| ICCFD7-1001 |
Design and Verification Methodology of Boundary Conditions for Finite Volume Schemes |
Tong, O., Katz, A., and Sankaran, V. |
Utah State University, USA |
|
| ICCFD7-1002 |
High-Order CENO Finite-Volume Scheme for Low-Speed Viscous Flows on Three-Dimensional Unstructured Mesh |
Charest, M. R. J., Groth, C. P. T., and Gauthier, P. Q. |
University of Toronto, Canada |
|
| ICCFD7-1003 |
Improved Finite-Volume Method for Radiative Hydrodynamics |
Wray, A. |
NASA Ames Research Center, USA |
|
| ICCFD7-1004 |
High Resolution Finite Volume Scheme Based on Minimized Dispersion and Controllable Dissipation Reconstruction |
Qiuju, W., Yuxin, R., and Zhensheng, S. |
Tsinghua University, China |
|
| ICCFD7-1005 |
Development and analysis of an improved finite volume method for polyhedral meshes |
Kang, S., and Hur, Nahmkeon |
Sogang University, South Korea |
|
| ICCFD7-1103 |
Characteristics of Linearly-Forced Scalar Mixing in Homogeneous, Isotropic Turbulence |
Carroll, P. L., Verma, S., and Blanquart, G. |
California Institute of Technology, USA |
|
| ICCFD7-1105 |
Simulation of Decaying Two-Dimensional Turbulence Using Kinetically Reduced Local Navier-Stokes Equations |
Hashimoto, T., Tanno, I., Morinishi, K., and Satofuka, N. |
Kinki University, Japan |
|
| ICCFD7-1106 |
Stability and transition in the near-field of pure planar plumes |
Hattori, T., Armfield, S. W., Kirkpatrick, M. P., and Norris, S. E. |
The University of Sydney, Australia |
|
| ICCFD7-1201 |
Advances in Domain Connectivity for Overset Grids Using X-Rays Approach |
Chan, W. M., Noah, K., and Pandya, S. |
NASA Ames Research Center, USA |
|
| ICCFD7-1202 |
Dynamic Overset Grid Computations for CFD applications on Graphics Processing Units |
Chandar, D., Sitaraman, J., and Mavriplis, D. |
University of Wyoming, USA |
|
| ICCFD7-1203 |
Some recent developments and applications related to overset mesh aspects of CFD++ |
Kachgal, P., Chakravathy, S. and Akdag, V. |
Metacomp Technologies, USA |
|
| ICCFD7-1204 |
Wall Distance Search Algorithm Using Voxelized Marching Spheres |
Roget, B., and Sitaraman, J |
University of Wyoming, USA |
|
| ICCFD7-1205 |
Domain decomposition vs. overset Chimera grid approaches for coupling CFD and CAA |
Ryan, J., Halpern, L., and Borrel, M. |
ONERA, France |
|
| ICCFD7-1206 |
An Overset Dual-Mesh Solver for Computational Fluid Dynamics |
Wissink, A. |
U.S. Army Aeroflightdynamics Directorate, USA |
|
| ICCFD7-1301 |
The Nitsche's Method of the Navier-Stokes Equation for Immersed and Moving Boundaries |
Benk, J., Mehl, M. and Ulbrich, M. |
Technical University of Munich, Germany |
|
| ICCFD7-1302 |
Local Stability Enhancement of Immersed Boundary/Interface Methods |
Brehm, C., and Fasel, H. F. |
Science and Technology Corporation, USA |
|
| ICCFD7-1303 |
Arbitrarily Shaped Particles in Shear Flow |
de Tullio, M.D., Pascazio, G., and Napolitano, M. |
Politecnico di Bari, Italy |
|
| ICCFD7-1305 |
A discrete-forcing immersed boundary method for a thin flexible body |
Lee, I., and Choi, H. |
Seoul National University, South Korea |
|
| ICCFD7-1306 |
Seamless Immersed Boundary Lattice Boltzmann Method for Incompressible Flow Simulation |
Nishida, H., and Meichin, Y. |
Kyoto Institute of Technology, Japan |
|
| ICCFD7-1401 |
Discretization Methods for Extremely Anisotropic Diffusion |
van Es, B., Koren, B., and de Blank, H. |
Centrum Wiskunde & Informatica, The Netherlands |
|
| ICCFD7-1403 |
New Explicit Runge-Kutta Methods for the Incompressible Navier-Stokes Equations |
Sanderse, B., and Koren, B. |
Centrum Wiskunde & Informatica, The Netherlands |
|
| ICCFD7-1404 |
Deterministic Solver for Rarefied Flow Problems of Gases of Arbitrary Statistics Based on the Semiclassical Boltzmann - BGK Equation |
