Modules / Lectures
Module NameDownloadDescriptionDownload Size
Module 1- Introduction to CFD approachCFD Assignment1CFD Assignment1102 kb
Module 1- Introduction to CFD approach- Part 2CFD Assignment2CFD Assignment2321 kb
Module 2- Equations Governing Fluid Flow - Part 1CFD_Assignment3CFD_Assignment3180 kb
Module 2- Equations Governing Fluid Flow - Part 2CFD_Assignment4CFD_Assignment4165 kb
Module 3- Basics of CFD: Part 1- Finite Difference MethodsCFD_Assignment5CFD_Assignment5486 kb
Module 3- Basics of CFD: Part 2- Analysis of Discretized EquationsCFD_Assignment6CFD_Assignment692 kb
Module 4 -Solution of Navier-Stokes Equations- Part 1CFD_Assignment7CFD_Assignment7151 kb
Module 4 -Solution of Navier-Stokes Equations- Part 2CFD_Assignment8CFD_Assignment843 kb
Module 5- Solution of linear algebraic equation- Part 1: Basic MethodsCFD_Assignment9CFD_Assignment947 kb
Module 5- Solution of linear algebraic equation- Part 2: Advanced MethodsCFD_Assignment10CFD_Assignment10378 kb
Module 6- Basics of finite volume method including grid generation - Part -1CFD_Assignment11CFD_Assignment1146 kb
Module 6 - Issues in practical problems - Part 2: Turbulent flowsCFD_Assignment12CFD_Assignment1245 kb


New Assignments
Module NameDownload
noc19_ch04_Assignment10noc19_ch04_Assignment10
noc19_ch04_Assignment11noc19_ch04_Assignment11
noc19_ch04_Assignment12noc19_ch04_Assignment12
noc19_ch04_Assignment13noc19_ch04_Assignment13
noc19_ch04_Assignment2noc19_ch04_Assignment2
noc19_ch04_Assignment3noc19_ch04_Assignment3
noc19_ch04_Assignment4noc19_ch04_Assignment4
noc19_ch04_Assignment5noc19_ch04_Assignment5
noc19_ch04_Assignment6noc19_ch04_Assignment6
noc19_ch04_Assignment7noc19_ch04_Assignment7
noc19_ch04_Assignment8noc19_ch04_Assignment8
noc19_ch04_Assignment9noc19_ch04_Assignment9
Module NameDownloadDescriptionDownload Size
Module 1- Introduction to CFD approachQP SET 2QP SET 2372 kb
Module 1- Introduction to CFD approachQP SET 1QP SET 1357 kb


Sl.No Chapter Name MP4 Download
1Lesson 1- MotivationDownload
2Lesson 2- Flow in a rectangular duct: Problem formulationDownload
3Lesson 3- Flow in a rectangular duct: Discretiztion of flow domainDownload
4Lesson 4- Tutorial 1: Converting PDE to algebraic equation using FD approximationDownload
5Lesson 5- Tutorial 1 contd.: Solution for algebraic equations using Gauss- Seidel MethodDownload
6Lesson 6- Flow in a triangular duct: Problem formulationDownload
7Lesson 7- Flow in a triangular duct: Discretiztion of flow domainDownload
8Lesson 8- Tutorial 2: Converting PDE to algebraic equation using Finite Volume methodDownload
9Lesson 9- Tutorial 2 contd.: Description of FV method and solution using G-S MethodDownload
10Lesson 10- Effect of grid spacing & upcoming course outlineDownload
11Lesson 11- Mass conservation equationsDownload
12Lesson 12- Momentum conservation equationsDownload
13Lesson 13- Forces acting on control volumeDownload
14Lesson 14- Kinematics of deformation in fluid flowDownload
15Lesson 15- Equations governing fluid flow in incompressible fluidDownload
16Lesson 16- Navier-Stokes equation for simple cases of flowDownload
17Lesson 17- Energy conservation equationsDownload
18Lesson 18- Practical cases of fluid flow with heat transfer in CFD point of viewDownload
19Lesson 19- Practical cases of fluid flow with mass transfer in CFD point of viewDownload
20Lesson 20- Equations governing fluid flow with chemical reactionsDownload
21Lesson 21- Concept of wellposedness of mathematical problemsDownload
22Lesson 22- Introduction to finite difference methodsDownload
23Lesson 23- Finite difference approximation on an uniform meshDownload
24Lesson 24- Higher order and mixed derivativesDownload
