BE applications in fluid mechanics
Author(s)
Bibliographic Information
BE applications in fluid mechanics
(Advances in fluid mechanics / series editor, M. Rahman, v. 4)
Computational Mechanics, 1995
- : Southampton
- : Boston
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Note
Includes bibliographical references
Description and Table of Contents
Description
This work presents a compilation of some advanced topics on the application of boundary element methods (BEM) in fluid mechanics. This is traditionally one of the most challenging areas of computational mechanics and the simulation of fluid motion is a serious test for any numerical method. Recent developments in the BEM have been very successful in dealing with complex fluid problems and the topics covered in this volume include: polymer processing; boundary integral methods for creeping flow with interfacial rheology; non-linear compressible full-potential flow, including transonic flow; the completed double layer integral equation method for Stokes' flow; viscous sintering; latest advances in the BEM solution of non-linear ocean waves; non-Newtonian flow; DRM formulation for 3D non-permanent non-linear viscous flow; and integral formulations of a diffusion-convective transport equation.
Table of Contents
- Effect of sharp corners on potential fluid flows past blunt bodies
- boundary integral methods for rising, bursting and collapsing bubbles
- boundary element approach to Laplacian moving boundary problems
- recent advances in the BEM modelling of nonlinear water waves
- transonic field-boundary element computations
- integral formulations of a diffusive-convestive trnasport equation
- Stokes flow in the presence of interfaces
- simulation of viscous sintering
- Low Reynolds number particulate flows
- CDL-IEM for the solution of the 2-D Navier-Stokes equations at small Reynolds number - via singular perturbation technique
- applications of boundary element methods in non-Newtonian fluid mechanics.
by "Nielsen BookData"