Muljadi, B. P. , and Yang, J.-Y. |
National Taiwan University, Taiwan |
|
| ICCFD7-1406 |
High-oder finite-volume reconstruction on arbitrary unstructured grids |
Gerolymos, G. A., and Vallet, I. |
Université Pierre et Marie Curie, France |
|
| ICCFD7-1502 |
Numerical Simulation of Roughness Effect on the Stability of a Hypersonic Boundary Layer |
Fong, K. D., Wang, X., and Zhong, X. |
University of California, Los Angeles, USA |
|
| ICCFD7-1503 |
Passive Control of a Hypersonic Boundary-Layer Transition using Regular Porous Coating |
Wang, X., and Zhong, X. |
University of California, Los Angeles, USA |
|
| ICCFD7-1504 |
Direct numerical simulation of aerosol growth processes in a turbulent mixing layer |
Zhou, K., Attili, A., and Bisetti, F. |
King Abdullah University of Science and Technology, Saudi Arabia |
|
| ICCFD7-1505 |
Massively parallel simulations of inertial particles in high-Reynolds-number turbulence |
Ireland, P. J., and Collins, L. R. |
Cornell University, USA |
|
| ICCFD7-1506 |
A VoF method for DNS of droplet-laden incompressible turbulence |
Baraldi, A., and Ferrante, A. |
University of Washington, Seattle, USA |
|
| ICCFD7-1601 |
Software Design Strategies for Multidisciplinary Computational Fluid Dynamics |
Strawn, R. C. |
U.S. Army Aeroflightdynamics Directorate, USA |
|
| ICCFD7-1602 |
A Semi-Unstructured Multi-Block Fourth-Order Energy Stable Weighted Essentially Non-Oscillatory Finite Difference Scheme |
Otis, C.C. |
University of Pittsburgh, USA |
|
| ICCFD7-1603 |
Development of an agglomeration multigrid technique in the hybrid solver elsA-H |
Marmignon, C., Cantaloube, C., Pape, M. C. L. , de la Llave Plata, M., Couaillier, V., and Gazaix, M. |
ONERA, France |
|
| ICCFD7-1604 |
Simulating Flow over Periodic Hills Using a Dual-Mesh Hybrid Solver with High-Order LES |
Xiao, H., and Jenny, P. |
Institute of Fluid Dynamics, Switzerland |
|
| ICCFD7-1605 |
Moment Base Lattice Boltzmann Approach for Multiphysics Flow Problems |
Morinishi, K., and Fukui, T. |
Kyoto Institute of Technology, Japan |
|
| ICCFD7-1606 |
Convergence Acceleration of High Order Numerical Simulations using a Hybrid Spectral Difference / Finite Volume Multigrid Method |
Allaneau, Y., Li, L. Y., and Jameson, A. |
Stanford University, USA |
|
| ICCFD7-1701 |
Analysis and Optimization of Guide Vane Jets to Decrease the Unsteady Load on Mixed Flow Hydroturbine Runner Blades |
Lewis, B. J., Cimbala, J. M., and Wouden, A. M. |
The Pennsylvania State University, USA |
|
| ICCFD7-1703 |
IFDT - Intelligent In-Situ Feature Detection, Extraction, Tracking and Visualization for Turbulent Flow Simulations |
Duque, E. P. N., Hiepler, D., and Stone, C. P. |
Intelligent Light, USA |
|
| ICCFD7-1704 |
Generalized Box-Plot for Analysis of Unsteady CFD Solutions |
Imlay, S., Rittenberg, D., and Mackey, C. |
Tecplot Inc, USA |
|
| ICCFD7-1801 |
An Efficient Newton-Krylov-Schur Parallel Solution Algorithm for the Steady and Unsteady Navier-Stokes Equations |
Osusky, M., Boom, P. D., Fernández, D. C. D. R., and Zingg, D. W. |
University of Toronto, Canada |
|
| ICCFD7-1802 |
Convergence Error Estimation and Convergence Acceleration in Iteratively Solved Problems |
Eyi, S. |
Middle East Technical University, Turkey |
|
| ICCFD7-1804 |
Numerical Dissipation and Wrong Propagation Speed of Discontinuities For Stiff Source Terms |
Yee, H. C., Kotov, D. V., and Sjögreen, B. |
NASA Ames Research Center, USA |
|
| ICCFD7-1806 |
Study on the Computational Efficiency of Three Dimensional Euler Equations by Multi-Resolution Analysis |
Park, K., Kang, H., Lee, D., Lee, D., and Kwak, D. |
Seoul National University, South Korea |
