Solar Thermal System Operating Modes; Flow Rate In The Collector Array; Which Operating Mode Is The Right One; Installation Examples Vitosol-F, Type Sv And Sh - Viessmann VITOSOL 100-F SV Technical Manual

Information regarding design and operation
For a first approximation (cost estimate), an average temperature loss
of 1 K/day can be used. With an average pool depth of 1.5 m, an energy
demand of approx. 1.74 kWh/(d·m
maintain the set temperature. It is therefore sensible to use an
absorber area of approx. 0.4 m
Vitotrans 200, type WTT
Max. connectable absorber area Vitosol

18.2 Solar thermal system operating modes

Flow rate in the collector array

Collector systems can be operated with different specific flow rates.
The unit for this is the flow rate in l/(hm
absorber area. At the same collector output, a higher flow rate means
a lower temperature spread in the collector circuit; a lower flow rate
means a higher temperature spread.
With a high temperature spread, the average collector temperature
increases, i.e. the efficiency of the collectors drops. On the other hand,
where the flow rates are lower, less energy is required to operate the
pumps and the pipework can be sized smaller.

Which operating mode is the right one?

The specific flow rate must be high enough to ensure a reliable and
even flow through the entire array. The optimum flow rate (relative to
the current cylinder temperatures and the current insolation level) in
18
systems with a Viessmann solar control unit will adjust itself automat-
ically in matched flow operation. Single array systems with Vitosol-F
or Vitosol-T can be operated without problems down to approx. 50 %
of the specific flow rate.
Example:
4.6 m 2 absorber area

18.3 Installation examples Vitosol-F, type SV and SH

Take ventilation into consideration when designing the collector arrays
(see chapter "Ventilation" on page 151).
High-flow operation — single-sided connection
≤ 10
A Collector temperature sensor in the flow line
VIESMANN
140
2
pool surface area) is required to
2 per m 2 of pool surface.
Part no.
m 2
2
). The reference variable is the
A
(cont.)
Under the following conditions, never exceed the max. absorber area
stated in the table:
■ Design output of 600 W/m
■ Max. temperature differential between the swimming pool water
(heat exchanger flow) and the solar circuit return 10 K
3003 453 3003 454 3003 455
28 42
Operating modes:
■ Low flow operation
Operation with flow rates up to approx. 30 l/(hm
■ High flow operation
Operation with flow rates greater than 30 l/(hm
■ Matched flow operation
Operation with variable flow rates
All operating modes are possible with Viessmann collectors.
2
Required flow rate: 25 l/(hm
This results in the following: 115 l/h, i.e. approx. 1.9 l/min
This value should be reached at 100 % pump rate. An adjustment can
be made at the output stage of the pump. The positive primary ener-
getic effect is lost if the required collector flow rate is achieved through
a higher pressure drop (= higher power consumption). Choose the
pump stage that lies above the required value. The flow rate is auto-
matically reduced via the control unit through a lower current supply to
the solar circuit pump.
≤ 10
≤ 10
A Collector temperature sensor in the flow line
2
3003 456 3003 457
70 116
2
)
2 )
)
A
VITOSOL
163