| ICCFD11-0201 |
Turbulence Development Assessment in a LES Simulation |
M. Bove, G. Cazes, M. Draper, and M. Mendina |
Universidad de la Republica, Uruguay |
Abstract |
Paper |
| ICCFD11-0202 |
Atmospheric Boundary Layer Simulations with a LES Model Nested in a Regional Atmospheric Simulation |
M. Bove, A. Vignolo, M. Mendina, G. Usera, and G. Cazes |
Universidad de la Republica, Uruguay |
Abstract |
Paper |
| ICCFD11-0204 |
Wall-Modeled LES of Turbulent Flow Over a Two-Dimensional Gaussian Bump |
Prahladh S. Iyer and Mujeeb R. Malik |
NASA Langley Research Center, USA |
Abstract |
Paper |
| ICCFD11-0301 |
High-order Temporal Approaches for Overset Applications and AMR Grids |
Dylan Jude, Jayanarayanan Sitaraman, and Andrew Wissink |
U.S. Army Combat Capabilities Development Command, USA |
Abstract |
Paper |
| ICCFD11-0302 |
Output-Based Mesh Adaptation for High-Speed Flows |
James G. Coder, Benjamin L. S. Couchman, Marshall C. Galbraith, Steven R. Allmaras, and Nick Wyman |
University of Tennessee, Knoxville, USA |
Abstract |
Paper |
| ICCFD11-0303 |
Flux Reconstruction Solver for Arbitrarily Unstructured Grids with R-refinement |
R. Dhib, F. Ben Ameur, R. Vandenhoeck, A. Lani, and S. Poedts |
University of Leuven, Belgium |
Abstract |
Paper |
| ICCFD11-0304 |
Effect of Anisotropic Mesh Adaptation on Surface Pressure
Predictions for Atmospheric Entry Simulations |
D. Ekelschot and J.M. Brock |
NASA Ames Research Center, USA |
Abstract |
Paper |
| ICCFD11-0305 |
Anisotropic Mesh Modifications for the Moving Discontinuous Galerkin Method with Interface Condition Enforcement for Robust Simulations of High-Speed Viscous Flows |
Eric J. Ching, Andrew Kercher, and Andrew Corrigan |
Naval Research Laboratory, USA |
Abstract |
Paper |
| ICCFD11-0401 |
Stable and Non-dissipative Kinetic-Energy and Entropy Preserving (KEEP) Schemes for Compressible Flows |
Y. Kuya and S. Kawai |
Tohoku University, Japan |
Abstract |
Paper |
| ICCFD11-0402 |
Positivity-Preserving Entropy Stable Spectral Collocation Schemes of Arbitrary Order of Accuracy for the 3-D Navier-Stokes Equations |
N. K. Yamaleev and J. Upperman |
Old Dominion University, USA |
Abstract |
Paper |
| ICCFD11-0403 |
Stable and Conservative High-Order Methods on Triangular Elements Using Tensor-Product Summation-By-Parts Operators |
T. Montoya and D. W. Zingg |
University of Toronto, Canada |
Abstract |
Paper |
| ICCFD11-0404 |
Obtaining Accurate Functionals from High-Order Generalized Summation-by-Parts Discretizations in Curvilinear Coordinates |
D.A. Craig Penner and D.W. Zingg |
University of Toronto, Canada |
Abstract |
Paper |
| ICCFD11-0405 |
Assessment of a High-Order Implicit Residual Smoothing Time Scheme for Multiblock Curvilinear Meshes |
A. Bienner, X. Gloerfelt, and P. Cinnella |
Arts et Metiers Tech, France |
Abstract |
Paper |
| ICCFD11-0501 |
Large-Scale Investigation of 3D Discontinuous-Galerkin-Hancock Method for Hyperbolic Balance Laws with Stiff Local Sources |
W. Kaufmann and J.G. McDonald |
University of Ottawa, Canada |
Abstract |
Paper |
| ICCFD11-0502 |
Deneb: An Open-Source High-Performance Flow Solver Based on DRM-DG Method |
Hojun You, Juhyun Kim, and Chongam Kim |
Seoul National University, S. Korea |
Abstract |
Paper |
| ICCFD11-0601 |
Wake Breakdown in High-Fidelity CFD Simulations of Rotor-in-Hover: New Tools & Insights |