|
| ICCFD7-1901 |
Use of Evolutionary Algorithm in the Analysis and Optimisation of Turbulence Models |
Fabritius, B., and Tabor, G. |
University of Exeter, UK |
|
| ICCFD7-1902 |
Modifications and Clarifications for the Implementation of the Spalart-Allmaras Turbulence Model |
Allmaras, S. R., Johnson, F. T., and Spalart, P. R. |
AeroDynamics Solutions, Inc., USA |
|
| ICCFD7-1903 |
Improvement of Two-Equation Turbulence Model with Anisotropic Eddy-Viscosity for Hybrid Rocket Research |
Mikiro, M., and Shimada, T. |
University of Tokyo & JAXA, Japan |
|
| ICCFD7-1904 |
Fast Iterative Methods for Navier-Stokes Equations with SST Turbulence Model and Chemistry |
Turkel, E., Peles, O., and Yaniv, S. |
Tel Aviv University, Israel |
|
| ICCFD7-1905 |
Wavelet decomposition of turbulent velocity and its application to subgrid scale modeling |
Denev, J. A., Falconi, C. J., and Bockhorn, H. |
Karluhe Institute of Technology, Germany |
|
| ICCFD7-1906 |
Detached-Eddy Simulation Based on the v2-f Model |
Jee, S., and Shariff, K, |
NASA Ames Research Center, USA |
|
| ICCFD7-2001 |
Constraint-based Shape Parameterization for Aerodynamic Design |
Anderson, G. R., Aftosmis, M. J., and Nemec, M. |
Stanford University & NASA Ames Research Center, USA |
|
| ICCFD7-2004 |
Numerical Predictions of Sonic Boom Signatures for Straight Line Segmented Leading Edge Model. |
Elmiligui, A., Wilcox, F., Cliff, S., and Thomas, S. |
NASA Langley Research Center, USA |
|
| ICCFD7-2005 |
Conceptual Design of Low Sonic Boom Aircraft Using Adjoint-Based CFD |
Wintzer, M. and Kroo, I. |
Stanford University, USA |
|
| ICCFD7-2006 |
Design and Evaluation of a Pressure Rail for Sonic Boom Measurement in Wind Tunnels |
Cliff, S., Elmiligui, A., Aftosmis, M., Thomas, S., Morgenstern, J., and Durston, D. |
NASA Ames Research Center, USA |
|
| ICCFD7-2102 |
Accurate Sharp Interface Scheme for Multimaterials |
Gorsse, Y., Iollo, A., Milcent, T., and Telib, H. |
Université de Bordeaux, France |
|
| ICCFD7-2104 |
Recent progress on the LS-STAG immersed boundary method for complex fluids : Flow of shear-thinning liquids between eccentric rotating cylinders |
Botella, O., and Cheny, Y. |
Nancy-Université, France |
|
| ICCFD7-2105 |
Simulation of liquid/gas interface break-up with a coupled Level Set/VOF/Ghost Fluid method |
Berlemont, A., Bouali, Z., Cousin, J., Desjonquères, P., Doring, M., Ménard, T., and Noël, E. |
CORIA, France |
|
| ICCFD7-2106 |
A Level Set Based Method to Simulate Contact Line Motion and Dynamic Contact Angles for Multiphase Flow |
Rocca, G. D., and Blanquart, G. |
California Institute of Technology, CA |
|
| ICCFD7-2201 |
LES Modeling with High order Flux Reconstruction and Spectral Difference Schemes |
Lodato, G., and Jameson, A. |
Stanford University, USA |
|
| ICCFD7-2202 |
Improved Flux Formulations for Unsteady Low Mach Number Flows |
Hosangadi, A., Sachdev, J., and Sankaran, V. |
CRAFT Tech, USA |
|
| ICCFD7-2203 |
Unresolved Problems by Shock Capturing |
Liou, M.-S. |
NASA Glenn Research Center, USA |
|
| ICCFD7-2204 |
Dissipation of upwind schemes at high wave numbers |
Hannemann, V., Siegmund, A., Oßwald, K., Birken, P., Weinman, K., and Meister, A. |
DLR, Germany |
|
| ICCFD7-2205 |
Flux Functions for Reducing Numerical Shockwave Anomalies |
Zaide, D. W., and Roe, P. L. |
University of Michigan, USA |
|
| ICCFD7-2206 |
Effects of numerical diffusion and mass conservation errors on turbulent transport of high Schmidt number scalars. |
Verma, S., and Blanquart, G. |
California Institute of Technology, USA |
|
| ICCFD7-2301 |
DNS Study on Turbulence Generation and Sustenance in Late Boundary Layer Transition |
Liu, C., Lu, P., Thapa, M., and Yan, Y. |
