Dimplex SOLAR ST0133 User Manual

Technical manual

Page 33 of 72

ST0133 – A 02/09

SOLAR

The expansion volume of the system Vep can be calculated using Equation 7.

β

⋅

=

sys

ep

V

V

[7]

Where: V

ep

[l]

system

expansion

volume

V

sys

[l]

total system volume

β

[-]

heat transfer medium expansion coefficient (0.00085)

The pressure relief valve pressure p

rv

can as first approximation be used as 6 bar. How-

ever, to allow for some tolerance it is recommended to calculate the pressure relief
valve pressure p

rv

in accordance with Equation 8.

)

1

.

0

1

(

−

⋅

=

op

rv

p

p

[8]

Where: p

rv

[bar]

relief valve pressure

p

op

[l]

opening pressure of relief valve (6 bar)

The last parameter to be calculated for use in Equation 5 is the cold fill pressure p

pc

of

the system. The cold fill pressure p

pc

depends on the static height h

stat

of the solar

thermal system and the required pressure in the highest system point p

min

. The defini-

tion of the static height h

stat

is depicted in Figure 33.

Figure 33 – Definition of static height of solar system

The pressure in the highest system point p

min

should be between 1 and 1.5 bar. The

cold fill pressure p

pc

can therefore be calculated as shown in Equation 9.

stat

m

bar

pc

h

p

p

⋅

+

=

1

.

0

min

[9]

Where: p

pc

[bar]

cold fill pressure

p

min

[bar]

pressure

in

highest system point

h

stat

[m]

static height of system

Equation 9 concludes the calculation of parameters required for Equation 4 to calculate
the expansion vessel volume V

EV

. To be able to commission the expansion vessel, the

membrane pre-charge pressure p

mp

has to be calculated as shown in Equation 10.

h

stat