Biogas upgrading to methane: Application of a regenerable polyethyleneimine-impregnated polymeric resin (NKA-9) via CO2 sorption

[Display omitted] •A novel sorbent (PEI-impregnated NKA-9) was firstly applied to biogas upgrading.•Adsorption, regeneration, and separation performance were comprehensively analyzed.•CH4 was effectively separated from biogas with the purity of above 95%.•Operation condition effects and potential de...

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Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2019-04, Vol.361, p.294-303
Main Authors: Meng, Yuan, Jiang, Jianguo, Gao, Yuchen, Aihemaiti, Aikelaimu, Ju, Tongyao, Xu, Yiwen, Liu, Nuo
Format: Article
Language:English
Subjects:
Amine-impregnated sorbents
Biogas upgrading
CH4/CO2 separation
CO2 adsorption
Cyclic stability
Polymeric resin
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Summary:[Display omitted] •A novel sorbent (PEI-impregnated NKA-9) was firstly applied to biogas upgrading.•Adsorption, regeneration, and separation performance were comprehensively analyzed.•CH4 was effectively separated from biogas with the purity of above 95%.•Operation condition effects and potential degradation were discussed carefully.•Excellent chemical stability with undetectable urea formation by CO2 purging. Biogas upgrading technology is important for increasing the heating value of biogas via separating CH4 and CO2, before biogas can be utilized as a vehicle fuel or for grid injection. In this work, using a porous polymeric resin (NKA-9), we prepared a new sorbent, namely polyethyleneimine (PEI)-impregnated NKA-9, for use in biogas upgrading to methane via CO2 sorption firstly. The adsorption performance, regeneration behavior, cyclic stability and CH4/CO2 separation performance were then evaluated in detail. The sorbent exhibited high adsorption capacity of up to 151.1 mg/g with negligible CH4 adsorbed, demonstrating its high selectivity towards CO2 over CH4. In column breakthrough experiments, binary mixtures were separated effectively under each set of reaction condition, where high CH4 purities of >95% could be obtained as the final product in the outlet gas. As tested, excessive PEI loading, high temperature and low CO2 concentration in biogas would result in unfavorable effects on biogas upgrading. In addition, we tested the regenerability of the sorbent using the two most common methods-N2 and CO2 purging, where the sorbent could be regenerated completely at temperatures above 85 °C and 155 °C, respectively. During the long-term operation, PEI-impregnated NKA-9 exhibited excellent cyclic stability, with 1.4% and 5.2% decreases in adsorption capacity after 30 adsorption-regeneration cycles. Detailed characterization revealed that the sorbent was chemically stable at 155 °C, in contrast to other conventional amine-modified sorbents. Therefore, the regenerable PEI-impregnated NKA-9 sorbent could be a promising choice for biogas upgrading to methane via CO2 sorption.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2018.12.091