氨生产
氨
催化作用
化石燃料
生化工程
能量载体
工艺工程
生产(经济)
过程(计算)
氢
化学
钥匙(锁)
纳米技术
能源消耗
等离子体
可持续能源
高效能源利用
能源
硫黄
制氢
可持续发展
等离子体处理
废物管理
作者
Jiayang Li,Siyu Li,Lü Li
标识
DOI:10.1002/chem.202502088
摘要
Hydrogen storage technology based on ammonia carriers is a key part of the transition from fossil fuels to low-carbon energy sources. However, the high energy consumption and high carbon path dependency of the traditional ammonia industry are the core challenges constraining the development of current technologies. In this review, we focus on the core advantages of low-temperature plasma chemistry in ammonia synthesis, including mild conditions, environmental friendliness, flexibility, and controllability. We then propose a powerful approach for transitioning traditional ammonia synthesis technology in a sustainable direction. Firstly, we systematically sort out the time evolution of the plasma ammonia synthesis reactor and elucidate the mode of action of plasma-assisted ammonia synthesis. In particular, we provide an in-depth analysis of design optimization strategies for plasma catalysts to explore key catalytic mechanisms in ammonia synthesis systems. Finally, we evaluate the performance index of the existing plasma ammonia synthesis system and suggest feasible directions for future research to further improve the energy efficiency of the technology, promoting the development of the ammonia production process in a more sustainable and advanced direction.
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