Cavitation occurs in centrifugal pumps when the Nett Positive Suction Head Available (NPSHa) is lower than the Nett Positive Suction Head Required (NPSHr) causing the formation and accumulation of bubbles around the impeller eye that then collapse resulting in a series of mini-implosions and significant damage to both the impeller and the casing. If your pump sounds as though it is pumping marbles, then you probably have a cavitation problem (or marbles have got into your system). Other problems associated with cavitation are excessive vibration that will lead to premature failure of seals and bearings, higher power consumption and decreased flow and pressure.
If we take water as an example, it vaporises at atmospheric pressure at 100 degrees C. But the internal design of a pump means that fluids flow at high velocities and the pressure decreases (see Bernoulli’s Law), consequently the liquid will vaporise at a much lower temperature. There are two types of cavitation:
Occurs when a pump is under low pressure or high vacuum conditions. Signs of suction cavitation will be around the eye of the impeller that will have multiple pitting, signs of severe cavitation will make the impeller resemble a sponge.
Possible causes of suction cavitation include:
Can occur with very high discharge pressures or when the pump operates at less than 10% of its best efficiency point which causes more recirculation within the pump and high fluid velocity at the outer edge of the impeller. The obvious sign of discharge cavitation is pitting of the impeller at the outer edges.
Causes of discharge cavitation include:
Firstly, you need to identify the cause of the pressure drop. In most cases the problem can be solved by:
Cavitation is a common problem but damage to impellers can be largely avoided with correct pump sizing, well designed pipework and routine maintenance of filters and strainers.