Computational Fluid Dynamics - Web Course (DVD)

Media Storage Type : DVD-ROM

NPTEL Course Name : Computational Fluid Dynamics

NPTEL Subject Matter Expert : Dr. K. M. Singh

NPTEL Co-ordinating Institute : IIT Roorkee

NPTEL Lecture Count : 40

Lecture Titles:

Lecture 1 - General Introduction: Historical Background and Spectrum of Applications
Lecture 2 - Numerical Simulation Process
Lecture 3 - Approximate Solution Techniques
Lecture 4 - Conservation Laws and Mathematical Preliminaries
Lecture 5 - Mass Conservation (Continuity Equation)
Lecture 6 - Conservation of Momentum (Newtonï¾’s Law and Cauchy Equation)
Lecture 7 - Navier-Stokes and Euler Equation
Lecture 8 - Energy Equation and Generalized Scalar Transport Equation
Lecture 9 - Mathematical Classification of PDEs
Lecture 10 - Boundary Conditions for Flow Problems
Lecture 11 - Finite Difference Methodology, Grid Notation and Terminology
Lecture 12 - Finite Difference Approximation of First Order Derivatives
Lecture 13 - Finite Difference Approximation of Second Order Derivatives
Lecture 14 - Multi-dimensional and Mixed Derivatives; Boundary Conditions
Lecture 15 - Applications of FDM to Scalar Transport Problems
Lecture 16 - Finite Volume Solution Process and FV Grids
Lecture 17 - Approximation of Surface and Volume Integrals
Lecture 18 - Interpolation Schemes
Lecture 19 - Application of FVM to Scalar Transport Problems
Lecture 20 - Finite Element Approximation and Weighted-residual Method
Lecture 21 - Variational Formulations
Lecture 22 - Shape Functions and Numerical Integration
Lecture 23 - Finite Element Analysis of Heat Conduction
Lecture 24 - Solution of Discrete Algebraic Systems
Lecture 25 - Direct and Basic Iterative Methods for Linear Systems
Lecture 26 - Accelerated Iterative Methods for Linear Systems
Lecture 27 - Two Level and Multi-Level Methods for First Order IVPs
Lecture 28 - Predictor-Corrector and Runge-Kutta Methods
Lecture 29 - Application to Unsteady Transport Problems
Lecture 30 - Classification of Grids and Grid Generation Process
Lecture 31 - Grid Generation Techniques
Lecture 32 - Special Features of Navier-Stokes Equations
Lecture 33 - Explicit and Implicit Time Integration Techniques
Lecture 34 - Implicit Pressure Correction Methods (Simple, Simpler...)
Lecture 35 - Fractional Step Methods
Lecture 36 - Features and Simulation Strategies
Lecture 37 - Reynolds Averaged Navier-Stokes Equations
Lecture 38 - RANS Turbulence Models
Lecture 39 - Large Eddy Simulation
Lecture 40 - Some Aspects of Real Life CFD Analysis