6
Commissioning
SU500.5... | SU750.5... | SU1000.5... | SM500.5E... | SM750.5E... | SM1000.5E... | SMH400.5E... | SMH500.5E... – 6 720 821 493 (2017/05)
49
– The discharge pipe must be at least equal to the outlet cross-
section of the pressure relief valve.
– The discharge pipe must be able to discharge at least the flow
rate, which may possibly arise at the cold water inlet
(
▶ Attach a notice with the following text to the pressure relief valve:
"Never close the discharge pipe. During heating, water may be
discharged for operational reasons."
If the static pressure in the system exceeds 80 % of the response
pressure for the pressure relief valve:
▶ Install a pressure reducer upstream (
5.4
Fitting the hot water temperature sensor
For measuring and monitoring the DHW temperature at the cylinder:
▶ Fitting the DHW temperature sensor (
Positions of the sensor test points:
• SM500...1000.5E... and SMH400...500.5E... (
page 65):
Fit sensor for heat source at Position 3. Fit sensor for solar system at
Position 7.
• SU500...1000.5E... (
Fit sensor for heat source at Position 3.
5.5
Immersion heater (accessory)
If an immersion heater is used:
▶ (
– ErP "C": cut round perforation to create recess.
– ErP "B": insert compass provided, turn to cut out circular piece.
▶ Install the immersion heater in accordance with the separate
installation instructions.
▶ When the cylinder installation is complete, inspect the earth
connection (including the metal connection fittings).
6
Commissioning
▶ Commission all assemblies and accessories as specified in the
manufacturer's technical documents.
6.1
Commissioning the DHW cylinder
After the cylinder has been filled, it must be subjected to a pressure test.
On the DHW side, the test pressure must not exceed 10 bar (150 psi)
positive pressure.
▶ Carrying out the leak test (
▶ Flush the DHW cylinder and pipework thoroughly prior to
commissioning (
6.2
Instructing users
▶ Explain the operation and handling of the heating system and DHW
cylinder, making a particular point of safety-relevant features.
▶ Explain the function and checking of the pressure relief valve.
▶ Hand all enclosed documents over to the owner/operator.
▶
Recommendation for the user:
Sign a maintenance and inspection
contract with an approved contractor. Have the DHW cylinder
serviced and inspected annually at the specified service intervals
(
Highlight the following for the user:
▶ Setting the DHW temperature.
– When heating-up, water may be discharged from the pressure
relief valve.
– The discharge pipe for the pressure relief valve must always be
kept open.
– Service intervals must be observed (
–
Where there is a risk of frost and when the user is briefly
away:
Keep the heating system in operation and set the lowest
possible DHW temperature.
Mains
pressure
(static
pressure)
Excess pressure for
pressure relief
valve
Pressure reducer
Within the EU
Outside the EU
< 4.8 bar
6 bar
Not
required
Not
required
5 bar
6 bar
4.8 bar
4.8 bar
5 bar
8 bar
Not
required
Not
required
6 bar
8 bar
5.0 bar
Not required
7.8 bar
10 bar
5.0 bar
Not required
Table 8 Selection of a suitable pressure reducer
Ensure that the sensor area has contact with the sensor
pocket area for the sensor‘s full length.
NOTICE:
Risk of system damage from excessive
pressure.
Excessive pressure can result in tension cracks in the
enamel coating.
▶ Never close the blow-off line of the safety relief valve.
Only carry out the leak test for the DHW cylinder with
potable water.
WARNING:
Risk of scalding at the DHW draw-off points!
There is a risk of scalding at the DHW draw-off points
during thermal disinfection and if the DHW temperature
is set at
60 °C.
▶ Advise users that they should only draw off mixed
water.
