Direct and Large-Eddy Simulation VI: Proceedings of the Sixth International ERCOFTAC Workshop on Direct and Large-Eddy Simulation, held at the University of Poitiers, September 12-14, 2005

Direct and Large-Eddy Simulation VI: Proceedings of the Sixth International ERCOFTAC Workshop on Direct and Large-Eddy Simulation, held at the University of Poitiers, September 12-14, 2005

Paperback(Softcover reprint of hardcover 1st ed. 2006)

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The sixth ERCOFTAC Workshop on ‘Direct and Large-Eddy Simulation’ (DLES-6) was held at the University of Poitiers from September 12-14, 2005. Following the tradition of previous workshops in the DLES-series, this edition has reflected the state-of-the-art of numerical simulation of transitional and turbulent flows and provided an active forum for discussion of recent developments in simulation techniques and understanding of flow physics.

Product Details

ISBN-13: 9789048172245
Publisher: Springer Netherlands
Publication date: 11/23/2010
Series: ERCOFTAC Series , #10
Edition description: Softcover reprint of hardcover 1st ed. 2006
Pages: 780
Product dimensions: 6.30(w) x 9.45(h) x 0.06(d)

Table of Contents

Preface; Contents; Part I: Invited Lectures: Direct Numerical Simulation of Turbulence and Scalar Exchange at Gas-Liquid Interfaces, by Sanjoy Banerjee; Large Eddy Simulation of Premixed Turbulent Combustion: FSD-PDF modeling, by Luc Vervisch, Pascale Domingo; Industrial LES with Unstructured Finite Volumes, by D. Laurence; Current understanding of jet noise-generation mechanisms from compressible large-eddy-simulations, by Christophe Bailly, Christophe Bogey; Stable stratified, wall bounded, turbulent flows, by Vincenzo Arrnenio; Physics and Control of Wall Turbulence, by John Kim; The physics of turbulent mixing and clustering, by J.C. Vassilicos; Part II: Turbulent Mixing and Combustion: LES of Premixed Flame Longitudinal Wave Interactions , by Christer Fureby, Christophe Duwig; Direct Numerical Simulation of Reacting Turbulent Multi-Species Channel Flow, by L. Artal, F. Nicoud; DNS/MILES of Reacting Air/H2 Diffusion Jets, by L. Gougeon, I. Fedioun;
Direct Numerical Simulation of turbulent reacting flows involving dilute particles, by Gdbor Janiga, Dominique Thévenin; Dissipation of Active Scalars in Turbulent Temporally Evolving Shear Layers with Density Gradients Caused by Multiple Species, by Inga Mahie, Jörn Sesterhenn, Rainer Friedrich; Part II: Subgrid Modelling : Symmetry invariant subgrid models, by Dma Razafindralandy, Aziz Hamdouni; Formal properties of the additive RANS/DNS filter, by Massimo Gerrnano, Pierre Sagaut; Analysis of the SGS energy budget for deconvolution- and relaxation-based models in channel flow, by Fhilipp Schlatter, Steffen Stolz, Leonhard Kleiser; Symmetry-preserving regularization of turbulent channel flow, by Roel Verstappen; Large-eddy simulations of channel flows with variable filter-width-to-grid-size ratios, by Ana Cubero, Ugo Piomelli; LES of Transition to Turbulence in the Taylor Green Vortex, by Dimitris Drikakis, Christer Fureby, Fernando F. Grinstein, Marco Hahn, David Youngs; Shastic SGS modelling in homogeneous shear flow with passive scalars Linus Marstorp, Geert Brethouwer, Âme Johansson; Towards Lagrangian dynamic SGS model for SCALES of isotropic turbulence, by Giuliano Dc Stefano, Daniel E. Goldstein, Oleg V. Vasilyev, Nicholas K.-R. Kevlahan; The sampling-based dynamic procedure for LES: investigations using finite differences , by G. Winckelmans, L. Bricteux, L. Georges, G. Daeninck, H. Jeanmart; On the Evolution of the Subgrid-Scale Energy and Scalar Variance: Effect of the Reynolds and Schmidt numbers, by C. B. da Silva, J.C.F. Pereira; Part IV: Flows involving Curvature, Rotation and Swirl: Large Eddy Simulation of Flow Instabilities in Co-Annular Swirling Jets, by M. Garcia- Villalba, J. Fröhlich, W. Rodi, 0. Petsch and H. B’iichner; Large Eddy Simulations of the turbulent flow in curved ducts: influence of the curvature radius, by Cécile Munch, Olivier Métais; Large Eddy Simulation of Transitional Rotor-Stator Flows using a Spectral Vanishing Viscosity Technique, by Eric Séverac, Eric Serre, Patrick Bontoux, Brian Launder; DNS of Rotating Homogeneous Shear Flow and Scalar Mixing, by G. Brethouwer, Y. Matsuo; Direct Numerical