Showing posts with label A. (subjects)-Engineering & Physical Sciences-Mechanical Engineering-Computational Fluid Dynamics. Show all posts
Showing posts with label A. (subjects)-Engineering & Physical Sciences-Mechanical Engineering-Computational Fluid Dynamics. Show all posts

2016-10-31

Suman Chakraborty: Computational Fluid Dynamics (IIT Kharagpur)

# playlist of the 43 videos (click the up-left corner of the video)

source: nptelhrd     2012年2月21日
Mechanical - Computational Fluid Dynamics by Dr. Suman Chakraborty, Department of Mechanical & Engineering, IIT Kharagpur. For more details on NPTEL visit http://nptel.iitm.ac.in

01 Introduction to Computational Fluid Dynamics and Principles of Conservation 58:20
02 Conservation of Mass and Momentum: Continuity and Navier Stokes Equation 59:04
03 Navier Stokes Equation (Contd.) 56:41
04 Energy Equation and General Structure of Conservation Equations 58:36
05 Classification of Partial Differential Equations and Physical Behaviour 57:01
06 Classification of Partial Differential Equations and Physical Behaviour (Contd.) 58:36
07 Approximate Solutions of Differential Equations: Error Minimization Principles 58:45
08 Approximate Solutions of Differential Equations: Variational Principles 59:22
09 Weighted Residual Approach and Introduction to Discretization 58:54
10 Fundamentals of Discretization: Finite Element Method 56:59
11 Fundamentals of Discretization: Finite Difference and Finite Volume Method 57:57
12 Fundamentals of Discretization: Finite Volume Method (Contd.) 58:27
13 Finite Volume Method:Some Concept Basics 56:04
14 Finite Volume Method: Boundary Condition Implementation 58:30
15 Finite Volume Method:Discretization of Unsteady State Problems 55:53
16 Important Consequences of Discretization of Unsteady State Problems 54:07
17 Important Consequences of Discretization of Time Dependent Diffusion 1:00:30
18 Discretization of Hyperbolic Equations: Stability Analysis 56:35
19 PART1:Stability of Second Order Hyperbolic Equations 57:23
20 PART 1: Mid-Semester Assessment Review (Questions and Answers) (Contd.) 58:25
21 Solution of Systems of Linear Algebraic Equations 58:40
22 Solution of Systems of Linear Algebraic Equations: Elimination Methods 57:57
23 Solution of Systems of Linear Algebraic Equations: Elimination Methods (Contd.) 59:12
24 Elimination Methods: Error Analysis 58:58
25 Iterative Methods for Numerical Solution of Systems of Linear Algebraic Equations 58:00
26 Iterative Methods for Numerical Solution of Systems of Linear Algebraic Equations 55:36
27 Iterative Methods: Further Examples 58:48
28 PART1:Combination of Iteration & Elimination Techniques 57:52
29 Gradient Search Methods (Contd.) 57:51
30 Discretization of Convection-Diffusion Equations: A Finite Volume Approach 57:58
31 Discretization of Convection-Diffusion Equations: A Finite Volume Approach (Contd.) 58:27
32 Discretization of Convection- Diffusion Equations: A Finite Volume Approach (Contd.) 58:51
33 Discretization of Convection -Diffusion Equations: A Finite Volume Approach (Contd.) 58:44
34 Discretization of Convection-Diffusion Equations: A Finite Volume Approach ( Contd.) 57:55
35 Discretization of Navier Stokes Equations 59:34
36 Discretization of Navier Stokes Equations ( Contd.) 1:00:27
37 Discretization of Navier Stokes Equations ( Contd. ) 57:59
38 PART 1 : Discretization of Navier Stokes Equations (Contd.) PART 2 : Fundamentals 59:03
39 Unstructured Grid Formulation (Contd.) 58:33
40 What is there in implementing a CFD Code 56:31
41 Introduction to Turbulence Modeling 58:31
42 Introduction to Turbulence Modeling (Contd.) 58:47
43 End Semester Questions Review 58:11
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2016-08-30