25Lesson 25- Solution of Poisson equation in rectangular duct- TurorialDownload
26Lesson 26- Discretization of time domainDownload
27Lesson 27- FD approx. on a non-uniform mesh and need of analysis of obtained discretizationDownload
28Lesson 28- Need for the analysis of discretized equationDownload
29Lesson 29- Properties of Numerical Schemes: Accuracy, Conservation property, Boundedness, Consistency, Stability and ConvergenceDownload
30Lesson 30- Properties of Numerical Schemes: Stability analysisDownload
31Lesson 31- Tutorial on Stability AnalysisDownload
32Lesson 32- Analysis of Generic 1-d scalar transport equationDownload
33Introduction to the solution of coupled N-S equationsDownload
34N-S equation in compressible flow- Mac Cormack SchemeDownload
35Stability limits of Mac-Cormack Scheme and the intro to Beam-Warming SchemeDownload
36Implicit Beam-Warming Scheme Download
37Compressible flow to Incompressible flowDownload
38Lesson 38 - Solution of coupled equations: Incompressible flowDownload
39Lesson 39 - Artificial compressiblity method, Stream function-vorticity methodDownload
40Lesson 40 - Pressure equation method, Staggered grid systemDownload
41Lesson 41 - Pressure Correction MethodDownload
42Lesson 42 - Tutorial on Pressure Correction MethodDownload
43Lesson 43 - Tutorial on Pressure Correction Method contd.Download
44Lesson 44 - Introduction to the basic numerical methodsDownload
45Lesson 45 - Direct Methods: solution of the system of algebraic equationsDownload
46Lesson 46 - Tri-diagonal Matrix Algorithm: DerivationDownload
47Lesson 47 - TDMA and other iterative methodsDownload
48Lesson 48 - Recap of basic iterative methods.Download
49Lesson 49 - Convergence analysis of basic iterative methodsDownload
50Lesson 50 - Successive Over Relaxation (SOR) methodDownload
51Lesson 51 - Alternating Direction Implicit (ADI) methodDownload
52Lesson 52 - Strongly Implicit Procedure (ILU) methodDownload
53Lesson 53 - Multigrid methodDownload
54Lesson 54 - Body Fitted Grid ApproachDownload
55Lesson 55 - Formulation Of Finite Volume MethodDownload
56Lesson 56 - Methods For Unstructured Grid GenerationDownload
57Lesson 57- Triangulation: The Advancing Front MethodDownload
58Lesson 58 - The Advancing Front Method continuationDownload
59Lesson 59 -Time and length scale of turbulanceDownload
60Lesson 60 -The turbulent closure problemDownload
61Lesson 61 -The generic formulation for turbulenceDownload
62Lesson 62 -More generic formulation and summaryDownload

Sl.No Chapter Name English
1Lesson 1- MotivationDownload
Verified
2Lesson 2- Flow in a rectangular duct: Problem formulationDownload
Verified
3Lesson 3- Flow in a rectangular duct: Discretiztion of flow domainDownload
Verified
4Lesson 4- Tutorial 1: Converting PDE to algebraic equation using FD approximationDownload
Verified
5Lesson 5- Tutorial 1 contd.: Solution for algebraic equations using Gauss- Seidel MethodDownload
Verified
6Lesson 6- Flow in a triangular duct: Problem formulationDownload
Verified
7Lesson 7- Flow in a triangular duct: Discretiztion of flow domainDownload
Verified
8Lesson 8- Tutorial 2: Converting PDE to algebraic equation using Finite Volume methodDownload
Verified
9Lesson 9- Tutorial 2 contd.: Description of FV method and solution using G-S MethodPDF unavailable
10Lesson 10- Effect of grid spacing & upcoming course outlinePDF unavailable
11Lesson 11- Mass conservation equationsPDF unavailable
12Lesson 12- Momentum conservation equationsPDF unavailable
13Lesson 13- Forces acting on control volumePDF unavailable
14Lesson 14- Kinematics of deformation in fluid flowPDF unavailable
15Lesson 15- Equations governing fluid flow in incompressible fluidPDF unavailable
