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Homogeneous Turbulence Dynamics / / by Pierre Sagaut, Claude Cambon
Homogeneous Turbulence Dynamics / / by Pierre Sagaut, Claude Cambon
Autore Sagaut Pierre <1967->
Edizione [2nd ed. 2018.]
Pubbl/distr/stampa Cham : , : Springer International Publishing : , : Imprint : Springer, , 2018
Descrizione fisica 1 online resource (912 pages)
Disciplina 532.0527015118
Soggetto topico Fluids
Mathematical physics
Fluid mechanics
Applied mathematics
Engineering mathematics
Fluid- and Aerodynamics
Mathematical Applications in the Physical Sciences
Engineering Fluid Dynamics
Theoretical, Mathematical and Computational Physics
Mathematical Physics
Mathematical and Computational Engineering
ISBN 3-319-73162-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Introduction -- Scope of the book -- Structure and contents of the second edition of the book -- Governing equations, from dynamics to statistics -- Background deterministic equations -- Briefs about statistical and probabilistic approaches -- Reynolds Stress tensor and related equations -- Anisotropy in physical space. Single-point correlations -- Spectral analysis, from random fields to two-point correlations. Local frame, helical modes -- Anisotropy for multipoint correlations -- A synthetic scheme of the closure problem: non-linearity and non-locality -- On the use of Lagrangian formalism -- Additional reminders: compressible turbulence description -- Navier-Stokes equations for compressible flows and shock jump conditions -- Introduction to modal decomposition of turbulent fluctuations -- Mean flow equations, Reynolds Stress Tensor and energy balance in compressible flows -- Incompressible homogeneous isotropic turbulence -- Observations and measures in forced and freely decaying turbulence -- Classical statistical analysis: energy cascade, local isotropy, usual characteristic scales -- Models for single-time and two-time energy spectra and velocity correlation functions -- Free decay theories: self-similarity, self-preservation, symmetries and invariants -- Recent results about decay regimes -- Reynolds Stress tensor and analysis of related equations -- Differential models for energy transfer -- Advanced analysis of energy transfers in Fourier space -- Pressure field: spectrum, scales and time evolution -- Topological analysis, coherent events and related dynamics -- Non-linear dynamics in the physical space -- What are the proper features of three-dimensional Navier-Stokes turbulence? -- Isotropic turbulence with coupled microstructures: Visco-elastic turbulence -- Introduction to turbulence in dilute polymer solutions -- Governing equations -- Description of turbulence with FENE-P model -- Turbulence régimes in dilute polymer solution -- Visco-elastic effects on flow topology -- Isotropic turbulence with coupled microstructures. Quantum Turbulence -- Introductory phenomenology to Quantum Turbulence -- The three levels of description and physical modelling -- Quantized vortices and Kelvin Waves: facts and models -- Quantum Turbulence dynamics at zero or nearly-zero temperature -- The decay of isotropic Quantum Turbulence -- Mutual friction: microscopic origin and models -- Incompressible homogeneous anisotropic turbulence: pure rotation -- Physical and numerical experiments -- Governing equation -- Advanced analysis of energy transfer via DNS -- Balance of RST equations. A case without “production”. New tensorial modeling -- Inertial waves. Linear régime -- Nonlinear theory and modeling: Wave Turbulence and EDQNM -- Fundamental issues: solved and open questions -- Coherent structures, description and dynamics -- Scale-by-scale anisotropy -- Incompressible homogeneous anisotropic turbulence: With strain -- Main observations -- Experiments for turbulence in the presence of mean strain. Kinematics of the mean flow -- First approach in physical space to irrotational mean flows -- The fundamentals of homogeneous RDT -- Final RDT results for mean irrotational strain -- Towards a fully nonlinear approach -- Return to isotropy -- Nonhomogeneous flow cases. Coherent structures in strained homogeneous turbulence -- Incompressible homogeneous anisotropic turbulence: pure shear -- Physical and numerical experiments: kinetic energy, RST, lengthscales, anisotropy -- Reynolds Stress tensor and analysis of related equations -- Rapid Distortion Theory: equations, solutions, algebraic growth -- Nonlinear spectral analysis, simplified closure and selfsimilarity -- Return to isotropy in shear-released homogeneous turbulence.