Computational Fluid Dynamics 2010

Alexander Kuzmin
Editor
Computational Fluid
Dynamics 2010
Proceedings of the Sixth International
Conference on Computational Fluid
Dynamics, ICCFD6, St Petersburg, Russia,
on July 12-16, 2010
With 516 Figures
123
Editor
Alexander Kuzmin
St Petersburg State University
Laboratory of Aerodynamics
St Petersburg
Russia

ISBN 978-3-642-17883-2 e-ISBN 978-3-642-17884-9
DOI 10.1007/978-3-642-17884-9
Springer Heidelberg Dordrecht London New York
Library of Congress Control Number: 2011923661
c
 Springer-Verlag Berlin Heidelberg 2011
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Preface
This book contains proceedings of the Sixth International Conference on Compu-
tational Fluid Dynamics (ICCFD6). The ICCFD conference series was formed in
2000 following the merger of the International Conference on Numerical Methods
in Fluid Dynamics founded by K. Oshima in 1985 and International Symposium on
Computational Fluid Dynamics founded by N.N. Yanenko and M. Holt in 1969. The
conferences have been recognized as the leading international events for scientists,
mathematicians and engineers specialized in the numerical simulation of fluid and
gas flows.
The Sixth Conference, which was held in St. Petersburg, Russia, from July 12
through 16, 2010, provided a forum for the dissemination of technical information in
all areas of up-to-date CFD, from basic algorithms to applications in various indus-
tries. The highlights of the program were five Invited Lectures and four Keynote
Lectures given by renowned CFD experts, who presented a great deal of valuable
information and exciting topics for discussions.
In the beginning of 2010, the Organizing Committee received over 280 abstracts
of regular papers for consideration. Four groups of reviewers, which were headed
by D. Kwak (USA), C H. Bruneau (France), N. Satofuka (Japan), and A. Kuzmin
(Russia), performed a careful peer-review process. The final conference program
included 126 oral and 30 poster presentations. The total number of ICCFD6 atten-
dees was 171 from 29 countries. It is worth mentioning that 40 presentations were
delivered by Ph.D. students.
I would like to express a deep gratitude to the National Aeronautics and Space

Administration and the European Office for Aerospace Research & Development
for their valuable sponsorships offered to support the conference and publication of
these proceedings. I also would like to thank the staff of the St. Petersburg Society
for Science & Technology for their contribution to the organizing work. Special
thanks are due to graduate students of St. Petersburg State University and under-
graduate students of Baltic State Technical University for their efforts to ensure the
smooth running of the conference.
St. Petersburg, Russia Alexander Kuzmin
November 2010
v

Contents
Part I Plenary Lectures
The Expanding Role of Applications in the Development and Validation
of CFD at NASA 3
David M. Schuster
Thermodynamically Consistent Systems of Hyperbolic Equations 31
S.K. Godunov
Part II Keynote Lectures
A Brief History of Shock-Fitting 37
Manuel D. Salas
Understanding Aerodynamics Using Computers 55
Mohamed M. Hafez
Part III High-Order Methods
A Unifying Discontinuous CPR Formulation for the Navier–Stokes
Equations on Mixed Grids 59
Z.J. Wang, Haiyang Gao, and Takanori Haga
Assessment of the Spectral Volume Method on Inviscid and Viscous
Flows 67
Oussama Chikhaoui, Jérémie Gressier, and Gilles Grondin