Nathan Hariharan, Jennifer N. Abras, and Robert Narducci |
Department of Defense (DoD) High Performance Computing Modernization Program, USA |
Abstract |
Paper |
| ICCFD11-0602 |
Optimization of Non-Conventional Airfoils for Martian Rotorcraft using Direct Numerical Simulations |
Lidia Caros, Oliver Buxton, and Peter Vincent |
Imperial College, UK |
Abstract |
Paper |
| ICCFD11-0603 |
Quantitative Approach for the Accurate CFD Simulation of Hover in Turbulent Flow |
Neal M. Chaderjian |
NASA Ames Research Center, USA |
Abstract |
Paper |
| ICCFD11-0701 |
A Multi-Physics Modeling Framework for Plasma Wind Tunnels |
A. Munafo, V. Le Maout, S. Kumar, R. Chiodi, F. Panerai, K. Stephani, D. J. Bodony, and M. Panesi |
University of Illinois, Urbana-Champaign, USA |
Abstract |
Paper |
| ICCFD11-0702 |
A Nonlinear Schur Complement Solver for CFD-Based Multidisciplinary Models |
Anil Yildirim, Justin S. Gray, and Joaquim R. R. A. Martins |
University of Michigan, USA |
Abstract |
Paper |
| ICCFD11-0703 |
An Infrastructure for Algorithmic Flexibility in Multifidelity and Multi-disciplinary CFD Simulations |
S. Morton, N. Hariharan, and D. McDaniel |
Department of Defense High Performance Computing Modernization Program, USA |
Abstract |
Paper |
| ICCFD11-0801 |
Fluid-Structure Interaction with Multi-Body Collision: Application to Collective Fish Swimming in an Impermeable or Porous Enclosure |
M. Bergmann |
National Institute for Research in Digital Science and Technology (INRIA), France |
Abstract |
Paper |
| ICCFD11-0802 |
XCOMPUTE: Algorithms and Instruction Sequences for CFD/FEA Multi-Physics |
G.J. Orr, R.J. Kwan, and M. Doudar |
Xplicit Computing Inc, USA |
Abstract |
Paper |
| ICCFD11-0803 |
Prediction of Permeability for Porous Materials Using a Surrogate Model |
Vijay B. Mohan Ramu and Savio J. Poovathingal |
University of Kentucky, USA |
Abstract |
Paper |
| ICCFD11-0901 |
Propeller Representation in Full-Vehicle CFD: Actuator Disk Versus Body-Force Modeling Approaches |
Tianbo Xie and Alejandra Uranga |
University of Southern California-Los Angeles, USA |
Abstract |
Paper |
| ICCFD11-0902 |
Actuator Line Method for Ducted Fan Applications |
M-A. Breault and G. Dumas |
Laval University, Canada |
Abstract |
Paper |
| ICCFD11-0903 |
Validation of Actuator Disk, Actuator Line and Sliding Mesh Methods within the LAVA Solver |
Gerrit-Daniel Stich, Luis S. Fernandes, Gaetan Kenway, Jeffrey A. Housman, and Cetin C. Kiris |
NASA Ames Research Center, USA |
Abstract |
Paper |
| ICCFD11-1001 |
Output-Based h-p Refinement Strategy with Anisotropic AMR and High-Order CENO Finite-Volume Scheme for Three-Dimensional Inviscid Flows |
C. N. Ngigi and C. P. T. Groth |
University of Toronto, Canada |
Abstract |
Paper |
| ICCFD11-1002 |
A High-Order Low-Dissipation Euler– Lagrange Method for Compressible Gas-Particle Flows |
Meet Patel and Jesse Capecelatro |
University of Michigan, USA |
Abstract |
Paper |
| ICCFD11-1003 |
Discontinuous Galerkin and Related Methods for ODE |
H. T. Huynh |
NASA Glenn Research Center, USA |
Abstract |
Paper |
| ICCFD11-1201 |
Ray Tracing Methodology for Jet Noise Prediction |
T. Shanbhag, B. Y. Zhou, C. R. S. Ilário, and J. J. Alonso |
Stanford University, USA |
Abstract |
Paper |
| ICCFD11-1202 |
