2 design of the storage tank, Remko fresh water station – REMKO EFS 35 User Manual

4.2

Design of the storage tank

You can use the following table to calculate the approximate required volume of the buffer tank.

Temperature in buffer tank [°C]

HW temperature [°C]

set in controller

Reqd. Storage tank volume per

litre of HW [Litre]

50

45

1,3

60

45

0,8

50

1,0

55

1,4

70

45

0,7

50

0,8

55

0,9

80

45

0,5

50

0,6

55

0,7

Sample calculation for the design of the buffer tank:

Temperature of buffer tank: 50 °C, required dispensing medium flow rate at water valve: 20 l/min

DHW temperature set on the controller: 45 °C

How large must the Storage tank be if a 20-minute dispensing operation is to take place without reheating?

20 l/min x 20 min = 400 l

400 l x 1,3 = 520 l ð The heated part of the buffer tank must be 520 litres in size.

The required buffer volume for 1 litre of water

is calculated using the following formula:

V

P

V

W

P

V =

Pv: Required buffer volume

Vp: Volume of buffer

Vw: Volume of hot water

If there is a large temperature spread between the

buffer and the drinking water (e.g. 90-45) : 0,5

If there is a medium temperature spread between

the buffer and the drinking water (e.g. 70-45) : 0,7

If there is a low temperature spread between the

buffer and the drinking water (e.g. 55-45) : 1,0

The hot water volume depends on the position

of the installed S 08 probe (Smart Control hot

water probe). The higher this is installed on the

buffer tank, the lower the hot water volume.

During installation of an EFS 35 fresh water

station, we recommend using a REMKO

MPS 800 or 1000 litre storage tank.

REMKO fresh water station

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