Runge–Kutta Discontinuous Galerkin Method for Multi–phase
Compressible Flows 73
Vincent Perrier and Erwin Franquet
vii
viii Contents
Energy Stable WENO Schemes of Arbitrary Order 81
Nail K. Yamaleev and M.H. Carpenter
Part IV Two-Phase Flow
A Hybrid Method for Two-Phase Flow Simulations 91
Kateryna Dorogan, Jean-Marc Hérard, and Jean-Pierre Minier
HLLC-Type Riemann Solver for the Baer–Nunziato Equations
of Compressible Two-Phase Flow 99
Svetlana A. Tokareva and Eleuterio F. Toro
Parallel Direct Simulation Monte Carlo of Two-Phase Gas-Droplet
Laser Plume Expansion from the Bottom of a Cylindrical Cavity
into an Ambient Gas 105
Alexey N. Volkov and Gerard M. O’Connor
Study of Dispersed Phase Model for the Simulation of a Bubble Column . 113
F. Sporleder, Carlos A. Dorao, and H.A. Jakobsen
Application of Invariant Turbulence Modeling of the Density Gradient
Correlation in the Phase Change Model for Steam Generators 121
Yasuo Obikane and Shigeru Ikeo
Part V Algorithms
Reformulated Osher-Type Riemann Solver 131
Eleuterio F. Toro and Michael Dumbser
Entropy Traces in Lagrangian and Eulerian Calculations 137
Philip L. Roe and Daniel W. Zaide
Automatic Time Step Determination for Enhancing Robustness
of Implicit Computational Algorithms 145
Chenzhou Lian, Guoping Xia, and Charles L. Merkle

Part VI Boeing–Russia Cooperation
Fifteen Years of Boeing–Russia Collaboration in CFD and Turbulence
Modeling/Simulation 155
Sergey V. Kravchenko, Philippe R. Spalart, and Mikhail Kh. Strelets
Contents ix
LES-Based Numerical System for Noise Prediction in Complex Jets 163
Mikhail L. Shur, Andrey V. Garbaruk, Sergey V. Kravchenko,
Philippe R. Spalart, and Mikhail Kh. Strelets
Part VII Discontinuous Galerkin Methods
Local Time-Stepping for Explicit Discontinuous Galerkin Schemes 171
Gregor Gassner, Michael Dumbser, Florian Hindenlang,
and Claus-Dieter Munz
Multi-dimensional Limiting Process for Discontinuous Galerkin
Methods on Unstructured Grids 179
Jin Seok Park and Chongam Kim
Runge Kutta Discontinuous Galerkin to Solve Reactive Flows 185
Germain Billet and Juliette Ryan
Comparison of the High-Order Compact Difference and Discontinuous
Galerkin Methods in Computations of the Incompressible Flow 191
Artur Tyliszczak, Maciej Marek, and Andrzej Boguslawski
On the Boundary Treatment for the Compressible Navier–Stokes
Equations Using High-Order Discontinuous Galerkin Methods 197
Andreas Richter and Jörg Stiller
Analytical and Numerical Investigation of the Influence of Artificial
Viscosity in Discontinuous Galerkin Methods on an Adjoint-Based
Error Estimator 203
Jochen Schütz, Georg May, and Sebastian Noelle
Part VIII Vortex Dynamics
Analysis of a Swept Wind Turbine Blade Using a Hybrid
Navier–Stokes/Vortex-Panel Model 213

Kensuke Suzuki, Sven Schmitz, and Jean-Jacques Chattot
Using Feature Detection and Richardson Extrapolation to Guide
Adaptive Mesh Refinement for Vortex-Dominated Flows 219
Sean J. Kamkar, Antony Jameson, Andrew M. Wissink,
and Venkateswaran Sankaran
x Contents
Triple Decomposition Method for Vortex Identification in Two-
Dimensional and Three-Dimensional Flows 225
V. Kolá
ˇ
r, P. Moses, and J. Šístek
Part IX Design Optimization
Multi-point Optimization of Wind Turbine Blades Using Helicoidal
Vortex Model 235
Marcel Wijnen and Jean-Jacques Chattot
Performance Evaluation of the Numerical Flux Jacobians in Flow
Solution and Aerodynamic Design Optimization 241
Alper Ezertas and Sinan Eyi
Design Optimization in Non-equilibrium Reacting Flows 247
Sinan Eyi, Alper Ezertas, and Mine Yumusak
Shock Control Bump Design Optimization on Natural Laminar Aerofoil . 253
D.S. Lee, J. Periaux, K. Srinivas, L.F. Gonzalez, N. Qin, and E. Onate
Uncertainty Analysis Utilizing Gradient and Hessian Information 261
Markus P. Rumpfkeil, Wataru Yamazaki, and Dimitri J. Mavriplis
Part X Interface Tracking
Augmented Lagrangian/Well-Balanced Finite Volume Method
for Compressible Viscoplastic Flows 271
Didier Bresch, Enrique D. Fernandez-Nieto, Ioan Ionescu, and Paul Vigneaux
Stable Simulation of Shallow-Water Waves by Block Advection 279
Lai-Wai Tan and Vincent H. Chu

