CFD Flow Modeling - Solve Real World Problems of Engineering Industries

CFD stands for Computational Fluid Dynamics. The CFD flow modeling services are an advanced technique, by the help of which; it is being possible to measure and evaluate the various aspects such as velocity, temperature, species concentration and pressure of the fluid flow. Thereby, it helps in building an optimized design prior to the prototype phase of the project.

In CFD modeling process, the non-linear stokes equations that govern the fluid flow are numerically solved, using various advanced software such as FLUENT; on high speed computers. The basic principle of CFD modeling is that the simulated flow region is divided into small cells within each of which, the flow is either kept constant or varies smoothly.

The various application areas of the CFD Flow Modeling services are as follows:

• Wind loading on structures during hurricanes.
• Dispersion of cloud containers in a two phase mixture of dense gas and droplets from accidental chemical releases.
• Re-entrainment of toxic releases from building vents.
• Ventilation of train exhausts in tunnels.
• Recirculation of mechanical draft cooling tower exhausts.
• Dispersion of pollutants within industrial complexes.
• Evaluation of design parameters of the green buildings.

In the CFD flow modeling services, the momentum, mass balance and heat equations along with various other models, which describe the equipment performance, are taken as input and various information’s such as temperature profile, equipment size and velocity profile etc, are extracted as output.

A wide range of industries including the aerodynamics industry, chemical industry, combustion processes industry, oil and gas industries, transportation industries, wind energy developers and waste water treatment agencies are availing the CFD modeling services. Architects and constructional engineers are also making use of CFD analysis in their projects. See CFD Services

The advantages of CFD Flow Modeling Services are as follows:

• It is possible to overcome the traditional restrictions in flow analysis.
• The fluid flow problems are visualized and solved with utmost accuracy.
• This is an advanced application for both single and multi-phase flows.
• It becomes easier to investigate some of the difficult to measure variables of the fluid flow.