The basics of shock absorbing

What is a pressure surge?

A pressure surge (also called water hammer) is a brief high increase or drop in pressure. It only lasts for fractions of a second, but the pressure peaks occurring can be many times the operating pressure. The peak values that arise can come in the form of both overpressure and negative pressure (cavitation). The propagation speed of the pressure waves can be up to 1400 m/s and depends on the material and the wall thickness of the pipe.

How do pressure surges arise?

Pressure surges in pipework occur due to sudden changes in liquid flow:

  • Acceleration of liquid mass when pumps are switched on
  • Breakdown in the delivery flow when pumps are switched off
  • Abrupt stopping of a liquid that was in motion due to a quick-closing valve
  • Sudden change in the direction of flow due to solenoid valves
  • Abrupt change in the pipe cross-section due to narrowing or restriction

Where do pressure surges occur?

Pressure surges can arise in any pipe network:

  • When pumps are switched on or off
  • At power failures in pumping stations
  • In the case of hydrant consumption in fire-fighting lines
  • In filling or metering lines (concrete factories, chemical plants, large laundries, etc.)

What effects do pressure surges have?

  • High increase in pressure or negative pressure (cavitation)
  • Disturbing noises
  • Signs of material fatigue


The consequences are:

  • Damage to integrated instruments and fittings
  • Breaks in pipework, noise and vibrations
  • Loosening or unsealing of joints

How do we prevent pressure surges?

In every system where pressure surges are to be expected or already present, they can be prevented by mounting a correctly dimensioned and low-maintenance OLAER shock absorber.

 

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