Flood-Waves Simulation by Classical Method
of Consistent Transport 287
Tao Wang, Lai-Wai Tan, and Vincent H. Chu
Part XI Vehicles and Vortices
Numerical Simulation and Control of the 3D Flow Around Ahmed Body . 297
C H. Bruneau, E. Creusé, D. Depeyras, P. Gilliéron, and I. Mortazavi
Contents xi
Aerodynamic Multiobjective Design Exploration of Flapping Wing
Using a Navier–Stokes Solver 303
Yuuki Yamazaki, Akira Oyama, Taku Nonomura, Kozo Fujii,
and Makoto Yamamoto
Study into Effects of Vortex Generators on a Supercritical Wing 309
Jingbo Huang, Zhixiang Xiao, and Song Fu
Part XII Turbulence Modeling
Numerical Simulation of the Turbulent Detached Flow Around a Thick
Flat Plate 317
C. Tenaud, Y. Fraigneau, and V. Daru
Progress in DES for Wall-Modelled LES of Complex Internal Flows 325
Charles Mockett and Frank Thiele
Enhancement of the Performance of the Partial-Averaged Navier –
Stokes Method by Using Scale-Adaptive Mesh Generation 333
B. Basara and Z. Pavlovic
Sensitizing Second-Moment Closure Model to Turbulent Flow
Unsteadiness 341
Robert Maduta and Suad Jakirli
´
c
Part XIII Turbulent Compressible/Hypersonic Flows
High Order Scheme for Compressible Turbulent Flows 351
Christelle Wervaecke, Héloïse Beaugendre, and Boniface Nkonga

Receptivity of Hypersonic Flow over Blunt-Noses to Freestream
Disturbances Using Spectral Methods 357
Kazem Hejranfar, Mehdi Najafi, and Vahid Esfahanian
Part XIV Bio-Fluid Mechanics
Flow Structures in Physiological Conduits 365
A.M. Gambaruto and A. Sequeira
Fluid Mechanics in Aortic Prostheses After a Bentall Procedure 371
M.D. de Tullio, L. Afferrante, M. Napolitano, G. Pascazio, and R. Verzicco
xii Contents
Optimisation of Stents for Cerebral Aneurysm 377
C.J. Lee, S. Townsend, and K. Srinivas
Micron Particle Deposition in the Nasal Cavity Using the v
2
-f Model 383
Kiao Inthavong, Jiyuan Tu, and Christian Heschl
Part XV Meshing Technology
Adjoint-Based Adaptive Meshing in a Shape Trade Study for Rocket
Ascent 391
Marshall R. Gusman, Jeffrey A. Housman, and Cetin C. Kiris
Mesh Quality Effects on the Accuracy of Euler and Navier–Stokes
Solutions on Unstructured Meshes 401
Aaron Katz and Venkateswaran Sankaran
Analysis of a RK/Implicit Smoother for Multigrid 409
R.C. Swanson, E. Turkel, and S. Yaniv
Anisotropic Adaptive Technique for Simulations of Steady Compressible
Flows on Unstructured Grids 419
O. Feodoritova, D. Kamenetskii, S.V. Kravchenko, A. Martynov,
S. Medvedev, and V. Zhukov
Part XVI Aeroacoustics
Euler – Navier–Stokes Coupling for Aeroacoustics Problems 427

