1. Numerical simulation of cavitation around a two-dimensional hydrofoil using VOF method and LES turbulence model
- Author
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Roohi, Ehsan, Zahiri, Amir Pouyan, and Passandideh-Fard, Mahmood
- Subjects
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MATHEMATICAL models of turbulence , *LARGE eddy simulation models , *COMPUTER simulation , *CAVITATION , *HYDROFOILS , *FLUID dynamics , *MASS transfer , *TRANSPORT theory , *TWO-phase flow - Abstract
Abstract: In this paper simulation of cavitating flow over the Clark-Y hydrofoil is reported using the large eddy simulation (LES) turbulence model and volume of fluid (VOF) technique. We applied an incompressible LES modelling approach based on an implicit method for the subgrid terms. To apply the cavitation model, the flow has been considered as a single fluid, two-phase mixture. A transport equation model for the local volume fraction of vapour is solved and a finite rate mass transfer model is used for the vapourization and condensation processes. A compressive volume of fluid (VOF) method is applied to track the interface of liquid and vapour phases. This simulation is performed using a finite volume, two phase solver available in the framework of the OpenFOAM (Open Field Operation and Manipulation) software package. Simulation is performed for the cloud and super-cavitation regimes, i.e., σ =0.8, 0.4, 0.28. We compared the results of two different mass transfer models, namely Kunz and Sauer models. The results of our simulation are compared for cavitation dynamics, starting point of cavitation, cavity’s diameter and force coefficients with the experimental data, where available. For both of steady state and transient conditions, suitable accuracy has been observed for cavitation dynamics and force coefficients. [Copyright &y& Elsevier]
- Published
- 2013
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