Lecture 1 - Historical Perspectives and Introduction to the Course
Lecture 2 - Finite Difference Method - Basic Idea of Discretization
Lecture 3 - Explicit and Implicit Formulations, Stability Analysis - Part 1
Lecture 4 - Stability Analysis - Part 2
Lecture 5 - Important Aspects of Flow Modelling - Part 1
Lecture 6 - Important Aspects of Flow Modelling - Part 2
Lecture 7 - Important Aspects of Flow Modelling - Part 3
Lecture 8 - Applications of Our Knowledge to a Problem of Practical Interest and Setting up an Algorithm
Lecture 9 - Finite Volume Method - Part 1
Lecture 10 - Finite Volume Method - Part 2
Lecture 11 - Finite Volume Method - Part 3
Lecture 12 - Introduction to Finite Element Method (Preliminary Concepts)
Lecture 13 - Introduction to Finite Elelment Method (Galerkin Weighted Residual Method)
Lecture 14 - Introduction to Finite element Method (Elemental contributions and formation of Global Matrix)
Lecture 15 - Vorticity Stream Function Approach (Formulation and Algorithm)
Lecture 16 - Vorticity-Stream Function Approach For Solving Navier-Stokes Equations
Lecture 17 - Solving Navier-Stokes Equations For Incompressible Flows using SIMPLE Algorithm - Part 1
Lecture 18 - Solving Navier-Stokes Equations For Incompressible Flows using SIMPLE Algorithm - Part 2
Lecture 19 - Solving Navier-Stokes Equations For Incompressible Flows using MAC Algorithm - Part 2
Lecture 20 - MAC Algorithm (Pressure - Velocity Iteration and the Solution)
Lecture 21 - MAC Algorithm (Solution of Energy Equation)
Lecture 22 - A Finite Volume Method to solve NS Equations in 3D Complex Geometry - Part 1
Lecture 23 - A Finite Volume Method to solve NS Equations in 3D Complex Geometry - Part 2
Lecture 24 - A Finite Volume Method to solve NS Equations in 3D Complex Geometry - Part 3
Lecture 25 - Mathematical Approaches to Turbulent Flows (Preliminaries and Modeling Framework)
Lecture 26 - Mathematical Approaches to Turbulent Flows (Modeling on the basis of RANS)