Michel Borrel, Laurence Halpern, and Juliette Ryan
Computational Aeroacoustics on a Small Flute Using a Direct Simulation . 435
Yasuo Obikane
An Iterative Procedure For the Computation of Acoustic Fields Given
by Retarded-Potential Integrals 443
Florent Margnat
Innovative Tool for Realistic Cavity Flow Analysis: Global Stability 449
Fabien Mery and Gregoire Casalis
Contents xiii
Part XVII Large-Scale Computations
Comparison of Parallel Preconditioners for a Newton-Krylov
Flow Solver 457
Jason E. Hicken, Michal Osusky, and David W. Zingg
Large-Scale CFD Data Compression for Building-Cube Method Using
Wavelet Transform 465
Ryotaro Sakai, Daisuke Sasaki, and Kazuhiro Nakahashi
Part XVIII Euler Solvers
A Conservative Coupling Method for Fluid-Structure Interaction
in the Compressible Case 473
Laurent Monasse, Virginie Daru, Christian Mariotti, and Serge Piperno
A Preconditioned Euler Flow Solver for Simulation of Helicopter Rotor
Flow in Hover 479
Kazem Hejranfar and Ramin Kamali Moghadam
A New Type of Gas-Kinetic Upwind Euler/N-S Solvers 485
Lei Tang
Part XIX High-Order Accuracy
Efficiency Enhancement in High Order Accurate Euler Computation
via AWM 495
Hyungmin Kang, Dongho Lee, Dohyung Lee, Dochan Kwak, and John Seo
On the Construction of High Order Finite Volume Methods 501

Wanai Li, Guodong Lei, and Yu-xin Ren
Multiblock Computations of Complex Turbomachinery Flows Using
Residual-Based Compact Schemes 509
Bertrand Michel, Paola Cinnella, and Alain Lerat
A Local Resolution Refinement Algorithm Using Gauss–Lobatto
Quadrature 515
J.S. Shang and P.G. Huang
xiv Contents
Performance Comparison of High Resolution Schemes 527
Müslüm Arıcı and Hüseyin ¸Sinasi Onur
Solving the Convective Transport Equation with Several
High-Resolution Finite Volume Schemes: Test Computations 535
Alexander I. Khrabry, Evgueni M. Smirnov, and Dmitry K. Zaytsev
Part XX Free-Surface Flow
Computational Study of Hydrodynamics and Heat Transfer Associated
with a Liquid Drop Impacting a Hot Surface 543
Edin Berberovi
´
c, Ilia V. Roisman, Suad Jakirli
´
c, and Cameron Tropea
A Second Order JFNK-Based IMEX Method for Single and Multi-Phase
Flows 549
Samet Kadioglu, Dana Knoll, Mark Sussman, and Richard Martineau
Simulation of Two-Phase Flow in Sloshing Tanks 555
Roel Luppes, Arthur Veldman, and Rik Wemmenhove
High-Precision Reconstruction of Gas-Liquid Interface in PLIC-VOF
Framework on Unstructured Mesh 563
Kei Ito, Tomoaki Kunugi, and Hiroyuki Ohshima
Part XXI Mesh Adaptation

Adjoint-Based Methodology for Anisotropic Grid Adaptation 571
Nail K. Yamaleev, Boris Diskin, and Kedar Pathak
Transient Adaptive Algorithm Based on Residual Error Estimation 577
N. Ganesh and N. Balakrishnan
Adaptive and Consistent Properties Reconstruction for Complex Fluids
Computation 583
Guoping Xia, Chenzhou Lian, and Charles L. Merkle
Space-Filling Curve Techniques for Parallel, Multiscale-Based Grid
Adaptation: Concepts and Applications 591
Sorana Melian, Kolja Brix, Siegfried Müller, and Gero Schieffer
Contents xv
Part XXII Immersed Boundary Method
Recent Advances in the Development of an Immersed Boundary Method
for Industrial Applications 601
M.D. de Tullio, P. De Palma, M. Napolitano, and G. Pascazio
An Overview of the LS-STAG Immersed Boundary Method for Viscous
Incompressible Flows 607
Olivier Botella and Yoann Cheny
A Two-Dimensional Embedded-Boundary Method for Convection
Problems with Moving Boundaries 613
Yunus Hassen and Barry Koren
A Second-Order Immersed Boundary Method for the Numerical
Simulation of Two-Dimensional Incompressible Viscous Flows Past
Obstacles 621
François Bouchon, Thierry Dubois, and Nicolas James
Part XXIII Gas-Kinetic BGK Schemes
A New High-Order Multidimensional Scheme 629
Qibing Li, Kun Xu, and Song Fu
A Direct Boltzmann-BGK Equation Solver for Arbitrary Statistics Using
the Conservation Element/Solution Element and Discrete Ordinate

