2nd ed. 1. Introduction -- 2. Conservation laws of fluid motion and boundary conditions -- 3. Turbulence and its modelling -- 4. The finite volume method for diffusion problems -- 5. The finite volume method for convection -- diffusion problems -- 6. Solution algorithms for pressure -- velocity coupling in steady flows -- 7. Solution of discretised equations -- 8. The finite volume method for unsteady flows -- 9. Implementation of boundary conditions -- 10. Errors and uncertainty in CFD modelling -- 11. Methods for dealing with complex geometries -- 12. CFD modelling of combustion -- 13. Numerical calculation of radiative heat transfer -- App. A. Accuracy of a flow simulation -- App. B. Non-uniform grids
CITATION STYLE
Katz, J. (2012). Introduction to Computational Fluid Dynamics. In Introductory Fluid Mechanics (pp. 324–342). Cambridge University Press. https://doi.org/10.1017/cbo9780511761348.011
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