In multiphase flow analysis simulations, Computational Fluid Dynamics (CFD) is used to accurately predict the simultaneous interaction of more than one combination of phases that can be gases, solids or fluids. Multiple phase flows have this inherent additional phase’s complexity and CFD analysis has a significant advantage when it comes to simulating and optimising these flow systems.
Multiple phase flow analysis is very common in industry and TriVista has performed many multiphase analyses across a wide range of applications such as:
- Particle or droplet transport (e.g. nozzle sprays or fluid flows with solid or gas contaminants.)
- Free surface flows (e.g. tank mixing, sloshing, waves or open channel flows.)
- Combusting & reacting flows (e.g. non-reacting or reacting flows such as burner combustion).
TriVista uses the ANSYS CFD leading multiphase modelling software with many multiphase models to suit the relevant simulation phase mixture and also various flow physics capabilities, for example: buoyancy, reacting and non-reacting flows, phase or state changes, hydrodynamics, mixing flows, open channel flows, sprays, cavitation and fluid waves.
CFD enables the visualisation of the phase flow paths and the interaction between phases for improved understanding of multiple phase flow phenomena. TriVista is a leading provider of CFD services and our engineering team has supported clients in modelling multiphase flows across a wide range of industrial fields for instance: process plants, power generation, oil and gas, subsea systems, marine, defence, water treatment, medical equipment, domestic appliances and automotive fields.
Our CFD software tools are well integrated with our FE analysis and engineering design tools to enable us to provide a more comprehensive service or a multi-physics analysis capability if required.
If you would like to know more please feel free to call or email (contact details below). Our friendly experienced engineers will be happy to advise you, without obligation. Alternatively, you may prefer to use our simple enquiry form.