Publikation: Numerical investigation of a combined lattice Boltzmann-level set method for three-dimensional multiphase flow
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2009
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Thömmes, Guido
Becker, J.
Vaikuntam, Ashok Kumar
Kehrwald, Dirk
Klar, Axel
Steiner, Konrad
Wiegmann, Andreas
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International Journal of Computational Fluid Dynamics. 2009, 23(10), pp. 687-697. ISSN 1061-8562. eISSN 1029-0257. Available under: doi: 10.1080/10618561003627605
Zusammenfassung
We simulate rising bubbles using a hybrid lattice Boltzmann scheme based on the lattice BGK model coupled with the level set method (Thömmes et al., 2009. A lattice Boltzmann method for immiscible multiphase flow simulations using the level set method. Journal of Computational Physics). This method uses special boundary conditions at the interface between the two phases which realise the macroscopic jump conditions on the kinetic level and incorporate surface tension into the model. Previous experience with the approach has already demonstrated that it is feasible over a wide range of density and viscosity differences. We utilise this method to simulate the classical immiscible multiphase problem of rising bubbles driven by buoyancy forces. In particular, simulations with large density ratios are performed. The numerical results are compared with available reference solutions.
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THÖMMES, Guido, J. BECKER, Ashok Kumar VAIKUNTAM, Dirk KEHRWALD, Michael JUNK, Axel KLAR, Konrad STEINER, Andreas WIEGMANN, 2009. Numerical investigation of a combined lattice Boltzmann-level set method for three-dimensional multiphase flow. In: International Journal of Computational Fluid Dynamics. 2009, 23(10), pp. 687-697. ISSN 1061-8562. eISSN 1029-0257. Available under: doi: 10.1080/10618561003627605BibTex
@article{Thommes2009Numer-25393,
year={2009},
doi={10.1080/10618561003627605},
title={Numerical investigation of a combined lattice Boltzmann-level set method for three-dimensional multiphase flow},
number={10},
volume={23},
issn={1061-8562},
journal={International Journal of Computational Fluid Dynamics},
pages={687--697},
author={Thömmes, Guido and Becker, J. and Vaikuntam, Ashok Kumar and Kehrwald, Dirk and Junk, Michael and Klar, Axel and Steiner, Konrad and Wiegmann, Andreas}
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<dcterms:abstract xml:lang="eng">We simulate rising bubbles using a hybrid lattice Boltzmann scheme based on the lattice BGK model coupled with the level set method (Thömmes et al., 2009. A lattice Boltzmann method for immiscible multiphase flow simulations using the level set method. Journal of Computational Physics). This method uses special boundary conditions at the interface between the two phases which realise the macroscopic jump conditions on the kinetic level and incorporate surface tension into the model. Previous experience with the approach has already demonstrated that it is feasible over a wide range of density and viscosity differences. We utilise this method to simulate the classical immiscible multiphase problem of rising bubbles driven by buoyancy forces. In particular, simulations with large density ratios are performed. The numerical results are compared with available reference solutions.</dcterms:abstract>
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