Influence of suction vortex and submergence depth on pressure pulsation and vibration of a centrifugal pump

Key Points

• The study aims to examine how suction vortex and submergence depth affect pressure pulsation and vibration characteristics of centrifugal pumps.
• Utilized a vertical centrifugal pump experimental platform for testing.
• Analyzed different submergence depths and their effects on pressure pulsations and vibrations.
• Captured vortex morphology and synchronized data on pressure pulsations and vibration signals using high-speed imaging.
• Found that low submergence depths lead to a shift in dominant frequency from blade frequency to low-frequency pulsation, increasing peak-to-peak values by 62%.
• Noted that kurtosis of the pressure pulsation rose to 5.2, indicating significant enhancement of flow impact.
• Identified a 90% increase in axial vibration amplitude as submergence depth decreased, with enhanced asymmetry in radial vibration.