Isotherm model for high-temperature, high-pressure adsorption of CO2 and H2O on K-promoted hydrotalcite

J. Boon, P.D. Cobden, H.A.J. Dijk, van, C. Hoogland, E.R. Selow, van, M. Sint Annaland, van

Onderzoeksoutput: Bijdrage aan tijdschriftTijdschriftartikelAcademicpeer review

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Samenvatting

Sorption-enhancedwater-gas shift (SEWGS) combines thewater–gas shift reactionwith in situ adsorption of CO2 on potassium-promoted hydrotalcite (K-HTC) and thereby allows production of hot, high pressure H2 fromsyngas in a single process. SEWGS is a cyclic process, that comprises high pressure adsorption and rinse, pressure equalisation, and lowpressure purge. In order to design theSEWGS process, the equilibria and kinetics of adsorptionmust beknownfor the entire pressure range.Here, amulticomponent adsorptionisothermis presented for CO2 and H2O on K-HTC at 400 C and 0.5–24 bar partial pressure, that has been derived from integrated experimentally determined breakthrough curves with special attention being given to the high pressure interaction. The experimental results can be well described by assuming that the isothermconsists of a lowpartial pressure surface adsorption part and a high partial pressure nanopore adsorption part. Surface adsorption occurs at specific and different sites for CO2 or H2O. In contrast, the nanopore adsorption mechanism is competitive and explains the interaction observed in the capacity data at partial pressures over 5 bar. Based on the characteristics of the sorbent particles, a linear driving force relation has been derived for sorption kinetics. Adsorption isotherm and linear driving force kinetics have been included in a reactor model. Model predictions are in agreement with breakthrough as well as regeneration experiments
Originele taal-2Engels
Pagina's (van-tot)406-414
Aantal pagina's9
TijdschriftChemical Engineering Journal
Volume248
DOI's
StatusGepubliceerd - 2014

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