Computational Fluid Dynamics With Moving BoundariesCRC Press, 01.10.1995 - 350 Seiten Presents developments in computational techniques pertaining to moving boundary problems in fluid dynamics. It describes several computational techniques which can be applied to a variety of problems in thermo-fluid physics, multi-phase flow, and applied mechanics which involve moving flow boundaries. The book demonstrates the application of a variety of techniques for the numerical solution of moving boundary problems within the framework of the finite-volume approach, with appropriate examples. |
Inhalt
Fluid Membrane | 61 |
Inextensible Membrane Case | 77 |
Enthalpy Formulation | 135 |
ELAFINTEulerianLagrangian | 195 |
Assessment of Fixed Grid Techniques | 249 |
261 | |
281 | |
Andere Ausgaben - Alle anzeigen
Computational Fluid Dynamics with Moving Boundaries Wei Shyy,H. S. Udaykumar,Madhukar M. Rao,Richard W. Smith Eingeschränkte Leseprobe - 2007 |
Computational Fluid Dynamics with Moving Boundaries Wei Shyy,H. S. Udaykumar,Madhukar M. Rao,Richard W. Smith Eingeschränkte Leseprobe - 2012 |
Computational Fluid Dynamics with Moving Boundaries Wei Shyy,H. S. Udaykumar,Madhukar M. Rao,Richard W. Smith Keine Leseprobe verfügbar - 2013 |
Häufige Begriffe und Wortgruppen
aeroelastic algorithm ampoule applied body-fitted boundary conditions Boussinesq approximation calculations Cartesian centerline Chapter control point control volume coordinates crystal curvature curve curvilinear coordinates defined deformed dendritic developed diffusion dimensionless effect ELAFINT enthalpy enthalpy formulation Eulerian methods Figure fixed grid float zone fluid flow flux free surface freestream velocity front front velocity governing equations gradient growth heat conduction heat transfer instability interaction interface location interface position interface shape interface tracking interfacial point Isotherms iteration Lagrangian latent heat length scale macroscopic Marangoni convection Marangoni number melt membrane wing meniscus merger momentum equations morphological moving boundary problems moving grid nondimensional normal obtained parameters phase change phenomena physical potential flow Prandtl number pressure procedure region segment shown in Fig Shyy simulation solidification process solution source term Stefan number surface tension T-Based method temperature field thermal transport Udaykumar update variable velocity components velocity scale Yeff Young-Laplace equation ду дх