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Effects of intake-entrance profiles on free-surface vortices

Author(s): James Yang; Ting Liu; Andrea Bottacin-Busolin; Chang Lin

Linked Author(s): James Yang, Liu Ting, CHENG LIN

Keywords: Critical submergence; downward intake; entrance profile; free-surface vortex; Froude number

Abstract: Intake free-surface vortices can cause efficiency losses, flow fluctuations and even structural damages. Experiments were performed to examine the effect of entrance shapes on the critical submergence. Seven entrance shapes were devised and tested, including a square-edged, a bell-mouthed, three symmetrical conical and two conical profiles with eccentricity. The focus of the study was on a range of Froude numbers from 0.25 to 0.65. The square-edged shape appeared to show the highest local head-loss compared to other shapes. Steady counter-clockwise vortices characterize all the intake profiles except in a narrow water tank. The experiments show both discrepancy and similarity between the intake profiles. The critical submergence of the bell-mouthed intake is lower when compared to the square-edged shape. For the other profiles, it is proportional to the Froude number. A closer sidewall may lead to larger critical submergence in the case of weak circulations. The results demonstrate that the intake-entrance profile has an important effect on the critical submergence.

DOI: https://doi.org/10.1080/00221686.2014.905504

Year: 2014

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