Influence of cavitation characteristics of groove structure for centrifugal pump

Taking the low specific speed centrifugal pump as the research object，and a method to suppress cavitation by arranging a groove structure on the leading edge of the blade was proposed． The modified SST k- ω turbulence model and the Zwart-Gerber-Belamri (Z-G-B) cavitation model was combined to perform numerical simulations of the centrifugal pump，and the simulations were compared with experimental results． The results show that the centrifugal pump and reduces the critical cavitation margin． At different cavitation stages，the vortex intensity is reduced，the flow state of the surrounding flow field is optimized，relative high pressure is induced，and the vorticity field is improved．The bubble volume of centrifugal pumps under various cavitation margins is reduced，and the main frequency amplitude of pressure pulsation at multiple monitoring points is reduced． The groove structure effectively limits the cavitation development of the centrifugal pump，making the operation of the pump more stable. © 2024 Huazhong University of Science and Technology. All rights reserved.