Burkert
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High dynamic flow measurement. Protection class IP65.
Suited for regulating the mass flow of gases over a big flow range.
Nominal flow ranges from 0.010 lN/min to 80 lN/min.
Solenoid valve with medium separation. Robust screw-in connection and 22 mm installation width.
Nominal flow ranges: 0.010 lN/min - 80 lN/min.
Flow ranges: 0.010 lN/min … 80 lN/min.
Mass flow controller for heavy-duty
High accuracy and repeatability. Optional: Fieldbus interface.
Mass flow controller byp. chip IP65
The thermal MEMS sensor is located directly in the gas stream and therefore reaches very fast response times.
TwinPower Rocker-Solenoid Valve with medium separation.
Solenoid valve with medium separation. For control of aggressive fluids and gases.
TwinPower Rocker-Solenoid Valve with medium separation. 22 mm ultra compact design.
Solenoid valve with medium separation. Isolating diaphragm for high chemical resistance.
TwinPower Rocker-Solenoid Valve with medium separation. 22 mm ultra compact design. Isolating diaphragm for high chemical resistance.
Solenoid valve with medium separation. This valve with the new TwinPoweractuator.
Solenoid valve with separating diaphragm
TwinPower Rocker-Solenoid Valve with separating diaphragm. Ultra compact design.
Solenoid valve with medium separation. Robust screw-in connection and 22 mm installation width.
TwinPower Rocker-Solenoid Valve with medium separation.
Heavy-duty m ass flow controller
Mass flow controller for gases (MFC) .
Suitable for controlling the mass flow of high gas quantities.
High dynamic control through fast flow measurement. For liquid dosing up to 600 ml/min (36 l/h).
Twin Power Rocker-Solenoid Valve with separating diaphragm. For highest chemical resistance requirements.
The thermal inline sensor is located directly in the gas stream and therefore achieves very fast response times.
A direct-acting proportional valve guarantees high response sensitivity.
A direct-acting proportional valve from B?rkert guarantees a high sensitivity.
The integrated PI controller ensures outstanding control characteristics of the MFC
Mass Flow Controller for aggressive gases. The measurement is based on the bypass principle.