Numerical methods in the theory of convective heat and mass transfer
Abstract
The application of numerical methods to the study of twodimensional (plane and axisymmetric) stationary processes of convective heat and mass transfer is discussed, with attention given to mathematical modeling in curvilinear orthogonal coordinates. Equations of mass, momentum, and energy transfer are presented, as are rheological and thermodynamic equations of state and equations of chemical kinetics. Efficient difference schemes and iteration methods for solving these equations are described; a computer program in FORTRANIV for solving problems in convective heat and mass transfer in curvilinear orthogonal coordinates is presented.
 Publication:

NASA STI/Recon Technical Report A
 Pub Date:
 1984
 Bibcode:
 1984STIA...8615446B
 Keywords:

 Computational Fluid Dynamics;
 Convective Heat Transfer;
 Mass Transfer;
 Bernoulli Theorem;
 Boundary Value Problems;
 Computer Programs;
 Coordinates;
 Difference Equations;
 Fortran;
 Helmholtz Vorticity Equation;
 Mathematical Models;
 NavierStokes Equation;
 Orthogonal Functions;
 Reaction Kinetics;
 Two Dimensional Flow;
 Fluid Mechanics and Heat Transfer