Particle-Laden Flows VII: Computational Methods
ORAL · R32 ·
Presentations
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A computational scheme for simulation of dense suspensions of arbitrarily shaped rigid particles
ORAL
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Authors
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Marcos Vanella
- The George Washington University
- George Washington Unversity
- George Washington University
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Hussein Ez Eldin
- The George Washington University
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Prateeti Mohapatra
- University of Chicago
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Christopher Daley
- University of Chicago
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Anshu Dubay
- Lawrence Berkeley National Laboratory
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Elias Balaras
- The George Washington University
- George Washington Unversity
- George Washington University
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An investigation of particles suspension using smoothed particle hydrodynamics
ORAL
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Authors
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Arman Pazouki
- University of Wisconsin-Madison
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Dan Negrut
- University of Wisconsin-Madison
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Numerical simulation of two-way coupling mechanism in particle-laden turbulent flow based on one-dimensional turbulence model
ORAL
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Authors
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Guangyuan Sun
- Brigham Young University
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David Lignell
- Brigham Young University
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John Hewson
- Sandia National Laboratories
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Craig Gin
- Sandia National Laboratories
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Incorporating Volumetric Displacement Effects In Euler-Lagrange Simulations of Particle-Laden Oscillatory Flows
ORAL
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Authors
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Sourabh Apte
- Oregon State University
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Justin Finn
- University of Liverpool
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Andrew Cihonski
- Los Alamos National Laboratory
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Fluctuating force-coupling method for simulating Brownian suspensions
ORAL
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Authors
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Eric C. Keaveny
- Imperial College London
- Imperial College of London
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Particle-Laden Turbulent Kolmogorov Flow
ORAL
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Authors
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Lian-Ping Wang
- University of Delaware
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Study of the Motion of Particles in Closed Streamlines
ORAL
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Authors
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Hamed Haddadi
- Levich Institute, City College of New York
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Kevin Connington
- Levich Institute, City College of New York
- City College of New York
- The Levich Institute, The City College of New York
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Shahab Shojaei-Zadeh
- Rutgers University
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Jeffrey Morris
- Levich Institute, City College of New York
- City College of New York
- Levich Institute and Department of Chemical Engineering at CUNY
- The Levich Institute, The City College of New York
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A New Moving Boundary Condition in Particulate Suspensions with the Lattice Boltzmann Method
ORAL
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Authors
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Lina Xu
- University of Pittsburgh
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Laura Schaefer
- University of Pittsburgh
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Lattice Boltzmann Method for Two-phase Flows on Unstructured Mesh
ORAL
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Authors
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Taehun Lee
- City College of City University of New York
- Department of Mechanical Engineering, City College of City University of New York
- Mechanical Engineering Department, City College of City University of New York
- City College of New York
- Department of Mechanical Engineering, City College of City University of New York, New York, 10031, USA
- City College of the City University of New York
- Mechanical Engineering, The City College of New York
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Lina Baroudi
- City College of City University of New York
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Kent Wardle
- Argonne National Laboratory
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An improved lattice Boltzmann method for incompressible two-phase flows with large density differences
ORAL
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Authors
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Takaji Inamuro
- Dept. Aeronautics and Astronautics, Kyoto University
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Takaaki Yokoyama
- Dept. Aeronautics and Astronautics, Kyoto University
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Kentaro Tanaka
- Dept. Aeronautics and Astronautics, Kyoto University
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Motoki Taniguchi
- Dept. Aeronautics and Astronautics, Kyoto University
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