Brochure
Table Of Contents
- 1. Product description
- 2. Type key
- 3. Product range
- 4. Operating conditions
- 5. Construction
- 6. Installation
- 7. Accessories
- 8. Curve conditions
- 9. Performance curves
- 10. Product numbers
- 11. Further product information
Product range
MAGNA3
3
9
Selection of control mode
System application
Select this control
mode
Recommended for most heating systems, especially in systems with relatively large pressure
losses in the distribution pipes. See description under proportional pressure.
In replacement situations where the proportional-pressure duty point is unknown.
The duty point has to be within the AUTO
ADAPT
operating range. During operation, the pump
automatically makes the necessary adjustment to the actual system characteristic.
This setting ensures minimum energy consumption and noise level from valves, which reduces
operating costs and increases comfort.
AUTO
ADAPT
The FLOW
ADAPT
control mode is a combination of AUTO
ADAPT
and FLOW
LIMIT
.
This control mode is suitable for systems where a maximum flow limit, FLOW
LIMIT
, is desired.
The pump continuously monitors and adjusts the flow, thus ensuring that the selected
FLOW
LIMIT
is not exceeded.
Main pumps in boiler applications where a steady flow through the boiler is required. No extra
energy is used for pumping too much liquid into the system.
In systems with mixing loops, the control mode can be used to control the flow in each loop.
Benefits:
• The dimensioned flow for each zone (required heat energy) is determined by the flow from
the pump. This value can be set precisely in the FLOW
ADAPT
control mode without the use of
pump throttling valves.
• When the flow is set lower than the balancing valve setting, the pump will ramp down instead
of losing energy by pumping against a balancing valve.
• Cooling surfaces in air-conditioning systems can operate at high pressure and low flow.
FLOW
ADAPT
In systems with relatively large pressure losses in the distribution pipes.
• Two-pipe heating systems with:
– very long distribution pipes
– strongly throttled pipe balancing valves
– differential-pressure regulators
– large pressure losses in those parts of the system through which the total quantity of water
flows (for example boiler, heat exchanger and distribution pipe up to the first branching).
• Primary circuit pumps in systems with large pressure losses in the primary circuit.
• Air-conditioning systems with
– heat exchangers (fan coils)
– cooling ceilings
– cooling surfaces.
Proportional pressure
In systems with relatively small pressure losses in the distribution pipes.
• Two-pipe heating systems with:
– small pressure losses in those parts of the system through which the total quantity of water
flows (for example boiler, heat exchanger and distribution pipe up to the first branching) or
– modified to a high differential temperature between flow pipe and return pipe (for example
district heating).
• Underfloor heating systems with control valves.
• One-pipe heating systems with control valves or pipe balancing valves.
• Primary circuit pumps in systems with small pressure losses in the primary circuit.
Constant pressure
In heating systems with a fixed system characteristic, for example domestic hot-water systems,
the control of the pump according to a constant return-pipe temperature may be relevant.
FLOW
LIMIT
can be used with advantage to control the maximum circulation flow.
Constant temperature
H
Q
H
Q
Q
max
90 %
H
auto_min
H
fac
Q
fac
H
Q
H
set
H
set
2
H
Q
H
Q