CFD Courses
Advanced Computational Fluid Dynamics training from fundamentals to industrial practices
Master numerical grid generation, Navier-Stokes solvers, turbulence modeling, and post-processing. Our curriculum focuses on hands-on simulations using industry-standard packages including ANSYS Fluent and OpenFOAM.
Fluid Dynamics Fundamentals
Deriving Navier-Stokes equations, understanding laminar vs. turbulent flows, and analyzing boundary layer theory.
Mesh Generation & Grid Quality
Creating structured, unstructured, and polyhedral meshes. Resolving boundary layer inflation layers and grid independence checks.
Discretization & Solvers
Applying Finite Volume Method, setting boundary conditions, and configuring pressure-velocity coupling schemes (SIMPLE, PISO).
Turbulence Modeling
Implementing RANS models (k-epsilon, k-omega SST), wall functions, and introduction to Large Eddy Simulations (LES).
Multiphase & Heat Transfer
Simulating free surfaces using Volume of Fluid (VOF) model, thermal conduction/convection, and fluid-structure interaction (FSI).
OpenFOAM & ANSYS Fluent Practice
Setting up dictionary control files, running parallelized HPC jobs, and processing field results using ParaView and CFD-Post.