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  4. A hybrid solver based on efficient BEM-potential and LBM-NS models: Recent LBM developments and applications to naval hydrodynamics
 
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A hybrid solver based on efficient BEM-potential and LBM-NS models: Recent LBM developments and applications to naval hydrodynamics

Publikationstyp
Conference Paper
Date Issued
2017
Sprache
English
Author(s)
O'Reilly, Christopher  
Grilli, Stephan T.  
Harris, Jeffrey  
Mivehchi, Amin  
Janßen, Christian Friedrich  orcid-logo
Dahl, Jason M.  
Institut
Fluiddynamik und Schiffstheorie M-8  
TORE-URI
http://hdl.handle.net/11420/4735
Start Page
713
End Page
720
Citation
Proceedings of the International Offshore and Polar Engineering Conference: 713-720 (2017)
Contribution to Conference
27th International Ocean and Polar Engineering Conference, ISOPE 2017  
Publisher
International Society of Ocean and Polar Engineers (ISOPE)
We report on recent progress and validation of a 3D hybrid model for naval hydrodynamics problems based on a perturbation method, in which both velocity and pressure are expressed as the sum of an inviscid flow with a viscous perturbation. The far-to near-field inviscid flows can be solved with a Boundary Element Method (BEM), based on fully nonlinear potential flow theory, and the near-field perturbation flow is solved with a NS model based on a Lattice Boltzmann Method (LBM) with a Large Eddy Simulation (LES) of the turbulence. We summarize the hybrid model formulation and latest developments regarding the LES, and particularly a new wall model for the viscous/turbulent sub-layer near solid boundaries, that is generalized for an arbitrary geometry. The latter are validated by simulating turbulent flows over a flat plate for Re ∈ [3.7×104;1.2×106], for which the friction coefficient computed on the plate agrees well with experiments. We then simulate the flow past a NACA0012 foil using the hybrid LBM-LES with the wall model, for Re = 1×106, and show a good agreement of lift and drag forces with experiments. Results obtained with the hybrid LBM model are either nearly identical or improved relative to those of the standard LBM, but for a smaller computational domain, demonstrating the benefits of the hybrid approach.
DDC Class
600: Technik
More Funding Information
Grants N000141310687 and N000141612970 of the Office of Naval Research (PM Kelly Cooper).
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