-Models for space- and space-time correlations -- Pressure field: theory and models -- Vortical structures dynamics in homogeneous shear turbulence -- Self-sustaining turbulent cycle in quasi-homogeneous sheared turbulence -- Self-sustaining processes in non-homogeneous sheared turbulence: exact coherent states and travelling wave solutions -- Incompressible homogeneous anisotropic turbulence: buoyancy force and mean stratification -- Observations, propagating and non-propagating motion. Collapse of vertical motion and layering -- Simplified equations, using Navier-Stokes and Boussinesq approximations, with uniform density gradient -- Eigenmode decomposition. Physical interpretation -- The toroidal cascade as a strong nonlinear mechanism explaining the layering -- The viewpoint of modelling and theory: RDT, Wave-Turbulence, EDQNM -- Coherent structures : dynamics and scaling of the layered flow, “pancake” dynamics, instabilities -- Unstable Stratified Homogeneous Turbulence -- Extension to the mixing zone resulting from Rayleigh-Taylor instability and beyond -- Coupled effects : rotation, stratification, strain and shear -- Governing equations for the dynamics of coupled effects -- Rotating stratified turbulence -- Rotation or stratification with mean shear -- Shear, rotation and stratification. Approach to baroclinic instability -- The elliptical flow instability from \homogeneous" RDT -- Axisymmetric strain with rotation -- Relevance of RDT and WKB RDT variants for analysis of transient growth and exponential instabilities -- Incompressible homogeneous anisotropic turbulence: Magnetohydrodynamic turbulence -- Generalities, analogies and differences with respect to the purely hydrodynamic case -- Governing equations -- Alfvén waves and Ohmic damping. Linear régime --  The Quasi-Static régime, from linear to nonlinear dynamics -- A first statistical approach, Kolmogorov-Monin laws, without mean magnetic field -- Refined analysis: Triadic interactions in MHD without mean magnetic field -- MHD turbulence and interactions with other body forces and mean gradients -- Homogeneous incompressible MHD turbulence and beyond -- Compressible homogeneous isotropic turbulence -- Different régimes in compressible turbulence -- Structures in the physical space -- Compressible homogeneous isotropic turbulence -- Different regimes in compressible turbulence -- Quasi-isentropic turbulent regime -- Low-Mach thermal regimes -- Nonlinear subsonic regimes -- Supersonic regime -- Structures in the physical space -- Compressible homogeneous anisotropic turbulence -- Effects of compressibility in free shear flows. Observations -- A general quasi-isentropic approach to homogeneous compressible shear flows -- Incompressible turbulence with compressible mean flow effects: compressed turbulence -- Compressible turbulence in the presence of pure plane shear -- Perspectives and open issues -- Topological analysis, coherent events and related dynamics -- Canonical isotropic turbulence/shock interaction and beyond -- Brief survey of existing interaction regimes -- Wrinkled shock régime: Linear interaction -- Wrinkled shock régime: Nonlinear interaction -- Broken shock régime -- Beyond canonical case. I: Spherical shock waves -- Beyond canonical case. II: Planar shock interacting with turbulence in a non-reacting binary mixture -- Beyond canonical case. III: Planar detonation interacting with turbulence -- Linear Interaction Approximation for shock/perturbation interaction -- Shock description and emitted fluctuating field -- Calculation of wave vectors of emitted waves -- Calculation of amplitude of emitted waves -- Distinguishing between poloidal and toroidal vorticity modes -- Reconstruction of the second order moments -- Further analytical work: exact and asymptotic LIA solutions based on Laplace transform -- A posteriori assessment of LIA in the canonical interaction case -- Extending LIA: I. Interaction with rarefaction waves -- Extending LIA: II. Case of non-reacting binary mixtures of perfect gas -- Extending LIA: III. Thin strong detonation/turbulence interaction -- The essentials of linear and nonlinear theories and models -- Rapid Distortion Theory for homogeneous turbulence -- Zonal RDT and short-wave stability analysis -- Application to statistical modeling of inhomogeneous turbulence -- Other perspectives in extended linearized approaches -- Generalities on triadic closures -- Solving the linear operator to account for strong anisotropy -- A general EDQN closure. Different levels of markovianization -- Detailed equations from EDQNM1 in the model by Mons, Cambon and Sagaut -- Application of three EDQNM(1-2-3) versions to the rotating turbulence -- Other cases of flows with and without production -- Connection with self-consistent theories: single-time or two-time? -- Applications to weak or moderate anisotropy -- Open numerical problems -- Conclusions and perspectives -- Homogenization of turbulence. Local or global homogeneity? Physical space or Fourier space? -- Linear theory, `homogeneous' RDT, WKB variants, and LIA -- Multi-point closures for weak and strong turbulence -- Structure formation, structuring effects and individual coherent structures -- Anisotropy including dimensionality, a main theme -- Deriving practical models -- Bibliography -- Index.
