介质阻挡放电
等离子体
电介质
等离子体化学
材料科学
化学
光电子学
物理
量子力学
作者
Kai Li,Ying Liu,Jiale Cheng,Bo Wang,Jiahao Zhang,Yuzhen Jin,Zhiqiang Lu,Yong Liu,Liancheng Zhang,Xuming Zhang
标识
DOI:10.1088/2058-6272/ae0077
摘要
Abstract The influence of plasma chemistry on the ammonia synthesis reaction was explored by employing a dielectric barrier discharge plasma in this work. When the gas temperature was below 673 K, the average electron energy increased with the gas temperature, enhancing the activation and dissociation of N 2 and H 2 , and thereby facilitating the synthesis of ammonia. When the temperature was above 673 K, a significant change occurred in the discharge mode, resulting in a sharp decline in NH 3 concentration and energy efficiency. Additionally, the thermal decomposition of ammonia was intensified with temperature. When the residence time was within the range of 0.9‒4.5 s, its increase was beneficial to NH 3 concentration and energy efficiency. When the residence time exceeded 4.5 s, the drop in gas temperature led to a decrease in average electron energy, which in turn resulted in a decline in NH 3 concentration and energy efficiency.
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