Direct and Large-Eddy Simulation IX: ERCOFTAC Series, cartea 20
Editat de Jochen Fröhlich, Hans Kuerten, Bernard J. Geurts, Vincenzo Armenioen Limba Engleză Hardback – 3 mar 2015
The ninth Workshop on 'Direct and Large-Eddy Simulation' (DLES-9) was held in Dresden, April 3-5, 2013, organized by the Institute of Fluid Mechanics at Technische Universität Dresden.
This book is of interest to scientists and engineers, both at an early level in their career and at more senior levels.
Toate formatele și edițiile | Preț | Express |
---|---|---|
Paperback (1) | 1201.28 lei 43-57 zile | |
Springer International Publishing – 7 oct 2016 | 1201.28 lei 43-57 zile | |
Hardback (1) | 1207.57 lei 43-57 zile | |
Springer International Publishing – 3 mar 2015 | 1207.57 lei 43-57 zile |
Din seria ERCOFTAC Series
- 18% Preț: 1523.37 lei
- 18% Preț: 921.07 lei
- 18% Preț: 1801.44 lei
- 18% Preț: 931.82 lei
- 18% Preț: 928.27 lei
- 18% Preț: 1778.61 lei
- 18% Preț: 926.15 lei
- 20% Preț: 1243.26 lei
- 18% Preț: 1188.89 lei
- 18% Preț: 1181.53 lei
- 15% Preț: 616.02 lei
- 18% Preț: 917.40 lei
- 18% Preț: 1192.11 lei
- 20% Preț: 573.07 lei
- 24% Preț: 1068.39 lei
- 24% Preț: 784.70 lei
- 18% Preț: 927.84 lei
- 18% Preț: 912.66 lei
- 24% Preț: 892.04 lei
- Preț: 376.93 lei
- 18% Preț: 1351.22 lei
- 18% Preț: 1189.49 lei
- Preț: 385.32 lei
- 18% Preț: 1199.47 lei
- 18% Preț: 1195.31 lei
- 18% Preț: 1193.33 lei
- 18% Preț: 1212.81 lei
Preț: 1207.57 lei
Preț vechi: 1472.66 lei
-18% Nou
Puncte Express: 1811
Preț estimativ în valută:
231.13€ • 240.89$ • 192.40£
231.13€ • 240.89$ • 192.40£
Carte tipărită la comandă
Livrare economică 06-20 ianuarie 25
Preluare comenzi: 021 569.72.76
Specificații
ISBN-13: 9783319144474
ISBN-10: 3319144472
Pagini: 720
Ilustrații: XX, 700 p. 401 illus.
Dimensiuni: 155 x 235 x 44 mm
Greutate: 1.18 kg
Ediția:2015
Editura: Springer International Publishing
Colecția Springer
Seria ERCOFTAC Series
Locul publicării:Cham, Switzerland
ISBN-10: 3319144472
Pagini: 720
Ilustrații: XX, 700 p. 401 illus.
Dimensiuni: 155 x 235 x 44 mm
Greutate: 1.18 kg
Ediția:2015
Editura: Springer International Publishing
Colecția Springer
Seria ERCOFTAC Series
Locul publicării:Cham, Switzerland
Public țintă
ResearchCuprins
Preface.- Part I LES Modelling.- On scale separation in large eddy simulations, by Roel Verstappen.- Numerical experiments with a new dynamic mixed subgrid-scale model, by P. Lampitella, F. Inzoli, and E. Colombo.- Implicit Large-Eddy Simulation of Isotropic Turbulent Mixing, by F.F. Grinstein, A.J. Wachtor, J.R. Ristorcelli, and C.R. DeVore.- New differential operators for large-eddy simulation and regularization modeling, by F.X. Trias, A. Gorobets, A. Oliva, and R.W.C.P. Verstappen.- Assessment of Implicit Subgrid-Scale Modeling for Turbulent Supercritical Mixing, by C.A. Niedermeier, S. Hickel, and N.A. Adams.- Validation of an entropy-viscosity model for large eddy simulation, by J.-L. Guermond, A. Larios, and T. Thompson.- A stochastic closure approach for LES with application to turbulent channel flow, by P. Metzner, M. Waidmann, D. Igdalov, Th. von Larcher, I. Horenko, R.Klein, A. Beck, G. Gassner, and C.D. Munz.- Comparison of URANS, PANS, LES and DNS of flows around simplified ground vehicles with passive flow manipulation, by X. Han, S. Krajnović, C.-H. Bruneau, and I. Mortazavi.- Variational Multiscale LES investigation of drag and near-wake flow of an axisymmetric blunt-based body, by A. Mariotti, M.V. Salvetti, and G. Buresti.- SVV-LES and active control of flow around the square back, by Ahmed Body, Noele Peres and Richard Pasquetti.- Design of high-order implicit filters on unstructured grids for the identification of large-scale features in Large-Eddy Simulations, byL. Guedot, G. Lartigue, and V. Moureau.- Part II Numerical methods.- DNS of canonical turbulent flows using the modal discontinuous Galerkin method, by J.-B. Chapelier, M. De La Llave Plata, F. Renac, and E. Lamballais.