A Zonal Direct-Hybrid Aeroacoustic Simulation Framework Using a High-Order Discontinuous Galerkin Spectral Element Method |
D. Kempf and C.-D. Munz |
Universitat Stuttgart, Germany |
Abstract |
Paper |
| ICCFD11-1203 |
Assessment of Wavelet-based Separation Algorithms on Turbulent Boundary Layer Trailing-Edge Noise Prediction |
D.H. Kang and S. Lee |
University of California, Davis, USA |
Abstract |
Paper |
| ICCFD11-1204 |
Predicting Orion Launch Abort Acoustics |
F. Cadieux, M. Barad, J. Jensen, J. Angel, and C. Kiris |
NASA Ames Research Center, USA |
Abstract |
Paper |
| ICCFD11-1205 |
Algorithmic Improvements to a High-Order Space Marching Method for Sonic Boom Propagation |
J. Housman, J. Jensen, G. Kenway, and C. Kiris |
NASA Ames Research Center, USA |
Abstract |
Paper |
| ICCFD11-1301 |
Developing a Modern CFD Framework with Parallel Algorithms and Mesh Adaption |
J. McKee, Y. Mileyko, A. Fisher, and A. Koniges |
University of Hawaii, USA |
Abstract |
Paper |
| ICCFD11-1302 |
A Method for Geometry-Sensitive, CFD Solver Independent Mesh Adaptation |
N. Wyman, M. Mirsky, P. Galpin, and T. Hansen |
Cadence CFD, USA |
Abstract |
Paper |
| ICCFD11-1303 |
Parametrically Uniform Mesh Adaption for Unstructured Grids |
M. Lawry and M. Opgenorth |
Sierra Space, USA |
Abstract |
Paper |
| ICCFD11-1304 |
Automatic Boundary-Layer Adaptation of Structured Grids in VULCAN-CFD |
A. Scholten, P. Paredes, F. Li, J. White, R. Baurle, and M. Choudhari |
NASA Langley Research Center, USA |
Abstract |
Paper |
| ICCFD11-1305 |
Adaptive Mesh Refinement and Turbulence Modeling |
Michael E. Olsen |
NASA Ames Research Center, USA |
Abstract |
Paper |
| ICCFD11-1401 |
Conservative Overset for Discontinuous Galerkin Methods |
Steven Tran and Jayanarayanan Sitaraman |
U.S. Army Combat Capabilities Development Command, USA |
Abstract |
Paper |
| ICCFD11-1403 |
Analysis of Edge-Based Method on Tetrahedra for Diffusion |
Boris Diskin, Hiroaki Nishikawa, and Yi Liu |
National Institute of Aerospace, USA |
Abstract |
Paper |
| ICCFD11-1404 |
Laminar and Turbulent Behavior Captured by A 3-D Kinetic-Based Discrete Dynamic System |
Xiaoyu Zhang, J. M. McDonough, and Huidan Yu |
Purdue University, USA |
Abstract |
Paper |
| ICCFD11-1502 |
Development of the PISALE Codebase for Simulating Flow and Transport in Large-scale Coastal Aquifer |
Young-Ho Seo, Jonghyun Lee, Alice Koniges, and Aaron Fisher |
University of Hawaii, USA |
Abstract |
Paper |
| ICCFD11-1601 |
Comparative Assessment of Accuracy of Shock-Capturing Schemes in Terms of Local-Truncation-Error |
Yoonpyo Hong, Soo Hyung Park, and Kwanjung Yee |
Seoul National University, South Korea |
Abstract |
Paper |
| ICCFD11-1602 |
A Shock Capturing Sub-Filter Scale Legendre Spectral Viscosity (LSV) Closure Applied to High-Order Flux Reconstruction Schemes |
V. C. B. Sousa, and C. Scalo |
Purdue University, USA |
Abstract |
Paper |
| ICCFD11-1701 |
Progress in the Usage of Inexact Linearizations in Piggy-Back Iterations for Adjoint Computation |
E. Padway |
National Institute of Aerospace, USA |
Abstract |
Paper |
| ICCFD11-1702 |
Improving the Performance of a Compressible RANS Solver for Low and High Mach Number Flows |
Sabet Seraj, Anil Yildirim, Joshua L. Anibal, and Joaquim R. R. A. Martins |
University of Michigan, USA |
Abstract |
Paper |
| ICCFD11-1802 |
Progress Toward Realizing the CFD Vision 2030 |
