Computational Fluid Dynamics Video Lectures

Computational Fluid Dynamics

Computational Fluid Dynamics - (Mechanical Engineering course from IIT Kharagpur) NPTEL Lecture Videos by Prof. S. Chakraborty from IIT Kharagpur. Click on any Lecture link to view that video. These videos are provided by NPTEL e-learning initiative.

'Computational Fluid Dynamics' Video Lectures by Prof. S. Chakraborty from IIT Kharagpur

"Computational Fluid Dynamics" - Video Lectures
1. Introduction to Computational Fluid Dynamics and Principles of Conservation
2. Conservation of Mass and Momentum: Continuity and Navier Stokes Equation
3. Navier Stokes Equation (Contd.)
4. Energy Equation and General Structure of Conservation Equations
5. Classification of Partial Differential Equations and Physical Behaviour
6. Classification of Partial Differential Equations and Physical Behaviour (Contd.)
7. Approximate Solutions of Differential Equations: Error Minimization Principles
8. Approximate Solutions of Differential Equations: Variational Principles and Weighted Residual Approach
9. Weighted Residual Approach and Introduction to Discretization
10. Fundamentals of Discretization: Finite Element Method
11. Fundamentals of Discretization: Finite Difference and Finite Volume Method
12. Fundamentals of Discretization: Finite Volume Method (Contd.)
13. Finite Volume Method: Some Conceptual Basics and Illustrations through 1-D Steady State Diffusion Problems
14. Finite Volume Method: Boundary Condition Implementation and Discretization of Unsteady State Problems
15. Finite Volume Method: Discretization of Unsteady State Problems
16. Important Consequences of Discretization of Unsteady State Problems
17. Important Consequences of Discretization of Time Dependent Diffusion Type Problems (Contd.) and Stability Analysis
18. Discretization of Hyperbolic Equations: Stability Analysis
19. PART 1 : Stability of Second Order Hyperbolic Equations PART 2 : Mid-Semester Assessment Review (Questions and Answers)
20. PART 1: Mid-Semester Assessment Review (Questions and Answers) (Contd.) PART 2: Finite Volume Discretization of 2-D Unsteady State Diffusion Type
21. Solution of Systems of Linear Algebraic Equations
22. Solution of Systems of Linear Algebraic Equations: Elimination Methods
23. Solution of Systems of Linear Algebraic Equations: Elimination Methods (Contd.)
24. Elimination Methods: Error Analysis
25. Iterative Methods for Numerical Solution of Systems of Linear Algebraic Equations
26. Iterative Methods for Numerical Solution of Systems of Linear Algebraic Equations (Contd.)
27. Iterative Methods: Further Examples
28. PART 1: Combination of Iteration & Elimination Techniques PART 2: Introduction to Gradient Search Methods
29. Gradient Search Methods (Contd.)
30. Discretization of Convection-Diffusion Equations: A Finite Volume Approach
31. Discretization of Convection-Diffusion Equations: A Finite Volume Approach (Contd.)
32. Discretization of Convection- Diffusion Equations: A Finite Volume Approach (Contd.)
33. Discretization of Convection -Diffusion Equations: A Finite Volume Approach (Contd.)
34. Discretization of Convection-Diffusion Equations: A Finite Volume Approach ( Contd.)
35. Discretization of Navier Stokes Equations
36. Discretization of Navier Stokes Equations ( Contd.)
37. Discretization of Navier Stokes Equations ( Contd. )
38. PART 1 : Discretization of Navier Stokes Equations (Contd.) PART 2 : Fundamentals of Unstructured Grid Formulation
39. Unstructured Grid Formulation (Contd.)
40. What is there in implementing a CFD Code
41. Introduction to Turbulence Modeling
42. Introduction to Turbulence Modeling (Contd.)
43. End Semester Questions Review

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