- LES using a discontinuous Galerkin method: isotropic turbulence, channel flow and periodic hill flow, by C. Carton de Wiart, K. Hillewaert, L. Bricteux, and G. Winckelmans.- Underresolved Turbulence Simulations with Stabilized High Order Discontinuous Galerkin Methods, by Andrea D. Beck, Gregor J. Gassner, Thomas Bolemann, Hannes Frank, Florian Hindenlang, and Claus-Dieter Munz.- A Characteristic-Based Volume Penalization Method for Arbitrary Mach Flows Around Solid Obstacles, by Eric Brown-Dymkoski, Nurlybek Kasimov, and Oleg V. Vasilyev.- DNS of square-cylinder flow using hybrid wavelet-collocation/volume penalization method, by G. De Stefano and O.V. Vasilyev.- Generation of intermittent turbulent inflow and initial conditions based on wavelet construction method, by L. Zhou, J. Grilliat, A. Delgado.- A new high-order method for the accurate simulation of incompressible wall-bounded flows, by Peter Lenaers, Phillip Schlatter, Geert Brethouwer, and Arne V. Johansson.- Part III Quality of LES modelling.- Investigations on the effect of different subgrid models on the quality of LES results, by F. Proch, M.W.A. Pettit, T. Ma, M. Rieth, and A.M. Kempf.- Computational Complexity of Adaptive LES with Variable Fidelity Model Refinement, by Alireza Nejadmalayeri, Oleg V. Vasilyev, and Alexei Vezolainen.- Elimination of curvature-induced grid motion for r-adaptation, by C. Hertel, M. Joppa, B. Krull, and J. Fröhlich.- Reliability of LES simulations in the context ofa benchmark on the aerodynamics of a rectangular 5:1 cylinder, by M.V. Salvetti and L. Bruno.- Quantifying the impact of subgrid scale models in actuator-line based LES of wind turbine wakes in laminar and turbulent inflow, by H. Sarlak, C. Meneveau, J. N. Sørensen, and R. Mikkelsen.- Part IV Hybrid models.- Elements and Applications of Scale-Resolving Simulation Methods in Industrial CFD, by F. Menter.- Hybrid LES–URANS Methodology for Wall–Bounded Flows, by S. Schmidt and M. Breuer.- Part V Stability and transition.- Investigations of stability and transition of a jet in crossflow using DNS, by A. Peplinski, P. Schlatter, and D. S. Henningson.- DNS of a double diffusive instability, by J.G. Wissink, H. Herlina, S.I. Voropayev, and H.J.S. Fernando.- Flow past a NACA0012 airfoil: from laminar separation bubbles to fully stalled regime, by I. Rodríguez, O. Lehmkuhl, R. Borrell, and A. Oliva.- Large-Eddy Simulation of a Shallow Turbulent Jet, by R. Mullyadzhanov, B. Ilyushin, M. Hadžiabdić, and K. Hanjalić.- Part VI Turbulence.- Large scale motions in the Direct Numerical Simulation of turbulent pipe flow, by B.J. Boersma.- Turbulent kinetic energy transport in oscillatory pipe flow, by Claus Wagner & Daniel Feldmann.- Large-eddy simulation of the interaction of wall jets with external stream, by I. Z. Naqavi and P. G. Tucker.- Turbulent boundary layers in long computational domains, by G. Eitel-Amor, R. Örlü, and P. Schlatter.- Investigation of dual-source plume interaction in a turbulent wall-bounded shear layer, by Shahin N. Oskouie, Bing-Chen Wang, and Eugene Yee.- LES of the Flow in aRotating Rib-Roughened Duct, by D. Borello, A. Salvagni, F. Rispoli, and K. Hanjalić.- On the large-eddy simulations of the flow past a cylinder at critical Reynolds numbers, by O. Lehmkuhl, I. Rodríguez, J. Chiva, and R. Borrell.- Large Eddy Simulation of Fluidic Injection into a Supersonic Convergent-Divergent Duct, by B. Semlitsch, M. Mihăescu, and L. Fuchs.- Part VII Compressible flows.- Simulation and modeling of turbulent jet noise, by T. Colonius, A. Sinha, D. Rodríguez, A. Towne, J. Liu, G.A. Brès, D. Appelö, and T. Hagstrom.- Mach number influence on vortex breakdown in compressible, subsonic swirling nozzle-jet flows, by Tobias Luginsland and Leonhard Kleiser.- A symmetry-preserving discretization and regularization subgrid model for compressible turbulent flow, by W. Rozema, R.W.C.P. Verstappen, J.C. Kok, and A.E.P. Veldman.- Implicit LES of Noise Reduction for a Compressible Deep Cavity Using Pulsed Nanosecond Plasma Actuator, by Z. L. Chen, B. Q. Zhang, S. Hickel, and N. A. Adams.