质子交换膜分离电解槽对硝酸盐的电化学还原

IF 0.8 4区工程技术 Q4 ENGINEERING, CHEMICAL

Membrane Water Treatment Pub Date : 2021-07-01 DOI:10.12989/MWT.2021.12.4.157

H. Cha, Y. Park, Kee-Won Seong, K. Park

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引用次数: 1

摘要

使用与Zn阴极和（Pt）/Ti阳极相结合的分割电解池对硝酸盐的电化学还原降低了高浓度的硝酸盐（1000mg NO3-N/L）。质子交换膜（Nafion-117）用于通过防止还原过程中产生的亚硝酸盐的再氧化来提高硝酸盐还原效率。测试电流密度和阳极电解液浓度作为参数，以评估硝酸盐的电化学还原。硝酸盐的还原与电流密度成比例地缩短了电解时间，并且90%去除的时间在5mA/cm2下为5小时，在10mA/cm2下是3小时，在20mA/cm2下则是1.8小时。氨的产率约为初始硝酸盐氮浓度的50%-55%，与电流密度无关，与阳极电解液浓度无关。

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Electrochemical reduction of nitrate using divided electrolytic cell by proton exchange membrane

The electrochemical reduction of nitrate using a divided electrolytic cell in combination with Zn cathode and (Pt)/Ti anode reduced the high concentrations of nitrate (1,000 mg NO3-N/L). A proton exchange membrane (Nafion-117) was used to increase the nitrate reduction efficiency by preventing the re-oxidation of nitrite produced during the reduction process. The current density and anolyte concentration, considered as parameters, were tested to assess the electrochemical reduction of nitrate. The reduction of nitrate shortened the electrolysis time in proportion to the current density, and the time for 90% removal was 5 h at 5 mA/cm2, 3 h at 10 mA/cm2, and 1.8 h at 20 mA/cm2. The yields of ammonia were approximately 50%-55% of the initial nitrate-nitrogen concentration regardless of the current density and was insignificantly related to the anolyte concentration.

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来源期刊

Membrane Water Treatment ENGINEERING, CHEMICAL-WATER RESOURCES

CiteScore

1.90

自引率

30.00%

发文量

审稿时长

>12 weeks

期刊介绍： The Membrane and Water Treatment(MWT), An International Journal, aims at opening an access to the valuable source of technical information and providing an excellent publication channel for the global community of researchers in Membrane and Water Treatment related area. Specific emphasis of the journal may include but not limited to; the engineering and scientific aspects of understanding the basic mechanisms and applying membranes for water and waste water treatment, such as transport phenomena, surface characteristics, fouling, scaling, desalination, membrane bioreactors, water reuse, and system optimization.