Dheya has a rich CFD expertise in handling extremely complex fluid flow and Multiphysics problems and has a proven track record of providing in time and cost-effective solutions
Using the latest CFD flow techniques, Dheya has the ability to provide in depth engineering analysis of complex fluid flows, including detailed flow characteristics like velocity, pressure, turbulence and temperature. Dheya also has the capability to model and solve combustion, convection, conduction, radiation, heat transfer and multiphase flow problems.
Our CFD capabilities include:
- Steady state internal/external fluid flow analysis
- Thermal analysis
- Natural convention
- Forced Convection
- Convection, diffusion and radiation
- Transient flow and thermal analysis
- Different types of heat exchangers
- Multiphase flow analysis
- Two or more fluid mixing analysis
- Solid and fluid flow analysis
- Mixing, solid handling, separation and trajectory of droplets or solids etc
- Species Mixing and transport
- Flow analysis in Turbomachinery
- Turbines, pumps, compressors etc
- Optimise the model towards the efficiency
- Flow analysis in Electronic Thermal management
- Cooling of equipment like transformers, Computers and microcircuits
- Optimise the fan locations and fins design
- Flow analysis in HVAC (heat ventilation and cooling)
- Design of ducts, channels and Filters
- External flow analysis
- External flow over the body of a vehicle, blunt body and Aeroplane
- Design Exploration and Optimization
- Study the parametric analysis
- Optimise the component to get effective utilisation
- Environmental Engineering
- External and internal environment of buildings
- wind loading, Investigating the effects of fire and smoke, distribution of pollutants and effluents in air or water
- Flow analysis in Porous media
- Optimise the pressure drop in the different air, oil and fuel filters
- Dust holding phenomenon for the different filters
- Flow analysis for Automobile components
- Intake and exhaust manifold
- Under hood thermal analysis
- Hydraulics and Pneumatics
- Pressure vessels analysis
- Different valve flow analysis
- Complete piping analysis
- Rotating equipment and sliding bodies
- Multiple reference frames, rotating and sliding interfaces
- Deformation of mesh
- Fluid structure Interaction (FSI)
- Thermal-structural, fluid-thermal, and fluid-structural interactions