John R. Chawner |
Cadence CFD, USA |
Abstract |
Paper |
| ICCFD11-2001 |
A Time-accurate, Fast-running CFD Method for the Prediction of A Full Aircraft Flutter Boundary |
H. Q. Yang, and Ben Armstrong |
CFD Research Corporation, USA |
Abstract |
Paper |
| ICCFD11-2002 |
UAV Icing: Challenges for Computational Fluid Dynamic (CFD) Tools |
R. Hann |
Norwegian University of Science and Technology, Norway |
Abstract |
Paper |
| ICCFD11-2003 |
CFD Modeling of Droplets Heated by an X-ray Free Electron Laser |
D. Eder, C. Parisuana, M. Gauthier, C. Schoenwaelder, and S. Glenzer |
University of Hawaii, USA |
Abstract |
Paper |
| ICCFD11-2004 |
Numerical Investigation of a Bio-Inspired Airfoil with Air-Permeable Holes |
E. Tangermann, G. Ercolani, and M. Klein |
Universität der Bundeswehr München, Germany |
Abstract |
Paper |
| ICCFD11-2005 |
Influence of Canard on the Longitudinal and Lateral-Directional characteristics of a Delta configuration at Low Speeds |
Pathanjali R J, Praveen Kumar B, Muralidhar M, and Subhendu Saha |
Aeronautical Development Agency, India |
Abstract |
Paper |
| ICCFD11-2101 |
Pseudo-Boiling of Supercritical Water |
R. Barney, R. McCallen, and J.P. Delplanque |
Lawrence Livermore National Laboratory, USA |
Abstract |
Paper |
| ICCFD11-2102 |
All-speed Multi-phase Computational Framework for Simulating the Entire Process of Underwater Explosions: Shocks, Cavitations, and Bubble Pulsations |
Kyungjun Choi and Chongam Kim |
Seoul National University, South Korea |
Abstract |
Paper |
| ICCFD11-2104 |
Moment Closure Description of Polydisperse, Polykinetic and Evaporating Liquid Sprays |
T. F. Leung and C. P. T. Groth |
University of Toronto, Canada |
Abstract |
Paper |
| ICCFD11-2105 |
A Polydisperse Gaussian-Moment Method for Extended Statistical Modelling of Multiphase Flows |
M. Marchildon, B. Allard, L. Ivan, and J.G. McDonald |
University of Ottawa, Canada |
Abstract |
Paper |
| ICCFD11-2201 |
Verification of Nonequilibrium Thermochemistry Models for Hypersonic CFD by First-Principles Simulation |
E. Torres, T. Gross, E. Geistfeld, and T.E. Schwartzentruber |
University of Minnesota, USA |
Abstract |
Paper |
| ICCFD11-2202 |
Arbitrary Lagrangian Eulerian Simulations of High Speed Particle Impacts Encountered During Hypersonic Flight |
Peter Yip, Erik Torres, Ioannis Nompelis, and Thomas E. Schwartzentruber |
University of Minnesota, USA |
Abstract |
Paper |
| ICCFD11-2204 |
Property-Preserving Limiters for Discontinuous Galerkin Discretizations of Hyperbolic Problems |
D. Kuzmin |
Technical University Dortmund, Germany |
Abstract |
Paper |
| ICCFD11-2301 |
High-Order Cut-Cell Methods for High-Fidelity Flow Simulations |
P. T. Brady and D. Livescu |
Los Alamos National Laboratory, USA |
Abstract |
Paper |
| ICCFD11-2302 |
Comparison of LBM-RANS and LBM-VLES for 3D Taylor-Green Vortex Problems |
A. Jammalamadaka, Y. Li, R. Zhang, and H. Chen |
Dassault Space Systems, USA |
Abstract |
Paper |
| ICCFD11-2401 |
Fully-Automated High-Fidelity LES Around High-Lift Aircraft Configuration Near Stall |
Hiroyuki Asada and Soshi Kawai |
Tohoku University, Japan |
Abstract |
Paper |
| ICCFD11-2501 |
Discontinuous Galerkin Methods for Multi-Material Shock Hydrodynamics |
A. Pandare, W. Li, J. Waltz, H. Luo, and J. Bakosi |
Los Alamos National Laboratory, USA |
Abstract |
Paper |