University of Texas at Arlington, USA |
|
| ICCFD7-2302 |
Direct numerical simulation of particle dispersion in a spatially developing turbulent boundary layer |
Dodd, M. S., Webster, K., and Ferrante, A. |
University of Washington, USA |
|
| ICCFD7-2303 |
Pressure Statistics from Direct Simulation of Turbulent Boundary Layer |
Gungor, A. G., Sillero, J. A. and Jiménez, J. |
Universidad Politecnica de Madrid, Spain |
|
| ICCFD7-2304 |
Direct Numerical Simulations of Rayleigh-Taylor instability with gravity reversal |
Livescu, D., and Wei, T. |
Los Alamos National Laboratory, USA |
|
| ICCFD7-2305 |
A High-Order Shock-Fitting Non-Equilibrium Flow Solver for DNS of Strong Shock and Turbulence Interactions |
Wang, X., and Zhong, X. |
University of California, Los Angeles, USA |
|
| ICCFD7-2306 |
Computational Investigation of Supersonic Boundary Layer Transition over Canonical Fuselage Nose Configurations |
Choudhari, M., Tokugawa, N., Li, F., Chang, C.-L., White, J. A., Ishikawa, H., Ueda, Y., Atobe, T., and Fujii, K. |
NASA Langley Research Center, USA & JAXA, Japan |
|
| ICCFD7-2401 |
Efficient Global Optimization for S-duct Diffuser Shape Design |
Bae, H. G., Park, S. H., and Kwon, J. H. |
Korea Advanced Institute of Science and Technology, South Korea |
|
| ICCFD7-2402 |
GA Optimization Design of Multi-Element Airfoil |
Chen, H., Zhang, Y., Zhang, W., Fu, S., Chen, Y., Li, Y., and Zhou, T. |
Tsinghua University, China |
|
| ICCFD7-2403 |
Adjoint-based Optimization of the Flapping Wing Performance |
Jones, M., and Yamaleev, N. |
North Carolina A&T State University, USA |
|
| ICCFD7-2404 |
Shock-Free Aerofoil/Wing Design Optimisation via Morphing Technique: Leading and Trailing Edge Deformation |
Lee, D. S., Srinivas, K., Periaux, J., and Oñate, E. |
CIMNE, Spain & University of Sydney, Australia |
|
| ICCFD7-2406 |
Optimization Under Uncertainty Using Derivatives and Kriging Surrogate Models |
Rumpfkeil, M. P. |
University of Dayton, USA |
|
| ICCFD7-2503 |
Efficiently Modeling Viscous Flow Effects by means of Regularization Turbulence Modeling and Local Grid Refinement |
van der Heideny, H. J. L., van der Plasy, P., Veldmany, A. E. P., Luppesy, R., and Verstappen, R. W. C. P |
University of Groningen, The Netherlands |
|
| ICCFD7-2504 |
Block-Based Adaptive Mesh Refinement Finite-Volume Scheme for Hybrid Multi-Block Meshes |
Zheng, J. Z. X., and Groth, C. P. T. |
University of Toronto, Canada |
|
| ICCFD7-2601 |
Numerical Simulation of Incompressible Flow using a Velocity-Pressure-Vorticity Formulation |
Chacón, B, and Hafez, M. M. |
University of California, Davis, USA |
|
| ICCFD7-2602 |
Variational Multiscale Simulation of Flow along a Circular Cylinder with Exact Geometry |
Ahn, H. T., Motlagh Y. G., and Hughes T. |
University of Ulsan, South Korea |
|
| ICCFD7-2603 |
Efficient Implementation of the CPR Formulation for the Navier-Stokes Equations on GPUs |
Hoffmann, M., Munz, C.-D., and Wang, Z. J. |
Universität Stuttgart, Germany |
|
| ICCFD7-2604 |
A Simple Two-step Riemann Solver that Separates Acoustic Waves from Contact and Shear Waves |
Sun, M. |
Tohoku University, Japan |
|
| ICCFD7-2605 |
Discontinuous Numerical Perturbation Algorithm for Convective-Diffusion Equation |
Gao, Z., and Shen, Y. |
Chinese Academy of Sciences, China |
|
| ICCFD7-2606 |
Robust performance assessment for an oscillating airfoil combining the Time Spectral Method and
a semi-intrusive uncertainty propagation approach |
Congedo, P. M., Corre, C., and Abgrall, R. |
INRIA, France |
|
| ICCFD7-2701 |
Delayed-Detached Eddy Simulation for Optical Path Control on Backward Step Flow |
Lee, C. Y., Park, S. H., Cho, S., and Lee, I. |
Konkuk University, South Korea |
|