Record Nr. UNINA-9910300530303321
Sagaut Pierre <1967->  
Cham : , : Springer International Publishing : , : Imprint : Springer, , 2018
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Multiscale and multiresolution approaches in turbulence [[electronic resource] ] : LES, DES and Hybrid RANS/LES methods : applications and guidelines / / Pierre Sagaut, Sebastien Deck, Marc Terracol
Multiscale and multiresolution approaches in turbulence [[electronic resource] ] : LES, DES and Hybrid RANS/LES methods : applications and guidelines / / Pierre Sagaut, Sebastien Deck, Marc Terracol
Autore Sagaut Pierre <1967->
Edizione [2nd ed.]
Pubbl/distr/stampa London, : Imperial College Press
Descrizione fisica 1 online resource (448 p.)
Disciplina 531.1134
532.0527
Altri autori (Persone) DeckSebastien
TerracolMarc
Soggetto topico Turbulence - Mathematical models
Turbulence
Soggetto genere / forma Electronic books.
ISBN 1-84816-987-6
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Foreword to the Second Edition; Foreword to the First Edition; Contents; 1. A Brief Introduction to Turbulence; 1.1 Common Features of Turbulent Flows; 1.1.1 Introductory concepts; 1.1.2 Randomness and coherent structure in turbulent flows; 1.2 Turbulent Scales and Complexity of a Turbulent Field; 1.2.1 Basic equations of turbulent flow; 1.2.2 Defining turbulent scales; 1.2.3 A glimpse at numerical simulations of turbulent flows; 1.3 Inter-scale Coupling in Turbulent Flows; 1.3.1 The energy cascade; 1.3.2 Inter-scale interactions; 2. Turbulence Simulation and Scale Separation
2.1 Numerical Simulation of Turbulent Flows2.2 Reducing the Cost of the Simulations; 2.2.1 Scale separation; 2.2.2 Navier-Stokes-based equations for the resolved quantities; 2.2.3 Navier-Stokes-based equations for the unresolved quantities; 2.3 The Averaging Approach: Reynolds-Averaged Numerical Simulation (RANS); 2.3.1 Statistical average; 2.3.2 Reynolds-Averaged Navier-Stokes equations; 2.3.3 Phase-Averaged Navier-Stokes equations; 2.4 The Large-Eddy Simulation Approach (LES); 2.4.1 Large and small scales separation; 2.4.2 Filtered Navier-Stokes equations
2.5 Multilevel/Multire solution Methods2.5.1 Hierarchical multilevel decomposition; 2.5.2 Practical example: the multiscale/multilevel LES decomposition; 2.5.3 Associated Navier-Stokes-based equations; 2.5.4 Classification of existing multilevel methods; 2.5.4.1 Multilevel methods based on resolved-only wave numbers; 2.5.4.2 Multilevel methods based on higher wave numbers; 2.5.4.3 Adaptive multilevel methods; 2.6 Summary; 3. Statistical Multiscale Modelling; 3.1 General; 3.2 Exact Governing Equations for the Multiscale Problem; 3.2.1 Basic equations in physical and spectral space
3.2.2 The multiscale splitting3.2.3 Governing equations for band-integrated approaches; 3.3 Spectral Closures for Band-integrated Approaches; 3.3.1 Local versus non-local transfers; 3.3.2 Expression for the spectral fluxes; 3.3.3 Dynamic spectral splitting; 3.3.4 Turbulent diffusion terms; 3.3.5 Viscous dissipation term; 3.3.6 Pressure term; 3.4 A Few Multiscale Models for Band-integrated Approaches; 3.4.1 Multiscale Reynolds stress models; 3.4.2 Multiscale eddy viscosity models; 3.5 Spectral Closures for Local Approaches; 3.5.1 Local multiscale Reynolds stress models
