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Turbulent flow computation / edited by D. Drikakis and B.J. Geurts.

Call Number	620.1064 D83T
Title	Turbulent flow computation / edited by D. Drikakis and B.J. Geurts.
Publication	Dordrecht : Boston : Kluwer Academic, c2002.
Physical Description	xv, 369 p. : ill. ; 25 cm.
Series	Fluid mechanics and its applications ; v. 66
Contents	Machine generated contents note: Preface vii -- Contributing Authors xi -- 1 -- Under-Resolution and Diagnostics in Spectral Simulations of Complex- 1 -- Geometry Flows -- Robert M. Kirby and George Em Karniadakis -- 1 Introduction 1 -- 2 Spectral Methods on Unstructured Grids 6 -- 3 Nonlinearities and Dealiasing 15 -- 4 Under-Resolution and Diagnostics 21 -- 5 Discussion 36 -- 2 -- High Resolution Methods for Computing Turbulent Flows 43 -- William J. Rider and Dimitris Drikakis -- 1 Motivation 43 -- 2 Multimaterial Mixing 44 -- 3 Numerical Methods as LES Models 49 -- 4 Theoretical Basis 54 -- 5 Modified Equations for Limiters 56 -- 6 Towards an Implicit Turbulence Model 62 -- 7 Numerical Experiments: Burgers' Equation 66 -- 8 Closing Remarks 71 -- 3 -- Preserving symmetry in convection-diffusion schemes 75 -- R. WC.P Verstappen and A.E.P Veldman -- 1 Introduction 75 -- 2 Symmetry-preserving discretization 82 -- 3 A test-case: turbulent channel flow 93 -- 4 Conclusions 98 -- 4 -- Analysis and control of errors in the numerical simulation of turbulence 101 -- Sandip Ghosal -- 1 Introduction 101 -- 2 Sources of Errors & Their Nature 102 -- 3 Spectral Analysis of Errors 114 -- 5 -- Designing Adaptive Low-Dissipative High Order Schemes for Long-time 141 -- Integrations -- H. C. Yee, B. Sjdgreen -- 1 Introduction 142 -- 2 Conditioning of the Governing Equations 143 -- 3 Discrete Analogue of the Continuum 153 -- 4 Adaptive Numerical Dissipation Control 157 -- 5 High Order Filter Finite Difference Methods 160 -- 6 Numerical Examples 175 -- 7 Concluding Remarks 189 -- 6 -- Building Blocks for Reliable Complex Nonlinear Numerical Simulations 199 -- H. C. Yee -- 1 Introduction 199 -- 2 Sources of Nonlinearities and Knowledge Gained from Nonlinear -- Model Problems 202 -- 3 Minimization of Spurious Steady State via Bifurcation Theory 204 -- 4 Source Term Treatments in Reacting Flows 207 -- 5 Adaptive Numerical Methods 208 -- 6 Spurious Numerics Relevant to Turbulent Flow Computations 209 -- 7 -- Alpha-modeling strategy for LES of turbulent mixing 237 -- Bernard J. Geurts and Darryl D. Holm -- 1 Introduction 237 -- 2 Large-eddy simulation and a-modeling 243 -- 3 Numerical simulations of a turbulent mixing layer 257 -- 4 LES-a of a mixing layer 262 -- 5 Concluding remarks 273 -- 8 -- Forward-in-Time Differencing for Fluids: Simulation of geophysical turbulence 279 -- Piotr K. Smolarkiewicz and Joseph. M. Prusa -- 1 Introduction 279 -- 2 NFT methods for fluids 285 -- 3 Accuracy of NFT methods 289 -- 4 VLES of global geophysical turbulence - an example 296 -- 5 Concluding remarks 306 -- 9 -- Direct Numerical Simulations of Multiphase Flows 313 -- G. Tryggvason, A. Ferndndez, A. Esmaeeli and B. Bunner -- 1 Introduction 313 -- 2 Formulation and Numerical Method 316 -- 3 Results 321 -- 4 Conclusions 333 -- 10 -- Examples of Contemporary CFD Simulations 339 -- S. R. Chakravarthy, U. C. Goldberg and P. Batten -- 1 Introduction 339 -- 2 Flow Examples 347 -- 3 Concluding remarks 365.
