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CT&F - Ciencia, Tecnología y Futuro
Print version ISSN 0122-5383On-line version ISSN 2382-4581
Abstract
LOPEZ-MONTOYA, Tatiana; BUSTAMANTE, Carlos-Andrés; NIETO-LONDONO, César and GOMEZ-VELASQUEZ, Natalia. COMPUTATIONAL STUDY OF PARTICLE DISTRIBUTION DEVELOPMENT IN A COLD-FLOW LABORATORY SCALE DOWNER REACTOR. C.T.F Cienc. Tecnol. Futuro [online]. 2021, vol.11, n.1, pp.33-46. Epub Sep 28, 2021. ISSN 0122-5383. https://doi.org/10.29047/01225383.172.
The use of downer reactors (gas-solid co-current downward flow) in the Fluid Catalytic cracking (FCC) process for the upgrading of heavy crude oil into more valuable products has gradually become more common in the last decades. This kind of reactor is characterized by having homogeneous axial and radial flow structures, no back mixing, and shorter residence times as compared with the riser reactor type. Although downer reactors were introduced a long time ago, available information in literature about the multiphase hydrodynamic behavior at FCC industrial scale is scarce. Therefore, it is necessary to conduct experimental and computational studies to enhance the understanding of the hydrodynamics of two-phase co-current downward flow. The Computational Fluids Dynamics (CFD) software, Ansys Fluent, is used to study two-dimensional gas (air) and solid (catalyst particle) flow in a downer section of a cold-flow circulation fluidized bed (CFB) system at laboratory scale. The implemented computational model is validated by comparing numerical results for solid velocity and volume fraction with measurements carried out on a CFB system using a fiber-optic probe laser velocimeter. According to numerical results obtained for different gas velocity and solid flux, flow development cannot only be estimated by considering solid axial velocity changes along the reactor; it is also necessary to take into account solid volume fraction axial variations as radial profiles can change even when velocity profiles are developed.
Keywords : Downer reactor; FCC; Two-phase flow; CFD; Flow development.