Method 637
Bagus Putra Muljadi and Jaw-Yen Yang
Part XXIV Extreme Flows
Space-Time Convergence Analysis of a Dual-Time Stepping Method for
Simulating Ignition Overpressure Waves 645
Jeffrey A. Housman, Michael F. Barad, Cetin C. Kiris, and Dochan Kwak
Numerical Solution of Maximum-Entropy-Based Hyperbolic Moment
Closures for the Prediction of Viscous Heat-Conducting Gaseous Flows . . 653
James G. McDonald and Clinton P.T. Groth
Supercritical-Fluid Flow Simulations Across Critical Point 661
Satoru Yamamoto, Takashi Furusawa, and Ryo Matsuzawa
xvi Contents
Numerical Model for the Analysis of the Thermal-Hydraulic Behaviors
in the Calandria Based Reactor 669
Mula Venkata Ramana Reddy, S.D. Ravi, P.S. Kulkarni, and N.K.S. Rajan
Part XXV Deformable Bodies
Seamless Virtual Boundary Method for Complicated Incompressible
Flow Simulation 679
Hidetoshi Nishida
Modeling, Simulation and Control of Fish-Like Swimming 689
Michel Bergmann and Angelo Iollo
Multi-Level Quasi-Newton Methods for the Partitioned Simulation of
Fluid-Structure Interaction 695
Joris Degroote, Sebastiaan Annerel, and Jan Vierendeels
Entropic Lattice Boltzmann Simulation for Unsteady Flow Around two
Square Cylinders Arranged Side by Side in a Channel 701
Takahiro Yasuda and Nobuyuki Satofuka
An Eulerian Approach for Fluid and Elastic Structure Interaction
Problems 707
Koji Morinishi and Tomohiro Fukui

Part XXVI DNS/RANS Computations
Dissipation Element Analysis of Inhomogenous Turbulence 717
Philip Schaefer, Markus Gampert, Jens Henrik Goebbert, and Norbert Peters
A Matrix-Free Viscous Linearization Procedure for Implicit
Compressible Flow Solvers 723
Nikhil Vijay Shende and N. Balakrishnan
DNS of Shock/Boundary Layer Interaction Flow in a Supersonic
Compression Ramp 729
Xin-Liang Li, De-Xun Fu, Yan-Wen Ma, and Xian Liang
An Efficient Generator of Synthetic Turbulence at RANS–LES Interface
in Embedded LES of Wall-Bounded and Free Shear Flows 739
Dmitry Adamian and Andrey Travin
Contents xvii
A Numerical Simulation of the Magnetically Driven Flows in a Square
Container Using the Delayed Detached Eddy Simulation 745
Karel Fra
ˇ
na, Vít Honzejk, and Kate
ˇ
rina Horáková
On the Performance of Optimized Finite Difference Schemes
in Large-Eddy Simulation of the Taylor–Green Vortex 753
Dieter Fauconnier and Erik Dick
Part XXVII Combustion/Supersonic Flow
Wide-Range Single Engine Operated from Subsonic to Hypersonic
Conditions: Designed by Computational Fluid Dynamics 763
Ken Naitoh, Kazushi Nakamura, Takehiro Emoto, and Takafumi Shimada
Numerical Simulations of the Performance of Scramjet Engine Model
with Pylon Set Located in the Inlet 769
I.M. Blankson, A.L. Gonor, and V.A. Khaikine

Scale Adaptive Simulations over a Supersonic Car 779
Guillermo Araya, Ben Evans, Oubay Hassan, and Kenneth Morgan
Rotating Detonation Engine Injection Velocity Limit and Nozzle Effects
on Its Propulsion Performance 789
Jian-Ping Wang and Ye-Tao Shao
Part XXVIII Mesh Adaptation/Decomposition
Singularities in Lid Driven Cavity Solved by Adjusted Finite Element
Method 799
Pavel Burda, Jaroslav Novotný, and Jakub Šístek
A Parallel Implementation of the BDDC Method for the Stokes Flow 807
Jakub Šístek, Pavel Burda, Jan Mandel, Jaroslav Novotný,
and Bed
ˇ
rich Sousedík
An Adaptive Multiwavelet-Based DG Discretization for Compressible
Fluid Flow 813
Francesca Iacono, Georg May, Siegfried Müller, and Roland Schäfer
xviii Contents
Part XXIX Micro- and Nano-Fluidics
Massively Parallel Mesoscopic Simulations of Gas Permeability of Thin
Films Composed of Carbon Nanotubes 823
Alexey N. Volkov and Leonid V. Zhigilei
Predicting Three-Dimensional Inertial Thin Film Flow over Micro-Scale
Topography 833
Sergii Veremieiev, Philip H. Gaskell, Yeaw Chu Lee,
and Harvey M. Thompson
Part XXX Level Set Method
A Parallel Adaptive Projection Method for Incompressible Two Phase
Flows 841
Davide Zuzio and Jean-Luc Estivalezes