Simulation of Turbulent Rotating Rayleigh—Bénard Convection , by R.P.J. Kunnen, B.J. Geurts, H.J.H. Clerex; DNS of a Turbulent Channel Flow with Streamwise Rotation - Investigation on the Cross Flow Phenomena, by Tanja Weller, Martin Oberlack; Dynamic structuring and mixing efficiency in rotating shear layers, by Bernard J. Geurts, Darryl D. Hoim; DNS of turbulent heat transfer in pipe flow with respect to rotation rate and Prandtl number effects, by L. Redjem Saad, M. Ould-Rouis, A. A. Feiz, G. Lauriat; DNS of the turbulent Ekman layer at Re=2000, by G N Coleman, R Johnstone, M Ashworth; Part V: Free Turbulent Flows : Large-Eddy Simulation of Coaxial Jets: Coherent Structures and Mixing Properties, by Guillaume Balarac, Mohamed Si-Ameur, Olivier Métais, Marcel Lesieur; Computation of the Self-Similarity Region of a Turbulent Round Jet Using Large-Eddy Simulation , by Christophe Bogey, Christophe Bailly; The dependence on the energy ratio of the shear-free interaction between two isotropic turbulences, by D. Tordella, M. lovieno; Part VI: Multiphase Flows: Orientation of elongated particles within turbulent flow , by J. J. J. Gillisseri, B. J. Boersma, F. T. M. Nieuwstadt; On the closure of particle motion equations in large-eddy simulation , by Maria Vittoria Salvetti, Cristian Marchioli, Alfredo Soldati; Dispersion of Circular, Non-Circular, and Swirling Spray Jets in Crossflow , by Mirko Salewski, Laszlo Fuchs; Direct Numerical Simulation of Droplet Impact on a Liquid-Liquid Interface Using a Level-Set/Volume-Of-Fluid Method with Multiple Interface Marker Functions, by E.R.A. Coyajee, R. Delfos, H.J. Slot, B.J. Boersma; Direct numerical simulation of particle statistics and turbulence modification in vertical turbulent channel flow, by A. Kubik, L. Kleiser; Large-eddy simulation of particle-laden channel flow , by J.G.M. Kuerten; High Resolution Simulations of Particle-Driven Gravity Currents, by Eckart Meiburg, F. Blanchette, M. Strauss, B. Kneller, M.E. Glinsky, F. Necker, C. Hãrtel,, L. Kleiser; Implicitly-coupled finite difference schemes for fictitious domain simulation of solid-liquid flow; marker, volumetric, and hybrid forcing , by Hung V. Truong, John C. Wells, Gretar Tryggvason; Part VII: Wall Models for LES: Development of Wall Models for LES of Separated Flows , by Michael Breuer, Boris Kriiazev, Markus Abel; Anisothermal Wall Functions for RANS and LES of Turbulent Flows With Strong Heat Transfer, by Antoine Devesa, Franck Nicoud; Wall Layer Investigations of Channel Flow with Periodic Hill Constrictions, by Nikolaus Feller, Christophe Brun and Michael Manhart; A Multi-Scale, Multi-Domain Approach for LES of High Reynolds Number Wall-Bounded Turbulent Flows, by M. U. Haliloglu, R. Akhavan; Part VIII: Complex Geometries and Boundary Conditions Modeling turbulence in complex domains using explicit multi-scale forcing , by A. K. Kuczaj, B. J. Geurts; Direct and Large-Eddy Simulations of a Turbulent Flow with Effusion, by S. Mendez, F. Nicoud, P. Miron; Nasal Airflow in a Realistic Anatomic Geometry, by R. van der Leeden, B. Avital, C. Kenyon; Large-eddy simulation of a purely oscillating turbulent boundary layer , by S. Salon, V. Arrnenio, A. Crise; Large Eddy Simulation of a Turbulent Channel Flow With Roughness, by S. Leonardi, F. Tessicini, P. Orlandi, R.A. Antonia; Part IX: Flow Control : Bimodal control of three-dimensional wakes, by Philippe Poncet; DNS/LES of Active Separation Control, by Julien Dandois, Eric Gamier, Pierre Sagaut; Direct Numerical Simulation of a Spatially Evolving Flow from an Asymmetric Wake to a Mixing Layer, by Sylvain Laizet, Eric Lamballais; Part X: Heat Transfer: LES of Flow and Heat Transfer in a Round Impinging Jet , by
M. Hadiabdié, K. Hanjalié; Direct Simulations of a Transitional Unsteady Impinging Hot Jet, by X. Jiang, H. Zhao, K. H. Luo; Part XI: Aeroacoustics: Basic Sound Radiation from Low Speed Coaxial Jets, by Mikel Alonso, Eldad J. Avital; Use of surface integral methods in the computation of the acoustic far field of a turbulent jet, by P. Moore, B.J. Boersma; Helmholtz decomposition of velocity field of a mixing layer: Application to the analysis of acoustic sources, by M. Cabana, V. Fortune, P. Jordan, F. Golanski, E. Lamballais, Y. Gervais; Large-Eddy Simulation of acoustic propagation in a turbulent channel flow, by Pierre Cornte, Marie Haberkorn, Gilles Bouchet, Vincent Pagneux, Yves AurEgan; Numerical Methodology For The Computation Of The Sound
