Cavitation in pumps occurs when the pressure of a liquid at a constant temperature falls below its saturated vapor pressure point (or boiling point).
When cavitation occurs, air bubbles continuously form and collapse (implode) in the liquid. This generates noise and can lead to damage in the installation. In a heating system, cavitation often occurs in pumps if the pressure of the pump’s suction side is too low. To avoid cavitation in a pump, the minimal inlet pressure should be above the NPSHR (Net Positive Suction Head Required) for the pump.
The figure shows the curve for saturated water vapor pressure as a function of the temperature (in this case, the liquid is water), where the liquid’s saturated vapor pressure (equivalent to its boiling point) in a given situation (A), can be reached either by raising its temperature or by lowering its pressure. The dashed line shows the liquid’s boiling point at atmospheric pressure.
Cavitation can be a problem where inlet pressure falls below NPSHR and can in particular be a problem in boiler systems. Grundfos provides the NPSHR in the data material for all pumps.