Finitedifference techniques for vectorized fluid dynamics calculations
Abstract
A series of finitedifference techniques developed recently for the numerical solution of fluid equations are discussed along with applications for which they have been developed. In particular, consideration is given to computational techniques for solution of convective equations, fluxcorrected transport, efficient time integration schemes for atmosphere and ocean models, and a onedimensional Lagrangian code for nearly incompressible flow. The discussion also covers twodimensional Lagrangian fluid dynamics using triangular grids, solution of elliptic equations, and vectorization of fluid codes.
 Publication:

New York and Berlin
 Pub Date:
 1981
 Bibcode:
 1981bsv..book.....B
 Keywords:

 Computational Fluid Dynamics;
 Computer Techniques;
 Finite Difference Theory;
 Flow Equations;
 Vector Analysis;
 Atmospheric Models;
 Computer Programs;
 Convective Flow;
 Elliptic Differential Equations;
 Error Correcting Codes;
 Euler Equations Of Motion;
 Incompressible Flow;
 Lagrange Coordinates;
 Ocean Models;
 One Dimensional Flow;
 Time Marching;
 Transport Theory;
 Two Dimensional Flow;
 Fluid Mechanics and Heat Transfer