Hypersonic Tech Solution offers general CFD, aerodynamics and fluid dynamics training. A thorough knowledge of application is essential in engineering design & fluid dynamics. Hence, Aerodynamics CFD training is focused on the theoretical, numerical background and standard best practices to adopt when conducting CFD and optimization studies.
This Aerodynamic CFD training is focused on airfoil design for aircraft shape design. At our Institute we are committed to use the commercial CFD software but we are also highly proficient in the use of well-known CFD/CAE tools.
Whether you require general training using a given tool, or if you are looking to expand your knowledge and competences in CFD, aerodynamics, fluid dynamics, and optimization, Hypersonic Tech solutions has the know-how to help you achieve your goals.If you are looking for Aerodynamics CFD Design course in Pune then you have come to the right place, Get more information about
What will you learn?
Airfoil nomenclature, Lift, Drag and moment coefficients, Airfoil data, Infinite and finite wings, Pressure coefficient, Compressibility correction for lift coefficient, Critical Mach number and critical pressure coefficients, Drag divergence mach number, Wave drag at supersonic speeds, summary of airfoil drag, calculation of induced drag, change in lift slope, swept wings and Mechanisms for higher lift.
Navier-Stokes equations and its simplified forms, discussion on their physical meaning. Basic aspects of discretization schemes, 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, discretization 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 modeling, Wall functions.
- Geometry generation for CFD applications.
- CFD Mesh Generation and quality assessment.
- Turbulence modeling.
- External aerodynamics (incompressible and compressible).
- Multiphase flows.
- Fluid-Structure interaction.
- CFD lifecycle automation.
- Optimization.
- B.E. Mechanical/ Aeronautics/ Production/ Automotive Graduate.
- Mechanical/ Aeronautics/ Production Engineering students.
- Diploma students.
- Working professional.
- Awards: Certification in Aerostructure Design.
- 1 to 6 months.