Modelling of a Simulated Moving Bed in case of non-ideal hydrodynamics

The one-dimensional hydrodynamic model proposed by Gomes et al. (2015) is coupled with adsorption and validated by comparing the concentration profiles of the one-dimensional model with those given by the CFD model of one adsorption column including obstacles as distribution network and beams. This...

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Bibliographic Details
Published in:Chemical engineering science 2016-10, Vol.153, p.188-198
Main Authors: Fangueiro Gomes, L., Augier, F., Leinekugel-le-Cocq, D., Vinkovic, I., Simoëns, S.
Format: Article
Language:English
Subjects:
1D modelling
Adsorption
CFD
Chemical and Process Engineering
Engineering Sciences
Fluid mechanics
Mechanics
Physics
Reactive fluid environment
Simulated Moving Bed
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Summary:The one-dimensional hydrodynamic model proposed by Gomes et al. (2015) is coupled with adsorption and validated by comparing the concentration profiles of the one-dimensional model with those given by the CFD model of one adsorption column including obstacles as distribution network and beams. This one-dimensional model is capable of predicting the CFD results for different mass transfer rates, while the traditional dispersed plug flow (DPF) model is relevant for slow mass transfer rates only. The model proposed by Gomes et al. (2015) is capable of reproducing the adsorber Residence Time Distribution (RTD) while dissociating the selective zones from the non-selective ones. It is based on the CFD techniques developed by Liu and Tilton (2010) and Liu (2012) that transport the moments of the fluid age distribution and consequently calculate the degree of mixing (Danckwerts, 1958; Zwietering, 1959). Then, this new model is integrated in a cyclic solver in order to perform Simulated Moving Bed (SMB) studies. The new model provides a detailed hydrodynamic description, which appears to be mandatory especially when mass transfer exchanges are fast, without undergoing the prohibitive simulation times of CFD models. •A 1D “multi-entrance multi-exit” model is developed to simulate adsorption processes.•The model is more relevant than a Dispersive Plug Flow for fast mass transfer rates.•It is successfully implemented in a cyclic Simulated Moving Bed Solver.
ISSN:0009-2509
1873-4405
DOI:10.1016/j.ces.2016.07.027