Numerical analysis of the mechanism and drag characteristics of cavitating flow around a disc cavitator

Zhi Yi Yu; Su Guo Shi; Guo Yu Wang

Numerical analysis of the mechanism and drag characteristics of cavitating flow around a disc cavitator

Zhi Yi Yu^*, Su Guo Shi, Guo Yu Wang

^*Corresponding author for this work

School of Mechanical Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

Unsteady cavitating flow around a disc cavitator and its drag characteristics were studied numerically using the filter-based model (FBM). The simulation was carried out in a constant Reynolds number but different cavitation numbers, which were attained through the pressure variation of the inlet flow. The FBM model was embedded into the commercial software CFX through secondary development. The numerical results showed that the cavitation region will turn attached with the cavitator with the decrease of the cavitation number. The wake vortex can increase the periodicity and fluctuation of the drag force acting on the cavitator in the condition of large cavitation number, and with the decrease of the cavitation number, a stable drag characteristic curve will be acquired.

Original language	English
Pages (from-to)	201-204
Number of pages	4
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	29
Issue number	3
Publication status	Published - Mar 2009

Keywords

Cavitating flow
Disc cavitator
Drag characteristics
Filter-based model (FBM)

Cite this

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title = "Numerical analysis of the mechanism and drag characteristics of cavitating flow around a disc cavitator",

abstract = "Unsteady cavitating flow around a disc cavitator and its drag characteristics were studied numerically using the filter-based model (FBM). The simulation was carried out in a constant Reynolds number but different cavitation numbers, which were attained through the pressure variation of the inlet flow. The FBM model was embedded into the commercial software CFX through secondary development. The numerical results showed that the cavitation region will turn attached with the cavitator with the decrease of the cavitation number. The wake vortex can increase the periodicity and fluctuation of the drag force acting on the cavitator in the condition of large cavitation number, and with the decrease of the cavitation number, a stable drag characteristic curve will be acquired.",

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T1 - Numerical analysis of the mechanism and drag characteristics of cavitating flow around a disc cavitator

AU - Yu, Zhi Yi

AU - Shi, Su Guo

AU - Wang, Guo Yu

PY - 2009/3

Y1 - 2009/3

N2 - Unsteady cavitating flow around a disc cavitator and its drag characteristics were studied numerically using the filter-based model (FBM). The simulation was carried out in a constant Reynolds number but different cavitation numbers, which were attained through the pressure variation of the inlet flow. The FBM model was embedded into the commercial software CFX through secondary development. The numerical results showed that the cavitation region will turn attached with the cavitator with the decrease of the cavitation number. The wake vortex can increase the periodicity and fluctuation of the drag force acting on the cavitator in the condition of large cavitation number, and with the decrease of the cavitation number, a stable drag characteristic curve will be acquired.

AB - Unsteady cavitating flow around a disc cavitator and its drag characteristics were studied numerically using the filter-based model (FBM). The simulation was carried out in a constant Reynolds number but different cavitation numbers, which were attained through the pressure variation of the inlet flow. The FBM model was embedded into the commercial software CFX through secondary development. The numerical results showed that the cavitation region will turn attached with the cavitator with the decrease of the cavitation number. The wake vortex can increase the periodicity and fluctuation of the drag force acting on the cavitator in the condition of large cavitation number, and with the decrease of the cavitation number, a stable drag characteristic curve will be acquired.

KW - Cavitating flow

KW - Disc cavitator

KW - Drag characteristics

KW - Filter-based model (FBM)

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JF - Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology

IS - 3

ER -

Numerical analysis of the mechanism and drag characteristics of cavitating flow around a disc cavitator

Abstract

Keywords

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