Mathematical and Physical Theory of Turbulence, Volume 250

Name: Mathematical and Physical Theory of Turbulence, Volume 250
Brand: Taylor & Francis Inc
SKU: 9780824723231
Price: 291.4 EUR
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advanced turbulence modeling methods

Angular Momentum

Anomalous Scaling

Category=PHDS

direct

DNS

DNS Data

DNS Result

eddy

Eddy Turnover Time

Eddy Viscosity

Eddy Viscosity Models

Enstrophy Cascade

eq_bestseller

eq_isMigrated=1

eq_isMigrated=2

eq_nobargain

eq_non-fiction

eq_science

geophysical fluid dynamics

Inverse Cascade

Isotropic Turbulence

Kolmogorov Flow

Kraichnan Model

Lagrangian turbulence statistics

large

large eddy simulation

Les

magnetohydrodynamics

Mexican Hat Wavelet Transform

MHD Turbulence

Navier Stokes equations

Navier Stokes Turbulence

numerical

Ordinary Differential Equations

RDT

reynolds

Reynolds Shear Stress

Reynolds Stresses

simulation

stratified flow analysis

Stratified Turbulence

stress

times

Turbulent Kinetic Energy

turnover

viscosity

Wavelet Coefficients

Wavelet Transform

Product details

ISBN 9780824723231
Weight: 540g
Dimensions: 178 x 254mm
Publication Date: 15 Jun 2006
Publisher: Taylor & Francis Inc
Publication City/Country: US
Product Form: Hardback

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Although the current dynamical system approach offers several important insights into the turbulence problem, issues still remain that present challenges to conventional methodologies and concepts. These challenges call for the advancement and application of new physical concepts, mathematical modeling, and analysis techniques. Bringing together experts from physics, applied mathematics, and engineering, Mathematical and Physical Theory of Turbulence discusses recent progress and some of the major unresolved issues in two- and three-dimensional turbulence as well as scalar compressible turbulence.

Containing introductory overviews as well as more specialized sections, this book examines a variety of turbulence-related topics. The authors concentrate on theory, experiments, computational, and mathematical aspects of Navier–Stokes turbulence; geophysical flows; modeling; laboratory experiments; and compressible/magnetohydrodynamic effects. The topics discussed in these areas include finite-time singularities and inviscid dissipation energy; validity of the idealized model incorporating local isotropy, homogeneity, and universality of small scales of high Reynolds numbers, Lagrangian statistics, and measurements; and subrigid-scale modeling and hybrid methods involving a mix of Reynolds-averaged Navier–Stokes (RANS), large-eddy simulations (LES), and direct numerical simulations (DNS).

By sharing their expertise and recent research results, the authoritative contributors in Mathematical and Physical Theory of Turbulence promote further advances in the field, benefiting applied mathematicians, physicists, and engineers involved in understanding the complex issues of the turbulence problem.

John Cannon, Bhimsen Shivamoggi