| title : |
Bifurcation Analysis of Fluid Flows |
| Type de document : |
printed text |
| Auteur : |
Henk A. Dijkstra, Author |
| Editeur : |
new york : Cambridge University Press |
| Date de publication : |
2023 |
| Nombre de pages : |
330p. |
| Dimensions : |
25*18 |
| ISBN (ou autre code) : |
978-1-108-49581-3 |
| Langue : |
English (eng) Langue originale : English (eng) |
| Indexation : |
phy |
| Résumé : |
A better understanding of the mechanisms leading a fluid system to exhibit turbulent behavior is one of the grand challenges of the physical and mathematical sciences. Over the last few decades, numerical bifurcation methods have been extended and applied to a number of flow problems to identify critical conditions for fluid instabilities to occur. This book provides a state-of-the-art account of these numerical methods, with much attention to modern linear systems solvers and generalized eigenvalue solvers. These methods also have a broad applicability in industrial, environmental and astrophysical flows. The book is a must-have reference for anyone working in scientific fields where fluid flow instabilities play a role. Exercises at the end of each chapter and Python code for the bifurcation analysis of canonical fluid flow problems provide practice material to get to grips with the methods and concepts presented in the book. |
| Lien vers la ressource électronique : |
http://opac.centre-univ-mila.dz/z//530-236-1.pdf |
Bifurcation Analysis of Fluid Flows [printed text] / Henk A. Dijkstra, Author . - new york : Cambridge University Press, 2023 . - 330p. ; 25*18. ISBN : 978-1-108-49581-3 Langue : English ( eng) Langue originale : English ( eng)
| Indexation : |
phy |
| Résumé : |
A better understanding of the mechanisms leading a fluid system to exhibit turbulent behavior is one of the grand challenges of the physical and mathematical sciences. Over the last few decades, numerical bifurcation methods have been extended and applied to a number of flow problems to identify critical conditions for fluid instabilities to occur. This book provides a state-of-the-art account of these numerical methods, with much attention to modern linear systems solvers and generalized eigenvalue solvers. These methods also have a broad applicability in industrial, environmental and astrophysical flows. The book is a must-have reference for anyone working in scientific fields where fluid flow instabilities play a role. Exercises at the end of each chapter and Python code for the bifurcation analysis of canonical fluid flow problems provide practice material to get to grips with the methods and concepts presented in the book. |
| Lien vers la ressource électronique : |
http://opac.centre-univ-mila.dz/z//530-236-1.pdf |
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