| ICCFD7-2703 |
LES Study on Vortex Ring-Shock Interaction Behind MVG |
Yan, Y., Wang, X., and Liu, C. |
University of Texas at Arlington, USA |
|
| ICCFD7-2704 |
Towards Petascale Large Eddy Simulation of Reacting Flow |
Yilmaz, S. L., Pisciuneri, P. H., and Givi, P. |
University of Pittsburgh, USA |
|
| ICCFD7-2706 |
Evaluation of Numerical Dissipation Sensitivity of IDDES |
Liu, J., Xiao, J., and Fu, S. |
Tsinghua University, China |
|
| ICCFD7-2801 |
Symmetric-Conservative Metric Evaluations for Higher-Order Finite Difference Scheme with the GCL Identities on Three-Dimensional Moving and Deforming Mesh |
Abe, Y., Iizuka, N., Nonomura, T., and Fujii, K. |
University of Tokyo, Japan |
|
| ICCFD7-2802 |
High Order Residual Distribution Scheme for the RANS Equations |
Abgrall, R., de Santis, D., and Ricchiuto, M. |
INRIA, France |
|
| ICCFD7-2803 |
High-Order Compact-Stencil Summation-By-Parts Operators for the Second Derivative with Variable Coefficients |
Fernández, D. C. D. R., and Zingg, D. W. |
University of Toronto, Canada |
|
| ICCFD7-2804 |
Analysis of High-Order Residual-Based Dissipation for Unsteady Compressible Flows |
Grimich, K., Cinnella, P., and Lerat, A. |
Arts et Métiers-ParisTech, France |
|
| ICCFD7-2805 |
On the High-Order Multidimensional Gas-Kinetic Scheme |
Li, Q., and Fu, S. |
Tsinghua University, China |
|
| ICCFD7-2901 |
Simulation of Liquid Jet Breakup Process by Three-Dimensional Incompressible SPH Method |
Takashima, T., Ito, T., Shigeta, M., Izawa, S., and Fukunishi, Y. |
Tohoku University, Japan |
|
| ICCFD7-2902 |
Direct Numerical Simulation of Compressible Multi-Phase Flow with a Pressure-Based Method |
Boger, M., Jaegle, F., Fechter, S., Weigand, B., and Munz, C.-D. |
University of Stuttgart, Germany |
|
| ICCFD7-2903 |
CFD and Experimental Analysis of Two Phase Flow with a Prediction of Torque Demand of a Bi-Lobe Rotor in a Mixing Chamber |
Chetan, C. J, Rajan, N. K. S., Kulkarni, P. S., and Padmanabhan, B. |
Indian Institute of Science, India |
|
| ICCFD7-2904 |
Integrated Adaptive Numerical Method for Transient Two-Phase Flow in Heterogeneous Porous Media |
Chueh, C. C., Bangerth, W., and Djilali, N. |
University of Victoria, Canada |
|
| ICCFD7-2905 |
HPC Fluid Flow Simulations in Porous Media Geometries |
Lieb, M., Mehl, M., and Neckel, T. |
Technische Universität Munchen, Germany |
|
| ICCFD7-2906 |
A Discontinuous Galerkin Based Multiscale Method for Compressible MultiPhase Flow |
Jaegle, F., Fechter, S., Boger, M., Zeiler. C., and Munz, C.-D. |
University of Stuttgart, Germany |
|
| ICCFD7-3001 |
A Hydrothermal Convective Flow at Extremely High Temperature |
Komurasaki, S. |
Nihon University, Japan |
|
| ICCFD7-3003 |
Combining Discrete Equations Method and upwind downwind-controlled splitting for non-reacting and reacting two-fluid computations |
Tang, K., Beccantini, A., and Corre, C. |
CEA Saclay, France |
|
| ICCFD7-3004 |
Exergy-based Performance Metrics to Evaluate Irreversibility in Data Centre Environment Airspace |
Fakhim, B., Srinarayana, N., Behnia, M., and Armfield, S. W. |
The University of Sydney, Australia |
|
| ICCFD7-3005 |
Effect of Inlet Jet Injection Angle on a Calandria Based Reactor – An Investigation with Numerical Analysis of Heat & Mass Transfer for an Optimum Reactor Design |
Rajan, N. K. S., Kulkarni, P. S., and Reddy, M. V. R. |
Indian Institute of Science, India |
|
| ICCFD7-3006 |
CFD Simulation of Subcooled Boiling Flow in Nuclear Fuel Bundle |
In, W. K., Shin, C. H., and Lee, C. Y. |
Korea Atomic Energy Research Institute, South Korea |
|
| ICCFD7-3101 |
A Summary of Data and Findings from the First Aeroelastic Prediction Workshop |
Schuster, D. M. |
NASA Langley Research Center, USA |