Added Author	Drikakis, D. Geurts, Bernard.
Subject	Turbulence Data processing. Turbulence Mathematical models.
Multimedia	Table of contents http://www.loc.gov/catdir/toc/fy031/2002283043.html

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$a Machine generated contents note: Preface vii -- Contributing Authors xi -- 1 -- Under-Resolution and Diagnostics in Spectral Simulations of Complex- 1 -- Geometry Flows -- Robert M. Kirby and George Em Karniadakis -- 1 Introduction 1 -- 2 Spectral Methods on Unstructured Grids 6 -- 3 Nonlinearities and Dealiasing 15 -- 4 Under-Resolution and Diagnostics 21 -- 5 Discussion 36 -- 2 -- High Resolution Methods for Computing Turbulent Flows 43 -- William J. Rider and Dimitris Drikakis -- 1 Motivation 43 -- 2 Multimaterial Mixing 44 -- 3 Numerical Methods as LES Models 49 -- 4 Theoretical Basis 54 -- 5 Modified Equations for Limiters 56 -- 6 Towards an Implicit Turbulence Model 62 -- 7 Numerical Experiments: Burgers' Equation 66 -- 8 Closing Remarks 71 -- 3 -- Preserving symmetry in convection-diffusion schemes 75 -- R. WC.P Verstappen and A.E.P Veldman -- 1 Introduction 75 -- 2 Symmetry-preserving discretization 82 -- 3 A test-case: turbulent channel flow 93 -- 4 Conclusions 98 -- 4 -- Analysis and control of errors in the numerical simulation of turbulence 101 -- Sandip Ghosal -- 1 Introduction 101 -- 2 Sources of Errors & Their Nature 102 -- 3 Spectral Analysis of Errors 114 -- 5 -- Designing Adaptive Low-Dissipative High Order Schemes for Long-time 141 -- Integrations -- H. C. Yee, B. Sjdgreen -- 1 Introduction 142 -- 2 Conditioning of the Governing Equations 143 -- 3 Discrete Analogue of the Continuum 153 -- 4 Adaptive Numerical Dissipation Control 157 -- 5 High Order Filter Finite Difference Methods 160 -- 6 Numerical Examples 175 -- 7 Concluding Remarks 189 -- 6 -- Building Blocks for Reliable Complex Nonlinear Numerical Simulations 199 -- H. C. Yee -- 1 Introduction 199 -- 2 Sources of Nonlinearities and Knowledge Gained from Nonlinear -- Model Problems 202 -- 3 Minimization of Spurious Steady State via Bifurcation Theory 204 -- 4 Source Term Treatments in Reacting Flows 207 -- 5 Adaptive Numerical Methods 208 -- 6 Spurious Numerics Relevant to Turbulent Flow Computations 209 -- 7 -- Alpha-modeling strategy for LES of turbulent mixing 237 -- Bernard J. Geurts and Darryl D. Holm -- 1 Introduction 237 -- 2 Large-eddy simulation and a-modeling 243 -- 3 Numerical simulations of a turbulent mixing layer 257 -- 4 LES-a of a mixing layer 262 -- 5 Concluding remarks 273 -- 8 -- Forward-in-Time Differencing for Fluids: Simulation of geophysical turbulence 279 -- Piotr K. Smolarkiewicz and Joseph. M. Prusa -- 1 Introduction 279 -- 2 NFT methods for fluids 285 -- 3 Accuracy of NFT methods 289 -- 4 VLES of global geophysical turbulence - an example 296 -- 5 Concluding remarks 306 -- 9 -- Direct Numerical Simulations of Multiphase Flows 313 -- G. Tryggvason, A. Ferndndez, A. Esmaeeli and B. Bunner -- 1 Introduction 313 -- 2 Formulation and Numerical Method 316 -- 3 Results 321 -- 4 Conclusions 333 -- 10 -- Examples of Contemporary CFD Simulations 339 -- S. R. Chakravarthy, U. C. Goldberg and P. Batten -- 1 Introduction 339 -- 2 Flow Examples 347 -- 3 Concluding remarks 365.

