar heating circuit,
particularly in conjunction with other
contaminants (cinder, swarf). Therefore,
after completing the installation,
thoroughly flush out the system.
After filling the system with process
medium, ensure that heat is transferred
inside the system, i.e. that longer periods
of stagnation are avoided.
5822135 GB
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