| ICCFD11-2502 |
A Moving Discontinuous Galerkin Finite Element Method with Interface Condition Enforcement for Compressible Multi-material Flows |
H. Luo, G. Absillis, and R. Nourgaliv |
North Carolina State University, USA |
Abstract |
Paper |
| ICCFD11-2601 |
Effects of Thermochemical Non-Equilibrium in the Boundary Layer of an Ablative Thermal Protection System: A State-to-State Approach |
F. Bonelli, D. Ninni, L. D. Pietanza, G. Colonna, B. Helber,T. E. Magin, and G. Pascazio |
Politecnico di Bari, Italy |
Abstract |
Paper |
| ICCFD11-2602 |
Study of Graphite Ablation at Arc-Jet Conditions using Finite-Rate and Equilibrium Chemistry Models |
Aleksander L. Zibitsker, Joel A. McQuaid, Christoph Brehm, and Alexandre Martin |
University of Kentucky, USA |
Abstract |
Paper |
| ICCFD11-2701 |
Receptivity of the BoLT-2 Boundary Layer to Freestream Disturbances |
Zachary M. Johnston, Luke J. Melander, and Graham V. Candler |
University of Minnesota, USA |
Abstract |
Paper |
| ICCFD11-2702 |
The Harmonic Linearized Navier-Stokes Equations for Transition Prediction in Three-Dimensional Flows |
P. Paredes, M. Choudhari, M. Carpenter, and F. Li |
NASA Langley Research Center, USA |
Abstract |
Paper |
| ICCFD11-2703 |
Dynamic QSV-LES of Hypersonic Boundary Layer Transition Delay via Porous Walls Over a Blunt Cone |
V. C. B. Sousa, V. Wartemann, A. Wagner, and C. Scalo |
Purdue University, USA |
Abstract |
Paper |
| ICCFD11-2801 |
Direct Numerical Simulation of a Turbulent Boundary Layer Separating Over a Curved Wall Using FastRK3 |
A. B. Aithal and A. Ferrante |
University of Washington, USA |
Abstract |
Paper |
| ICCFD11-3001 |
An Adaptive Space-Time Hyperbolic Navier-Stokes Solver for Two-Dimensional Unsteady Viscous Flows |
E. Padway and H. Nishikawa |
National Institute of Aerospace, USA |
Abstract |
Paper |
| ICCFD11-3003 |
Bound-Preserving and Entropy-Stable Algebraic Flux Correction Schemes for the Shallow Water Equations with Topography |
H. Hajduk and D. Kuzmin |
Technical University Dortmund, Germany |
Abstract |
Paper |
| ICCFD11-3004 |
Advanced CFD-Based Coupled Computational Approach for Prediction of Complex Flight Behaviors |
Jubaraj Sahu, Bradley Burchett, and Benjamin Gruenwald |
Oak Ridge Associated Universities, USA |
Abstract |
Paper |
| ICCFD11-3005 |
Development of Three-Dimensional Ray Tracing Solver for Communication Blackout in Atmospheric Entries |
Vincent F. Giangaspero, V. Sharma, S. Poedts, and A.Lani |
von Karmen Institute, Belgium |
Abstract |
Paper |
| ICCFD11-3101 |
Dynamic Scale-Resolving Paradigm for Coarse Grained Simulations of Turbulent Mixing |
Fernando F. Grinstein |
Los Alamos National Laboratory, USA |
Abstract |
Paper |
| ICCFD11-3102 |
Direct Numerical Simulation of Turbulent Flow Using Hyperbolic Moment Methods |
L. Ivan and W. Kaufmann |
Canadian Nuclear Laboratories, Canada |
Abstract |
Paper |
| ICCFD11-3103 |
Coarse Grained Simulation and Dynamic Bridging for Turbulent Mixing Predictions |
John William Poduska, Sr. |
Massachusetts Institute of Technology, USA |
Abstract |
Paper |
| ICCFD11-3105 |
Flow Field Reconstruction for Inhomogeneous Turbulence Using Data and Physics Driven Models |
Aditya S. Ghate, and Sanjiva K. Lele |
Stanford University, USA |
Abstract |
Paper |
| ICCFD11-3201 |
Comparison and Uncertainty Assessment of CFD Codes for Hypersonic Flow Modeling |