- Part VIII Heat transfer and natural convection.- DNS of thermal convection in rectangular domains with different depth, by S. Wagner and O. Shishkina.- Direct Numerical Simulation of low-Mach turbulent natural convection flow in an open cavity of aspect ratio 4, by J. Chiva, O. Lehmkuhl, J. Ventosa, and A. Oliva.- Rotating Rayleigh–Bénard convection of SF6 in a slender cylinder, by S. Horn and C. Wagner.- Large-eddy simulation of flow and heat transfer around a low-Mach number turbine blade, by N. Maheu, V. Moureau, and P. Domingo.- Part IX Aerodynamics and fluid-structure interaction.- Large-eddy simulations for windturbine blade: dynamic stall and rotational augmentation, by Y. Kim, I.P. Castro, and Z.T. Xie.- Unsteady characteristic of stall around an airfoil by means of high fidelity LES, by N. Alferez, I. Mary, and E. Lamballais.- Compressible DNS of a Low Pressure Turbine subjected to Inlet Disturbances, by L.W. Chen, R. Pichler, and R.D. Sandberg.- Large Eddy Simulation of a NACA-0012 Airfoil Near Stall, by J. AlMutairi, I. AlQadi, and E. ElJack.- Large-Eddy Simulation of a FSI-Induced Oscillation Test Case in Turbulent Flow, by M. Münsch, A. Delgado, and M. Breuer.- Shape optimization and active flow control of truck-trailers for improved aerodynamics using Large-Eddy Simulation and Response Surfaces, by M. El-Alti, P. Kjellgren, and L. Davidson.- Part X Environmental flows.- Numerical simulation of breaking gravity waves, by S. Remmler, M. D. Fruman, U. Achatz, and S. Hickel.- DNS of a radiatively driven cloud-top mixing layer as a model for stratocumulus clouds, by A. de Lózar and J. P. Mellado.- Effect of Ekman Layer on Windfarm Roughness and Displacement Height, by J. P. Goit and J. Meyers.- Pollutant dispersion in the urban boundary layer, by J.M. Tomas, M.J.B.M. Pourquie, H.E. Eisma, G.E. Elsinga, H.J.J. Jonker, and J. Westerweel.- Large-Eddy Simulation model for urban areas with thermal and humid stratification effects, by A. Petronio, F. Roman, V. Armenio, F. Stel, and D. Giaiotti.- Large-eddy simulation of turbulent flow over an array of wall-mounted cubic obstacles, by Mohammad Saeedi and Bing-Chen Wang.- Direct numerical simulation of the 3D stratified separated viscous fluid flows, by P.V. Matyushin and V.A. Gushchin.- PartXI Rotating turbulence.- Effects of rotation on the oscillatory flow over ripples, by D.G.E. Grigoriadis & V. Armenio.- Numerical simulations of a middle gap turbulent Taylor-Couette-Poiseuille flow, by R. Oguic, S. Viazzo, and S. Poncet.- Effect of span-wise resolution for LES of flow over a rotating cylinder at high Reynolds number, by S. Rolfo and A. Revell.- Part XII Reactive flows and combustion.- LES of turbulence-radiation interaction in plane reacting and inert mixing layers, by Somnath Ghosh, Rainer Friedrich, and Christian Stemmer.- A priori analysis of dynamic models for large eddy simulations of turbulent premixed combustion, by D. Veynante, V. Moureau, M. Boileau, and T. Schmitt.- Lagrangian analysis of mixing and soot transport in a turbulent jet flame, by A. Attili, F. Bisetti, M. E. Mueller and H. Pitsch.- The influence of differential diffusion in turbulent oxygen enhanced methane flames, by F. Dietzsch, G. Fru, D. Thévenin, and C. Hasse.- Application of Flamelet Generated Manifolds Approach with Heat Loss Inclusion to a Turbulent High-Pressure Premixed Confined Jet Flame, by A. Donini, S.M. Martin, R.J.M. Bastiaans, J.A. van Oijen, and L.P.H. de Goey.- Direct Numerical Simulations of turbulent H2-air pre-mixtures and analysis towards safety-relevant ignition prediction, by Gordon Fru, Dominique Thévenin, and Detlev Markus.- Large-Eddy-Simulation of High-Frequency Flame Dynamics in Perfect Premix Combustors with Elevated Inlet Temperatures, by Mathieu Zellhuber and Wolfgang Polifke.- Direct Numerical Simulation of Hydrogen-Carbon Monoxide turbulentpremixed flame, by F. Battista, F. Picano, G. Troiani, and C.M. Casciola.- Part XIII Magnetohydrodynamics.