3.5.1.1 Closures for the linear transfer term3.5.1.2 Closures for the linear pressure term; 3.5.1.3 Closures for the non-linear homogeneous transfer term; 3.5.1.4 Closures for the non-linear non-homogeneous transfer term; 3.5.2 Local multiscale eddy viscosity models; 3.6 Achievements and Open Issues; 4. Multiscale Subgrid Models: Self-adaptivity; 4.1 Fundamentals of Subgrid Modelling; 4.1.1 Functional and structural subgrid models; 4.1.2 The Gabor-Heisenberg curse; 4.2 Germano-type Dynamic Subgrid Models; 4.2.1 Germano identity; 4.2.1.1 Two-level multiplicative Germano identity
4.2.1.2 Multilevel Germano identity
Record Nr. UNINA-9910462820003321
Sagaut Pierre <1967->  
London, : Imperial College Press
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Multiscale and multiresolution approaches in turbulence : LES, DES and hybrid RANS/LES methods : applications and guidelines / / Pierre Sagaut, Universite Pierre et Marie Curie-- Paris 6, France, Sebastien Deck, ONERA, France, Marc Terracol, ONERA, France
Multiscale and multiresolution approaches in turbulence : LES, DES and hybrid RANS/LES methods : applications and guidelines / / Pierre Sagaut, Universite Pierre et Marie Curie-- Paris 6, France, Sebastien Deck, ONERA, France, Marc Terracol, ONERA, France
Autore Sagaut Pierre <1967->
Edizione [2nd ed.]
Pubbl/distr/stampa London, : Imperial College Press
Descrizione fisica 1 online resource (xviii, 427 pages) : illustrations
Disciplina 531.1134
532.0527
Collana Gale eBooks
Soggetto topico Turbulence - Mathematical models
ISBN 1-84816-987-6
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Foreword to the Second Edition; Foreword to the First Edition; Contents; 1. A Brief Introduction to Turbulence; 1.1 Common Features of Turbulent Flows; 1.1.1 Introductory concepts; 1.1.2 Randomness and coherent structure in turbulent flows; 1.2 Turbulent Scales and Complexity of a Turbulent Field; 1.2.1 Basic equations of turbulent flow; 1.2.2 Defining turbulent scales; 1.2.3 A glimpse at numerical simulations of turbulent flows; 1.3 Inter-scale Coupling in Turbulent Flows; 1.3.1 The energy cascade; 1.3.2 Inter-scale interactions; 2. Turbulence Simulation and Scale Separation
2.1 Numerical Simulation of Turbulent Flows2.2 Reducing the Cost of the Simulations; 2.2.1 Scale separation; 2.2.2 Navier-Stokes-based equations for the resolved quantities; 2.2.3 Navier-Stokes-based equations for the unresolved quantities; 2.3 The Averaging Approach: Reynolds-Averaged Numerical Simulation (RANS); 2.3.1 Statistical average; 2.3.2 Reynolds-Averaged Navier-Stokes equations; 2.3.3 Phase-Averaged Navier-Stokes equations; 2.4 The Large-Eddy Simulation Approach (LES); 2.4.1 Large and small scales separation; 2.4.2 Filtered Navier-Stokes equations
2.5 Multilevel/Multire solution Methods2.5.1 Hierarchical multilevel decomposition; 2.5.2 Practical example: the multiscale/multilevel LES decomposition; 2.5.3 Associated Navier-Stokes-based equations; 2.5.4 Classification of existing multilevel methods; 2.5.4.1 Multilevel methods based on resolved-only wave numbers; 2.5.4.2 Multilevel methods based on higher wave numbers; 2.5.4.3 Adaptive multilevel methods; 2.6 Summary; 3. Statistical Multiscale Modelling; 3.1 General; 3.2 Exact Governing Equations for the Multiscale Problem; 3.2.1 Basic equations in physical and spectral space
3.2.2 The multiscale splitting3.2.3 Governing equations for band-integrated approaches; 3.3 Spectral Closures for Band-integrated Approaches; 3.3.1 Local versus non-local transfers; 3.3.2 Expression for the spectral fluxes; 3.3.3 Dynamic spectral splitting; 3.3.4 Turbulent diffusion terms; 3.3.5 Viscous dissipation term; 3.3.6 Pressure term; 3.4 A Few Multiscale Models for Band-integrated Approaches; 3.4.1 Multiscale Reynolds stress models; 3.4.2 Multiscale eddy viscosity models; 3.5 Spectral Closures for Local Approaches; 3.5.1 Local multiscale Reynolds stress models