C. N. Onyeador, C. J. Waligura, L. Lopez, D. Hoskins, K. M. Sabo, and W. L. Harris |
Massachusetts Institute of Technology, USA |
Abstract |
Paper |
| ICCFD11-3202 |
Blowing Effects on the Material Response of an Orthotropic Charring Ablator |
L.P. Askins and A. Martin |
University of Kentucky, USA |
Abstract |
Paper |
| ICCFD11-3203 |
Characterization and Modeling of Spallation in Thermal Protection Systems |
K. Price, S. Bailey, and A. Martin |
University of Kentucky, USA |
Abstract |
Paper |
| ICCFD11-3204 |
A High-Order Scheme for the Numerical Simulation of High-Enthalpy Hypersonic Flows |
D. Passiatore, L. Sciacovelli, P. Cinnella, and G. Pascazio |
Politecnico di Bari, Italy |
Abstract |
Paper |
| ICCFD11-3205 |
Rapid Hypersonic Simulations Using US3D and Pointwise |
C. Tang |
NASA Ames Research Center, USA |
Abstract |
Paper |
| ICCFD11-3301 |
Physics-Based Regression vs. CFD for Hagen-Poiseuille and Womersley Flows and Uncertainty Quantification |
Huiru Li, Md Mahfuzul Islam, Huidan Yu, and Xiaoping Du |
Indiana University–Purdue University Indianapolis, USA |
Abstract |
Paper |
| ICCFD11-3303 |
Distribution of SLS Integrated Load Uncertainty to Surface Pressures and Sectional Loads |
Derek J. Dalle, Stuart E. Rogers, Aaron C. Burkhead, and Jamie G. Meeroff |
NASA Ames Research Center, USA |
Abstract |
Paper |
| ICCFD11-3401 |
Deep Learning for Wake Modeling of Wind Turbines |
Suraj Pawar, Ashesh Sharma, Ganesh Vijayakumar, Christopher J. Bay, and Shashank Yellapantula |
Oklahoma State University, USA |
Abstract |
Paper |
| ICCFD11-3402 |
Analysis on the Flow Over a Vertical-Axis Wind Turbine with Varying Tip-Speed Ratio and Solidity |
Sangwoo Ahnn and Haecheon Choi |
Seoul National University, South Korea |
Abstract |
Paper |
| ICCFD11-3403 |
An Open-Source Incompressible-Flow Hybrid-Solver Framework for Massively Parallel Blade-Resolved Wind Farm Simulations Under Atmospheric Inflow |
Ashesh Sharma, Michael J Brazell, Ganesh Vijayakumar, Shreyas Ananthan, Lawrence Cheung, Marc Henry de Frahan, Paul Mullowney, Jon Rood, Philip Sakievich, and Michael A. Sprague |
National Renewable Energy Laboratory, USA |
Abstract |
Paper |
| ICCFD11-3501 |
Discrete Exterior Calculus for the Simulation of Forced 2D Turbulent Flows on a Sphere |
R. Ayoub, P. Jagad, R. Samtaney, J. Philidet, and L. Gizon |
King Abdullah University of Science and Technology, Saudi Arabia |
Abstract |
Paper |
| ICCFD11-3503 |
A New Approach for a Wider Class of Entropy Split Methods for Compressible Gas Dynamics and MHD |
H.C. Yee and Björn Sjögreen |
NASA Ames Research Center, USA |
Abstract |
Paper |
| ICCFD11-3602 |
Estimation of the Risk of Airborne Transmission in an Elementary School Classroom through Large Eddy Simulation |
A. Vignolo, M. Draper, and G. Usera |
Universidad de la Republica, Uruguay |
Abstract |
Paper |
| ICCFD11-3603 |
Industrial and Biomedical CFD Workflows Enhanced via Coprocessing for Knowledge Capture and Computational Steering |
Steve M. Legensky, Earl P.N. Duque, Dave A. Amels, Brad Whitlock, Marcus Meyer, Axel Gerstenberger, and Paolo Adami |
Intelligent Light, USA |
Abstract |
Paper |
| ICCFD11-3701 |
Analysis of a Flapping Blade in Two-Phase Flow |
A. Viljoen, W. H. Ho, and D. J. Chandar |
University of the Witwatersrand, Johannesburg, South Africa |
