Computational Fluid Dynamics

Computational Fluid Dynamics

Our Computational Fluid Dynamics (CFD) services deliver advanced simulation solutions to analyze and optimize fluid flow, heat transfer, and related physical phenomena in engineering systems. By applying the principles of fluid mechanics, thermodynamics, and numerical analysis, we help clients predict product performance, enhance efficiency, and solve complex flow-related challenges without relying solely on physical testing.

Using high-fidelity CFD simulations, we can model airflow over vehicles, cooling performance in electronics, turbulence in pipelines, mixing in process industries, and even aerodynamic efficiency in aerospace applications. These insights enable better decision-making, faster innovation, and reduced development costs.

Industries We Serve

We provide CFD services to a diverse range of industries:

  • Automotive: Aerodynamic drag reduction, thermal management, underhood airflow, and HVAC performance.

  • Aerospace: Lift and drag prediction, wing aerodynamics, propulsion system flow optimization.

  • Marine & Offshore: Hull hydrodynamics, propeller performance, wave resistance, and ballast system design.

  • Oil & Gas: Pipeline flow assurance, multiphase flow simulation, flare stack analysis.

  • Renewable Energy: Wind turbine blade aerodynamics, solar panel cooling optimization.

  • Electronics: Heat sink performance, fan cooling, and thermal stress prediction.

  • Process & Chemical Industries: Mixing efficiency, reactor performance, dust and particulate flow control.

  • HVAC & Building Services: Ventilation design, smoke dispersion, and indoor air quality optimization.

CFD Capabilities

Our simulation expertise covers a wide range of CFD applications:

  • External and internal aerodynamics

  • Steady and transient flow analysis

  • Thermal and heat transfer simulations

  • Turbulence modeling (RANS, LES, DES)

  • Multiphase flow (liquid-gas, gas-solid, liquid-solid)

  • Combustion and chemical reaction modeling

  • Flow-induced vibration analysis

  • Fluid-structure interaction (FSI)

  • Optimization for energy efficiency and performance enhancement

Software & Tools We Use

We utilize globally recognized CFD tools, including:

  • ANSYS Fluent & CFX – For multiphysics and advanced turbulence modeling.

  • STAR-CCM+ – For integrated aerodynamics, thermal, and multiphase studies.

  • OpenFOAM – For open-source flexibility in custom CFD projects.

  • SimScale – For cloud-based simulations and rapid iterations.

  • COMSOL Multiphysics – For coupled flow, heat, and structural simulations.

Our Approach to CFD Projects

  • Requirement Analysis: Understanding your system, objectives, and performance targets.

  • Geometry Preparation: Importing and refining CAD models for CFD readiness.

  • Meshing: Creating high-quality meshes to capture flow details accurately.

  • Boundary Condition Setup: Applying realistic inlet, outlet, and environmental conditions.

  • Simulation Runs: Using validated models to analyze steady-state or transient behavior.

  • Results Interpretation: Translating simulation outputs into actionable design improvements.

  • Reporting & Recommendations: Delivering detailed reports with engineering insights.