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IF 1.3 4区物理与天体物理 Q3 PHYSICS, FLUIDS & PLASMAS

IEEE Transactions on Plasma Science Pub Date : 2025-02-14 DOI:10.1109/TPS.2025.3533975

Xi Yu;Yongpeng Mo;Honghao Chen;Jiajian Zhang;Shenli Jia;Zongqian Shi

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引用次数: 0

摘要

浸没电弧产生的等离子体在废水处理方面具有巨大潜力。碳在自然界中广泛存在。它很容易获得，而且具有生物相容性。本文提出用两个电极接触分离产生的低压浸没电弧来分解亚甲基蓝（MB）。处理 15 分钟后，该工艺的去除率达到 92.9%。浸没电弧的发射光谱表明，产生了活性粒子，如 OH 自由基、氧原子和过氧化氢 (H2O2)。此外，在电弧处理过程中，甲基溴溶液吸收峰的波长向紫外区移动。这表明甲基溴分子发生了去甲基化作用。还对石墨电极的侵蚀颗粒进行了检测，并观察到了碳量子点。此外，还观察到微尺度的纤维状缠结颗粒和具有丰富孔隙结构的层状颗粒。这些结果表明，被侵蚀的颗粒具有吸收甲基溴的能力，在处理过的溶液中继续脱色，而不需要浸没弧等离子体产生额外的活性颗粒。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Study on the Removal of Methylene Blue by a Low-Voltage Submerged Arc Generated by the Graphite Electrodes

Plasma generated by a submerged arc has great potential in wastewater treatment. Carbon is widespread in nature. It is easily acquired and biocompatible. In this article, a low-voltage submerged arc generated by contact-separate of two electrodes is proposed to decompose methylene blue (MB). The process achieved a removal efficiency of 92.9% after 15 min treatment. The emission spectrum of the submerged arc indicated that active particles such as

$\cdot $

OH radicals, oxygen atoms, and hydrogen peroxide (H2O2) have been produced. Additionally, in the process of arc treatment, the wavelength of the absorption peak of MB solution shifted toward ultraviolet region. It indicated the demethylation of the MB molecules. The eroded particles from the graphite electrodes were also examined, and the carbon quantum dots were observed. Furthermore, micro-scale fibrous entangled particles and layered particles with abundant pore structures were observed. These results demonstrate that the eroded particles own an absorption ability for MB, continuing decolorization of the treated solution without additional active particles generated by the submerged arc plasma.

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来源期刊

IEEE Transactions on Plasma Science 物理-物理：流体与等离子体

CiteScore

3.00

自引率

20.00%

发文量

538

审稿时长

3.8 months

期刊介绍： The scope covers all aspects of the theory and application of plasma science. It includes the following areas: magnetohydrodynamics; thermionics and plasma diodes; basic plasma phenomena; gaseous electronics; microwave/plasma interaction; electron, ion, and plasma sources; space plasmas; intense electron and ion beams; laser-plasma interactions; plasma diagnostics; plasma chemistry and processing; solid-state plasmas; plasma heating; plasma for controlled fusion research; high energy density plasmas; industrial/commercial applications of plasma physics; plasma waves and instabilities; and high power microwave and submillimeter wave generation.