A differential pressure controller consists of a valve and a pressure actuator. Differential pressure controllers in the primary system are mainly used to keep a constant and lower differential pressure across a motorized control valve or a total system/substation.
As a rule of thumb, the differential pressure controller should be used whenever the ratio between maximum and minimum available differential pressure from the network is larger than 2.
A differential pressure controller can also be used to perform flow limitation in combination with a motorized control valve.
It is recommended to place the controller in the return after the components across which a constant pressure is maintained. In certain situations – especially when the supply pressure is very high – it can be useful to install the differential pressure controller in the flow.
Features and benefits
Eliminates pressure variations and provide optimum operating conditions with improved temperature control quality.
Made for demanding systems, resistant to corrosion, cavitation and dirt.
Connected system is protected against pressure surges, fluctuations, cavitation and noise.
Tools and apps
District heating application guide
We share experience, application expertise and make recommendations on optimum performing DH applications and key applied control components
Yes you can. Open the control valve fully and set the max flow by adjusting the differential pressure. You can also calculate the appropriate differential pressure, but you need to know the exact capacity of the control valve.
We produce valves with a standard length. You can also find the measures in our datasheet or download 2D and 3D CAD drawing models from our product presentations. Please go to our product catalog where you will find links to documentation and drawings - follow the below link.
No, you do not need to change the pressure actuator. It will be sufficient to replace the setting spring only. Please contact your local sales or technical support for further instructions.