Mathematical and Physical Theory of Turbulence, Volume 250John Cannon, Bhimsen Shivamoggi CRC Press, 15 de juny 2006 - 208 pàgines 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 ex |
Continguts
2 Lagrangian Description of Turbulence | 7 |
An Overview | 47 |
Paradigms and Problems | 69 |
5 Some Remarks on Decaying TwoDimensional Turbulence | 91 |
6 Statistical and Dynamical Questions in Stratified Turbulence | 101 |
7 Wavelet Scaling and NavierStokes Regularity | 115 |
8 Generalization of the Eddy Viscosity Model Application to a Temperature Spectrum | 125 |
An Overview and Analysis | 131 |
10 Analytical Uses of Wavelets for NavierStokes Turbulence | 145 |
11 Time Averaging Hierarchy of the Governing Equations and the Balance of Turbulent Kinetic Energy | 155 |
12 The Role of Angular Momentum Invariants in HomogeneousTurbulence | 165 |
13 On the New Concept of Turbulence Modeling in Fully Developed Turbulent Channel Flow and Boundary Layer | 183 |
Altres edicions - Mostra-ho tot
Mathematical and Physical Theory of Turbulence, Volume 250, Volum 250 John Cannon,Bhimsen Shivamoggi Previsualització no disponible - 2006 |
Mathematical and Physical Theory of Turbulence John Cannon,Bhimsen Shivamoggi Previsualització no disponible - 2006 |
Frases i termes més freqüents
advection angular momentum anisotropy average behavior boundary layer canonical equilibrium Carnevale computations conservation constant correlation functions density derivative dimensions direct numerical simulation discussed dissipation DNS data dynamics eddy viscosity energy spectrum enstrophy entropy evolution exponentially Figure filter finite flexion fluctuations Fluid Mech fluid particles Fourier fully developed turbulent Gaussian gradient gyrokinetic Hamiltonian homogeneous incompressible incompressible flow initial conditions integral interaction invariant inverse cascade inviscid isotropic isotropic turbulence J. A. Krommes kinetic energy Kolmogorov Lagrangian Lagrangian trajectories Landau Lett Loitsyansky Lyapunov exponents Markovian closure mathematics Mexican hat wavelet Navier–Stokes equations nonlinear nonsmooth numerical simulations passive scalar Phys physical plasma Plasma Physics predicted problem proposed concept result Reynolds number Reynolds shear stress Reynolds stress scale Section selective decay shear stress singularities smooth spatial spectral statistics stratified turbulence streamfunction tensor theory tracer turbulence models turbulent flow two-dimensional turbulence velocity field vortex vorticity wavenumber zero modes