|
| ICCFD7-3102 |
Towards Hybrid Grid CFD Simulations of the Launch Environment |
Moini-Yekta, S., Barad, M., Sozer, E., Housman, J., Brehm, C., and Kiris, C. |
NASA Ames Research Center, USA |
|
| ICCFD7-3103 |
Impact of Spatial and Temporal Resolution on the Aeroacoustic Wave from a Two-dimensional Impinging Jet |
Nonomura, T., Tsutsumi, S., Takaki, R., Shima, E., and Fujii, K. |
Japan Aerospace Exploration Agency, Japan |
|
| ICCFD7-3104 |
Analysis of Acoustic Wave from Supersonic Jets Impinging to an Inclined Flat Plate |
Tsutsumi, S., Nonomura, T., Fujii, K., Nakanishi, Y., Okamoto, K., and Teramoto S. |
Japan Aerospace Exploration Agency, Japan |
|
| ICCFD7-3105 |
Progress and Challenges in Liquid Rocket Combustion Stability Modeling |
Sankaran, V., Talley, D. and Harvazinski, M. |
US Air Force, USA |
|
| ICCFD7-3106 |
New Approaches for Efficient Computation of Low Mach Number Unsteady Flows with Sound Propagation |
Shima, E. |
Japan Aerospace Exploration Agency, Japan |
|
| ICCFD7-3201 |
Numerical Modeling of Flow in Lower Urinary Tract Using High-Resolution Methods |
Brandner, M., Egermaier, J., and Kopincová, H. |
The University of West Bohemia, Czech Republic |
|
| ICCFD7-3205 |
A Two-Dimensional Model of Blood Plasma Flow with Oxygen Transport and Blood Cell Membrane Deformation |
Tekleab, Y., and Harris, W. |
Massachusetts Institute of Technology, USA |
|
| ICCFD7-3301 |
Rivulet Evolution in Gravity-Driven Thin-Film Flows |
Slade, D., Veremieiev, S., Lee, Y. C., and Gaskell, P. H. |
University of Leeds, UK |
|
| ICCFD7-3302 |
Viscoplastic Free-Surface Flows: The Herschel-Bulkley Case |
Vigneaux, P. |
Ecole Normale Supérieure de Lyon, France |
|
| ICCFD7-3303 |
Manning Friction in Steep Open-Channel Flow |
Wang, T., and Chu, V. H. |
McGill University, Canada |
|
| ICCFD7-3304 |
Three-Dimensional Thin-Film Flow Over Topography: Full Navier-Stokes Solutions |
Veremieiev, S., Thompson, H. M., and Gaskell, P. H. |
University of Leeds, UK |
|
| ICCFD7-3305 |
Analytical solution for singularities in Stokes flow and applications to finite element solution of Navier-Stokes equations with high precision |
Burda, P., Novotný, J., and Šístek, J. |
Czech Technical University, Czech Republic |
|
| ICCFD7-3306 |
Use of Integral Boundary Layer Methods for Separated Flow and Thoughts on Fidelity in CFD |
Young, D. P. |
The Boeing Company, USA |
|
| ICCFD7-3401 |
Numerical Studies on the Impact of Equivalence Ratio Oscillations on Lean Premixed Flame Characteristics and Emissions |
Schrödinger, C., Moeck, J. P., Paschereit, C. O., and Oevermann, M. |
Institut für Strömungsmechanik und Technische Akustik, Germany |
|
| ICCFD7-3403 |
Ultra-Wet Operation of a Hydrogen Fueled GT Combustor: Large Eddy Simulation Employing Detailed Chemistry |
Krüger, O., Duwig, C., Terhaar, S., and Paschereit, C. O. |
Technische Universität Berlin, Germany |
|
| ICCFD7-3404 |
A Numerical Study of Chaotic Dynamics in Thermal Ignition and Chemically Reactive Swirling Flow |
Tavernetti, W. E., and Hafez, M. M. |
University of California, Davis, USA |
|
| ICCFD7-3405 |
Effects of Al2O3 Particle on Convective and Radiative Heat Flux to Rocket Base Surface |
Lee, J. W., Kim, J. G., and Kim, K. H. |
Seoul National University, South Korea |
|
| ICCFD7-3406 |
Overheating Anomalies during Flight Test due to the Base Bleeding |
Luchinsky, D., Hafiychuck, H., Osipov, V., Ponizhovskaya, E., Smelyanskiy, V., Dagostino, M., Canabal, F., and Mobley, B. L. |
NASA Ames Research Center, USA |
|
| ICCFD7-3501 |
Unsteady Hybrid Navier-Stokes/Vortex Model Applied to Wind Turbine Aerodynamics under Yaw Conditions |
Suzuki, K., and Chattot, J. J. |
University of California, Davis, USA |
