CFD: Algorithms I
ORAL · R13 · ID: 2663132
Presentations
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A coupled space-time framework aided by physics-informed neural networks to accelerate fluid flow simulations
ORAL
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Publication: None
Presenters
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ABHISHEK BARMAN
- Iowa State
Authors
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ABHISHEK BARMAN
- Iowa State
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Biswajit Khara
- Iowa State University
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Baskar Ganapathysubramanian
- Iowa State University
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Anupam Sharma
- Iowa State University
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Accelerated Neural Network Solvers of Navier Stokes Equations for Turbulent Flows
ORAL
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Publication: K.Bhaganagar and D.Chambers, Accelerated Elliptical PDE Solver for Computational Fluid Dynamics based on Configurable U-Net Architecture : Analogy to V-Cycle Multigrid, Machine Intelligence Research (Accepted, 2024)
Presenters
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Kiran Bhaganagar
- University of Texas at San Antonio
Authors
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Kiran Bhaganagar
- University of Texas at San Antonio
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David Chambers
- Southwest Research Institute
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Sharp, stable, and collocated numerical simulation of incompressible, multi-phase fluid flows
ORAL
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Presenters
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Adam L Binswanger
- University of California, Merced
Authors
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Adam L Binswanger
- University of California, Merced
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Matthew Blomquist
- University of California, Merced
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Scott West
- University of California, Merced
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Shilpa Khatri
- University of California, Merced
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maxime theillard
- University of California Merced
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Numerical stability and convergence of iterative low-Mach variable density time-integration schemes
ORAL
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Presenters
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Guillaume Blanquart
- Caltech
Authors
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Aaron Nelson
- Caltech
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Guillaume Blanquart
- Caltech
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A Novel Add-On Tool for Calculating Hydrodynamic Force on Immersed Object Independent of Local Wall Orientation
ORAL
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Presenters
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Matthew Blubaugh
- IUPUI
Authors
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Huidan (Whitney) Yu
- Purdue University
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Matthew Blubaugh
- IUPUI
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Duan Zhong Zhang
- Los Alamos National Laboratory
- Los Alamos National Laboratory (LANL)
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Min Wang
- Los Alamos National Laboratory
- Los Alamos National Laboratory (LANL)
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Robust Gradient-Based Solver for Invariant Solutions to the Navier-Stokes Equations using Resolvent Analysis
ORAL
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Publication: Two planned papers derived from this work:
1. "Robust Gradient-Based Solver for Invariant Solutions to the Navier-Stokes Equations, using Resolvent Analysis"
2. "Resolvent-Based Optimisation for Approximating the Statistics of Chaotic Dynamics"Presenters
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Thomas Burton
- University of Southampton
Authors
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Thomas Burton
- University of Southampton
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Davide Lasagna
- University of Southampton
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Sean P Symon
- University of Southampton
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Fast Projection Methods for Variable Density and low-Mach Reacting Flows.
ORAL
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Presenters
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Maher Eid
- University of Utah
Authors
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Maher Eid
- University of Utah
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Tony Saad
- University of Utah
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Semi-Lagrangian Pressure Solver for Accurate, Consistent, and Conservative Volume-of-Fluid Simulations
ORAL
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Presenters
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Julian Lewis Fox
- Montana State University
Authors
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Julian Lewis Fox
- Montana State University
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Mark F Owkes
- Montana State University
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Towards an adaptive mesh refinement approach for stability and resolvent Analysis of external flows around complex geometries
ORAL
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Presenters
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Wei Hou
- Caltech
Authors
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Wei Hou
- Caltech
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Tim Colonius
- Caltech
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