Experimental Validation of a Multidimensional Model for an Indirect Temperature Swing Adsorption Unit

Conventional temperature swing adsorption (TSA) is mainly applied for the removal of trace contaminants. Indirectly heated and cooled adsorbers were developed to make bulk separation economically feasible. A quasi‐continuous TSA process to remove CO2 from an N2/CO2 mixture with a pilot plant is esta...

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Veröffentlicht in:	Chemie ingenieur technik 2020-06, Vol.92 (6), p.711-719
Hauptverfasser:	Ried, Thomas, Salazar Duarte, Gabriel, Hinrichsen, Olaf
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Sprache:	eng
Schlagworte:	Adsorption CO2 removal Indirect heat transfer Temperature swing adsorption
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creator	Ried, Thomas Salazar Duarte, Gabriel Hinrichsen, Olaf
description	Conventional temperature swing adsorption (TSA) is mainly applied for the removal of trace contaminants. Indirectly heated and cooled adsorbers were developed to make bulk separation economically feasible. A quasi‐continuous TSA process to remove CO2 from an N2/CO2 mixture with a pilot plant is established. The experimentally determined data are taken to validate and to adjust a 2D simulation model. For the validation, the CO2 desorption, the N2 recovery rate as well as the axial temperature profile are compared. The successful model validation can be seen in the good agreement between simulation and experimental results. Moreover, this process is able to separate high amounts of CO2 and to produce a nearly CO2‐free product stream. With indirectly heated and cooled adsorbers, bulk separation by temperature swing adsorption becomes economically feasible. A three‐adsorber quasi‐continuous process to remove CO2 from an N2/CO2 mixture is established. The experimentally determined data are used to validate a 2D simulation model.
doi_str_mv	10.1002/cite.201900170
format	Article
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subjects	Adsorption CO2 removal Indirect heat transfer Temperature swing adsorption
title	Experimental Validation of a Multidimensional Model for an Indirect Temperature Swing Adsorption Unit
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