Direct and large-eddy simulation V : proceedings of the fifth International ERCOFTAC Workshop on Direct and Large-Eddy Simulation, held at the Munich University of Technology, August 27-29, 2003

書誌事項

Direct and large-eddy simulation V : proceedings of the fifth International ERCOFTAC Workshop on Direct and Large-Eddy Simulation, held at the Munich University of Technology, August 27-29, 2003

edited by Rainer Friedrich, Bernard J. Geurts, Olivier Métais

(ERCOFTAC series, v. 9)

Kluwer Academic Publishers, c2004

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注記

Includes bibliographical references

e-book ISBN: 1402023138

内容説明・目次

内容説明

The fifth ERCOFfAC workshop 'Direct and Large-Eddy Simulation-5' (DLES-5) was held at the Munich University of Technology, August 27-29, 2003. It is part of a series of workshops that originated at the University of Surrey in 1994 with the intention to provide a forum for presentation and dis cussion of recent developments in the field of direct and large-eddy simula tion. Over the years the DLES-series has grown into a major international venue focussed on all aspects of DNS and LES, but also on hybrid methods like RANSILES coupling and detached-eddy simulation designed to provide reliable answers to technical flow problems at reasonable computational cost. DLES-5 was attended by 111 delegates from 15 countries. Its three-day pro gramme covered ten invited lectures and 63 original contributions partially pre sented in parallel sessions. The workshop was financially supported by the fol lowing companies, institutions and organizations: ANSYS Germany GmbH, AUDI AG, BMW Group, ERCOFfAC, FORTVER (Bavarian Research Asso ciation on Combustion), JM BURGERS CENTRE for Fluid Dynamics. Their help is gratefully acknowledged. The present Proceedings contain the written versions of nine invited lectures and fifty-nine selected and reviewed contributions which are organized in four parts: 1 Issues in LES modelling and numerics 2 Laminar-turbulent transition 3 Turbulent flows involving complex physical phenomena 4 Turbulent flows in complex geometries and in technical applications.

