4.7 Article

Modification of LaFe1-xCoxO3 oxygen carrier by Silicalite-1 for chemical looping coupled with the reduction of CO2

Journal

JOURNAL OF CO2 UTILIZATION
Volume 63, Issue -, Pages -

Publisher

ELSEVIER SCI LTD
DOI: 10.1016/j.jcou.2022.102124

Keywords

Chemical looping reforming of CH 4; CO (2) reduction; Syngas; Silicalite-1; La -Fe -Co -O perovskite

Funding

  1. National Natural Science Foundation of China [22002125, 21706108]
  2. Yunnan Applied Basic Research Projects [2018FD032]
  3. Analysis and Testing Center of Kunming University of Science and Technology

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In this study, LaFe1_xCoxO3/w%S-1 materials were tested as oxygen carriers for the chemical looping reforming of CH4 process. The results showed that Co doping and the introduction of Silicalite-1 significantly affected the performance of the oxygen carriers. The presence of Silicalite-1 improved the reactivity and stability of the chemical looping process, while LaFe0.9Co0.1O3/10%S-1 and LaFe0.8Co0.2O3/10%S-1 exhibited higher CH4 conversion and CO selectivity with minimal carbon deposits on the surface.
A series of LaFe1_ xCoxO3/w%S-1 are used as oxygen carriers in chemical looping reforming of CH4 coupled with the reduction of CO2 process to produce syngas and CO. In this work, the effect of Co doping and Silicalite-1 content on the performance of oxygen carriers can be obtained from reactivity tests. Among LaFe1_xCoxO3 samples, excellent reactivity is achieved over LaFe0.8Co0.2O3 and LaFe0.9Co0.1O3. It is found that the introduction of Silicalite-1 can greatly improve the reactivity and stability of the chemical looping process, which can be attributed to that the existence of Silicalite-1 inhibits the agglomeration of the perovskite particles. Among the LaFe1_ xCoxO3/w%S-1 samples with different Silicalite-1 content, LaFe0.9Co0.1O3/10%S-1 and LaFe0.8Co0.2O3/ 10%S-1 show higher CH4 conversion and CO selectivity in the CH4 oxidation reaction, while only quite smaller amount of carbon deposits formed on the surface of the oxygen carriers. After 20 redox cycles, LaFe0.8Co0.2O3/ 10%S-1 still shows excellent reactivity and high resistance to carbon deposition.

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