Modeling of regeneration stage of 3A and 4A zeolite molecular sieves in TSA process used for dewatering of aliphatic alcohols

•Bench-scale column test of wet zeolite bed regeneration stage in TSA process.•Mechanisms of bed regeneration are: drying of adsorbent and bound water desorption.•Mathematical model of simultaneous steps: solution evaporation and water desorption.•Parametric analysis of the operating conditions infl...

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Bibliographic Details
Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2018-04, Vol.337, p.416-427
Main Authors: Gabruś, Elżbieta, Witkiewicz, Konrad, Nastaj, Józef
Format: Article
Language:English
Subjects:
Bound water desorption
Mathematical modeling
Parametric analysis
TSA process
Unbound solution evaporation
Zeolites regeneration
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Summary:•Bench-scale column test of wet zeolite bed regeneration stage in TSA process.•Mechanisms of bed regeneration are: drying of adsorbent and bound water desorption.•Mathematical model of simultaneous steps: solution evaporation and water desorption.•Parametric analysis of the operating conditions influence on regeneration efficiency. The objective of this work is modeling and experimental studies on the thermal regeneration of the 3A and 4A zeolite molecular sieves used for dewatering of liquid aliphatic alcohols: ethanol, propanol and butanol in temperature swing adsorption (TSA) process. Tests were carried out on a zeolite adsorbent fixed bed of 1270 g (3A) or 1130 g (4A) weight, 76 cm height and 5 cm diameter. Liquid saturated bed was regenerated in two main steps: drying and desorption. In the drying step unbound mixture of alcohol and water evaporates from the surface of zeolite adsorbent bed. In the desorption step water bound by adsorption forces is removed. The both process steps can be partially overlapped in successive layers of the bed. The influence of the inlet hot air temperature T0 (200–250 °C), water mass fraction xW in dewatered alcohol solution (0.021–0.176 kg/kg), and air mass flux density Nair (0.170–0.306 kg/m2s) on regeneration efficiency of the zeolite adsorbent bed was studied. From this analysis it follows that: T0,xW and Nair exert measurable influence (in the order of impact). The desorption process is described by the adequate mathematical model, including heat transfer between zeolite particles and hot air stream as well as heat losses through the column wall. The developed mathematical model for a regeneration stage of 3A and 4A zeolites in TSA process was solved by numerical method of lines (NMOL). The fairly good agreement of computed and experimental results with respect to process characteristics was obtained. It enables both designing and scaling up of the TSA process equipment used for adsorptive dewatering of liquid aliphatic alcohols.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2017.12.112