Author : Jinkai Wang
Publisher :
Page : 198 pages
File Size : 26,47 MB
Release : 2004
Category : Aerodynamics
ISBN :
Author : Jinkai Wang
Publisher :
Page : 0 pages
File Size : 30,91 MB
Release : 2004
Category :
ISBN :
A Large Eddy Simulation (LES) based on filtered vorticity transport equation formulated using diffusion-velocity method and discrete vortex method has been coupled to filtered density function (FDF) equation for scalar, to predict the velocity and passive scalar field of a spatially developing mixing layer. In the vortex method, the vorticity-based and eddy-viscosity type subgrid scale (SGS) model simulating the enstrophy transfer between the large and small scale appears as a convective term in the diffusion-velocity formulation. The methodology has been tested on a spatially growing mixing layer using the two-dimensional vortex-in-cell method with both Smagorinsky and Dynamic Eddy Viscosity subgrid scale models for an anisotropic flow. The effects on the vorticity contours, momentum thickness, streamwise mean velocity profiles, root-mean-square velocity and vorticity fluctuations and negative cross-stream correlation are discussed. Comparison is made with experimental and numerical works where diffusion is simulated using random walk. The transport equation for FDF is solved using the Lagrangian Monte Carlo method scheme. The unsolved subgrid scale convective term in FDF equation is modeled using the conventional gradient diffusion model for an anisotropic flow. The subgrid scalar mixing term is modelled using the Modified Curl model. The characteristics of the passive scalar, i.e., mean concentration, root-mean-square concentration fluctuation profiles and probability density function (PDF) are presented and compared with previous numerical and experimental works. The sensitivity of results to SGS model, Schmidt number, constant in mixing frequency and inlet boundary condition is discussed.
Author : Charbel Siklawi
Publisher :
Page : 412 pages
File Size : 14,32 MB
Release : 2009
Category : University of Ottawa theses
ISBN :
Author : M. Lesieur
Publisher : Cambridge University Press
Page : 240 pages
File Size : 35,38 MB
Release : 2005-08-22
Category : Mathematics
ISBN : 9780521781244
Large-Eddy Simulations of Turbulence is a reference for LES, direct numerical simulation and Reynolds-averaged Navier-Stokes simulation.
Author : P. Sagaut
Publisher : Springer Science & Business Media
Page : 600 pages
File Size : 48,10 MB
Release : 2006
Category : Computers
ISBN : 9783540263449
First concise textbook on Large-Eddy Simulation, a very important method in scientific computing and engineering From the foreword to the third edition written by Charles Meneveau: "... this meticulously assembled and significantly enlarged description of the many aspects of LES will be a most welcome addition to the bookshelves of scientists and engineers in fluid mechanics, LES practitioners, and students of turbulence in general."
Author : Pierre Sagaut
Publisher : Springer Science & Business Media
Page : 326 pages
File Size : 28,68 MB
Release : 2013-03-09
Category : Science
ISBN : 3662044161
First concise textbook on Large-Eddy Simulation, a very important method in scientific computing and engineering From the foreword to the third edition written by Charles Meneveau: "... this meticulously assembled and significantly enlarged description of the many aspects of LES will be a most welcome addition to the bookshelves of scientists and engineers in fluid mechanics, LES practitioners, and students of turbulence in general."
Author : Laurent Y. M. Gicquel
Publisher :
Page : 9 pages
File Size : 23,31 MB
Release : 2001
Category :
ISBN :
The "velocity filtered density function" (VFDF) methodology is employed for large eddy simulation (LES) of a three-dimensional, temporally developing, turbulent mixing layer. A transport equation is derived for the VFDF in which the effects of the subgrid scale (SGS) convection appear in closed form. The unclosed terms in this equation are modeled. A system of stochastic differential equations (SDEs) which yields statistically equivalent results to the modeled VFDF transport equation is proposed. These SDEs are solved numerically by a Lagrangian Monte Carlo procedure. The VFDF results are compared with those obtained via several existing SGS closures and with data obtained by direct numerical simulation (DNS) of the mixing layer.
Author : Juan Pedro Mellado
Publisher :
Page : 466 pages
File Size : 33,29 MB
Release : 2004
Category :
ISBN :
Author : E. Lamballais
Publisher : Springer Science & Business Media
Page : 783 pages
File Size : 43,22 MB
Release : 2006-10-19
Category : Technology & Engineering
ISBN : 1402051522
The sixth ERCOFTAC Workshop on ‘Direct and Large-Eddy Simulation’ (DLES-6) was held at the University of Poitiers from September 12-14, 2005. Following the tradition of previous workshops in the DLES-series, this edition has reflected the state-of-the-art of numerical simulation of transitional and turbulent flows and provided an active forum for discussion of recent developments in simulation techniques and understanding of flow physics.
Author : National Aeronautics and Space Administration (NASA)
Publisher : Createspace Independent Publishing Platform
Page : 232 pages
File Size : 18,62 MB
Release : 2018-07-25
Category :
ISBN : 9781724273505
The objective of this research is to make use of Large Eddy Simulation (LES) and Direct Numerical Simulation (DNS) for the computational analyses of high speed reacting flows. Our efforts in the first phase of this research conducted within the past three years have been directed in several issues pertaining to intricate physics of turbulent reacting flows. In our previous 5 semi-annual reports submitted to NASA LaRC, as well as several technical papers in archival journals, the results of our investigations have been fully described. In this progress report which is different in format as compared to our previous documents, we focus only on the issue of LES. The reason for doing so is that LES is the primary issue of interest to our Technical Monitor and that our other findings were needed to support the activities conducted under this prime issue. The outcomes of our related investigations, nevertheless, are included in the appendices accompanying this report. The relevance of the materials in these appendices are, therefore, discussed only briefly within the body of the report. Here, results are presented of a priori and a posterior analyses for validity assessments of assumed Probability Density Function (PDF) methods as potential subgrid scale (SGS) closures for LES of turbulent reacting flows. Simple non-premixed reacting systems involving an isothermal reaction of the type A + B yields Products under both chemical equilibrium and non-equilibrium conditions are considered. A priori analyses are conducted of a homogeneous box flow, and a spatially developing planar mixing layer to investigate the performance of the Pearson Family of PDF's as SGS models. A posteriori analyses are conducted of the mixing layer using a hybrid one-equation Smagorinsky/PDF SGS closure. The Smagorinsky closure augmented by the solution of the subgrid turbulent kinetic energy (TKE) equation is employed to account for hydrodynamic fluctuations, and the PDF is employed for modeling the ...
