摘要
实现碳达峰、碳中和对促进我国经济高质量发展至关重要。面对现有CO_(2)捕集封存(高能耗)和合成氨(高碳排)技术升级需求,发展基于可再生能源的新型CO_(2)、N_(2)等能源小分子转化利用技术势在必行。为推动等离子体能源小分子转化技术的发展,助力国家重大需求、实现碳中和目标,该文分别围绕可再生能源驱动等离子体产生、等离子体CO_(2)转化利用、等离子体固氮和合成氨、等离子体氨/大分子裂解燃烧、等离子体催化材料和催化耦合等方面,规划建议高压放电等离子体技术助推“双碳”战略目标的策略与路线,以期为实现C、H和N绿色循环提供有效的解决方案。
Achieving carbon peak and carbon neutrality is crucial for promoting high-quality economic development in China.In the face of the upgrading needs of existing CO_(2) capture and storage(high energy consumption)and synthetic ammonia(high carbon emission)technologies,it is imperative to develop new small-molecule(CO_(2),N_(2))conversion and utilization technologies based on renewable energy.To promote the development of small-molecule conversion technology driven by plasma energy,meet the major national needs,and achieve the goal of carbon neutrality,this paper aims at the international scientific frontier and focuses on renewable energy-driven plasma generation,plasma CO_(2) conversion and utilization,plasma nitrogen fixation and ammonia synthesis,plasma ammonia/macromolecule pyrolysis and combustion,plasma-catalytic materials and catalytic coupling.,The strategy and roadmap for high-voltage discharge plasma technology are proposed to boost the“dual carbon”goal,and effective solutions are proposed for the realization of C,H and N cycles.
作者
邵涛
张帅
章程
高远
孙昊
窦立广
席登科
SHAO Tao;ZHANG Shuai;ZHANG Cheng;GAO Yuan;SUN Hao;DOU Liguang;XI Dengke(Beijing International S&T Cooperation Base for Plasma Science and Energy Conversion(Institute of Electrical Engineering,Chinese Academy of Sciences),Haidian District,Beijing 100190,China;University of Chinese Academy of Sciences,Shijingshan District,Beijing 100049,China)
出处
《中国电机工程学报》
EI
CSCD
北大核心
2024年第18期7453-7478,I0027,共27页
PROCEEDINGS OF THE CHINESE SOCIETY FOR ELECTRICAL ENGINEERING
基金
国家自然科学基金项目(52142705)
国家杰出青年基金项目(51925703)。
关键词
碳达峰、碳中和
低温等离子体
CO_(2)利用
合成氨
可再生能源
carbon peak and carbon neutrality
low temperature plasma
CO_(2)utilization
ammonia synthesis
renewable energy
