原位电生成的 Ni(OH)与 Cu 阴极协同作用，促进氨的直接氧化为氮气。

In situ electro-generated Ni(OH) synergistic with Cu cathode to promote direct ammonia oxidation to nitrogen.

机构信息

School of Environment and Surveying Engineering, Suzhou University, Suzhou 234000, China; Research Center of Non-Point Source Pollution Control and Ecological Remediation Technology of Tuohe River Basin, Suzhou University, Suzhou Anhui, 234000, China E-mail:

出版信息

Water Sci Technol. 2024 Jul;90(1):225-237. doi: 10.2166/wst.2024.214. Epub 2024 Jun 25.

DOI:10.2166/wst.2024.214

PMID:39007316

Abstract

To solve the problem of low removal rate and poor N selectivity in direct electrochemical ammonia oxidation (EAO), commercial Ni foam and Cu foam were used as anode and cathode of the EAO system, respectively. The coupling effect between the cathode and anode promoted nitrogen cycling during the reaction process, which improved N selectivity of the reaction system and promoted it to achieve a high ammonia removal rate. This study showed that the thin Ni(OH) with oxygen vacancy formed on the surface of Ni foam anode played an effective role in the dimerization of intermediate products in ammonia oxidation to form N. This electrochemical system was used to treat real goose wastewater containing 422.5 mg/L NH-N and 94.5 mg/L total organic carbon (TOC). After treatment, this electrochemical system achieved good performance with an ammonia removal rate of 87%, N selectivity of 77%, and TOC removal rate of 72%. Therefore, this simple and efficient system with Ni foam anode and Cu foam cathode is a promising method for treating ammonia nitrogen wastewater.

摘要

为了解决直接电化学氨氧化（EAO）中去除率低和 N 选择性差的问题，分别将商用镍泡沫和铜泡沫用作 EAO 系统的阳极和阴极。阴极和阳极之间的耦合作用促进了反应过程中的氮循环，提高了反应体系的 N 选择性，使其能够实现高氨去除率。本研究表明，在镍泡沫阳极表面形成的具有氧空位的薄 Ni(OH)2 在氨氧化过程中中间产物的二聚化中发挥了有效作用，形成了 N。该电化学系统用于处理含有 422.5mg/L NH-N 和 94.5mg/L 总有机碳（TOC）的真实鹅废水。处理后，该电化学系统表现出良好的性能，氨去除率为 87%，N 选择性为 77%，TOC 去除率为 72%。因此，这种具有镍泡沫阳极和铜泡沫阴极的简单高效系统是处理氨氮废水的一种很有前途的方法。

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原位电生成的 Ni(OH)与 Cu 阴极协同作用，促进氨的直接氧化为氮气。

In situ electro-generated Ni(OH) synergistic with Cu cathode to promote direct ammonia oxidation to nitrogen.

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