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- Title
Experimental investigation on the correlation of pressure pulsation and vibration of axial flow pump.
- Authors
Duan, Xiaohui; Tang, Fangping; Duan, Wenyong; Zhou, Wei; Shi, Lijian
- Abstract
Pressure and vibration displacement value are relatively measured by 14 pressure sensors and 2 vibration sensors distributing inside the tank-type model axial flow pump device under different flow rates. By comparison, it is found that the pressure pulsation on the inlet of the impeller is the main cause of hydraulic induced vibration of the pump device, and it is found to have similar amplitude trend with the vertical vibration as the flow rates increases and large correlation coefficient with the horizontal vibration under high flow rates through time-domain analysis. By frequency-domain analysis, it is found that the main frequency of pressure pulsation is three multiplies of the shaft frequency, but it is one multiplies of vertical vibration, and it changes from one multiplies to three multiplies of horizontal vibration. Combining with the analysis of phase-flow rates characteristics of both pressure pulsation and vibration, it is concluded that, for the horizontal vibration, the frequency ingredient of one multiplies ranging from low to high flow rates and three multiplies removing from unstable and high flow rates zone are possibly induced by pressure pulsation on the inlet of impeller, while for the vertical vibration, the frequency ingredient of one multiplies under design flow rates and high flow rates are possibly induced by pressure pulsation on the inlet of impeller. Both the horizontal and vertical vibrations with frequency of two multiplies have little relationship with the pressure pulsation on the inlet of impeller.
- Subjects
IMPELLERS; CENTRIFUGAL pumps; FREQUENCY-domain analysis; PRESSURE sensors; FREQUENCIES of oscillating systems; TIME-domain analysis; PRESSURE; DISPLACEMENT (Mechanics)
- Publication
Advances in Mechanical Engineering (Sage Publications Inc.), 2019, Vol 11, Issue 11, pN.PAG
- ISSN
1687-8132
- Publication type
Article
- DOI
10.1177/1687814019889473