Course Duration in Hours
60
Course Category
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Course Details
Syllabus:
Computational Fluid Dynamics (CFD)
Navier Stokes equations and its simplified forms,
Discussion on their physical meaning.
Basic aspects of discretisation schemes,
Finite difference methods and finite volume methods. Application of finite volume methods to simple equations like one dimensional steady state conduction equation and there by demonstrating how a CFD software works,
Impact of grid size on accuracy of results,
solution matrix etc.
Stability,
Convergence and consistency,
CFL condition.
Pressure correction techniques (Simple and simpler algorithms),
Compressible and incompressible solvers,
Detailed explanation of all types of boundary conditions and their importance in CFD analysis,
Discretionary techniques like upwind methods(First order and second order),
Quick methods and Power law.
Relaxation parameters.
Structured and unstructured grids,
Mesh quality parameters and their impact on numerical solution.
Reynolds averaged Navier Stokes (RANS) equations, K-epsilon model,
Spalart allmaras model, near wall flow modelling,
Wall functions.
Gas Dynamics, Fluid Dynamics and Aerodynamics
Fluid Dynamics
Aerodynamics
Aircraft propulsion and Gas Turbine Engines
Engineering aspects of heat transfer
Projects on CFD analysis
Upcoming Class
- March 24, 2025 7:19 pm - May 3, 2025 7:19 pm Add to Google Calendar Add to iCalendar
- April 7, 2025 7:19 pm - May 17, 2025 7:19 pm Add to Google Calendar Add to iCalendar
