This case study demonstrates how Computational Fluid Dynamics (CFD) was applied to analyze the performance of an esterification reactor under its existing configuration. The simulations provided detailed insights into fluid flow patterns, particle trajectories, mixing efficiency, and circulation behavior within the reactor. Special attention was given to evaluating circulation time distribution (CTD) and residence time distribution (RTD)—two critical parameters that directly influence reaction efficiency and product yield.
By visualizing these complex flow phenomena, engineers were able to identify key performance limitations and assess how reactor operation could be improved. The findings offer valuable guidance for design refinement and process optimization in esterification systems. Explore the complete case study to learn how CFD unlocked deeper insights into reactor behavior.
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