Computational Fluid Dynamics Services
Computational Fluid Dynamics (CFD) utilizes numerical methods and data structures to analyze and solve problems that involve fluid flow, heat transfer, and mass transfer. Due to the development of efficient numerical schemes, powerful software packages, and advancement in computing power, CFD analysis is widely applied in a variety of industries.
CFD is an alternative to reduce the number of physical tests performed in the design process. Powerful CFD software is sought out for three reasons. First, it can be implemented early for a quick assessment of design variations. Second, it allows designers to examine any location in the region of interest. Third, it is more cost-effective than experiments to get essential engineering data.
In addition to the points above, many flows and heat transfer processes cannot be easily tested experimentally. In these situations, fluid dynamics software is the only solution for designers.
Analysis:
ENA2 engineers’ extensive knowledge of Computational fluid dynamics, coupled with state-of-the-art Dassault Systèmes fluid dynamics technology and multi-disciplinary experience, give us the tools to solve a wide range of engineering problems. Check out the type of analysis you are interested in and contact us to talk to our specialist.
Single-Phase Flow
The flow of a single fluid as a gas or liquid is observed in plenty of applications, e.g., the movement of air over airplanes & cars, and water through pipes & junctions.
Multi-Phase Flow
The motion of gas bubbles in a liquid, and oil drops in water are examples of multiphase flows where two or more fluids are separated by distinct interfaces.
Non-Newtonian Fluid Flow
The non-Newtonian fluids are those with inconstant viscosity either under force or over time, e.g., toothpaste, egg white, and ketchup.​
Flow in Porous Media
Any material containing void spaces such as rocks and soil, or any objects with very fine gaps such as radiators and grills are considered as porous zones.
Aeroacoustics
Aeroacoustics is a branch of acoustics that studies noise generation via either turbulent flows or aerodynamic forces interacting with surfaces.
Heat and Mass Transfer
The transport of heat or mass from one point to another through a medium is one of the main subjects of transport phenomena.