We offer, Computational Fluid Dynamics (CFD) services to solve various analyses related challenges faced by industries during the product development. Our Approach to problem solving is unique, that starts with proper understanding of physics of the problem and preparing a right solution stratergy. Benchmarking with available analytical or experimental data, validation of results are indispensable part of CFD simulation process. We are committed to provide accurate and reliable results.
CFD models can solve fluid flow problems and calculate the variation in velocity and pressure throughout the fluid volume. The applications include complex physics like combustion, multi phase, detailed turbulence, aeroacoustics, and coupling with other physics solvers.
Heat transfer analysis is one of the areas, where CFD can be used to solve the problems involving conduction, convection, and radiation. It helps in calculating the heat transfer coefficients of various types of flows, including natural, forced, and mixed convection. Also, more complicated heat transfer effects like viscous heating, compressibility, real material models, and phase change, evaporation, cavitation, and boiling can be included
CFD helps in modeling and analysis of turbo-machinery to determine various associated performance characteristics. The rotating frame of reference formulation of the Navier-Stokes equations are used to include the motion of rotating components like rotors, impellers, and mixers. Dynamic mesh models have the capabilities to solve transient & Fluid Structure Interaction (FSI) problems.
By coupling the flow field and chemistry, many complex real world reactions/combustion problems can be solved. It can predict the evolution of chemical species in real geometries, and provide better understanding of the combustion process.