MIL-101-Cr/Fe/Fe-NH2 for Efficient Separation of CH4 and C3H8 from Simulated Natural Gas

Adsorptive separation based on porous solid adsorbents has emerged as an excellent effective alternative to energy-intensive conventional separation methods in a low energy cost and high working capacity manner. However, there are few stable mesoporous metal–organic frameworks (MOFs) for efficient p...

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Bibliographic Details
Published in:ACS applied materials & interfaces 2022-10, Vol.14 (40), p.45444-45450
Main Authors: Qin, Lu-Zhu, Xiong, Xiao-Hong, Wang, Shi-Han, Zhang, Liang, Meng, Liu-Li, Yan, Le, Fan, Ya-Nan, Yan, Tong-An, Liu, Da-Huan, Wei, Zhang-Wen, Su, Cheng-Yong
Format: Article
Language:English
Subjects:
Energy, Environmental, and Catalysis Applications
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Summary:Adsorptive separation based on porous solid adsorbents has emerged as an excellent effective alternative to energy-intensive conventional separation methods in a low energy cost and high working capacity manner. However, there are few stable mesoporous metal–organic frameworks (MOFs) for efficient purification of methane from other light hydrocarbons in natural gas. Herein, we report a series of stable mesoporous MOFs, MIL-101-Cr/Fe/Fe-NH2, for efficient separation of CH4 and C3H8 from a ternary mixture CH4/C2H6/C3H8. Experimental results show that all three MOFs possess excellent thermal, acid/basic, and hydrothermal stability. Single-component adsorption suggested that they have high C3H8 adsorption capacity and commendable selectivity for C3H8 and C2H6 over CH4. Transient breakthrough experiments further certified the ability of direct separation of CH4 from simulated natural gas and indirect recovery of C3H8 from the packing column. Theoretical calculations illustrated that the van der Waals force proportional to the molecular weight is the key factor and that the structural integrity and defect can impact separation performances.
ISSN:1944-8244
1944-8252
DOI:10.1021/acsami.2c13446