EBOOK - Computational Fluid Dynamics for Engineers (Tuncer Cebeci & Jian P. Shao & Fassi Kafyeke)

Computational Fluid Dynamics for Engineers by Tuncer Cebeci, Jian P. Shao, Fassi Kafyeke serves as a unique advanced-undergraduate text that brings together Cebeci’s lifelong experience as a teacher at the University of California and a senior scientist for Boeing Company. Conservation equations for compressible and in compressible flows are the prime theme. This eBook concentrates on finite difference and finite volume methods and mostly treats two-dimensional flows, while it also keeps key arguments general enough to apply to the three-dimensional case as well. eBook also provides methods for solving model parabolic, elliptic and hyperbolic equations, and two chapters address boundary-layer equations. The treatment of the transition from laminar to turbulent flow makes use of the en method. Further topics are grid generation methods and extensive discussions of the Euler and the Navier-Stokes equations.


Table of Contents:

Part I
1. Basic Philosophy of CFD
2. Governing Equations of Fluid Dynamics
3. Incompressible Inviscid Flows: 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 Methods: Some Selected Applications to Inviscid and Viscous Flows
Part II
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 Methods in Computational Fluid Dynamics
11. Introduction to Finite Volume Methods in Computational Fluid Dynamics
Part III
12. Aspects of CFD Computations with Commercial Packages
Index.

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Computational Fluid Dynamics for Engineers by Tuncer Cebeci, Jian P. Shao, Fassi Kafyeke serves as a unique advanced-undergraduate text that brings together Cebeci’s lifelong experience as a teacher at the University of California and a senior scientist for Boeing Company. Conservation equations for compressible and in compressible flows are the prime theme. This eBook concentrates on finite difference and finite volume methods and mostly treats two-dimensional flows, while it also keeps key arguments general enough to apply to the three-dimensional case as well. eBook also provides methods for solving model parabolic, elliptic and hyperbolic equations, and two chapters address boundary-layer equations. The treatment of the transition from laminar to turbulent flow makes use of the en method. Further topics are grid generation methods and extensive discussions of the Euler and the Navier-Stokes equations.


Table of Contents:

Part I
1. Basic Philosophy of CFD
2. Governing Equations of Fluid Dynamics
3. Incompressible Inviscid Flows: 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 Methods: Some Selected Applications to Inviscid and Viscous Flows
Part II
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 Methods in Computational Fluid Dynamics
11. Introduction to Finite Volume Methods in Computational Fluid Dynamics
Part III
12. Aspects of CFD Computations with Commercial Packages
Index.

LINK DOWNLOAD

Chuyên mục: C. Bài giảng C. Bài giảng chuyên ngành Nhiệt Lạnh (Heat and Refrigeration) C. Bài giảng kỹ thuật