Lecture 1 - Review of governing equations: Conservation of mass
Lecture 2 - Review of governing equations: Conservation of momentum
Lecture 3 - Review of governing equations: Conservation of energy
Lecture 4 - Review of governing equations: Navier-Stokes equations and energy equation
Lecture 5 - Review of governing equations: General scalar transport equation
Lecture 6 - Review of governing equations: classification of PDEs
Lecture 7 - Overview of Numerical Methods: Finite Difference Method
Lecture 8 - Overview of Numerical Methods: Finite Volume Method
Lecture 9 - Overview of Numerical Methods: Solution of linear algebraic equations
Lecture 10 - Finite Volume Method for Diffusion Equation: Discretization of 1D diffusion equation
Lecture 11 - Finite Volume Method for Diffusion Equation: Discretization of 2D diffusion equation
Lecture 12 - Finite Volume Method for Diffusion Equation: Boundary conditions for 2D diffusion equation
Lecture 13 - Finite Volume Method for Diffusion Equation: Discretization of 3D diffusion equation, mixed boundary conditions
Lecture 14 - Finite Volume Method for Diffusion Equation: Tri-Diagonal Matrix Algorithm
Lecture 15 - Finite Volume Method for Diffusion Equation: Linearization of source term, line-by-line TDMA
Lecture 16 - Finite Volume Method for Diffusion Equation: Problem solving using TDMA
Lecture 17 - Finite Volume Method for Diffusion Equation: Problem solving using line-by-line TDMA
Lecture 18 - Finite Volume Method for Diffusion Equation: Steady diffusion in polar and axisymmetric coordinates
Lecture 19 - Finite Volume Method for Diffusion Equation: Discretization of unsteady diffusion equation
Lecture 20 - Finite Volume Method for Diffusion Equation: Unsteady diffusion time-stepping schemes
Lecture 21 - Finite Volume Method for Diffusion Equation: Unsteady diffusion time-stepping schemes and Truncation errors of the FV schemes
Lecture 22 - Finite Volume Method for Diffusion Equation: Truncation errors and stability analysis
Lecture 23 - Finite Volume Method for Diffusion Equation: Stability analysis and steady diffusion in unstructured meshes.
Lecture 24 - Finite Volume Method for Diffusion Equation: Steady diffusion in unstructured meshes - Part 1
Lecture 25 - Finite Volume Method for Diffusion Equation: Steady diffusion in unstructured meshes - Part 2
Lecture 26 - Finite Volume Method for Diffusion Equation: Steady diffusion in unstructured meshes - Part 3
Lecture 27 - Finite Volume Method for Diffusion Equation: Steady diffusion in unstructured meshes - Part 4
Lecture 28 - Finite Volume Method for Diffusion Equation: Steady diffusion in unstructured meshes - Part 5
Lecture 29 - Finite Volume Method for Convection and Diffusion: Discretization of steady convection equation
Lecture 30 - Finite Volume Method for Convection and Diffusion: Discretization of steady convection equation
Lecture 31 - Finite Volume Method for Convection and Diffusion: Discretization of steady and unsteady convection equation
Lecture 32 - Finite Volume Method for Convection and Diffusion: Discretization of unsteady convection equation
Lecture 33 - Finite Volume Method for Convection and Diffusion: Discretization of convection-diffusion equation on unstructured mesh
Lecture 34 - Finite Volume Method for Convection-diffusion and fluid flow calculations
Lecture 35 - Finite Volume Method for Fluid Flow Calculations: The staggered grid approach
Lecture 36 - Finite Volume Method for Fluid Flow Calculations: SIMPLE algorithm - Part 1
Lecture 37 - Finite Volume Method for Fluid Flow Calculations: SIMPLE algorithm - Part 2
Lecture 38 - Finite Volume Method for Fluid Flow Calculations: SIMPLE algorithm - Part 3
Lecture 39 - Finite Volume Method for Fluid Flow Calculations: SIMPLE-Revised and SIMPLE-Corrected algorithm
Lecture 40 - Finite Volume Method for Fluid Flow Calculations: SIMPLE algorithm for Colocated mesh - Part 1
Lecture 41 - Finite Volume Method for Fluid Flow Calculations: SIMPLE algorithm for Colocated mesh - Part 2
Lecture 42 - Finite Volume Method for Fluid Flow Calculations: SIMPLE-Colocated algorithm for Unstructured mesh