Solution Methods In Computational Fluid Dynamics
by T. H. Pulliam
Publisher: NASA 2005
Number of pages: 90
Implicit finite difference schemes for solving two dimensional and three dimensional Euler and Navier-Stokes equations will be addressed. The methods are demonstrated in fully vectorized codes for a CRAY type architecture. We shall concentrate on the Beam and Warming implicit approximate factorization algorithm in generalized coordinates.
Download or read it online for free here:
by Jean-Luc Thiffeault - arXiv
Mixing is relevant to many areas of science and engineering, including the pharmaceutical and food industries, oceanography, atmospheric sciences, etc. In all these situations one goal is to improve the degree of homogenisation of a substance.
by Mateusz Dyndal, Laurent Schoeffel - arXiv
There are many deep open questions that come with the theory of fluid mechanics. We discuss some of them that we classify in two categories, the long term behavior of solutions of equations of hydrodynamics and the definition of initial conditions.
by John V. Wehausen, Edmund V. Laitone - Springer
Since its first publication this article has been an inspirational resource for students and researchers in the various fields of science and engineering. This may be attributed to its encyclopedic scope and to the scholarly efforts of the authors.
by Garrelt Mellema - Leiden University
An introduction to the field of numerical hydrodynamics. It will give you some insight in what is involved in such calculations. Numerical hydrodynamics is used in many parts of astrophysics. The applications we consider in this exercise are stellar.