- Helical turbulence in fluids and MHD, by R. Marino, J. Baerenzung, P. Mininni, A. Pouquet, C. Rorai, D. Rosenberg, and J. Stawarz.- Linear instability analysis of 3D magnetohydrodynamic flow by direct numerical simulation, by I. Grants and G. Gerbeth.- Numerical study of turbulent pipe flow with transverse magnetic field using a spectral/finite element solver, by X. Dechamps, M. Rasquin, K.E. Jansen, and G. Degrez.- On turbulence generation and mixing in the wake of magnetic obstacles: a DNS study, by S. Kenjereš.- Simulation of Instabilities in Liquid Metal Batteries, by N. Weber, V. Galindo, T. Weier, F. Stefani, T. Wondrak.- Part XIV Multiphase flows.- DNS and LES of two-phase flows with cavitation, by S. Hickel.- Four–Way Coupled LES Predictions of Dense Particle–Laden Flows in Horizontal Smooth and Rough Pipes, by M. Alletto and M. Breuer.- Biomass pyrolysis in DNS of turbulent particle-laden flow, by E. Russo, J.G.M. Kuerten, and B.J. Geurts.- Modulation of isotropic turbulence by resolved and non-resolved spherical particles, by A. H. Abdelsamie and D. Thévenin.- A hybrid stochastic-deconvolution model for LES of particle-laden flow, by W.R. Michałek, J.G.M. Kuerten, J.C.H. Zeegers, R. Liew, J. Pozorski, and B.J. Geurts.- Direct numerical simulation of a compressible multiphase flow through the Eulerian approach, by M. Cerminara, L.C. Berselli, T. Esposti Ongaro, and M.V. Salvetti.- DNS of turbulent bubbly downflow with a Coupled Level-Set/Volume-of-Fluid method, by M. Kwakkel, W.-P. Breugem, and B.J. Boersma.-Particle-laden turbulent channel flow with wall-roughness, by B. Milici, M. De Marchis, G. Sardina, and E. Napoli.- Direct numerical simulation of bed-load transport of finite-size spherical particles in a turbulent channel flow, by B. Vowinckel, T. Kempe, J. Fröhlich, and V. Nikora.- An inhomogeneous stochastic model for subgrid-scale particle dispersion in LES, by M. Knorps and J. Pozorski.- LES of the Ranque-Hilsch vortex tube, by W.R. Michałek, J.G.M. Kuerten, J.C.H. Zeegers, and R. Liew.- Direct numerical simulation of heat transfer in colliding droplets by a coupled level set and volume of fluid method, by N. Talebanfard and B.J. Boersma.- On the numerical modeling of active flow control for aerodynamics applications and its impact on the pressure field, by M. El-Alti, P. Kjellgren, and L. Davidson.
Textul de pe ultima copertă
This volume reflects the state of the art of numerical simulation of transitional and turbulent flows and provides an active forum for discussion of recent developments in simulation techniques and understanding of flow physics. Following the tradition of earlier DLES workshops, these papers address numerous theoretical and physical aspects of transitional and turbulent flows. At an applied level it contributes to the solution of problems related to energy production, transportation, magneto-hydrodynamics and the environment. A special session is devoted to quality issues of LES.
The ninth Workshop on 'Direct and Large-Eddy Simulation' (DLES-9) was held in Dresden, April 3-5, 2013, organized by the Institute of Fluid Mechanics at Technische Universität Dresden.
This book is of interest to scientists and engineers, both at an early level in their career and at more senior levels.
The ninth Workshop on 'Direct and Large-Eddy Simulation' (DLES-9) was held in Dresden, April 3-5, 2013, organized by the Institute of Fluid Mechanics at Technische Universität Dresden.
This book is of interest to scientists and engineers, both at an early level in their career and at more senior levels.
Caracteristici
Continues the DLES series of proceedings Provides a comprehensive coverage of the state of the art concerning eddy-resolving modelling of turbulent flows and related numerical schemes Presents modern developments in research on the physics of turbulent flows Assembles applications from a vast number of fields ranging from single-phase academic flows to multi-phase and industrial flows Includes supplementary material: sn.pub/extras