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CFD Simulations

Predict. Optimize. Innovate. (Before building anything).

Leverage advanced Computational Fluid Dynamics simulations to design smarter, reduce testing costs, and accelerate product development.

Our CFD simulations help you understand fluid flow, heat transfer, and related phenomena to optimize your designs for performance and efficiency.

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Fluid Flow

  • Advanced simulation of laminar, transitional, and turbulent flow regimes in complex geometries.
  • Velocity field analysis to optimize flow distribution, reduce pressure losses, and eliminate recirculation zones.
  • External and internal flow modeling for aerodynamic drag reduction and system efficiency improvements.
  • Applications: Piping networks, ventilation ducts, aerodynamic bodies, valve systems, and fluid distribution manifolds.
Fluid Flow

Heat Transfer

  • Comprehensive thermal analysis including conduction, convection, and radiation heat transfer mechanisms.
  • Conjugate heat transfer simulation to accurately predict temperature distribution in solid-fluid systems.
  • Transient thermal modeling to evaluate heating and cooling cycles, thermal inertia, and response times.
  • Applications: Thermal management systems, insulation design, process heating/cooling equipment, and temperature-sensitive components.
Heat Transfer

Multiphase Analysis

  • Simulation of gas-liquid, liquid-liquid, and gas-solid flows using advanced multiphase modeling techniques.
  • Phase separation, mixing, and interface tracking for complex industrial processes.
  • Boiling, condensation, and evaporation phenomena in thermal systems.
  • Applications: Separators, reactors, steam systems, oil-water flow, spray processes, and cavitation analysis.
Multiphase Analysis

Aero & Hydrodynamics

  • High-fidelity aerodynamic analysis for drag reduction, lift optimization, and stability assessment.
  • Hydrodynamic modeling of marine structures, offshore platforms, and water flow systems.
  • Wave loading, current effects, and fluid-structure interaction in maritime applications.
  • Applications: Vehicle aerodynamics, aircraft components, wind turbine blades, marine vessels, and offshore structures.
Aero & Hydrodynamics

Battery & Electronics Cooling

  • Thermal management design for battery packs, power electronics, and high-heat-density components.
  • Optimization of cooling strategies including air cooling, liquid cooling, and phase-change materials.
  • Hotspot identification and thermal uniformity analysis to prevent overheating and extend component life.
  • Applications: EV battery systems, data centers, power converters, LED lighting, and consumer electronics.
Battery & Electronics Cooling

Mixing Analysis

  • Simulation of fluid mixing, blending, and homogenization in stirred vessels and static mixers.
  • Species transport modeling to track concentration distributions and reaction progress.
  • Optimization of mixer geometry, impeller design, and operating conditions for improved efficiency.
  • Applications: Chemical reactors, mixing tanks, inline mixers, pharmaceutical processing, and water treatment systems.
Mixing Analysis

HVAC & Ventilation Systems

  • Airflow distribution analysis to ensure comfort, air quality, and energy efficiency in buildings.
  • Temperature stratification and contaminant dispersion modeling for occupied spaces.
  • Optimization of duct routing, diffuser placement, and system balancing to meet design specifications.
  • Applications: Commercial buildings, cleanrooms, industrial facilities, data centers, and residential HVAC systems.
HVAC & Ventilation Systems

Pump & Turbomachinery Analysis

  • Performance prediction of pumps, compressors, turbines, and fans across operating conditions.
  • Internal flow analysis to identify losses, optimize blade geometry, and improve efficiency.
  • Cavitation prediction and mitigation in pumps and hydraulic systems.
  • Applications: Centrifugal and axial pumps, gas turbines, wind turbines, compressors, and hydraulic machinery.
Pump & Turbomachinery Analysis

Heat Exchanger Design

  • Thermal and hydraulic design optimization for shell-and-tube, plate, and finned heat exchangers.
  • Performance evaluation including effectiveness, pressure drop, and fouling considerations.
  • Flow distribution analysis to ensure uniform heat transfer and prevent bypassing or dead zones.
  • Applications: Process heat recovery, HVAC equipment, power generation, refrigeration systems, and chemical processing.
Heat Exchanger Design

Why choose us?

Industry experience

Trusted by companies in aerospace, automotive, heavy industry, and energy.

Optimization focus

We don't just validate – we enhance performance and reduce weight.

Action-driven results

Receive clear recommendations and data-backed guidance for design improvement.