Zhan SHU (舒展), Chuanqi WANG (汪传奇), Insaf HOSSAIN, Qiang CHEN (陈强), Wanlian LI (李婉莲), Jinqi WANG (王晋琪), Pengfei LIU (刘鹏飞), Qing XIONG (熊青). Preliminary study of an open-air water-contacting discharge for direct nitrogen fixation[J]. Plasma Science and Technology, 2021, 23(3): 35501-035501. DOI: 10.1088/2058-6272/abe037
Citation:
Zhan SHU (舒展), Chuanqi WANG (汪传奇), Insaf HOSSAIN, Qiang CHEN (陈强), Wanlian LI (李婉莲), Jinqi WANG (王晋琪), Pengfei LIU (刘鹏飞), Qing XIONG (熊青). Preliminary study of an open-air water-contacting discharge for direct nitrogen fixation[J]. Plasma Science and Technology, 2021, 23(3): 35501-035501. DOI: 10.1088/2058-6272/abe037
Zhan SHU (舒展), Chuanqi WANG (汪传奇), Insaf HOSSAIN, Qiang CHEN (陈强), Wanlian LI (李婉莲), Jinqi WANG (王晋琪), Pengfei LIU (刘鹏飞), Qing XIONG (熊青). Preliminary study of an open-air water-contacting discharge for direct nitrogen fixation[J]. Plasma Science and Technology, 2021, 23(3): 35501-035501. DOI: 10.1088/2058-6272/abe037
Citation:
Zhan SHU (舒展), Chuanqi WANG (汪传奇), Insaf HOSSAIN, Qiang CHEN (陈强), Wanlian LI (李婉莲), Jinqi WANG (王晋琪), Pengfei LIU (刘鹏飞), Qing XIONG (熊青). Preliminary study of an open-air water-contacting discharge for direct nitrogen fixation[J]. Plasma Science and Technology, 2021, 23(3): 35501-035501. DOI: 10.1088/2058-6272/abe037
1 State Key Laboratory of Power Transmission Equipment and System Security and New Technology, Chongqing University, Chongqing 400044, People’s Republic of China
2 Shenzhen Research Institute of Xiamen University, Institute of Electromagnetics and Acoustics, Fujian Provincial Key Laboratory of Plasma and Magnetic Resonance, Key Laboratory of Electromagnetic Wave Science and Detection Technology, Xiamen University, Xiamen 361005, People’s Republic of China
Funds: This work was partly supported by National Natural Science Foundation of China (No. 11975061), the Technology Innovation and Application Development Project of Chongqing (No. cstc2019jscx-msxmX0041), the Construction Committee Project of Chongqing (No. 2018-1-3-6), and the Fundamental Research Funds for the Central Universities (No. 2019CDQYDQ034).
Efficient nitrogen fixation through a reactive plasma process attracts intense interest due to the environmental issues induced by the conventional Haber–Bosch method. In this work, we present a direct and simple fixation routine without any catalysts for nitrogen in open air using an atmospheric-pressure pin-to-solution plasma electrolytic system. Nitrate, nitrite, and ammonia as the nitrogen-derived chemicals in solution were analyzed as indicators under various discharge conditions to estimate the energy efficiency of this process. The results show that the nitrogen fixation process was much more efficient by the pin-positive discharge compared to the negative one. N chemicals preferred to be formed when the solution was of negative polarity. It was also found that, with the help of solution circulation, the energy efficiency was enhanced compared to that of static liquid. However, an inverse trend was observed with the increase of the discharge current. Further study by optical emission spectroscopy indicates the important roles of active N2+ and water vapour and their derived species near the plasma–water interface in the fixation process.
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DOI:10.1088/2058-6272/ac66bb
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