Dynamic Multilevel Methods and the Numerical Simulation of Turbulence
- Authors:
- Thierry Dubois, Université de Clermont-Ferrand II (Université Blaise Pascal), France
- François Jauberteau, Université de Clermont-Ferrand II (Université Blaise Pascal), France
- Roger Temam, Université Paris-Sud & Indiana University
- Date Published: April 1999
- availability: Available
- format: Hardback
- isbn: 9780521621656
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This 1999 book describes the implementation of multilevel methods for the numerical simulation of turbulent flows. The general ideas for the algorithms presented stem from dynamical systems theory and are based on the decomposition of the unknown function into two or more arrays corresponding to different scales in the Fourier space. Before describing in detail the numerical algorithm, survey chapters are included on the mathematical theory of the Navier-Stokes equations and on the physics of the conventional theory of turbulence. The multilevel methods are applied here to the simulation of homogeneous isotropic turbulent flows as well as turbulent channel flows. The implementation issues are discussed in detail and numerical simulations of the flows cited above are presented and analysed. The methods have been applied in the context of the direct numerical simulation and are therefore compared to such simulations.
Read more- Deals with rapidly developing field and is first book to cover this aspect
- Sits well alongside our many other fluid mechanics titles
- Authors are well-known in the field (e.g. Temam)
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×Product details
- Date Published: April 1999
- format: Hardback
- isbn: 9780521621656
- length: 312 pages
- dimensions: 229 x 152 x 21 mm
- weight: 0.63kg
- contains: 51 b/w illus.
- availability: Available
Table of Contents
1. The Navier–Stokes equations and their mathematical background
2. The physics of turbulent flows
3. Computational methods for the direct simulation of turbulence
4. Direct numerical simulation (DNS) versus turbulence modeling
5. Long time behavior attractors and their approximation
6. Separation of scales in turbulence
7. Numerical analysis of multilevel methods
8. Dynamic multilevel methodologies
9. Computational implementation of the dynamic multilevel (DML) methods
10. Numerical results
Conclusion
References
Figures.
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