Anderson, John David2025-10-301995978-0-07-001685-2https://gmitlibrary.net/handle/123456789/163Basic Philosophy of CFD.- 2 Governing Equations of Fluid Dynamics.- 3 Incompressible Inviscid source and vortex panel methods.- 4 Mathematical Properties of the Fluid Dynamic Equations.- 5 Discretization of Partial Differential Equations.- 6 Transformations and Grids.- 7 Explicit Finite Difference Some Selected Applications to Inviscid and Viscous Flows.- 2.- 8 Boundary Layer Equations and Methods of Solution.- 9 Implicit Time-Dependent Methods for Inviscid and Viscous Compressible Flows, With a Discussion of the Concept of Numerical Dissipation.- 10 Introduction to Finite Element Techniques in Computational Fluid Dynamics.- 11 Introduction to Finite Volume Techniques in Computational Fluid Dynamics.enmechanical engineerinFluid dynamics-data processingBookBasic Philosophy of CFD.- 2 Governing Equations of Fluid Dynamics.- 3 Incompressible Inviscid source and vortex panel methods.- 4 Mathematical Properties of the Fluid Dynamic Equations.- 5 Discretization of Partial Differential Equations.- 6 Transformations and Grids.- 7 Explicit Finite Difference Some Selected Applications to Inviscid and Viscous Flows.- 2.- 8 Boundary Layer Equations and Methods of Solution.- 9 Implicit Time-Dependent Methods for Inviscid and Viscous Compressible Flows, With a Discussion of the Concept of Numerical Dissipation.- 10 Introduction to Finite Element Techniques in Computational Fluid Dynamics.- 11 Introduction to Finite Volume Techniques in Computational Fluid Dynamics.