Hybrid Particle Level-Set Method for Convection-Diffusion Problems
in Porous Media 847
Héloïse Beaugendre, S. Huberson, and I. Mortazavi
Part XXXI Technical Notes
Numerical Solution of Boundary Control Problems for Boussinesq
Model of Heat Convection 857
Gennady Alekseev and Dmitry Tereshko
Blade Design Effects on the Performance of a Centrifugal Pump
Impeller 859
John S. Anagnostopoulos
The Local Flux Correction Method 863
Bolat M. Baimirov
Adaptive Meshes to Improve the Linear Stability Analysis of the Flow
Past a Circular Cylinder 867
Iago C. Barbeiro, Julio R. Meneghini, and J.A.P. Aranha
Migration of Species into a Particle Under Different Flow Conditions 869
Alfredo R. Carella and Carlos A. Dorao
Contents xix
On the Role of Numerical Dissipation in Unsteady Low Mach Number
Flow Computations 873
Yann Moguen, Tarik Kousksou, Erik Dick, and Pascal Bruel
Unsteady Flow Around Two Tandem Cylinders Using Advanced
Turbulence Modeling Method 879
Jian Liu, Zhixiang Xiao, and Song Fu
High Order Versions of the Collocations and Least Squares Method
for Navier–Stokes Equations 883
Vadim Isaev and Vasily Shapeev
Large-Eddy Simulation of the Flow over a Thin Airfoil at Low Reynolds
Number 885
Ryoji Kojima, Taku Nonomura, Akira Oyama, and Kozo Fujii

Adverse Free-Stream Conditions for Transonic Airfoils
with Concave Arcs 887
Alexander Kuzmin
Development of a Conservative Overset Mesh Method on Unstructured
Meshes 893
Mun Seung Jung and Oh Joon Kwon
Symmetrical Vortex Fragmenton as a Vortex Element for Incompressible
3D Flow Simulation 897
I.K. Marchevsky and G.A. Scheglov
Morphogenic Computational Fluid Dynamics: Brain Shape Similar
to the Engine Flow 899
Haruka Kawanobe, Shou Kimura, and Ken Naitoh
Computational Modeling of the Flow and Noise for 3-D Exhaust
Turbulent Jets 903
S.A. Cheprasov, D.A. Lyubimov, A.N. Secundov, K. Ya. Yakubovsky,
and S.F. Birch
Numerical Simulation of Laser Welding of Thin Metallic Plates Taking
into Account Convection in the Welding Pool 909
Vasily Shapeev, Vadim Isaev, and Anatoly Cherepanov
Numerical Simulation of Cavitation Bubble Collapse Near Wall 913
Byeong Rog Shin
xx Contents
Numerical Analysis of Airflow in Human Vocal Folds Using Finite
Element and Finite Volume Method 917
Petr Šidlof, Bernhard Müller, and Jaromír Horá
ˇ
cek
Part XXXII Appendix: Papers Presented in ICCFD5 but Unpublished
in “Computational Fluid Dynamics 2008”
Analysis of Free-Shear Flow Noise Through a Decomposition

of the Lighthill Source Term 923
Florent Margnat, Véronique Fortuné, Peter Jordan, and Yves Gervais
Thermal Reaction Wave Simulation Using Micro and Macro Scale
Interaction Model 929
Andrey Markov, Igor Filimonov, and Karen Martirosyan
CFD Study on Flow Field inside B.I.P.C. Steam Boilers 937
F. Panahi Zadeh and M. Farzaneh Gord
Author Index 941
Contributors
Dmitry Adamian St. Petersburg State Polytechnic University, St. Petersburg
195257, Russia,
L. Afferrante CEMeC & DIMeG, Politecnico di Bari, 70125 Bari, Italy,

