Computational Fluid Dynamics
We provide end-to-end CFD solutions to help you analyze, optimize, and validate fluid flow and thermal performance across a wide range of engineering applications. Our approach combines accurate physics-based modeling with robust simulation practices to deliver reliable and actionable insights.
Accurate Results, Powered by Open-Source Engineering
Using OpenFOAM, we develop transparent and highly customizable simulation models that ensure accuracy, flexibility, and cost efficiency. Our validation-driven approach through convergence checks and mesh optimization ensures every result is dependable and engineering-ready.
Computational Mesh Generation
We develop high-quality 2D and 3D computational meshes using blockMesh and snappyHexMesh in OpenFOAM, ensuring numerical stability and solution accuracy for complex geometries.
CFD Model Setup
Our team configures complete simulation environments, including computational domains, boundary conditions, turbulence models, and solver settings to accurately capture real-world flow behavior.
External Aerodynamic Simulations
We perform detailed aerodynamic analysis to evaluate key parameters such as lift, drag, and wake characteristics using Reynolds-Averaged Navier–Stokes (RAS) turbulence models.
Thermal and Airflow Analysis
We simulate airflow and heat transfer in enclosed and OEM-packed systems, leveraging buoyancy-driven solvers to understand thermal performance and optimize design efficiency.
Physics-Based Post-Processing
We ensure solution reliability through convergence monitoring and validation of physical consistency, analyzing critical flow variables throughout the simulation process.
Engineering Result Evaluation
Key performance indicators are extracted, analyzed, and presented through plots and reports to support informed engineering decisions.
Visualization and Animation
Using ParaView, we deliver clear visualizations including velocity and pressure contours, streamlines, and particle tracking to help interpret flow behavior and communicate results effectively.