K. M. Singh: Computational Fluid Dynamics (IIT Roorkee)

# playlist of the 43 videos (click the up-left corner of the video)

source: nptelhrd     2014年4月2日
Mechanical - Computational Fluid Dynamics by Dr. K. M. Singh, Department of Mechanical Engineering, IIT Roorkee. For more details on NPTEL visit http://nptel.ac.in

Mod-01 Lec-01 General Introduction: Historical Background and Spectrum of Applications 54:48
Mod-01 Lec-02 CFD: Simulation Process and Course Outline 45:46
Mod-02 Lec-01 Conservation Laws and Mathematical Preliminaries 46:42
Mod-02 Lec-02 Mass Conservation: Continuity Equation 1:03:20
Mod-02 Lec-03 Momentum Equation: Newton's 2nd Law 49:43
Mod-02 Lec-04 Momentum Equation: Navier-Stokes Equations 52:10
Mod-02 Lec-05 Navier-Stokes Equation and its Simplified Forms 38:08
Mod-02 Lec-06 Energy and Scalar Transport Equations 45:20
Mod-02 Lec-07 Scalar Transport, Mathematical Classification and Boundary Conditions 52:57
Mod-03 Lec-01 Finite Difference Method: Methodology and Grid Notation 49:32
Mod-03 Lec-02 Finite Difference Approximation of First Order Derivatives 1:01:09
Mod-03 Lec-03 Finite Difference Approximation of Second Order Derivatives 53:50
Mod-03 Lec-04 Finite Difference Approximation of Second Order Derivatives-2 52:04
Mod-03 Lec-05 Approximation of Mixed Derivatives and Multi-Dimensional F.D. Formulae 54:35
Mod-03 Lec-06 Implementation of Boundary Conditions and Finite Difference Algebraic System 48:25
Mod-03 Lec-07 Applications of FDM to Scalar Transport Problems-1 43:24
Mod-03 Lec-08 Applications of FDM to Scalar Transport Problems-2 50:59
Mod-03 Lec-09 Application of FDM to Advection-Diffusion and Computer Implementation Aspects 56:17
Mod-03 Lec-10 Computer Implementation of FDM for Steady State Heat Diffusion Problems 50:22
Mod-03 Lec-11 Computer Implementation of FDM for Steady State Heat Diffusion Problems -2 49:29
Mod-03 Lec-12 Computer Implementation of FDM for Steady State Heat Diffusion Problems -3 45:24
Mod-04 Lec-01 Solution of Discrete Algebraic Systems 54:09
Mod-04 Lec-02 Direct and Basic Iterative Methods for Linear Systems 56:12
Mod-04 Lec-03 Accelerated Iterative Methods for Linear Systems 1:05:10
Mod-05 Lec-01 Two Level and Multi-Level Methods for First Order IVPs 52:45
Mod-05 Lec-02 Two Level and Multi-Level Methods for First Order IVPs-2 51:39
Mod-05 Lec-03 Application to Unsteady Transport Problems 42:11
Mod-06 Lec-01 Introduction to Finite Volume Method 51:16
Mod-06 Lec-02 Finite Volume Interpolation Schemes 51:53
Mod-06 Lec-03 Application of FVM to Scalar Transport 55:08
Mod-07 Lec-01 Introduction to Finite Element Method 1:00:20
Mod-07 Lec-02 Finite Element Shape Functions and Numerical Integration 48:00
Mod-07 Lec-03 Finite Element Shape Functions and Numerical Integration-2 1:01:06
Mod-07 Lec-04 Application of FEM to Scalar Transport 56:34
Mod-08 Lec-01 Special Features of Navier-Stokes Equations 57:44
Mod-08 Lec-02 Time Integration Techniques for Navier-Stokes Equations 47:53
Mod-08 Lec-03 Implicit Pressure Correction Methods  43:26
Mod-08 Lec-04 SIMPLEC, SIMPLER and Fractional Step Methods 49:12
Mod-09 Lec-01 Turbulent Flows: Features and Simulation Strategies 1:03:46
Mod-09 Lec-02 Reynolds Averaging and RANS Simulation Models 46:33
Mod-09 Lec-03 RANS Turbulence Models and Large Eddy Simulation 50:03
Mod-10 Lec-01 Introduction to Grid Generation 51:00
Mod-10 Lec-02 Aspects of Practical CFD Analysis 51:45
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