Performance of interFoam on the simulation of progressive waves

The performance of interFoam (a widely used solver within OpenFOAM®) in simulating the propagation of a nonlinear (stream function solution) regular wave is investigated in this work. It is demonstrated that over time there is a tendency for surface elevations to increase, wiggles to appear in the f...

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Published in	Coastal engineering journal Vol. 61; no. 3; pp. 380 - 400
Main Authors	Larsen, Bjarke Eltard, Fuhrman, David R., Roenby, Johan
Format	Journal Article
Language	English
Published	Abingdon Taylor & Francis 03.07.2019 Taylor & Francis Inc
Subjects	Black boxes Discretization discretization practises Free surfaces InterFoam isoAdvector Progressive waves Regular waves Simulation Spatial resolution Stream functions Surface water waves Surface waves Wave propagation waves
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Abstract	The performance of interFoam (a widely used solver within OpenFOAM®) in simulating the propagation of a nonlinear (stream function solution) regular wave is investigated in this work. It is demonstrated that over time there is a tendency for surface elevations to increase, wiggles to appear in the free surface, and crest velocities to become (severely) overestimated. It is shown that increasing the temporal and spatial resolution can mitigate these undesirable effects, but that a relatively small Courant number is required and fine discretization is needed, indicating that many past simulations have not converged. It is further demonstrated that discretization schemes and solver settings (often treated as a "black box" by users) can have a major impact on the results. This impact is documented, and it is shown that obtaining a "diffusive balance" is crucial to accurately propagate a surface wave over long distances without requiring exceedingly high temporal and spatial resolutions. Finally, the new code isoAdvector is demonstrated to produce comparably accurate results to interFoam, while maintaining a sharper surface. It is hoped that the present study will raise awareness of potential shortcomings of interFoam and enable a more accurate and optimal use, in CFD simulation of free surface waves.
AbstractList	The performance of interFoam (a widely used solver within OpenFOAM®) in simulating the propagation of a nonlinear (stream function solution) regular wave is investigated in this work. It is demonstrated that over time there is a tendency for surface elevations to increase, wiggles to appear in the free surface, and crest velocities to become (severely) overestimated. It is shown that increasing the temporal and spatial resolution can mitigate these undesirable effects, but that a relatively small Courant number is required and fine discretization is needed, indicating that many past simulations have not converged. It is further demonstrated that discretization schemes and solver settings (often treated as a "black box" by users) can have a major impact on the results. This impact is documented, and it is shown that obtaining a "diffusive balance" is crucial to accurately propagate a surface wave over long distances without requiring exceedingly high temporal and spatial resolutions. Finally, the new code isoAdvector is demonstrated to produce comparably accurate results to interFoam, while maintaining a sharper surface. It is hoped that the present study will raise awareness of potential shortcomings of interFoam and enable a more accurate and optimal use, in CFD simulation of free surface waves.
Author	Fuhrman, David R. Larsen, Bjarke Eltard Roenby, Johan
Author_xml	– sequence: 1 givenname: Bjarke Eltard orcidid: 0000-0001-8892-1178 surname: Larsen fullname: Larsen, Bjarke Eltard email: bjelt@mek.dtu.dk organization: Department of Mechanical Engineering, Section of Fluid Mechanics, Coastal and Maritime Engineering, Technical University of Denmark – sequence: 2 givenname: David R. orcidid: 0000-0002-6645-4211 surname: Fuhrman fullname: Fuhrman, David R. organization: Department of Mechanical Engineering, Section of Fluid Mechanics, Coastal and Maritime Engineering, Technical University of Denmark – sequence: 3 givenname: Johan orcidid: 0000-0002-7254-0546 surname: Roenby fullname: Roenby, Johan organization: Department of Port & Offshore Technology, DHI
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SubjectTerms	Black boxes Discretization discretization practises Free surfaces InterFoam isoAdvector Progressive waves Regular waves Simulation Spatial resolution Stream functions Surface water waves Surface waves Wave propagation waves
Title	Performance of interFoam on the simulation of progressive waves
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