|
| ICCFD7-3502 |
Aerodynamic Analysis of Wind Turbines Rotors with High Lift Airfoils by Using Pre-conditioned WENO Scheme |
Huang, J. C., Lin, H., and Yang, J. Y. |
National Taiwan Ocean University, Taiwan |
|
| ICCFD7-3503 |
Numerical Simulation of Horizontal-Axis Wind Turbine (HAWT) |
Bergmann, M., and Iollo, A. |
INRIA, France |
|
| ICCFD7-3504 |
Effect of Inflow Boundary Conditions on Hovering Tilt-Rotor Flows |
Kaul, U. K. |
NASA Ames Research Center, USA |
|
| ICCFD7-3506 |
Advances in Rotor Performance and Turbulent Wake Simulation using DES and Adaptive Mesh Refinement |
Chaderjian, N. M. |
NASA Ames Research Center, USA |
|
| ICCFD7-3601 |
Very-High-Order Conservative Discretization of Diffusive Terms with Variable Viscosity |
Gerolymos, G. A., and Vallet, I. |
Université Pierre et Marie Curie, France |
|
| ICCFD7-3604 |
DNS and ILES of Transitional Flows around a SD7003 using a High-Order Discontinuous Galerkin Method |
de Wiart, C. C., and Hillewaert, K. |
Cenaero, Belgium |
|
| ICCFD7-3605 |
High-Order Central ENO Finite-Volume Scheme for MHD on Three-Dimensional Cubed-Sphere Grids |
Ivan, L., Susanto, A. , Groth, C. P. T., and Sterck, H. D. |
University of Waterloo, Canada |
|
| ICCFD7-3701 |
Efficient Algorithm for Viscous Two-Phase Flows with Real Gas Effects |
Abgrall, R., Rodio, M. G., and Congedo, P. M. |
INRIA, France |
|
| ICCFD7-3702 |
Comparative Study of AUSM-Family Schemes in Compressible Multi-Phase Flow Simulations |
Kitamura, K., and Liou, M.-S. |
JAXA, Japan & NASA Glenn Research Center, USA |
|
| ICCFD7-3703 |
Numerical Simulations of Two-Dimensional Turbulent Thermal Convection on the Surface of a Soap Bubble |
Bruneau, C.-H., Fischer, P., and Xiong, Y.-L. |
University of Bordeaux, France |
|
| ICCFD7-3704 |
A Weighted Essentially Non-Oscillatory Implementation of a Reynolds-Averaged Navier-Stokes Model for Richtmyer-Meshkov Instability-Induced Mixing |
Moran-Lopez, J. T., Holloway, J. P., and Schilling, O. |
University of Michigan, USA |
|
| ICCFD7-3705 |
Dynamic Model of Vortex Cavitation based on Axisymmetric Navier-Stokes Equation |
Ito, K., Ezure, T., Ohno, S., and Kamide, H. |
Japan Atomic Energy Agency, Japan |
|
| ICCFD7-3706 |
SPH Simulation of Gas Arc Welding Process |
Ito, M., Izawa, S., Fukunishi, Y., and Shigeta, M. |
Tohoku University, Japan |
|
| ICCFD7-3801 |
Simulations of Compressible Rayleigh-Taylor Instability Using the Adaptive Wavelet Collocation Method |
Reckinger, S. J., Livescu, D., and Vasilyev, O. V. |
University of Colorado at Boulder, USA |
|
| ICCFD7-3802 |
Output-Adaptive Solution Strategies for Unsteady Aerodynamics on Deformable Domains |
Kast, M., Ceze, M., and Fidkowski, K. |
University of Michigan, USA |
|
| ICCFD7-3803 |
A Conservative Adaptive Scheme for the Two-Dimensional Airfoil-Vortex Interaction Problem |
Guardone, A., Isola, D., and Quaranta, G. |
Politecnico di Milano, Italy |
|
| ICCFD7-3804 |
Dynamic Mesh Deformation for the Preconditioned Implicit Adaptive Non-Linear Frequency Domain Method (Adaptive NLFD) |
Mosahebi, A., and Nadarajah, S. |
McGill University, Canada |
|
| ICCFD7-3902 |
Numerical Simulation of the Vortex Dynamics and of the Flow Control Around a Simplified Ground Vehicle |
Bruneau, C.-H., Creusé, E., Gilliéron, P., and Mortazavi, I. |
University of Bordeaux, France |
|
| ICCFD7-3904 |
LES and PANS of Passive and Active Control of Flows Around Generic Vehicle Bodies |
Krajnovic, S. |
Chalmers University of Technology, Sweden |
|
| ICCFD7-4002 |
Numerical Study on Three-Dimensional Rotating Detonation Wave in Cylinder Tube |
Xin-Meng, T., Ye-Tao, S., and Jian-Ping, W. |
Peking University, China |
|
| ICCFD7-4003 |