Gennady Alekseev Institute of Applied Mathematics FEB RAS, 7, Vladivostok
690041, Russia,
John S. Anagnostopoulos School of Mechanical Engineering, National Technical
University of Athens, Athens, Greece, anagno@fluid.mech.ntua.gr
Sebastiaan Annerel Department of Flow, Heat and Combustion Mechanics,
Ghent University, 9000 Ghent, Belgium,
J.A.P. Aranha NDF, Escola Politècnica, University of Säo Paulo, Säo Paulo,
Brazil,
Guillermo Araya Civil & Computational Engineering Centre, Swansea
University, Swansea SA2 8PP, UK,
Müslüm Arıcı Engineering Faculty, Department of Mechanical Engineering,
Kocaeli University, 41380 Kocaeli, Turkey,
Bolat M. Baimirov Kazakh National University, Almaty, Kazakhstan,

N. Balakrishnan Computational Aerodynamics Laboratory, Department of
Aerospace Engineering, Indian Institute of Science, Bangalore 560012, India,


Michael F. Barad University of California, Davis, CA 95616, USA,

Iago C. Barbeiro NDF, Escola Politécnica, University of Säo Paulo, Säo Paulo,
Brazil,
B. Basara AVL LIST GmbH, Advanced Simulation Technologies, 8020 Graz,
Austria,
xxi
xxii Contributors
Héloïse Beaugendre IMB, Institut Polytechnique de Bordeaux and INRIA
Bordeaux Sud-Ouest projet MC2, 351 Cours de La Libération, 33405 Talence
Cedex, France,
Edin Berberovi
´
c Chair for Energy Technology and Process
Engineering, University of Zenica, 72000 Zenica, Bosnia and Herzegovina,

Michel Bergmann INRIA Bordeaux Sud Ouest, Team MC2, Bordeaux F-33000,
France; Institut de Mathmatiques de Bordeaux, UMR 5251, Bordeaux F-33000,
France,
Germain Billet ONERA, BP72 FR-92322, Chatillon Cedex, France,

S.F. Birch The Boeing Company, Seattle WA 98124, USA,
;
I.M. Blankson NASA Glenn Research Center, Cleveland, OH 44135, USA,

Andrzej Boguslawski Czestochowa University of Technology, 42-200
Czestochowa, Poland,
Michel Borrel ONERA, FR-92322, Chatillon Cedex, France,
Olivier Botella LEMTA, Nancy-University, CNRS, 54504 Vandœuvre, France,


François Bouchon Laboratoire de Mathématiques, Université Blaise Pascal and
CNRS (UMR 6620), Campus Universitaire des Cézeaux, 63177 Aubiere, France,

Didier Bresch Laboratoire de Mathématiques, UMR 5127 CNRS, Université de
Savoie, 73376 Le Bourget du Lac, France,
Kolja Brix Institut für Geometrie und Praktische Mathematik, RWTH Aachen
University, 52056 Aachen, Germany,
Pascal Bruel Laboratoire de Mathèmatiques et de leurs, CNRS and Universitè de
Pau et des Pays de ÍAdour, Applications, UMR 5142 CNRS-UPPA, BP 1155 - 64
013 Pau, France,
C H. Bruneau IMB, UB1, Université de Bordeaux, Team MC2 INRIA
Bordeaux-Sud-Ouest 351 cours de la Libération, F-33405 Talence, France,

Pavel Burda Faculty of Mechanical Engineering, Department of
Mathematics, Czech Technical University, CZ-121 35 Praha 2, Czech Republic,

Alfredo R. Carella Norwegian University of Science and Technology, N-7491
Trondheim, Norway,
Contributors xxiii
M.H. Carpenter NASA Langley Research Center, Hampton, VA, USA,