Generated By A Non-Isothermal Mixing Layer At Low Mach Number, by F. Golanski, C. Moser, L. Nadal, C. Prax, E. Lamballais; A Hybrid LES-Acoustic Analogy Method for Computational Aeroacoustics , by K. H. Luo, H. Lai; Numerical simulation of wind turbine noise generation and propagation, by Drago Moroianu, Laszlo Fuchs; Large Eddy Simulation for Computation of Aeroacoustic Sources in 2D-Expansion Chambers, by Gustavo Rubio, Wim De Roeck, Wim Desmet and Martine Baelmans; Part XII: Variable Density Flows: High resolution simulation of particle-driven lock-exchange flow for non-Boussinesq conditions , by James E. Martin, Eckart Meiburg, Vineet K. Birman; LES of the jet in low Mach variable density conditions, by Artur Tyliszczak, Andrzej Boguslawski, by LES of Spatially-developing Stably Stratified Turbulent Boundary Layers, by Tetsuro Tamura and Kohei Mon; Numerical Investigation on the Formation of Streamwise Vortices in a Stably Stratified Temporal Mixing Layer, by Denise Maria Varella Martinez, Edith Beatriz Camano Schettini, Jorge Hugo Silvestrini; Part XIII: Inflow/Initial conditions; Interfacing Stereoscopic PIV measurements to Large Eddy Simulations via Low Order Dynamical Systems, by L. Ferret, J. Delville, R. Manceau, J.P. Bonnet; LES of background fluctuations interacting with periodically incoming wakes in a turbine cascade, by Jan Wissink, Wolfgang Rodi; Large Eddy Simulations Of Spatially Developing Flows Using Inlet Conditions , by Dimokratis G.E. Grigoriadis; Impact of Initial Flow Parameters on a Temporal Mixing Layer Evolution, by M. Fathali, J. Meyers, C. Lacor, M. Baelmans; Part XIV: Separated/Reattached Flows : A Comparative Study of the Turbulent Flow Over a Periodic Arrangement of Smoothly Contoured Hills, by Michael Breuer, Benoit Jaffrézic, Nikolaus Feller, Michael Manhart, Jochen Fröhlich, Christoph Hinterberger, Wolfgang Rodi, Ganbo Deng, Oussama Chikhaoui, Sanjin Sane, Suad Jakirlió; Large-Eddy Simulation of a Subsonic Cavity Flow Including Asymmetric Three-Dimensional Effects, by Lionel Larchevêque, Odile Labbé, Pierre Sagaut; Numerical Simulation of the Flow Around a Sphere Using the Immersed Boundary Method for Low Reynolds Numbers , by Campregher, R., Mansur, S.S., Silveira-Neto, A; LES studies on the correspondence between the interaction of shear layers in post-reattachment recovery and in a plane turbulent wall jet , by A. Dejoan and M. A. Leschziner; Three Dimensional Wake Structure of Free Planar Shear Flow Around Horizontal Cylinder , by Marcelo A. Vitola, Edith B. C. Schettini, Jorge H. Silvestrini; Part XV: Hybrid RANS-LES Approach: Coupling from LES to RANS using eddy-viscosity models , by G. Nolin, I. Mary, L. Ta-Phuoc, C. Hinterberger, J. Fröhlich; SAS Turbulence Modelling of Technical Flows, by FR. Menter, Y. Egorov ; Zonal LES/RANS modelling of separated flow around a three-dimensional hill , by F. Tessicini, N. Li and M. A. Leschziner; Progress In Subgrid-Scale Transport Modeling Using Partial Integration Method For LES Of Developing Turbulent Flows , by Bruno Chaouat, Roland Schiestel; Part XVI: Compressible Flows: Towards Large Eddy Simulations of Scramjet Flows, by Christer Fureby, Magnus Berglund; DNS and LES of compressible turbulent pipe flow with isothermal wall , by S. Ghosh, J. Sesterhenn, R. Friedrich; Large-eddy simulation of separated flow along a compression ramp at high Reynolds number , by M. S. Loginov, N. A. Adams, A. A. Zheltovodov; DNS of Transitional Transonic Flow about a Supercritical BAC3-11 Airfoil using High-Order Shock Capturing Schemes, by Igor Klioutchnikov and Josef Ballmann; Part XVII: Numerical Techniques and POD: A Preconditioned LES Method for Nearly Incompressible Flows , by N. A. Alkishriwi, M. Meinke,, W. Schröder; Particle dispersion in turbulent flows by POD low order model using LES snapshots, by C. Allery, C. Béghein, A. Hamdouni and N. Verdon; On the influence of domain size on POD modes in turbulent plane Couette flow, by Anders Hoistad, Peter S. Johansson, Helge I. Andersson and Bjørnar Pettersen; Implicit Time Integration Method for LES of Complex Flows, by Frédric Daude, Ivan Mary, Pierre Comte.

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