Interface Modeling II
ORAL · Z16 · ID: 680987
Presentations
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Assessment of Localized Artificial Diffusivity and Interface Sharpening for Modelling a Two-Phase Mixing Layer
ORAL
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Presenters
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zoe barbeau
- Stanford University
Authors
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zoe barbeau
- Stanford University
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Sanjiva K Lele
- Stanford University
- Mechanical Engineering, Stanford University
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Assessment of WENO and TENO spatial discretizations for diffuse interface simulations of compressible two-phase flows, and their interplay with regularization terms
ORAL
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Presenters
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Henry Collis
- Stanford University
Authors
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Henry Collis
- Stanford University
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Shahab Mirjalili
- Stanford University
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Suhas S Jain
- Center for Turbulence Research, Stanford University
- Center for Turbulence Research
- Center for Turbulence Research, Stanford University, CA, USA
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Ali Mani
- Stanford
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Satisfying conservation and pressure equilibrium in compressible multi-component flow simulation: a novel discretely compatible scheme
ORAL
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Presenters
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Yuji Fujiwara
- Tohoku Univ
Authors
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Yuji Fujiwara
- Tohoku Univ
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Yoshiharu Tamaki
- Tohoku Univ
- Tohoku University
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Soshi Kawai
- Tohoku Univ
- Tohoku University
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Adaptation of Phase-Field methods to compressible multiphase flows
ORAL
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Presenters
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Ziyang Huang
- University of Michigan
Authors
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Ziyang Huang
- University of Michigan
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Eric Johnsen
- University of Michigan
- Associate Professor, Mechanical Engineering Associate Chair for Undergraduate Education, Mechanical Engineering
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Efficient Solution of Exact Riemann Problems for Compressible Multiphase Flow and Fluid-Structure Interaction Simulations
ORAL
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Publication: Paper in preparation: Efficient Solution of Exact Riemann Problems for Compressible Multiphase Flow and Fluid-Structure Interaction Simulations. This paper is planned to be submitted to Journal of Computational Physics.
Presenters
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Wentao Ma
- Virginia Tech
Authors
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Wentao Ma
- Virginia Tech
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Xuning Zhao
- Virginia Tech
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Shafquat Islam
- Virginia Tech
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Aditya Narkhede
- Virginia Tech
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Kevin Wang
- Virginia Tech
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A numerical comparison of 5-, 6-, and 7-equation Baer-Nunziato-based diffuse interface methods
ORAL
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Publication: Panchal, A., Bryngelson, S.H. and Menon, S., 2022. A seven-equation diffused interface method for resolved multiphase flows. arXiv preprint arXiv:2204.08637.
Presenters
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Achyut Panchal
- Georgia Institute of Technology
Authors
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Achyut Panchal
- Georgia Institute of Technology
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Anand Radhakrishnan
- Georgia Tech
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Spencer H Bryngelson
- Georgia Tech
- Georgia Institute of Technology
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Suresh Menon
- Georgia Institute of Technology
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A Self-Similar Diffuse Interface Method for a Rotating Ablating Cylinder
ORAL
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Publication: Self-similar diffuse boundary method for phase boundary driven flow, invited submission at Physics of Fluids June 2022 - in review
Presenters
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Emma M Schmidt
- University of Colorado Colorado Springs
Authors
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Emma M Schmidt
- University of Colorado Colorado Springs
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J. Matt Quinlan
- University of Colorado Colorado Springs
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Brandon Runnels
- University of Colorado Colorado Springs
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Characterizing turbulence-interface interaction in a two-phase mixing layer
ORAL
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Presenters
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Tanjina Azad
- University of South Carolina
Authors
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Tanjina Azad
- University of South Carolina
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Delin Jiang
- Baylor University
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Yue Ling
- University of South Carolina
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Modeling of subgrid-scale interfacial area for turbulent two-phase flows
ORAL
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Presenters
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Suhas S Jain
- Center for Turbulence Research, Stanford University
- Center for Turbulence Research
- Center for Turbulence Research, Stanford University, CA, USA
Authors
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Suhas S Jain
- Center for Turbulence Research, Stanford University
- Center for Turbulence Research
- Center for Turbulence Research, Stanford University, CA, USA
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Ahmed Elnahhas
- Center for Turbulence Research, Stanford University
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