4.7 Article

Multicomponent adsorptive separation of CO2, CH4, N2, and H2 over M-MOF-74 and AX-21@M-MOF-74 composite adsorbents

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ELSEVIER
DOI: 10.1016/j.micromeso.2022.111899

关键词

MOFs; Composite adsorbents; Selectivity; H(2 )purification

资金

  1. National Natural Science Foundation of China [51979121]
  2. P.R. China and Natural Science Foundation of Fujian Province [2020J02041]
  3. Xiamen Municipal Bureau of Sciences and Technology [3502Z20226011]

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In this study, a new type of porous material for hydrogen purification from COG was developed by synthesizing M-MOF-74 and incorporating super activated carbon. It was found that Mg-MOF-74 has the highest selectivity value, and blending with AX-21 significantly increased the adsorption capacity and selectivity values.
To develop an efficient hydrogen purification adsorbent, M-MOF-74 (M = Mg, Co, Ni, Zn and Cu) was synthesized by hydrothermal method, and super activated carbon (AX-21) was incorporated to form a new type of porous material for H-2 purification from COG. Prepared samples were characterized by physical and structural properties and then compared by adsorption equilibrium. The dynamic adsorption performance of the materials during H2 purification was comprehensively evaluated by binary, multi-component measurements and multi component breakthrough profiles. Adsorption isotherms were used to estimate selectivity values for CO2/H-2, CH4/H-2, N-2/H-2 and (CO2 + CH4 + N-2)/H-2. The results show that Mg-MOF-74 has the largest selectivity value among M-MOF-74. AX-Mg-MOF-74 incorporated with AX-21 at a mass ratio of 0.15 exhibited an average 30.88% increase in CO2, CH4, N-2 and H-2 adsorption capacity compared to pure Mg-MOF-74. In addition, the mean selectivity values for CO2/H-2, CH4/H-2, N-2/H-2 and (CO2 + CH4 + N-2)/H-2 are increased by 8.3%, 6.8%, 47.7% and 11.0% respectively.& nbsp;

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