目次

  • Preface Part 1 ISSUES IN LES MODELING AND NUMERICS 1.1 SUBGRID MODELING Invited lecture: Nonlinear regularization for large-eddy simulation
  • Bernard J. Geurts, Darryl D. Holm Implicit and subgrid-scale modeling by adaptive local deconvolution
  • N.A. Adams Selective filtering versus eddy viscosity for subgrid modeling in LES
  • Christophe Bogey and Christophe Bailly High resolution DNS of a shear-free mixing layer and LES
  • O. Debliquy, B. Knaepen, D. Desmidts, D. Carati A nonlinear interactions approximation model for LES
  • M.U. Haliloglu and R. Akhavan Two level simulation of high-Re turbulent flows
  • Konstantin Kemenov and Suresh Menon Analysis of relaxation regularization as subgrid-scale model for LES
  • S.B. Muller, N.A. Adams and L. Kleiser Relaxation-term models for LES of transitional/turbulent flows
  • P. Schlatter, S. Stolz and L. Kleiser Kolmogorov equation for LES and its use for subgrid modeling
  • L. Shao, J.P. Bertoglio, G.X. Cui, H.B. Zhou and Z.S. Zhang High-pass filtered eddy viscosity models for LES
  • S. Stolz, P. Schlatter, D. Meyer and L. Kleiser A synthesis of similarity and eddy-viscosity models
  • Roel Verstappen 1.2 WALL MODELS FOR LES AND RELATED ISSUES Development of wall models for LES based on NSE
  • Markus Abel, Dragan Stojkovic and Michael Breuer POD of the autonomous near-wall region in a minimal channel flow
  • D. Desmidts, O. Debliquy, B. Knaepen, D. Carati On the difficulties in resolving the viscous sublayer
  • Franz Durst and Kamen N. Beronov A priori tests of models for the mean and fluctuating wall shear stress
  • H.-J. Kaltenbach 1.3 NUMERICAL TECHNIQUES AND ERROR ESTIMATION Invited lecture: Symmetry-preserving discretization for DNS
  • R.W.C.P. Verstappen, M.T. Droege and A.E.P. Veldman Three-dimensional adaptive wavelet method for fluid-structure interaction
  • N.K.R. Kevlahan, O.V. Vasilyev, D. Goldstein and A. Jay Dynamics of commutator-errors in LES with non-uniform filter-width
  • Fedderik van der Bos, Bernard J. Geurts Identification of global error behavior in LES using a database approach
  • Johan Meyers, Bernard J. Geurts and Martine Baelmans Part 2 LAMINAR-TURBULENT TRANSITION 2.1 INCOMPRESSIBLE FLOWS Invited lecture: DNS of streak breakdown in boundary layers
  • Luca Brandt and Dan S. Henningson Numerical simulation of transition to turbulence in MHD channel flow
  • D.S. Krasno, E. Zienicke, A. Thess, O. Zikanov, T. Boeck DNS of transitional and turbulent rotor-stator cavity flows
  • Eric Serre, Patrick Bontoux and Brian Launder DNS of a laminar separation bubble affected by free-stream disturbances
  • Jan Wissink and Wolfgang Rodi 2.2 COMPRESSIBLE FLOWS DNS of transonic flow about a supercritical airfoil
  • Igor Klutchnikov and Josef Ballmann DNS and LES of the transition process in a laminar separation bubble
  • Olaf Marxen and Ulrich Rist Crossflow vortices near the attachment line of a swept airfoil at M = 8
  • Joern Sesterhenn and Rainer Friedrich Part 3 TURBULENT FLOWS INVOLVING COMPLEX PHYSICAL PHENOMENA 3.1 MULTIPHASE AND NON-NEWTONIAN FLOWS LES of small-scale ocean turbulence coupled with buoyant plumes
  • B. Chen, Y. Song, M. Nishio, M. Akai, Lars Golmen LES of turbulent bubble formation and break-up based on interface tracking
  • Petar Liovic, Djamel Lakehal and Jong-Leng Liow LES of a particle1aden turbulent channel flow
  • A.W. Vreman, B.J. Geurts, N.G. Deen and J.A.M. Kuipers Analogy between SGS model and constitutive equations for viscoelastic fluids
  • Kiyosi Horiuti Turbulent channel flow of a suspension of fibrous particles
  • Michael Manhart and Rainer Friedrich 3.2 ACTIVE AND PASSIVE SCALARS LES of a stably stratified flow over longitudinally ridged walls
  • V. Armenio, L. Falcomer, G.F. Carnevale LES of conjugate heat-transfer using thermal wall-functions
  • Alexandre Chatelain, Frederic Ducros and Olivier Metais Modeling of a passive scalar in a turbulent pipe flow using DNS
  • J. de Hoogh, M.P.B. Veenman and J.G.M. Kuerten LES and extreme value theory
  • Zhengtong Xie, Peter R. Voke, Paul Hayden and Alan G. Robins 3.3 NONPREMIXED AND PREMIXED TURBULENT COMBUSTION Invited lecture: Simulation of three-dimensional turbulent flames
  • Dominique Thevenin Large-eddy simulation of a gas turbine combustion chamber
  • Christophe Duwig, Laszlo Fuchs Modeling of pollutant formation near lean blow-out in gas turbine engines
  • G. Eggenspieler and S. Menon Direct numerical simulation of turbulent non-premixed flames
  • Renan Hilbert and Dominique Thevenin Transient inflow-data for LES
  • A. Kempf, M. Klein, J. Janicka Enhancement of mixing and combustion in buoyant noncircular plumes
  • K.H. Luo 3.4 COMPRESSIBLE TURBULENCE Invited lecture: DNS of an oblique shock wave impinging upon a turbulent boundary layer
  • Qinling Li and Gary N. Coleman Large-eddy simulations of compressible mixing layers
  • C. Le Ribault On the turbulence structure in compressible turbulent isothermal channel flow
  • S. Sarkar, H. Foysi and R. Friedrich 3.5 NOISE GENERATION AND RADIATION Invited lecture: Noise radiation from high-speed jets: some insights from numerical simulations
  • Sanjiva K. Lele Flow patterns and sound generation in low speed cavities
  • E.J. Aviral and R.F. Musafir Direct numerical simulation of the acoustic field of a turbulent offset jet
  • Bendiks-Jan Boersina Part 4 TURBULENT FLOWS IN COMPLEX GEOMETRIES AND IN TECHNICAL APPLICATIONS 4.1 LES-RANS COUPLING AND DETACHED EDDY SIMULATION Invited lecture: Merging LES and RANS strategies: zonal or seamless coupling? K. Hanjalic and M. Hadziabdic, L. Temmerman and M. Leschziner Invited lecture: Detached-eddy simulation: current status and perspectives
  • Kyle D. Squires Detached-eddy simulation over a reference Ahmed car model
  • S. Kapadia, S. Roy, M. Vallero, K. Wurtzler and J. Forsythe LES and DES for broadband noise prediction in complex geometries
  • Massimiliano Ciardi and William N. Dawes 4.2 EFFECTS OF WALL PERMEABILITY, ROUGHNESS AND PRESSURE-GRADIENT Turbulent channel flow over a permeable wall
  • Wim-Paul Breugem and Bendiks-Jan Boersma Budgets of Reynolds stress in a rough wall channel flow
  • S. Leonardi, E. Mostarda, P. Orlandi, R.A. Antonia Effect of application/removal of adverse pressure gradient to wall layers
  • Christopher P. Yorke and Gary N. Coleman 4.3 FLOWS INVOLVING STREAMLINE CURVATURE AND SWIRL LES of turbulent flow in curved and S-shape ducts
  • Cecile Munch, Jerome Hebrard and Olivier Metais LES of a flow with multiple streamwise curvatures
  • A. Silva Lopes, U. Piomelli and J.M.L.M. Palma Comparison of SGS models in swirling co-annular jets
  • Robert Zoltan Szasz, Johan Revstedt and Laszlo Fuchs 4.4 FLOW CONTROL AND FLUID-STRUCTURE INTERACTION LES of controlled turbulent flow over a rounded step
  • Jens Neumann and Hans Wengle Application of DNS and LES to prediction of tube flow-induced vibrations
  • Elisabeth Longatte, Zaky Bendjeddou, Mhamed Souli DNS of the flow around a cylinder using an immersed boundary method
  • E.R.A. Coyajee and B.J. Boersrna Immersed boundary method for DNS in complex geometry
  • Philippe Parnaudeau, Eric Lamballais, Dominique Heitz, Jorge H. Silvestrini 4.5 AERODYNAMIC AND TURBOMACHINERY FLOWS Invited lecture: Perspectives of LES in turbomachinery design
  • Peter Flohr and Carlos Hartel Large-eddy simulation of a jet in a crossflow
  • Xuyao Guo, Matthias Meinke and Wolfgang Schroeder Separated flow past an airfoil at high angle of attack: LES predictions
  • Nikola Jovicic and Michael Breuer LES of cylinder wake T106 turbine blade interaction
  • M. Opiela, M. Meinke and W. Schroeder LES of wake-blade interference in a low-pressure turbine
  • B. Raverdy, I. Mary, P. Sagaut, J.M. Roux LES of passing wakes influencing transition on turbine blades
  • S. Sarkar, Peter R. Voke LES of flow in a low pressure turbine cascade with oncoming wakes
  • Jan Wissink, Wolfgang Rodi, Vittorio Michelassi

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