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Informationen zum Autor Fernando F. Grinstein is a Scientist at the X-Computational Physics Division of the Los Alamos National Laboratory. He is a world leader in issues of large eddy simulation (LES) of turbulent material mixing physics in complex multidisciplinary applications. He has led integration efforts of the pioneers of the ILES technique in workshops and special meetings worldwide, and in the first comprehensive description of the methodology, Implicit LES: Computing Turbulent Flow Dynamics, written with Len Margolin and William Rider. Klappentext Reviews our current understanding of the subject. For graduate students and researchers in computational fluid dynamics and turbulence. Zusammenfassung The mixing of materials by the small scales of turbulent motion is a critical element of many applications in engineering! geophysics and astrophysics. This book reviews our understanding of coarse grained simulation of turbulent mixing and will be of interest to graduate students and researchers in computational fluid dynamics and turbulence. Inhaltsverzeichnis Preface Fernando F. Grinstein; Prologue Fernando F. Grinstein; Part I. Fundamentals: 1. Proof of concept - enslaved turbulent mixing Fernando F. Grinstein and Adam J. Wachtor; 2. A minimum turbulence state for coarse grained simulation Ye Zhou; 3. Finite scale Navier-Stokes - compressible hydrodynamics at second order L. G. Margolin; 4. Material conservation of passive scalar mixing in finite scale Navier-Stokes fluid turbulence J. R. Ristorcelli; Part II. Challenges: 5. Subgrid and supergrid modeling Fernando F. Grinstein; 6. Cloud modeling - an example of why small scale details matter for accurate prediction Jon Reisner; 7. Verification, validation and uncertainty quantification for coarse grained simulation William J. Rider, James R. Kamm and V. Gregory Weirs; Part III. Complex Mixing Consequences: 8. Shock driven turbulence Fernando F. Grinstein, A. A. Gowardhan and J. R. Ristorcelli; 9. Laser driven turbulence in high energy density physics and inertial confinement fusion experiments Brian M. Haines, Fernando F. Grinstein, Leslie Welser-Sherrill and James R. Fincke; 10. Drive asymmetry, convergence, and turbulence in inertial confinement fusion implosions Vincent A. Thomas and Robert J. Kares; 11. Rayleigh-Taylor driven turbulence Nicholas A. Denissen, Jon Reisner, Malcolm Andrews and Bertrand Rollin; 12. Spray combustion in swirling flow Suresh Menon and Reetesh Ranjan; 13. Afterburning combustion behind explosive blasts E. Fedina, C. Fureby, K. C. Gottiparthi and Suresh Menon; Epilogue Fernando F. Grinstein....