Numerical Simulation of TNT-Al Explosives in Explosion Chamber |
Togashi, F., Baum, J. D., and Löhner, R. |
SAIC, USA |
|
| ICCFD7-4004 |
Three-Dimensional Phenomenon of Continuously Rotating Detonation Engines |
Zhou, R., Wang, J., and Wu, D. |
Beijing University of Aeronautics and Astronautics, China |
|
| ICCFD7-4101 |
High-Fidelity Constrained Optimization of a Pitching and Plunging Airfoil |
Culbreth, M., Allaneau, Y., and Jameson, A. |
Stanford University, USA |
|
| ICCFD7-4102 |
Three-dimensional Flows around a Flapping Wing in Ground Effect |
Kweon, J., and Choi, H. |
Seoul National University, South Korea |
|
| ICCFD7-4103 |
Large-Eddy Simulation of Unsteady Separation Over a Pitching Airfoil at High-Reynolds Number |
You, D., and Bromby, W. |
Carnegie Mellon University, USA |
|
| ICCFD7-4104 |
High-Fidelity Flapping-Wing Aerodynamics Simulations with a Dynamic Unstructured Grid Based Spectral Difference Method |
Yu, M., Wang, Z. J., and Hu, H. |
Iowa State University, USA |
|
| ICCFD7-4201 |
A Runge Kutta Discontinuous Galerkin approach to solve reactive flows on conforming hybrid grids. |
Ryan, J., Billet, G., and Borrel, M. |
ONERA, France |
|
| ICCFD7-4202 |
High-Order Discontinuous Galerkin Methods for Turbulent High-Lift Flows |
Burgess, N. K., and Mavriplis, D. J. |
Science and Technology Corporation, USA |
|
| ICCFD7-4203 |
A Reconstructed Discontinuous Galerkin Method Based on a Hierarchical Hermite WENO Reconstruction for Compressible Flows on Tetrahedral Grids |
Luo, H., and Li, S. |
North Carolina State University, USA |
|
| ICCFD7-4204 |
Multi-Dimensional Limiting Strategy for Arbitrary Higher-Order Discontinuous Galerkin Methods in Inviscid and Viscous Flows |
Park, J. S., and Kim, C. |
Seoul National University, South Korea |
|
| ICCFD7-4205 |
An Implicit Hermite WENO Reconstruction-Based Discontinuous Galerkin Method on Tetrahedral Grids |
Xia, Y., and Nourgaliev, R. |
North Carolina State University, USA |
|
| ICCFD7-4206 |
The Multi-Dimensional Limiters for Discontinuous Galerkin Methods on Unstructured Grids |
Li, W., and Ren, Y.-X. |
Tsinghua University, China |
|
| ICCFD7-4301 |
Airfoils Admitting Anomalous Behavior of Lift Coefficient in Descending Transonic Flight |
Kuzmin, A., and Ryabinin, A. |
St. Petersburg State University, Russia |
|
| ICCFD7-4302 |
Characterization and Design of Tubercle Leading-Edge Wings |
Lohry, M. W., Clifton, D., and Martinelli, L. |
Princeton University, USA |
|
| ICCFD7-4304 |
External Aerodynamics Simulations for the MIT D8 "Double-Bubble" Aircraft Design |
Pandya, S. A. |
NASA Ames Research Center, USA |
|
| ICCFD7-4306 |
Inviscid Analysis of Extended Formation Flight |
Kless, J. E., and Aftosmis, M. J. |
Science and Technology Corporation, USA |
|
| ICCFD7-4401 |
Numerical Analysis of Stabilizing Effect of Longitudinal Wall-Oscillation for Two Dimensional Channel Flow |
Atobe, T. |
Japan Aerospace Exploration Agency, Japan |
|
| ICCFD7-4403 |
Numerical Study on Leading Edge Receptivity of the Flat Plate Boundary Layer to Vortical Disturbance |
Nishio, Y., Shigeta, M., Izawa, S., and Fukunishi, Y. |
Tohoku University, Japan |
|
| ICCFD7-4502 |
Monolithic Solver in ALE Framework for Interaction of Incompressible Fluid and Elastic Structure |
Moses, P. |
Czech Technical University in Prague, Czech Republic |
|
| ICCFD7-4503 |
CFD Simulations of the Wind Environment at Shonai Airport Integrated with Weather Prediction Data |
Shimoyama, K., Nakanomyo, H., and Obayashi, S. |
Tohoku University, Japan |
|
| ICCFD7-4504 |
Development and Application of Multidisciplinary Coupled Computational Techniques for Projectile Aerodynamics |
Sahu, J., Costello, M., and Montalvo, C. |
U.S. Army Research Laboratory, USA |
|