Applications of CFD using Computational Tool-Simulia

Teacher

Dr.Ashok Misra

Category

Core Courses

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Course Name : Applications of CFD using Computational Tool-Simulia

Code(Credit) : CUTM1529(0+2+2)

Course Objectives

  • To produce a CFD simulation in order to generate an exact picture of a particular flow problem in various engineering fields.
  • To apply for resolving different fluid flow related problems like flow velocity, density, temperature, and chemical concentrations for any area where flow is present.

Course Outcome

 

COs

Course outcomes

Mapping Cos with POs (High-3, Medium-2, Low-1)

CO3

To apply CFD simulation in various industries in order to achieve flawless product designs using computational tools.

 

PO5(2), PO9(2)

CO5

To apply CFD simulation in various industries in order to achieve flawless product designs using computational tools.

 

PO5(2), PO9(2)

Course Syllabus

Practice: 2Hrs.

Project: 4Hrs.

Practice 1. Getting Started with the 3DExperience Platform.

Practice 2. CFD analysis of steady state internal Laminar Pipe flow.

Project 1. Analysis of pipe flow at Re= 500.

Practice 3. CFD analysis Steady-state external flow over an Airfoil.

Project 2. Estimation of Drag and lift coefficients in flat plate at Re=10,000.

Practice 4. Grid Independence study for above cases (pipe / airfoil) using different solver schemes.

Project 3. Flow analysis over a circular cylinder at Re=107.

Practice 5. Conjugate Heat Transfer (CHT) Analysis of an Electronics Module.

Project 4. Temperature analysis through cross flow heat exchanger.

Practice 6. Aerodynamics analysis of DS Car.

Practice 7. Unsteady Flow across a Circular Cylinder.

Practice 8. Transonic Flow over an Airfoil

Project 5. Varying radius and height of sphere inside the rectangular domain.

Practice 9. Turbulent analysis for Ahmed body.

Practice 10. Cavitating Flow through a Narrowing Pipe.

Project 6. Analysis of compressible flow of nozzle at nozzle exit.

Practice 11. Flow Analysis in the turbine blade.

Practice 12. Post processing results for above studies.

Session Plan

Sessions 1 & 2

Practice 1. Getting Started with the 3DExperience Platform.

Sessions 3 & 4

Practice 2. CFD analysis of steady state internal Laminar Pipe flow.

Sessions 5 - 8

Project 1. Analysis of pipe flow at Re= 500.

Sessions 9 & 10

Practice 3. CFD analysis Steady-state external flow over an Airfoil.

Sessions 11-14

Project 2. Estimation of Drag and lift coefficients in flat plate at Re=10,000.

Sessions 15 & 16

Practice 4. Grid Independence study for above cases (pipe / airfoil) using different solver schemes.

Sessions 17-20

Project 3. Flow analysis over a circular cylinder at Re=107.

Sessions 21 & 22

Practice 5. Conjugate Heat Transfer (CHT) Analysis of an Electronics Module.

Sessions 23-26

Project 4. Temperature analysis through cross flow heat exchanger.

Sessions 27 & 28

Practice 6. Aerodynamics analysis of DS Car.

Sessions 29 & 30

Practice 7. Unsteady Flow across a Circular Cylinder.

Sessions 31 & 32

Practice 8. Transonic Flow over an Airfoil.

Sessions 33-36

Project 5. Varying radius and height of sphere inside the rectangular domain.

Sessions 37 & 38

Practice 9. Turbulent analysis for Ahmed body.

Sessions 39 & 40

Practice 10. Cavitating Flow through a Narrowing Pipe.

Sessions 41-44

Project 6. Analysis of compressible flow of nozzle at nozzle exit.

Sessions 45 & 46

Practice 11. Flow Analysis in the Turbine Blade.

Sessions 47 & 48

Practice 12. Post processing results for above studies.

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