Dielectric barrier discharge plasma-assisted catalytic ammonia synthesis: synergistic effect of Ni-MOF-74 catalyst and nanosecond pulsed plasma

Author:

XU 徐 Xiaofang 晓芳,SUN 孙 Meng 萌,SONG 宋 Qinlong 勤龙,WU 吴 Xuan 璇,CHEN 陈 Chongchong 冲冲,CHEN 陈 Qiang 强,ZHANG 张 Haibao 海宝

Abstract

Abstract Ammonia is one of the most important chemical raw materials in both manufacture and life of human. Traditionally Haber-Bosch method for ammonia synthesis involves high temperature and high pressure conditions, leading to significant energy consumption and environmental pollution. Non-thermal plasma (NTP) is a promising alternative approach to ammonia synthesis at low temperature and atmospheric pressure. In this study, the synergistic effect of nanosecond pulsed dielectric barrier discharge (np-DBD) and Ni-MOF-74 catalyst was investigated in ammonia synthesis by utilizing nitrogen and hydrogen as feedstock. The results demonstrated that the plasma catalytic-synthesis process parameters play a crucial role in the synthesis process of ammonia. The highest ammonia synthesis rate of 5145.16 μmol·g−1·h−1 with an energy efficiency of 1.27 g·kWh−1 was observed in the presence of the Ni-MOF-74 catalyst, which was 3.7 times higher than that without Ni-MOF-74 catalyst. The synergistic effect of Ni-MOF-74 catalyst and nanosecond pulsed plasma was explored by in-situ plasma discharge diagnostics.

Funder

National Undergraduate Innovation and Entrepreneurship Training Program of China

Discipline Construction of Material Science and Engineering

Beijing Municipal Natural Science Foundation

Publisher

IOP Publishing

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