| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 73300 | Microporous and Mesoporous Materials | 2014 | 7 Pages |
•Study the separation of a CO2/CH4 gas mixture on synthesized and pelletized a K-KFI (Si/Al = 4.59) sorbent.•K-KFI separated these mixtures better than did the commercial sorbents zeolite-5A and 13X under the same conditions.•Simulate the separation of binary mixed gases, the results of which were consistent with our experimental data.•Performing breakthrough simulations at a total pressure of 2 MPa.
Separation of CO2 from CH4 is needed in order to use low-quality biogas or landfill gas and to reduce greenhouse gas emissions. To study the separation of a CO2/CH4 gas mixture, K-KFI (Si/Al = 4.59) sorbent was synthesized and pelletized. We performed breakthrough experiments at flow rates of 16.6 and 30 N mL/min under ambient temperature and pressure (298 K, 100 kPa). The breakthrough experiments results showed that K-KFI separated a 40%/60% mixture of CO2/CH4 better than a 50%/50% mixture. Furthermore, the separation performance of K-KFI is superior to that of commercial sorbents zeolite-5A and 13X under the same conditions. Simulations of the breakthrough of binary mixed gases CO2/CH4 = 40%/60%, yield results that are in good agreement with our experimental data. By performing breakthrough simulations at a total pressure of 2 MPa, we demonstrated that pure CH4 can be separated from CO2/CH4 gas mixtures under high pressure, and that pure CH4 can be recovered in the initial stages of the breakthrough.
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