Application of a filter-based turbulence model for computations of cavitation flow

Zhi Yi Yu; Shu Li Zhang; Su Guo Shi; Bo Zhang; Guo Yu Wang

Application of a filter-based turbulence model for computations of cavitation flow

Zhi Yi Yu^*, Shu Li Zhang, Su Guo Shi, Bo Zhang, Guo Yu Wang

^*Corresponding author for this work

School of Mechanical Engineering

Beijing Institute of Technology

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

2 Citations (Scopus)

Abstract

The application of a filter-based model (FBM) for the computations of cavitation flow is studied based on the flow around a cascade hydrofoil. With reference to the largest grid size of the refined region near the hydrofoil, four filters were selected in the FBM model. Through comparison with the results of the experiment and the standard κ-ε model, the effects and selection of the filter size were studied at the aspects of cavity shape and drag prediction. The results shown that the turbulent viscosity correction by the filter function is mainly done at the region of cavity shedding in the rear part of the hydrofoil, and the correction is increased with the decrease of the filter size. Considering the resolving capability of the grid for the turbulence scale, the filter size is proposed to be a value a bit larger than the largest grid size of the refined region.

Original language	English
Pages (from-to)	584-586
Number of pages	3
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	29
Issue number	7
Publication status	Published - Jul 2009

Keywords

Cavitation flow
Filter
Turbulence model
Turbulent viscosity

Cite this

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title = "Application of a filter-based turbulence model for computations of cavitation flow",

abstract = "The application of a filter-based model (FBM) for the computations of cavitation flow is studied based on the flow around a cascade hydrofoil. With reference to the largest grid size of the refined region near the hydrofoil, four filters were selected in the FBM model. Through comparison with the results of the experiment and the standard κ-ε model, the effects and selection of the filter size were studied at the aspects of cavity shape and drag prediction. The results shown that the turbulent viscosity correction by the filter function is mainly done at the region of cavity shedding in the rear part of the hydrofoil, and the correction is increased with the decrease of the filter size. Considering the resolving capability of the grid for the turbulence scale, the filter size is proposed to be a value a bit larger than the largest grid size of the refined region.",

keywords = "Cavitation flow, Filter, Turbulence model, Turbulent viscosity",

author = "Yu, {Zhi Yi} and Zhang, {Shu Li} and Shi, {Su Guo} and Bo Zhang and Wang, {Guo Yu}",

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T1 - Application of a filter-based turbulence model for computations of cavitation flow

AU - Yu, Zhi Yi

AU - Zhang, Shu Li

AU - Shi, Su Guo

AU - Zhang, Bo

AU - Wang, Guo Yu

PY - 2009/7

Y1 - 2009/7

N2 - The application of a filter-based model (FBM) for the computations of cavitation flow is studied based on the flow around a cascade hydrofoil. With reference to the largest grid size of the refined region near the hydrofoil, four filters were selected in the FBM model. Through comparison with the results of the experiment and the standard κ-ε model, the effects and selection of the filter size were studied at the aspects of cavity shape and drag prediction. The results shown that the turbulent viscosity correction by the filter function is mainly done at the region of cavity shedding in the rear part of the hydrofoil, and the correction is increased with the decrease of the filter size. Considering the resolving capability of the grid for the turbulence scale, the filter size is proposed to be a value a bit larger than the largest grid size of the refined region.

AB - The application of a filter-based model (FBM) for the computations of cavitation flow is studied based on the flow around a cascade hydrofoil. With reference to the largest grid size of the refined region near the hydrofoil, four filters were selected in the FBM model. Through comparison with the results of the experiment and the standard κ-ε model, the effects and selection of the filter size were studied at the aspects of cavity shape and drag prediction. The results shown that the turbulent viscosity correction by the filter function is mainly done at the region of cavity shedding in the rear part of the hydrofoil, and the correction is increased with the decrease of the filter size. Considering the resolving capability of the grid for the turbulence scale, the filter size is proposed to be a value a bit larger than the largest grid size of the refined region.

KW - Cavitation flow

KW - Filter

KW - Turbulence model

KW - Turbulent viscosity

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SN - 1001-0645

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

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Application of a filter-based turbulence model for computations of cavitation flow

Abstract

Keywords

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