Master fluid flow simulation, analysis, and real-world engineering applications
Comprehensive training in Computational Fluid Dynamics for real-world engineering applications
Computational Fluid Dynamics (CFD) is the science of predicting fluid flow, heat transfer, mass transfer, chemical reactions, and related phenomena by solving the mathematical equations that govern these processes using numerical methods.
Aerodynamic analysis, drag reduction, and flow optimization for aircraft and spacecraft components.
Vehicle aerodynamics, engine cooling analysis, and cabin airflow simulation.
Heat exchangers, HVAC systems, turbomachinery, and industrial fluid systems.
Build a strong foundation in CFD fundamentals and advanced techniques
Understand the core principles of fluid behaviorβviscosity, pressure, velocity fields, and the equations that govern fluid motion.
Learn the mathematical foundations β continuity, momentum, and energy equations that form the backbone of all CFD simulations.
Master structured, unstructured, and hybrid meshing strategies to create accurate simulation-ready grids for complex geometries.
Apply inlet, outlet, wall, symmetry, and periodic boundary conditions to accurately model real-world flow scenarios.
Explore pressure-based and density-based solvers, discretization schemes, and convergence strategies for reliable results.
Interpret simulation results using contour plots, streamlines, vector fields, and extract meaningful engineering insights.
Hands-on training with industry-standard CFD tools used by top companies worldwide
Industry-leading CFD solver for complex fluid flow simulations, turbulence modeling, and multiphysics analysis.
Integrated simulation platform for geometry creation, meshing, solving, and post-processing in a unified workflow environment.
Free, open-source CFD toolbox for advanced customizable simulations used in academia and research worldwide.
Essential MATLAB skills for data analysis, scripting, plotting, and automating CFD post-processing workflows.
A structured, step-by-step syllabus designed to take you from fundamentals to industry-ready expertise
Introduction to computational methods, governing equations, finite volume method, and the role of CFD in modern engineering.
Create and import CAD geometry, generate structured and unstructured meshes, mesh quality metrics, and refinement strategies.
Configure physics models, material properties, boundary conditions, initialization, and solution controls for accurate results.
Steady-state and transient simulations, convergence monitoring, mesh independence studies, and validation approaches.
Understand k-Ξ΅, k-Ο SST, LES, and DNS turbulence models, wall treatment, and selecting the right model for your application.
Apply your skills to industry-relevant problems including external aerodynamics, heat exchangers, and HVAC system optimization.
Work on real-world engineering problems that mirror industry challenges
Simulate subsonic and transonic airflow around NACA airfoil profiles. Analyze lift, drag coefficients, pressure distribution, and boundary layer behavior.
Model convective heat transfer in pipe flow. Study temperature profiles, Nusselt number correlation, and the effect of Reynolds number on heat exchange.
Perform external aerodynamic analysis on a car body. Evaluate drag coefficient, downforce, wake region, and design optimization for reduced drag.
Simulate air distribution in enclosed spaces. Optimize vent placement, temperature uniformity, airflow patterns, and thermal comfort parameters.
This course is designed for students and professionals looking to master CFD skills
B.E / B.Tech / M.Tech students wanting to specialize in thermal-fluid sciences and simulation.
Students aiming to work on flight dynamics, propulsion, and aerodynamic design using CFD tools.
Students looking for project guidance in CFD for their final year academic projects and research.
Engineers and professionals wanting to upskill in CFD for career advancement and job opportunities.
Experience the best CFD training with unmatched support and resources
Learn by doing β every concept is reinforced with practical exercises, live simulations, and guided lab sessions on real software.
Work on projects sourced from actual engineering challenges β build a portfolio that impresses recruiters and clients alike.
Get personalized guidance from experienced CFD professionals and IIT/NIT faculty with dedicated doubt-clearing sessions.
Our curriculum is designed to align with industry requirements β interview preparation, resume building, and placement support included.
Join hundreds of engineering students and professionals who have transformed their careers through our CFD training program.
π Call us: +91 80356 21225 | +91 82177 82626