双环增强等离子体固氮系统提高生菜栽培的能源效率和效果

IF 1.6 3区 物理与天体物理 Q3 PHYSICS, FLUIDS & PLASMAS Plasma Science & Technology Pub Date : 2023-11-14 DOI:10.1088/2058-6272/ad0c96
Zeyang Han, Mengxue Zhang, Di Zhang, Xin He, Tianjun Jing, Zhixuan Ge, Yuge Li, Zhu Tong, Yunhong Ren, Chongshan Zhong, Fang Ji
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引用次数: 0

摘要

等离子体固氮(PNF)已成为一种有前途的无温室气体和可再生能源农业技术。然而,大多数PNF研究很少涉及实际应用的具体问题。在这项工作中,我们提出了一个紧凑的和自动的PNF系统现场农业应用的发展。该系统利用滑动电弧放电作为等离子体源,采用双回路设计,在大气条件下从空气和水中产生NO x -。实验结果表明,采用双回路设计的系统在能源成本和生产率方面具有良好的性能。通过实验确定了该系统的最佳运行参数,该系统生产no3 -的能量成本为13.9 MJ mol−1,能量效率为16 g kWh−1。此外,排放的nox浓度低于排放标准。无土生菜栽培试验表明,PNF系统产生的NO -可以作为液态硝态氮肥料。总的来说,我们的工作证明了开发的PNF系统在绿叶蔬菜生产中的现场应用潜力。
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Plasma nitrogen fixation system with dual-loop enhancement for improved energy efficiency and its efficacy for lettuce cultivation
Abstract Plasma nitrogen fixation (PNF) has been emerging as a promising technology for greenhouse gas-free and renewable energy-based agriculture. Yet, most PNF studies seldom address practical application-specific issues. In this work, we present the development of a compact and automatic PNF system for on-site agricultural applications. The system utilized a gliding-arc discharge as the plasma source and employed a dual-loop design to generate NO x - from air and water under atmospheric conditions. Experimental results showed that the system with a dual-loop design performs well in terms of energy costs and production rates. Optimal operational parameters for the system were determined through experimentation, resulting in an energy cost of 13.9 MJ mol −1 and an energy efficiency of 16 g kWh −1 for NO 3 - production, respectively. Moreover, the concentration of exhausted NO x was below the emission standards. Soilless lettuce cultivation experiments demonstrated that NO x - produced by the PNF system could serve as liquid nitrate nitrogen fertilizer. Overall, our work demonstrates the potential of the developed PNF system for on-site application in the production of green-leaf vegetables.
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来源期刊
Plasma Science & Technology
Plasma Science & Technology 物理-物理:流体与等离子体
CiteScore
3.10
自引率
11.80%
发文量
3773
审稿时长
3.8 months
期刊介绍: PST assists in advancing plasma science and technology by reporting important, novel, helpful and thought-provoking progress in this strongly multidisciplinary and interdisciplinary field, in a timely manner. A Publication of the Institute of Plasma Physics, Chinese Academy of Sciences and the Chinese Society of Theoretical and Applied Mechanics.
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