Plasma-assisted Chemical Looping Oxidative Coupling of Methane over LaMnO3 at 400oC
编号:133
稿件编号:160 访问权限:仅限参会人
更新:2023-03-23 19:31:50 浏览:188次
张贴报告
摘要
Chemical looping oxidative coupling of methane (CLOCM) is a promising method for the direct conversion of methane to produce C2+ hydrocarbons. However, high reaction temperatures (800oC-900oC) are required to ensure high redox activity, leading to the server sintering of oxygen carriers. Here, we report plasma-assisted chemical looping oxidative coupling of methane and investigate its performance under mild conditions (100oC-400oC). The results demonstrate that the plasma-assisted CLOCM reaction can be initiated at temperatures as low as 100oC. Particularly, LaMnO3 shows high CH4 conversion of 35.33% and C2+ yield of 12.26% at 400oC. The performance merely decreased after 20 redox cycles. Mechanism study implies that the high-performance results from plasma generate high-energy electrons (1-20 eV) to activate methane (4.3 eV) at low temperatures, and to increase the electron vacancies on the surface of the oxygen carrier for the binding oxygen species, inhibiting methane overoxidation. We hope the promotion effect of plasma can be extended to enable more fuel conversion processes under mild conditions.
关键字
Plasma; Chemical looping oxidative coupling of methane; Oxygen carrier; Oxygen vacancy.
发表评论