Structural engineering
Computational Fluid Dynamics (CFD)
Computational Fluid Dynamics (CFD) is a well-established and commonly used mathematical method for simulating flow phenomena for gases and liquids in various of applications.
We use modern tools and high-performance computing environments in our simulations to provide fast delivery and both high accuracy and high resolution. CFD enables virtual prototyping early in the design process providing valuable insight and detailed information which enables reaching sustainable goals more efficiently, faster design process as well as significant potential for economical savings.
We offer a wide range of CFD simulation services for various applications.
You can find more examples of our CFD projects HERE.
CFD simulations are typically used in the following applications:
Indoor Environment Analysis
- Temperature distribution and thermal comfort (draught risk) in complex and large indoor environments
- Operation and efficiency of HVAC systems and components
- Air handling and mixing of air
- Contaminant dispersion and control
Wind Engineering
- Wind comfort
- Wind loads
- Air pollution dispersion
Water Engineering
- Flow analysis of water bodies, rivers and dams
- Flow analysis of powerplants and spillways
- Flow analysis of harbors and canals
Industrial applications
- Pressure loss and flow patterns
- Multiphase flows
- Heat transfer
- Process simulations
- Rotating machines
- Particle simulations
Building physical simulations
- Ventilation of structures
- Moisture and heat transfer
Eero Kokkonen
Department Manager, Chief CFD EngineerEero Kokkonen
Department Manager, Chief CFD Engineer