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A numerical study of steady 2D flow around NACA 0015 and NACA 0012 hydrofoil with free surface using VOF method
Accurate simulation of turbulent free surface flows around surface ships has a central role in the optimal design of such naval vessels. The flow problem to be simulated is rich in complexity and poses many modeling challenges because of the existence of breaking waves around the ship hull, and beca...
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| Published in: | EPJ Web of conferences 2015-01, Vol.92, p.02001-1-02001-6 |
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| container_end_page | 1-02001-6 |
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| creator | Adjali, Saadia Belkadi, Mustapha Aounallah, Mohammed Imine, Omar |
| description | Accurate simulation of turbulent free surface flows around surface ships has a central role in the optimal design of such naval vessels. The flow problem to be simulated is rich in complexity and poses many modeling challenges because of the existence of breaking waves around the ship hull, and because of the interaction of the two-phase flow with the turbulent boundary layer. In this paper, our goal is to estimate the lift and drag coefficients for NACA 0012 of hydrofoil advancing in calm water under steady conditions with free surface and emerged NACA 0015. The commercial CFD software FLUENT version 14 is used for the computations in the present study. The calculated grid is established using the code computer GAMBIT 2.3.26. The shear stress k- omega SST model is used for turbulence modeling and the volume of fluid technique is employed to simulate the free-surface motion. In this computation, the second order upwind scheme is used for discretizing the convection terms in the momentum transport equations, the Modified HRIC scheme for VOF discretisation. The results obtained compare well with the experimental data. |
| doi_str_mv | 10.1051/epjconf/20159202001 |
| format | article |
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The flow problem to be simulated is rich in complexity and poses many modeling challenges because of the existence of breaking waves around the ship hull, and because of the interaction of the two-phase flow with the turbulent boundary layer. In this paper, our goal is to estimate the lift and drag coefficients for NACA 0012 of hydrofoil advancing in calm water under steady conditions with free surface and emerged NACA 0015. The commercial CFD software FLUENT version 14 is used for the computations in the present study. The calculated grid is established using the code computer GAMBIT 2.3.26. The shear stress k- omega SST model is used for turbulence modeling and the volume of fluid technique is employed to simulate the free-surface motion. In this computation, the second order upwind scheme is used for discretizing the convection terms in the momentum transport equations, the Modified HRIC scheme for VOF discretisation. The results obtained compare well with the experimental data.</description><identifier>ISSN: 2100-014X</identifier><identifier>ISSN: 2101-6275</identifier><identifier>EISSN: 2100-014X</identifier><identifier>DOI: 10.1051/epjconf/20159202001</identifier><language>eng</language><publisher>Les Ulis: EDP Sciences</publisher><subject>Boundary layer ; Breaking waves ; Computation ; Computational fluid dynamics ; Computer simulation ; Convection ; Drag coefficients ; Fluid flow ; Free surfaces ; Hydrofoils ; Mathematical models ; Naval vessels ; Shear stress ; Surface motion ; Turbulence ; Turbulent boundary layer ; Turbulent flow ; Two dimensional flow ; Two phase flow</subject><ispartof>EPJ Web of conferences, 2015-01, Vol.92, p.02001-1-02001-6</ispartof><rights>2015. This work is licensed under http://creativecommons.org/licenses/by/4.0/ (the “License”). 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The flow problem to be simulated is rich in complexity and poses many modeling challenges because of the existence of breaking waves around the ship hull, and because of the interaction of the two-phase flow with the turbulent boundary layer. In this paper, our goal is to estimate the lift and drag coefficients for NACA 0012 of hydrofoil advancing in calm water under steady conditions with free surface and emerged NACA 0015. The commercial CFD software FLUENT version 14 is used for the computations in the present study. The calculated grid is established using the code computer GAMBIT 2.3.26. The shear stress k- omega SST model is used for turbulence modeling and the volume of fluid technique is employed to simulate the free-surface motion. In this computation, the second order upwind scheme is used for discretizing the convection terms in the momentum transport equations, the Modified HRIC scheme for VOF discretisation. 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| source | Full-Text Journals in Chemistry (Open access); Publicly Available Content (ProQuest) |
| subjects | Boundary layer Breaking waves Computation Computational fluid dynamics Computer simulation Convection Drag coefficients Fluid flow Free surfaces Hydrofoils Mathematical models Naval vessels Shear stress Surface motion Turbulence Turbulent boundary layer Turbulent flow Two dimensional flow Two phase flow |
| title | A numerical study of steady 2D flow around NACA 0015 and NACA 0012 hydrofoil with free surface using VOF method |
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