Experiments
1 Laminar Flow over a flat plate and determination of flow variables.
2 Turbulent Flow over a flat plate and determination of flow variables
3 Flow over an airfoil and computation of basic flow variables (velocities and pressure).
4 Computation of flow parameter in a Convergent & Convergent- Divergent nozzle using commercially available software.
5 Computation of Fluid Flow variables in a cascade of blades using commercially available software.
6 Computations of Flow variables in a compressor/turbine stage using commercially available software.
7 Experiment on One-dimensional heat conduction and computation of different parameters.
8 Computation of one dimensional conduction-convection mode of heat transfer using commercially available software.
9 Computation in a quasi-steady Rotor-Stator Interaction using commercially available software.
10 Computational Fluid dynamics in any one Industrial example relevant to aerospace propulsion technology using commercially available software.
11 Basic concepts and computation in multiphase flow in propulsion using commercially available software.
12 Computations of flow variables in combustion modeling in a gas turbine propulsion system using commercially available software.
Course outcomes:
At the end of the course the student will be able to:
1. Solve different flows such as laminar and turbulent flows.
2. Compute flow using commercially available softwares.
3. Conduct CFD experiments and compare the results from computations.