Abstract
In this work, the relevance of hydrodynamics, reactor geometry, and feeding policy on the performance of a hybrid fluidizedbedmembrane reactor for the Oxidative Coupling of Methane (OCM) is shown. For this purpose, several case studies are simulated in full 3D geometry under the same reaction conditions, but with different reactor geometries and feeding policies. These studies show the significance of hydrodynamic parameters for the reactor performance, and moreover, how reactor performance can be improved by a careful study of coupled momentummass transport reaction phenomena. Furthermore, it can be demonstrated that a suitable distributed feeding policy of oxygen provides a significant improved of yield compared to traditional reactor concepts.
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