Abstracts from
The 1st International Workshop on High-Order CFD Methods
Sponsored by Fluid Dynamics TC, AFOSR and DLR
C1.1 Internal inviscid flow over a smooth bump
R. Abgrall, INRIA & University of Bordeaux
J.-B. Chapelier, S. Gerald, F. Renac, M. d. l. L. Plata, ONERA
S. Khosravi and K. Fidkowski, Michigan
M Galbraith, P.D. Orkwis and J.A. Benek, Univ. of Cincinnati and AFRL
H.T. Huynh, NASA Glenn
D.A. Kopriva and G.B. Jacobs, Florida State Univ. and San Diego State Univ.
C. Ollivier-Gooch, UBC
E. van der Weide and M. Svard, Univ. of Twente and University of Edinburgh
L. Wang, W. K. Anderson and J. T. Erwin, University of Tennessee at Chattanooga
Y. Li and Z.J. Wang, Iowa State Univ.
Case Summary
C1.2 Transonic Ringleb flow
H.T. Huynh, NASA Glenn
S. Khosravi and K. Fidkowski, Michigan
M Galbraith, P.D. Orkwis and J.A. Benek, Univ. of Cincinnati and AFRL
C. Ollivier-Gooch, UBC
E. van der Weide and M. Svard, Univ. of Twente and University of Edinburgh
C. Zhou and Z.J. Wang, Iowa State Univ.
Case Summary
C1.3 Flow over the NACA0012 airfoil, inviscid and viscous, subsonic and
transonic
R. Hartmann, DLR: case a and c
J.-B. Chapelier, S. Gerald, F. Renac, M. d. l. L. Plata, ONERA
D.A. Kopriva and G.B. Jacobs, Florida State Univ. and San Diego State Univ.
N. Burgess and D. Mavriplis, University of Wyoming
C. Ollivier-Gooch, UBC
E. van der Weide and M. Svard, Univ. of Twente and University of Edinburgh
C. Zhou and Z.J. Wang, Iowa State Univ.
C1.4 Flat plate boundary layer
J. Dahm and K. Fidkowski, Michigan
F. Bassi, Bergamo
J.-B. Chapelier, S. Gerald, F. Renac, M. d. l. L. Plata, ONERA
D.A. Kopriva and G.B. Jacobs, Florida State Univ. and San Diego State Univ.
Q. Li, K. Xu & S. Fu, Tsinghua University and Hong Kong Univ. of Science and Technology
Case Summary
C1.5 Radial expansion wave
S. Varadan, K. Hara, E. Johnsen, B. Van Leer, Michigan
S. Khosravi and K. Fidkowski, Michigan
M Galbraith, P.D. Orkwis and J.A. Benek, Univ. of Cincinnati and AFRL
G. J. Gassner and A. D. Beck, University of Stuttgart
N. Burgess and D. Mavriplis, University of Wyoming
C. Zhou and Z.J. Wang, Iowa State Univ.
Case Summary
C1.6 Vortex transport by uniform flow
F. Bassi, Bergamo
S. Tu , Q. Pang and H. Xiang, Jackson State Univ.
Y. Li and Z.J. Wang, Iowa State Univ.
Case Summary
C2.1 Unsteady viscous flow over tandem NACA0012 airfoils with a smooth
initial condition
S. E. Sherer and M.R. Visbal, AFRL
K. Kontzialis and J.A. Ekaterinaris, University of Patras
N. Burgess and D. Mavriplis, University of Wyoming
Case Summary
C2.2 Turbulent flow over a RAE airfoil
F. Bassi, Bergamo
Case Summary
C2.3 Analytical 3D body of revolution
Case Summary
C2.4 Delta wing at low Reynolds number
F. Bassi, Bergamo
M. Ceze and K. Fidkowski, Michigan
L. Wang, W. K. Anderson and J. T. Erwin, University of Tennessee at Chattanooga
Case Summary
C3.1 Turbulent flow over a multi-element airfoil
F. Bassi, Bergamo
N. Burgess and D. Mavriplis, University of Wyoming
Case Summary
C3.3 Transitional flow over a SD7003 wing
D. J. Garmann and M. R. Visbal, AFRL
B. Zimmerman and Z.J. Wang, Iowa State University
Case Summary
C3.4 2D laminar flapping wing case
S. Kast and K. Fidkowski, Michigan
C. Liang and J. Wang, George Washington University
Case Summary
C3.5 Direct Numerical Simulation of the Taylor-Green Vortex at Re =
1600
J.-B. Chapelier, S. Gerald, F. Renac, M. d. l. L. Plata, ONERA
A. D. Beck, G.J. Gassner, University of Stuttgart
S. Varadan, K. Hara, E. Johnsen, B. Van Leer, Michigan
T. Haga and Z.J. Wang, Iowa State University
Case Summary