Common faults and cause analysis of multi-stage centrifugal blower
1、 Mechanical vibration faults
Unbalanced rotor
Reason: Uneven quality distribution caused by dust accumulation on the impeller, blade corrosion or wear, and displacement of the balance block.
Performance: The vibration frequency is consistent with the rotational speed, and may be accompanied by shaft bending or local high temperature.
Abnormal bearings
Reason: Lubrication failure, excessive clearance or wear, resulting in bearing overheating or vibration.
Performance: The temperature of the bearing increases, the vibration amplitude increases, and may be accompanied by abnormal noise.
Poor alignment of the coupling
Reason: Installation deviation or foundation sinking, resulting in excessive axial/radial offset.
Performance: The vibration intensifies with the increase of load, and is relatively light when idling.
2、 Performance degradation fault
Insufficient air volume or abnormal pressure
Reason: Pipeline blockage, seal leakage, gas density change, or valve regulation failure.
Performance: The pressure gauge fluctuates greatly, the flow rate is unstable, and the efficiency decreases.
Surge phenomenon
Reason: The fan is operating in an unstable zone (such as valves being closed for too long or pipes being blocked).
Performance: Periodic backflow of airflow accompanied by severe vibration and noise.
3、 Component damage fault
Impeller wear or corrosion
Reason: Gas contains impurities, crystal erosion, or long-term corrosion.
Performance: Blade deformation, weld cracking, and increased vibration.
Sealing failure
Reason: Wear of sealing ring, different shafts of shaft sleeve or intrusion of debris.
Performance: Gas leakage, pressure drop, efficiency loss.
4、 Other faults
Motor malfunction: Wiring error, reverse rotation or insufficient speed, causing the fan to malfunction.
Loose foundation: Loose foundation bolts or insufficient rigidity of the machine base can cause overall vibration.
Suggestions for prioritizing fault handling
Emergency handling: Surge, bearing overheating, etc. require immediate shutdown and adjustment.
Regular maintenance: check the seal, clean the impeller, and calibrate the coupling alignment.
Preventive measures: Install vibration monitoring devices and conduct regular dynamic balance tests.
(Note: Specific fault diagnosis needs to be combined with on-site testing tools such as infrared thermometers, vibration analyzers, etc.)