Computational fluid dynamics (CFD)
Computational Fluid Dynamics (CFD) is essential for the simulation and analysis of fluids in various industrial and research applications. At Kaplan Projects and Engineering, we offer advanced solutions in CFD to optimize design, improve performance, and solve complex problems related to fluid behavior.
Below, we present the specific services we provide in this area:
Incompressible flows
We simulate flows in which the fluid density is considered constant, ideal for the design of ventilation, cooling, and piping systems, where fluid stability and efficiency are crucial.
Compressible flows
We evaluate flows in which pressure and temperature variations affect the fluid density, using advanced models for applications in high-speed aerodynamics and industrial processes where precision in predicting compressible fluid behavior is required.
Heat transfer in fluids
We analyze heat transfer between fluids and surfaces to optimize the design of heat exchangers, cooling systems, and thermal processes, ensuring efficient heat management in industrial applications.
Multiphase flow simulation
We model flows involving multiple phases, such as liquids and gases or fluid mixtures, applicable to the chemical, oil processing, and pharmaceutical industries, where the interaction between different phases is essential for process design and optimization.
Aerodynamics
We study the behavior of air around objects, evaluating performance under complex flow conditions.
Hydrodynamics
We analyze the movement of fluids in aquatic contexts, exploring their performance and effective management of the aquatic environment.
