The Cavitation-Induced Pressure Fluctuations in a Mixed-Flow Pump under Impeller Inflow Distortion

Huiyan Zhang,Yunhao Zheng,Fan Meng,Yanjun Li

doi:10.3390/machines9120326

Abstract

To reduce cavitation-induced pressure fluctuations in a mixed-flow pump under impeller inflow distortion, the dynamic pressure signal at different monitoring points of a mixed-flow pump with a dustpan-shaped inlet conduit under normal and critical cavitation conditions was collected using high-precision digital pressure sensors. Firstly, the nonuniformity of the impeller inflow caused by inlet conduit shape was characterized by the time–frequency-domain spectra and statistical characteristics of pressure fluctuation at four monitoring points (P4–P7) circumferentially distributed at the outlet of the inlet conduit. Then, the cavity distribution on the blade surface was captured by a stroboscope. Lastly, the characteristics of cavitation-induced pressure fluctuation were obtained by analyzing the time–frequency-domain spectra and statistical characteristic values of dynamic pressure signals at the impeller inlet (P1), guide vanes inlet (P2), and guide vanes outlet (P3). The results show that the flow distribution of impeller inflow is asymmetric. The pav values at P4 and P6 were the smallest and largest, respectively. Compared with normal conditions, the impeller inlet pressure is lower under critical cavitation conditions, which leads to low pav, pp-p and a main frequency amplitude at P1. In addition, the cavity covered the whole suction side under H = 13.6 m and 15.5 m, which led the pp-p and dominant frequency amplitude of pressure fluctuation at P2 and P3 under critical cavitation to be higher than that under normal conditions.

Highlights

A mixed-flow pump has the characteristics of large flow rate, high efficiency, and moderate head; it is widely used in agricultural irrigation, regional water transfer, and drainage [1,2,3]
The highest head operating point was located in the high-efficiency operating area of the mixed-flow pump, where the flow stability was intermediate between the designed head operating point and the lowest head operating point
The cavitation-induced pressure fluctuation of a mixed-flow pump under impeller inflow distortion caused by the dustpan-shaped inlet conduit were studied using high-precision dynamic pressure sensors and the cavity near the impeller surface was obtained using a stroboscope

Summary

Introduction

A mixed-flow pump has the characteristics of large flow rate, high efficiency, and moderate head; it is widely used in agricultural irrigation, regional water transfer, and drainage [1,2,3]. Inlet conduits matched with mixed-flow pumps are mainly divided into the elbow type, bell type, and dustpan type. Compared with bell-shaped and elbow-shaped inlet conduits, dustpan-shaped inlet conduits can ensure the flow pattern of impeller inflow under low excavation depth [4,5] (which can reduce civil costs); its application is becoming more and more extensive. Cavitationinduced pressure fluctuation has always restricted improvement in the operation stability of mixed-flow pumps [6,7,8]. The particularity of the dustpan-shaped inlet conduit could cause impeller inflow distortion, which would further strengthen the cavitationinduced pressure fluctuation of mixed flow pump. The cavitation performance is one of the key indicators in the design of a mixed-flow pump with a dustpan-type inlet conduit

Methods

Results

Conclusion