
Pump Cavitation: Six Signs and How to Catch It Early
Cavitation quietly destroys impellers and seals. Why ultrasound and vibration catch it weeks before you hear gravel in the pump.
Мақала орыс тілінде
Мақаланың толық мәтіні қазіргі уақытта орыс тілінде жарияланған. Аударма дайындалуда — толық мәтін үшін орыс нұсқасына өтіңіз.
Орыс тілінде оқу
What cavitation is — and why it is worse than it sounds
Cavitation forms and collapses vapour bubbles in the liquid inside a pump. When inlet pressure drops below the fluid’s vapour pressure, the liquid “boils” locally. Collapsing bubbles micro-impinge on metal — thousands per second — and erode impellers into a spongy surface. It is slow destruction: efficiency falls, vibration and power draw rise long before operators hear “gravel” in the casing.
Five common causes
- Clogged suction strainer or valve — most frequent and cheapest to fix.
- High fluid temperature — raises vapour pressure (boiler feed, condensate service).
- Off-design operation — throttled suction, wrong pump on the curve.
- Low NPSHa — low tank level, insufficient submergence.
- Air ingress — leaks on the suction line or seals.
Fix the root cause, not only the symptom — reliable detection comes first.
Six signs
- Gravel-like noise at advanced stage.
- Rising broadband high-frequency vibration.
- Falling head and flow at the same speed.
- Motor current swings.
- Eroded impeller at teardown.
- Accelerated seal and bearing wear.
Signs 1–3 appear late. You need methods that work before the ear and ammeter.
Early detection
Ultrasound
Bubble collapse radiates energy around 36–40 kHz — before audible noise. The SDT340 lets you hear rising hiss, trend RMS/Peak values and compare to a healthy baseline during route rounds.
Vibration
Cavitation lifts high-frequency broadband energy without a dominant 1× peak — unlike imbalance. Permanent systems such as Bently Nevada System 1 track this on critical pumps. See how to read FFT spectra.
Motor current (ESA)
Uneven hydraulic load shows in current signatures. Artesis e-MCM monitors from the MCC — useful for submersible and enclosed pumps. More on the method: electric motor condition monitoring.
Combined approach
| Method | Best for |
|---|---|
| Ultrasound | Earliest cavitation, bearings, greasing — route surveys |
| Vibration | Cavitation, imbalance, misalignment — critical continuous assets |
| ESA/MCSA | Load and electrical/mechanical faults — hard-to-reach drives |
Ultrasound usually trips first; vibration confirms; current adds load context.
If cavitation is confirmed
- Clean suction strainer and open suction valve.
- Check tank level and submergence.
- Verify operating point on the pump curve.
- Check temperature and suction-line integrity.
- Revisit hydraulic design (NPSHa vs NPSHr) if it persists.
Conclusion
Cavitation is not “a noisy pump” — it is progressive impeller and seal damage. Ultrasound and vibration find it weeks or months earlier and turn emergency overhauls into planned work. KEG TRK helps Kazakh plants deploy predictive pump care — contact us.
