纳米零价铁降解硝酸盐废水高效生成氮气研究进展OA
Research progress in efficient nitrogen generation via nitrate wastewater degradation by nanoscale zero-valent iron
纳米零价铁(nZVI)因其元素含量丰富、还原性强、易回收等优点,常用于硝酸盐废水的还原降解.但其表面易钝化,使得高效反应难以持续,反应高度依赖酸性环境,且与目标反应物选择性较差,与硝酸盐废水反应生成物常以有毒物质氨氮占主导.为此,大量研究人员围绕纳米零价铁与硝酸盐废水高效反应生成无污染的氮气展开研究.本文首先阐述了单独纳米铁降解硝酸盐废水的过程机理,指出纳米铁单独降解硝酸盐废水中存在的局限性.并针对提高纳米铁降解硝酸盐效率及氮气生成率的强化措施进行了归纳总结.归纳发现,提升纳米铁降解硝酸盐效率的关键在于提供足够的质子及减少氧化物的负面影响.而提升氮气产率的主要措施有:(1)纳米铁本身化学性质或结构改变;(2)添加还原助剂;(3)耦合其他工艺.最后对强化纳米铁高效降解硝酸盐废水的多种措施进行点评展望.
Nanoscale zero-valent iron(nZVI)is used for the reductive degradation of nitrate wastewater due to its advantages,such as abundant elemental content,strong reducibility,and easy recoverability.However,its surface is prone to passivation,making efficient reactions difficult to sustain.The reaction is highly dependent on an acidic environment and has poor selectivity toward target reactants.The products of its reaction with nitrate wastewater are often dominated by toxic ammonia nitrogen.For this reason,numerous researchers have conducted studies focusing on the efficient reaction between nZVI and nitrate wastewater to generate pollution-free nitrogen gas.This paper first elaborates on the mechanism of nitrate wastewater degradation by nZVI alone and highlights its limitations.It then summarizes the enhancement measures to improve the nitrate-degradation efficiency and nitrogen-generation rate of nZVI.The summary shows that the key to improving the nitrate degradation efficiency of nZVI lies in providing sufficient protons and reducing the negative impact of oxides.The main measures to increase the nitrogen yield include three aspects.First is the modification of the chemical properties or structure of nZVI itself.Second is the addition of reducing additives.Third is the coupling with other processes.Finally,this paper comments on and prospects various measures for enhancing the efficient degradation of nitrate wastewater by nZVI.
江远飞;杨长河
南昌大学 资源与环境学院,南昌 330031南昌大学 资源与环境学院,南昌 330031
通用工业技术
纳米铁硝酸盐废水耦合复合材料氮气
nano ironnitrate wastewatercouplingcompositesnitrogen
《材料工程》 2026 (2)
188-197,10
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