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Contents	Machine generated contents note: Preface vii -- Contributing Authors xi -- 1 -- Under-Resolution and Diagnostics in Spectral Simulations of Complex- 1 -- Geometry Flows -- Robert M. Kirby and George Em Karniadakis -- 1 Introduction 1 -- 2 Spectral Methods on Unstructured Grids 6 -- 3 Nonlinearities and Dealiasing 15 -- 4 Under-Resolution and Diagnostics 21 -- 5 Discussion 36 -- 2 -- High Resolution Methods for Computing Turbulent Flows 43 -- William J. Rider and Dimitris Drikakis -- 1 Motivation 43 -- 2 Multimaterial Mixing 44 -- 3 Numerical Methods as LES Models 49 -- 4 Theoretical Basis 54 -- 5 Modified Equations for Limiters 56 -- 6 Towards an Implicit Turbulence Model 62 -- 7 Numerical Experiments: Burgers' Equation 66 -- 8 Closing Remarks 71 -- 3 -- Preserving symmetry in convection-diffusion schemes 75 -- R. WC.P Verstappen and A.E.P Veldman -- 1 Introduction 75 -- 2 Symmetry-preserving discretization 82 -- 3 A test-case: turbulent channel flow 93 -- 4 Conclusions 98 -- 4 -- Analysis and control of errors in the numerical simulation of turbulence 101 -- Sandip Ghosal -- 1 Introduction 101 -- 2 Sources of Errors & Their Nature 102 -- 3 Spectral Analysis of Errors 114 -- 5 -- Designing Adaptive Low-Dissipative High Order Schemes for Long-time 141 -- Integrations -- H. C. Yee, B. Sjdgreen -- 1 Introduction 142 -- 2 Conditioning of the Governing Equations 143 -- 3 Discrete Analogue of the Continuum 153 -- 4 Adaptive Numerical Dissipation Control 157 -- 5 High Order Filter Finite Difference Methods 160 -- 6 Numerical Examples 175 -- 7 Concluding Remarks 189 -- 6 -- Building Blocks for Reliable Complex Nonlinear Numerical Simulations 199 -- H. C. Yee -- 1 Introduction 199 -- 2 Sources of Nonlinearities and Knowledge Gained from Nonlinear -- Model Problems 202 -- 3 Minimization of Spurious Steady State via Bifurcation Theory 204 -- 4 Source Term Treatments in Reacting Flows 207 -- 5 Adaptive Numerical Methods 208 -- 6 Spurious Numerics Relevant to Turbulent Flow Computations 209 -- 7 -- Alpha-modeling strategy for LES of turbulent mixing 237 -- Bernard J. Geurts and Darryl D. Holm -- 1 Introduction 237 -- 2 Large-eddy simulation and a-modeling 243 -- 3 Numerical simulations of a turbulent mixing layer 257 -- 4 LES-a of a mixing layer 262 -- 5 Concluding remarks 273 -- 8 -- Forward-in-Time Differencing for Fluids: Simulation of geophysical turbulence 279 -- Piotr K. Smolarkiewicz and Joseph. M. Prusa -- 1 Introduction 279 -- 2 NFT methods for fluids 285 -- 3 Accuracy of NFT methods 289 -- 4 VLES of global geophysical turbulence - an example 296 -- 5 Concluding remarks 306 -- 9 -- Direct Numerical Simulations of Multiphase Flows 313 -- G. Tryggvason, A. Ferndndez, A. Esmaeeli and B. Bunner -- 1 Introduction 313 -- 2 Formulation and Numerical Method 316 -- 3 Results 321 -- 4 Conclusions 333 -- 10 -- Examples of Contemporary CFD Simulations 339 -- S. R. Chakravarthy, U. C. Goldberg and P. Batten -- 1 Introduction 339 -- 2 Flow Examples 347 -- 3 Concluding remarks 365.
Subject	Turbulence Data processing. Turbulence Mathematical models.
Multimedia	Table of contents http://www.loc.gov/catdir/toc/fy031/2002283043.html