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  • 标题:Numerical simulation of an air-core vortex at a hydraulic intake using OpenFOAM
  • 本地全文:下载
  • 作者:Martin Kyereh Domfeh ; Samuel Gyamfi ; Mark Amo-Boateng
  • 期刊名称:Scientific African
  • 印刷版ISSN:2468-2276
  • 出版年度:2020
  • 卷号:8
  • 页码:1-9
  • DOI:10.1016/j.sciaf.2020.e00389
  • 语种:English
  • 出版社:Elsevier
  • 摘要:Highlights•OpenFOAM was used for the numerical simulation.•The use of LTSInterFoam solver for air-core vortex simulation at hydraulic intake.•The local time stepping approach speeds up steady state convergence.•SSTk−ωmodel is appropriate for free surface vortex simulation.•Good agreement between results, analytical models and experimental data.AbstractA vortex is a ubiquitous everyday phenomenon that is observed in nature and it is formed due to the rotational motion of fluid around an axis perpendicular to the free surface. Free surface vortices are a common unwanted occurrence at hydraulic intakes which can cause serious detrimental impacts on mechanical devices such as turbines and pumps. In this paper, an experimentally observed air-core vortex is numerically simulated using the OpenFOAM LTSInterFoam solver. The LTSInterFoam solver has hitherto been mainly used for hydrodynamic studies relating to ship manoeuvrability by researchers. This solver uses a local time stepping approach to speed up convergence towards steady state conditions thus overcoming some of the challenges associated with the use of the conventional interFoam solver for the simulation of free surface vortices. The Shear Stress Transport (SST)k−ωModel was used for the simulation. There was generally good agreement when results from the study were compared with other vortex-related analytical models and experimental data. Overall, the study concludes that the OpenFOAM LTSInterFoam solver is capable of simulating free surface vortices at hydraulic intakes. However, being a steady state solver, the solver cannot account for the transient process involved in the evolution of free surface vortices.
  • 关键词:KeywordsVortexIntakeOpenFOAMLTSInterFoamLocal time steppingSSTk−ωModel
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