Gregoire Casalis ONERA Toulouse Cedex 4, France,
Jean-Jacques Chattot Department of Mechanical and Aerospace Engineering,
University of California, Davis, CA 95616-5294, USA,
Yoann Cheny CERFACS, 31057 Toulouse Cedex 01, France,
S.A. Cheprasov Scientific and Research Center ECOLEN, 111116 Moscow,
Russia,
Anatoly Cherepanov Khristianovich Institute of Theoretical and Applied
Mechanics, Siberian Branch of Russian Academy of Sciences, Novosibirsk
630090, Russia,

Oussama Chikhaoui Département d’Aérodynamique, Énergétique et Propulsion,
Institut Supérieur de l’Aéronautique et de l’Espace, 10 av. Edouard Belin - BP
54032 – 31055, Toulouse, France,
Vincent H. Chu Department of Civil Engineering and Applied Mechanics, McGill
University, Montreal, QC, Canada,
Paola Cinnella Laboratoire DynFluid, Arts et Mètiers–ParisTech, 75013 Paris,
France,
E. Creusé Université Lille 1, Team SIMPAF INRIA Lille Nord Europe,
UMR 8524 CNRS Cité Scientifique, F-59655 Villeneuve d’Ascq, France,

Virginie Daru LIMSI - CNRS, 91403 Orsay, France; Arts et Métiers Paris Tech,
DynFluid Lab, 75013 Paris, France,
P. De Pal ma CEMeC & DIMeG, Politecnico di Bari, 70125 Bari, Italy,

M.D. de Tullio CEMeC & DIMeG, Politecnico di Bari, 70125 Bari, Italy,

Joris Degroote Department of Flow, Heat and Combustion Mechanics, Ghent
University, 9000 Ghent, Belgium,
D. Depeyras IMB, UB1, Université de Bordeaux, Team MC2 INRIA
Bordeaux-Sud-Ouest 351 cours de la Libération, F-33405 Talence, France,

Erik Dick Faculty of Engineering, Department of Flow, Heat and Combustion
Mechanics, Ghent University, 9000 Ghent, Belgium,
Boris Diskin National Institute of Aerospace, Hampton, VA, USA,

xxiv Contributors
Carlos A. Dorao Department of Energy and Process Engineering,
Norwegian University of Science and Technology, N-7491 Trondheim, Norway,

Kateryna Dorogan EDF R&D, MFEE, F-78400 Chatou, France; LATP, CMI,

13453 Marseille, France,
Thierry Dubois Laboratoire de Mathematiques, Universite Blaise Pascal and
CNRS (UMR 6620), Campus Universitaire des Cezeaux, 63177 Aubiere, France,

Michael Dumbser Laboratory of Applied Mathematics, Department of Civil
and Environmental Engineering, University of Trento I-38100 Trento TN, Italy;
Institute of Aerodynamics and Gas Dynamics, Universität Stuttgart, D70550
Stuttgart, Germany, ,
Takehiro Emoto Faculty of Science and Engineering, Waseda University,
Shinjuku, Tokyo 169-8555, Japan,
Vahid Esfahanian Faculty of Engineering, Department of Mechanical
Engineering, University of Tehran, Tehran, Iran,
Jean-Luc Estivalezes Department of Models For Aerodynamics and Energy,
ONERA, Toulouse, France,
Ben Evans Civil & Computational Engineering Centre, Swansea University,
Swansea SA2 8PP, UK,
Sinan Eyi Middle East Technical University, 06531 Ankara, Turkey,

Alper Ezertas Middle East Technical University, 06531 Ankara, Turkey,

Dieter Fauconnier Department of Flow, Heat and Combustion Mechan-
ics, Faculty of Engineering, Ghent University, 9000 Ghent, Belgium,

O. Feodoritova Keldysh Institute of Applied Mathematics, Moscow, Russia,

Enrique D. Fernandez-Nieto Departamento de Matemática Aplicada I, E.T.S.
Arquitectura, Universidad de Sevilla, 41012 Sevilla, Spain,
Igor Filimonov Institute of Structural Macrokinetics and Material Science of the
Russian Academy of Sciences, Chernogolovka, Moscow Region 142432, Russia,
fi

Véronique Fortuné Laboratoires d’Etudes Aèrodynamiques, UMR CNRS
6609, ENSMA, Universitè de POITIERS, 86022 Poitiers Cedex, France,