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CFD Mentorship program: Batch1

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  1. Stage1: Introduction and Basics

    Some general instructions
  2. Week1 (Day 1 and 2): Introduction
    1 Topic
  3. Week2 (Day 1) : MATLAB - Part 1
  4. Week2 (Day2) : Fluid Dynamics essentials for CFD-Part2
  5. Week3 (Day1): Basic Mathematics
  6. Week3 (Day2): MATLAB Part 2
  7. Week 4 (Day1): MATLAB Part 3
  8. Week 4 (Day2): Thermodynamics part 1
  9. Week 5 (Day 1): MATLAB Part 4
  10. Week 5 (Day 2): Thermodynamics Part 2
  11. Week6 (Day1): MATLAB part5
  12. STAGE 2.1 CFD Fundamentals
    Week6 (Day2): Heat Transfer for CFD
  13. Week 7 (Day1): MATLAB Linear algebra
  14. Week 7 (Day2): CFD foundation 1 (Governing Eqn)
  15. Week 8 (Day 1): MATLAB- Final part6
  16. Week 8 ( Day2): CFD Foundation 2 (Governing equation and meshing)
  17. Week 9 (Day 1): MATLAB
  18. Week 9 (Day2): Governing Equation, Taylor series and FDM
  19. Week 10 (Day1): FDM part2
  20. Week 10 (Day2) : MATLAB
  21. Week 11 (Day1): FDM Part 3: Stability and Convergence Intro
  22. Week 11 (Day 2): Special Session : GridPro
  23. Week 12 (Day1): Python Programming
  24. Week 12 (Day2): Unsteady Problem: FDM
  25. Week 13 (Day1): Python Programming
  26. Week 13 (Day2): CFD Tools Introduction and SpaceClaim
  27. Week 14 (Day1): SpaceClaim Practice
  28. Week 14 (Day2): ANSYS Fluent Introduction
  29. Week 15 (Day1): OpenFOAM-part1
  30. Week 15 (Day2) : OpenFOAM-Part2
  31. Week 16 (Day1): OpenFOAM-Part3
  32. Week 16 (day2)- Cancelled
  33. Week 17 (day1)- Python
  34. Week 17 (day2)- Post Processing and preparing PPTs
  35. Week 18 (day1)- Python
  36. Week 18 (day2)- Introduction to FVM
  37. Week 19 (Day1)- Numerical Stability- Python
  38. Week19 (Day2): FVM - Source term linearization, boundary conditions
  39. Week 20 (day1): Career advice and discussion to select the topic for phase 3 (specialization)
  40. Week 20 (day2) : FVM, diffusion problem, hands-on
  41. Week 21 (day1): Special Session on LBM by SankyasutraLabs
  42. Week 21 (day2): FVM: Convection diffusion problem
  43. Week 22 (day1): Upwind Scheme
  44. Week 22 (day2): SIMPLE Algorithm
  45. Week 23 (day1): SIMPLE Algorithm Coding
  46. Week 23 (day2): SIMPLE Algorithm Coding Contd...
  47. Week 24: SIMPLE Algorithm coding_Final
  48. Week 25 (day1): Turbulence Introduction
  49. Week 25 (day2): Turbulence Modelling and Y+
  50. Week 26 (day1): Fluent meshing-Part1 (BOI)
  51. Week26 (day2): Fluent Meshing- Part 2
  52. Week 27 (day1) : Fluent 2D
  53. Week 27(day2): Fluent Transient
  54. Next 3 weeks: Compressible flow workshop (Watch the recordings as separate course)
  55. Week 28 (day1): Fluent Turbo-Part1
  56. Week 28 (day2)
  57. Week 29 (day1): Fluent Thermal
  58. Week 29 (day2): Fluent Multiphase
  59. Week 30(day1): OpenFOAM part1
  60. Week30(day2)- Wings to your future- Talk on career development
  61. Week31(day1)- OpenFOAM part2
  62. Week31(day2)- OpenFOAM part3
  63. Week32(day1)
Lesson 64 of 63
In Progress

Lesson 26: Mini Project Copy

This lesson is a mini project. While doing this project you can assess your ability to solve a new problem rather than doing it by looking at a tutorial video or tutorial document.

In the material section, there is a Journal paper attached. Please go through the paper and try to simulate the aerodynamics around a simplified car geometry which is well known as Ahmad Body. Try to compare the CD value which you get and what is there in the paper.

Steps you need to follow:
1. Prepare the CAD (Use SpaceClaim for it)
2. Mesh
3. Proper boundary conditions (Read the paper and find the best boundary conditions to apply)
4. Run the simulation (Use ANSYS Fluent)
5. Post process (Plot Velocity contours, Pressure, Y+ on the surface of the car, etc) and also compare CD

Project Report:
Prepare a detailed report using the assignment template and upload it here.

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