Abstract |
Paper |
| ICCFD11-3702 |
Vortex Structure Analysis Method for Separated Shear Flow |
Takuto Ogawa, Tomoaki Tatsukawa, and Fujii Kozo |
Tokyo University of Science, Japan |
Abstract |
Paper |
| ICCFD11-3703 |
Flow Characteristics of the Wandering Blade Tip Vortex |
Young-Jin Yoon and Haecheon Choi |
Seoul National University, South
Korea |
Abstract |
Paper |
| ICCFD11-3801 |
Obstacle Location and Identification using Time Reversal and Deep Learning |
Adar Kahana, Oded Ovadia, Eli Turkel, and Dan Givoli |
Tel-Aviv University, Israel |
Abstract |
Paper |
| ICCFD11-3802 |
Machine Learning-Based Physics Inference from High-Fidelity Solutions: Vortical Features & Flow Separation |
Nathan Hariharan and Jennifer N. Abras |
Department of Defense High Performance Computing Modernization Program, USA |
Abstract |
Paper |
| ICCFD11-3803 |
GPU-Based HPC and AI Developments for CFD |
S. Posey, J. Luitjens, and O. Hennigh |
Nvidia Corporation, USA |
Abstract |
Paper |
| ICCFD11-4001 |
Multi-Resolution Analysis of Partially-Stirred Reactor Models for Subgrid Turbulence/Chemistry Interactions |
J. Edwards, C. Rajath, and A. Navratil |
North Carolina State University, USA |
Abstract |
Paper |
| ICCFD11-4002 |
Numerical Simulation of Underwater Explosions Using Unstructured Grids |
Lingquan Li, Rainald Löhner and Facundo Nicolas Airaudo |
George Mason University, USA |
Abstract |
Paper |
| ICCFD11-4003 |
Controlling Spatio-Temporal Evolution of Square and Rectangular Flames via Inlet Conditions |
J. Stempka, and A. Tyliszczak |
Czestochowa University of Technology, Poland |
Abstract |
Paper |
| ICCFD11-4004 |
Validation of the New Modeling Capabilities of the Ansys Fluent CFD High-Speed Solver for the Simulation of Supersonic Combustion in SCRAMjets and Rotating Detonation Engines |
Bruce Crawford, Ishan Verma, Stefano Orsino, Jean-Sebastien Cagnone, and Shaoping Li |
Ansys, USA |
Abstract |
Paper |
| ICCFD11-4101 |
Multidimensional Aware Riemann Solver for the Eulerian Droplet Equation System |
H. Beaugendre, T. Vigier, and F. Morency |
National Institute for Research in Digital Science and Technology (INRIA), France |
Abstract |
Paper |
| ICCFD11-4102 |
Direct Numerical Simulation of Droplet Laden Homogeneous Shear Turbulence: Numerical Method and Flow Physics |
P. Trefftz-Posada and A. Ferrante |
University of Washington, USA |
Abstract |
Paper |
| ICCFD11-4103 |
Simulating Paraffin Wax Droplets Using Mixed Finite Element Method |
Darsh K. Nathawani and Matthew G. Knepley |
The State University of New York, Buffalo, USA |
Abstract |
Paper |
| ICCFD11-4201 |
On the Simulation of Statistically Unsteady Flows with the RANS Equations |
L. Eca, M. Kerkvliet, and S. L. Toxopeus |
Instituto Superior Tecnico, Portugal |
Abstract |
Paper |
| ICCFD11-4202 |
A Large Time Step Numerical Method for the Euler Equations using Deep Learning |
Oded Ovadia, Adar Kahana, and Eli Turkel |
Tel-Aviv University, Israel |
Abstract |
Paper |
| ICCFD11-4203 |
Flow Characteristics of the Wandering Blade Tip Vortex |
Young-Jin Yoon and Haecheon Choi |
Seoul National University, South Korea |
Abstract |
Paper |
| ICCFD11-4204 |
Influence of Blunt-Body Base Protuberances on Near-Wake Unsteadiness |
C. Stack, L. Dechant, B. Robbins, Y. Zhang, and K. Casper |
Sandia National Laboratories, USA |
Abstract |
Paper |
