Stall Inception Control by Setting Groove Based on Its Formation Mechanism in Centrifugal Impeller
Publish place: Journal of Applied Fluid Mechanics، Vol: 17، Issue: 7
Publish Year: 1403
نوع سند: مقاله ژورنالی
زبان: English
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شناسه ملی سند علمی:
JR_JAFM-17-7_009
تاریخ نمایه سازی: 18 اردیبهشت 1403
Abstract:
Stall, a complex flow phenomenon in centrifugal pump, plays a crucial role in pump safety and stability under part-load conditions. In this paper, a verified numerical simulation method is employed to analyze the three-dimensional flow field under the stall inception conditions. The results reveal the initial stall vortex occurs near the Q=۰.۷Qd condition in the prototype impeller. Based on stall formation mechanism, the high-velocity fluid near the blade pressure side is sucked into suction side of next impeller channel by setting a groove near the blade leading edge. This jet flow can prevent the narrow vortices near the impeller shroud from moving towards the blade suction side, thereby suppressing the formation of stall vortex. By comparing the effects of different groove locations, directions, and sizes on stall vortex control, the optimal groove width is determined to be approximately ۱mm. Compared with the prototype impeller, the grooved impeller can completely eliminate the stall vortex and significantly reduce pressure pulsation under part-load conditions. Moreover, the head of grooved impeller is increased by nearly ۱۵% under Q=۰.۶Qd condition, and the potential suppression mechanism is also explained. Based on the stall formation mechanism, this paper puts forward an effective stall control method, which delays the stall inception significantly.
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Authors
X. D. Liu
College of Electrical, Energy and Power Engineering, Yangzhou University, Yangzhou ۲۲۵۰۰۹, China
X. B. Huang
College of Electrical, Energy and Power Engineering, Yangzhou University, Yangzhou ۲۲۵۰۰۹, China
Y. J. Li
College of Water Resources and Civil Engineering, China Agricultural University, Beijing ۱۰۰۰۸۳, China
Z. Q. Liu
College of Water Resources and Civil Engineering, China Agricultural University, Beijing ۱۰۰۰۸۳, China
W. Yang
College of Water Resources and Civil Engineering, China Agricultural University, Beijing ۱۰۰۰۸۳, China
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