Computational Fluid Dynamics (CFD)

Fermi Spectra is an engineering consultancy services company and specializing in advanced Computational Fluid Dynamics (CFD). Our collaborative consulting business model delivers the CFD simulation services for clients to create robust designs, faster and more reliably without distractions to their current development process. CFD is a branch of fluid mechanics used to analyze the problems of air and liquids. CFD modeling is widely used to simulate the gas or liquid flows and their interaction with wall surfaces. CFD results are used to validate the design, Performance prediction, lesser lead time, DOE in the system design, Neat and clean postprocessing capabilities.

Computational Fluid Dynamics - Consultancy

• Pre-processor: CFX, ANSA, ICEM CFD, TGrid
• Solvers: Fluent, CFX, AcuSolve
• Post-processor: CFX Post, CFD Post

Capabilities – Computational Fluid Dynamics (CFD)

• Steady state and transient state flow modelling.
• Heat transfer on different flows.
• Fluid structure interaction.
• Temperature pattern for reactive fluids.
• Natural / Forced convection.

Fermispectra gives you more understandings on

• Pressure, Velocity and Temperature contours.
• Drag prediction through wind tunnel case studies, Pressure and velocity distribution on vehicles.
• Performance predication and optimization of vehicle bodies.
• Disc brake or conventional brake drum cooling.
• Data center air flow management, temperature, pressure and velocity distribution.
• Hot and cold spot identification, Comparative study between baseline and new design flow pattern and parameters.
• Flow conditions on transient to steady state, Aerodynamics study, Passenger comforts in cabin and HVAC.
• Wind effects on structures, Flow parameter changes in the fluid line. Buoyancy or sloshing effect on fluid tanks.
• Flow problem diagnostics, condenser heat transfer, Turbulence studies.
• External aerodynamics, HVAC and acoustics characters.
• Performance assessment of pumps.
• Industrial fan performance assessment and design optimization.
• Design and shape optimization of wind mill blades.
• Performance assessment of mixing blades, Flow and velocity distribution pattern.
• Design optimization of blades and tank.
• Thermal performance assessment of radiators.
• Shell and tube heat exchangers design assessment.
• Steam condensing system design assessment.