16Lesson 16- Navier-Stokes equation for simple cases of flowPDF unavailable
17Lesson 17- Energy conservation equationsPDF unavailable
18Lesson 18- Practical cases of fluid flow with heat transfer in CFD point of viewPDF unavailable
19Lesson 19- Practical cases of fluid flow with mass transfer in CFD point of viewPDF unavailable
20Lesson 20- Equations governing fluid flow with chemical reactionsPDF unavailable
21Lesson 21- Concept of wellposedness of mathematical problemsPDF unavailable
22Lesson 22- Introduction to finite difference methodsPDF unavailable
23Lesson 23- Finite difference approximation on an uniform meshPDF unavailable
24Lesson 24- Higher order and mixed derivativesPDF unavailable
25Lesson 25- Solution of Poisson equation in rectangular duct- TurorialPDF unavailable
26Lesson 26- Discretization of time domainPDF unavailable
27Lesson 27- FD approx. on a non-uniform mesh and need of analysis of obtained discretizationPDF unavailable
28Lesson 28- Need for the analysis of discretized equationPDF unavailable
29Lesson 29- Properties of Numerical Schemes: Accuracy, Conservation property, Boundedness, Consistency, Stability and ConvergencePDF unavailable
30Lesson 30- Properties of Numerical Schemes: Stability analysisPDF unavailable
31Lesson 31- Tutorial on Stability AnalysisPDF unavailable
32Lesson 32- Analysis of Generic 1-d scalar transport equationPDF unavailable
33Introduction to the solution of coupled N-S equationsPDF unavailable
34N-S equation in compressible flow- Mac Cormack SchemePDF unavailable
35Stability limits of Mac-Cormack Scheme and the intro to Beam-Warming SchemePDF unavailable
36Implicit Beam-Warming Scheme PDF unavailable
37Compressible flow to Incompressible flowPDF unavailable
38Lesson 38 - Solution of coupled equations: Incompressible flowPDF unavailable
39Lesson 39 - Artificial compressiblity method, Stream function-vorticity methodPDF unavailable
40Lesson 40 - Pressure equation method, Staggered grid systemPDF unavailable
41Lesson 41 - Pressure Correction MethodPDF unavailable
42Lesson 42 - Tutorial on Pressure Correction MethodPDF unavailable
43Lesson 43 - Tutorial on Pressure Correction Method contd.PDF unavailable
44Lesson 44 - Introduction to the basic numerical methodsPDF unavailable
45Lesson 45 - Direct Methods: solution of the system of algebraic equationsPDF unavailable
46Lesson 46 - Tri-diagonal Matrix Algorithm: DerivationPDF unavailable
47Lesson 47 - TDMA and other iterative methodsPDF unavailable
48Lesson 48 - Recap of basic iterative methods.PDF unavailable
49Lesson 49 - Convergence analysis of basic iterative methodsPDF unavailable
50Lesson 50 - Successive Over Relaxation (SOR) methodPDF unavailable
51Lesson 51 - Alternating Direction Implicit (ADI) methodPDF unavailable
52Lesson 52 - Strongly Implicit Procedure (ILU) methodPDF unavailable
53Lesson 53 - Multigrid methodPDF unavailable
54Lesson 54 - Body Fitted Grid ApproachPDF unavailable
55Lesson 55 - Formulation Of Finite Volume MethodPDF unavailable
56Lesson 56 - Methods For Unstructured Grid GenerationPDF unavailable
57Lesson 57- Triangulation: The Advancing Front MethodPDF unavailable
58Lesson 58 - The Advancing Front Method continuationPDF unavailable
59Lesson 59 -Time and length scale of turbulancePDF unavailable
60Lesson 60 -The turbulent closure problemPDF unavailable
61Lesson 61 -The generic formulation for turbulencePDF unavailable
62Lesson 62 -More generic formulation and summaryPDF unavailable


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2BengaliNot Available
3GujaratiNot Available
4HindiNot Available
5KannadaNot Available
6MalayalamNot Available
7MarathiNot Available
8TamilNot Available
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