3.5.1.1 Closures for the linear transfer term3.5.1.2 Closures for the linear pressure term; 3.5.1.3 Closures for the non-linear homogeneous transfer term; 3.5.1.4 Closures for the non-linear non-homogeneous transfer term; 3.5.2 Local multiscale eddy viscosity models; 3.6 Achievements and Open Issues; 4. Multiscale Subgrid Models: Self-adaptivity; 4.1 Fundamentals of Subgrid Modelling; 4.1.1 Functional and structural subgrid models; 4.1.2 The Gabor-Heisenberg curse; 4.2 Germano-type Dynamic Subgrid Models; 4.2.1 Germano identity; 4.2.1.1 Two-level multiplicative Germano identity
4.2.1.2 Multilevel Germano identity
Record Nr. UNINA-9910786965503321
Sagaut Pierre <1967->  
London, : Imperial College Press
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Multiscale and multiresolution approaches in turbulence : LES, DES and hybrid RANS/LES methods : applications and guidelines / / Pierre Sagaut, Universite Pierre et Marie Curie-- Paris 6, France, Sebastien Deck, ONERA, France, Marc Terracol, ONERA, France
Multiscale and multiresolution approaches in turbulence : LES, DES and hybrid RANS/LES methods : applications and guidelines / / Pierre Sagaut, Universite Pierre et Marie Curie-- Paris 6, France, Sebastien Deck, ONERA, France, Marc Terracol, ONERA, France
Autore Sagaut Pierre <1967->
Edizione [2nd ed.]
Pubbl/distr/stampa London, : Imperial College Press
Descrizione fisica 1 online resource (xviii, 427 pages) : illustrations
Disciplina 531.1134
532.0527
Collana Gale eBooks
Soggetto topico Turbulence - Mathematical models
ISBN 1-84816-987-6
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Foreword to the Second Edition; Foreword to the First Edition; Contents; 1. A Brief Introduction to Turbulence; 1.1 Common Features of Turbulent Flows; 1.1.1 Introductory concepts; 1.1.2 Randomness and coherent structure in turbulent flows; 1.2 Turbulent Scales and Complexity of a Turbulent Field; 1.2.1 Basic equations of turbulent flow; 1.2.2 Defining turbulent scales; 1.2.3 A glimpse at numerical simulations of turbulent flows; 1.3 Inter-scale Coupling in Turbulent Flows; 1.3.1 The energy cascade; 1.3.2 Inter-scale interactions; 2. Turbulence Simulation and Scale Separation
2.1 Numerical Simulation of Turbulent Flows2.2 Reducing the Cost of the Simulations; 2.2.1 Scale separation; 2.2.2 Navier-Stokes-based equations for the resolved quantities; 2.2.3 Navier-Stokes-based equations for the unresolved quantities; 2.3 The Averaging Approach: Reynolds-Averaged Numerical Simulation (RANS); 2.3.1 Statistical average; 2.3.2 Reynolds-Averaged Navier-Stokes equations; 2.3.3 Phase-Averaged Navier-Stokes equations; 2.4 The Large-Eddy Simulation Approach (LES); 2.4.1 Large and small scales separation; 2.4.2 Filtered Navier-Stokes equations
2.5 Multilevel/Multire solution Methods2.5.1 Hierarchical multilevel decomposition; 2.5.2 Practical example: the multiscale/multilevel LES decomposition; 2.5.3 Associated Navier-Stokes-based equations; 2.5.4 Classification of existing multilevel methods; 2.5.4.1 Multilevel methods based on resolved-only wave numbers; 2.5.4.2 Multilevel methods based on higher wave numbers; 2.5.4.3 Adaptive multilevel methods; 2.6 Summary; 3. Statistical Multiscale Modelling; 3.1 General; 3.2 Exact Governing Equations for the Multiscale Problem; 3.2.1 Basic equations in physical and spectral space
