| Coarse Grained Simulation and Turbulent Mixing Contributor(s): Grinstein, Fernando F. (Editor) |
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ISBN: 1107137047 ISBN-13: 9781107137042 Publisher: Cambridge University Press OUR PRICE: $171.00 Product Type: Hardcover - Other Formats Published: August 2016 |
| Additional Information |
| BISAC Categories: - Technology & Engineering | Mechanical - Technology & Engineering | Hydraulics |
| Dewey: 532.052 |
| LCCN: 2015042013 |
| Physical Information: 1" H x 9.87" W x 7.24" (2.36 lbs) 450 pages |
| Descriptions, Reviews, Etc. |
| Publisher Description: Small-scale turbulent flow dynamics is traditionally viewed as universal and as enslaved to that of larger scales. In coarse grained simulation (CGS), large energy-containing structures are resolved, smaller structures are spatially filtered out, and unresolved subgrid scale (SGS) effects are modeled. Coarse Grained Simulation and Turbulent Mixing reviews our understanding of CGS. Beginning with an introduction to the fundamental theory the discussion then moves to the crucial challenges of predictability. Next, it addresses verification and validation, the primary means of assessing accuracy and reliability of numerical simulation. The final part reports on the progress made in addressing difficult non-equilibrium applications of timely current interest involving variable density turbulent mixing. The book will be of fundamental interest to graduate students, research scientists, and professionals involved in the design and analysis of complex turbulent flows. |
Contributor Bio(s): Grinstein, Fernando F.: - 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. |
