Pulsed laser induced plasma and thermal effects on molybdenum carbide for dry reforming of methane

Author:

Li YueORCID,Liu XingwuORCID,Wu Tong,Zhang Xiangzhou,Han Hecheng,Liu Xiaoyu,Chen Yuke,Tang Zhenfei,Liu Zhen,Zhang YuhaiORCID,Liu Hong,Zhao LiliORCID,Ma DingORCID,Zhou WeijiaORCID

Abstract

AbstractDry reforming of methane (DRM) is a highly endothermic process, with its development hindered by the harsh thermocatalytic conditions required. We propose an innovative DRM approach utilizing a 16 W pulsed laser in combination with a cost-effective Mo2C catalyst, enabling DRM under milder conditions. The pulsed laser serves a dual function by inducing localized high temperatures and generating *CH plasma on the Mo2C surface. This activates CH4 and CO2, significantly accelerating the DRM reaction. Notably, the laser directly generates *CH plasma from CH4 through thermionic emission and cascade ionization, bypassing the traditional step-by-step dehydrogenation process and eliminating the rate-limiting step of methane cracking. This method maintains a carbon-oxygen balanced environment, thus preventing the deactivation of the Mo2C catalyst due to CO2 oxidation. The laser-catalytic DRM achieves high yields of H2 (14300.8 mmol h−1 g−1) and CO (14949.9 mmol h−1 g−1) with satisfactory energy efficiency (0.98 mmol kJ−1), providing a promising alternative for high-energy-consuming catalytic systems.

Publisher

Springer Science and Business Media LLC

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