Reviews our current understanding of the subject. For graduate students and researchers in computational fluid dynamics and turbulence.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
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.
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.
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