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Turbocharger Simulation

In this project, you will be cleaning up the geometry and setting up the case in converge CFD software. And then running the various cases for different pressure ratios to capture the flow physics correctly.

  • Mechanical Engineering
  • Automotive Engineering
  • Materials Engineering
  • Aerospace Engineering
duration
Duration :

1 month

projectfees
Project Fees :

INR 30,000

Benefits of this Project

In this project, you will be cleaning up the geometry and setting up the case in converge CFD software. And then running the various cases for different pressure ratios to capture the flow physics correctly.

What will you do in this project?

Step 1 - Geometry cleanup and case setup in Converge Studio

Step 2 - Mesh generation

Step 3 - Apply Boundary Conditions and Run the Simulation

In this project, you will work on a Turbocharger and run the simulation. You will do the following in this project,

  • Surface cleanup and setting up the case
  • Run the case in parallel using CYGWIN 
  • Line plotting and visualizing the results in PARAVIEW.
  • Plotting meaningful plots in MS - EXCEL

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Project Highlights

The project is an advanced level project

Pre-requisites

Work with Multiple Tools

showcase

Turbocharger Simulation

In this project, you will be cleaning up the geometry and setting up the case in Converge Studio by providing appropriate boundary conditions.You will get exposed to very strong features of fixed embedding, volume refinement, boundary layer generation which are really important as it gives user, a very good control on the cell count and cell count can easily be optimized using these features. You will be implementing the Fluid Structure Interaction (FSI) model in this project.  Finally, you will be running the simulation in parallel to analyze the results and you will be much more interested in capturing the flow physics correctly i.e when an impeller starts to rotate, pressure and velocity contours. You will be making use MS - EXCEL to create meaningful plots like Torque generated to rotate a turbine wheel, Angular velocity of the turbine wheel, cell count variation etc. Also, you will be doing few pen and paper calculations to calculate the end time of the simulation required to reach steady state.