Effective answers to complex problems
Simulation based on Computational Fluid Dynamics (CFD), supported by appropriate theoretical knowledge, is a powerful tool capable of providing rapid answers and accurate results to designers, avoiding or minimizing the use of costly experimental tests.
Thermal-fluid dynamic optimization of products and processes can lead to significant benefits in terms of increased energy efficiency and performance.
CReAI deals with:
- Internal and external fluid dynamics
- Steady and transient analysis
- Analysis and optimization of fluid machinery (fans, pumps, compressors, turbines)
- HVAC systems
- thermal comfort estimation
- reduction of pressure losses
- optimization of air distribution
- estimation of CO2 concentration and of other contaminants that may reduce air quality
- Distribution systems for air or other fluids in industrial plants
- Optimization of existing machines
- Analysis and optimization of heat transfer
- Convection, conduction, radiation
- Solid/fluid conjugate heat transfer (CHT)
- Heat exchangers
- Filtration systems
- Cooling systems
- Cavitation
- Liquid and gas valves
- Multiphase flows
- Study of combustion problems and polluting emissions
- Simulation of fire scenarios
- Development of ad-hoc tools for design and analysis of industrial components through lumped parameters models or 1D/2D/3D modelling
- Research and development
