Simulation Areas

Permeability

Optimizing pressure drops and mass flow rates in nozzles, pipes and valves.

Conventional Fuels, e-Fuels, Bio-Fuels

Optimizing combustion efficiency, combustion system design and engine calibration

Heat transfer and thermal management

Estimating and optimizing thermal behavior of several electromechanical and electronic parts

Spray

Managing mixture formation in the combustion chamber, optimizing cooling/coating of surfaces.

Sloshing

Predicting liquid motion in tanks and holders to prevent damages and undesired loads

Aerodynamics

Reducing drag and friction of air on surfaces, managing heat exchange and wind forces

Churning losses

Evaluating energy dissipations in gearboxes due to flow splashing and sloshing

Lubrication

Ensuring lubrication and cooling under all load conditions of rotating/sliding parts

Pollutants

Minimizing pollutant formation as an undesired combustion/process product and their dispersion in the environment

Electrical characteristics

Mimicking the behavior of electric devices in terms of Joule heating and charge/discharge performance

Erosion/Soiling

Managing interactions and effects of dispersed particles with  internal/external surfaces

Fouling

Preventing fouling formation on injectors, sensors, coolers, etc.

High Rheology

Accelerating rheology material design processes while minimizing energy and raw material demands (i.e. polymers, concrete, ice-cream, sauces, etc.)

Cavitation

Preventing damages to turbines, pumps, valves, propellers and nozzles.

De-icing

Managing the ice accretion and reduction over surfaces and in tanks

Noise

Reducing flow induced noise in ducts, pipes, valves and nozzles.