3.2.2 The multiscale splitting3.2.3 Governing equations for band-integrated approaches; 3.3 Spectral Closures for Band-integrated Approaches; 3.3.1 Local versus non-local transfers; 3.3.2 Expression for the spectral fluxes; 3.3.3 Dynamic spectral splitting; 3.3.4 Turbulent diffusion terms; 3.3.5 Viscous dissipation term; 3.3.6 Pressure term; 3.4 A Few Multiscale Models for Band-integrated Approaches; 3.4.1 Multiscale Reynolds stress models; 3.4.2 Multiscale eddy viscosity models; 3.5 Spectral Closures for Local Approaches; 3.5.1 Local multiscale Reynolds stress models
3.5.1.1 Closures for the linear transfer term3.5.1.2 Closures for the linear pressure term; 3.5.1.3 Closures for the non-linear homogeneous transfer term; 3.5.1.4 Closures for the non-linear non-homogeneous transfer term; 3.5.2 Local multiscale eddy viscosity models; 3.6 Achievements and Open Issues; 4. Multiscale Subgrid Models: Self-adaptivity; 4.1 Fundamentals of Subgrid Modelling; 4.1.1 Functional and structural subgrid models; 4.1.2 The Gabor-Heisenberg curse; 4.2 Germano-type Dynamic Subgrid Models; 4.2.1 Germano identity; 4.2.1.1 Two-level multiplicative Germano identity
4.2.1.2 Multilevel Germano identity
Record Nr. UNINA-9910818247603321
Sagaut Pierre <1967->  
London, : Imperial College Press
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Multiscale and multiresolution approaches in turbulence [[electronic resource] /] / Pierre Sagaut, Sebastien Deck, Marc Terracol
Multiscale and multiresolution approaches in turbulence [[electronic resource] /] / Pierre Sagaut, Sebastien Deck, Marc Terracol
Autore Sagaut Pierre <1967->
Pubbl/distr/stampa London, : Imperial College Press, c2006
Descrizione fisica 1 online resource (356 p.)
Disciplina 532.0527
Altri autori (Persone) DeckSebastien
TerracolMarc
Soggetto topico Turbulence - Mathematical models
Fluid dynamics
Soggetto genere / forma Electronic books.
ISBN 1-281-86733-0
9786611867331
1-86094-897-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto 1. A brief introduction to turbulence -- 2. Turbulence simulation and scale separation -- 3. Statistical multiscale modeling -- 4. Multiscale subgrid models : self-adaptivity -- 5. Structural multiscale subgrid models : small scale estimations -- 6. Unsteady turbulence simulation on self-adaptive grids -- 7. Global hybrid RANS/LES methods -- 8. Zonal RANS/LES methods.
Record Nr. UNINA-9910451041903321
Sagaut Pierre <1967->  
London, : Imperial College Press, c2006
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Multiscale and multiresolution approaches in turbulence [[electronic resource] /] / Pierre Sagaut, Sebastien Deck, Marc Terracol
Multiscale and multiresolution approaches in turbulence [[electronic resource] /] / Pierre Sagaut, Sebastien Deck, Marc Terracol
Autore Sagaut Pierre <1967->
Pubbl/distr/stampa London, : Imperial College Press, c2006
Descrizione fisica 1 online resource (356 p.)
Disciplina 532.0527
Altri autori (Persone) DeckSebastien
TerracolMarc
Soggetto topico Turbulence - Mathematical models
Fluid dynamics
ISBN 1-281-86733-0
9786611867331
1-86094-897-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto 1. A brief introduction to turbulence -- 2. Turbulence simulation and scale separation -- 3. Statistical multiscale modeling -- 4. Multiscale subgrid models : self-adaptivity -- 5. Structural multiscale subgrid models : small scale estimations -- 6. Unsteady turbulence simulation on self-adaptive grids -- 7. Global hybrid RANS/LES methods -- 8. Zonal RANS/LES methods.
Record Nr. UNINA-9910785090203321
Sagaut Pierre <1967->  
London, : Imperial College Press, c2006
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui