Decomposition of Methylene Blue Adsorbed on Zeolite by Dielectric Barrier Discharge

IF 0.2 Q4 ENERGY & FUELS Journal of The Japan Institute of Energy Pub Date : 2021-08-20 DOI:10.3775/jie.100.97

Kazuki Tange, S. Nomura, Junichiro Nakajima, Y. Nishioka

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Abstract

In this study, dielectric barrier discharge (DBD) was used to decompose methylene blue (MB) adsorbed on pellet-shaped zeolite, and zeolite was reused as an adsorbent. The DBD treatment was performed in air under atmospheric pressure. The effect of plasma treatment on the zeolite structure was investigated. The effect of DBD treatment was evaluated by the amount of MB adsorbed on the zeolite and the Total organic carbon (TOC) of the solution in the repeated adsorption test. When the plasma-treated zeolite was added to pure water, some substances desorbed from the zeolite, and as a result of NMR analysis, it was found that the substance does not have a benzene ring structure. The results showed that the methylene blue adsorbed on the zeolite was decomposed into a low molecule without a benzene ring by the DBD treatment, and it was desorbed during the next adsorption cycle, so that the adsorption site was recovered while maintaining the structure of the zeolite. 本研究では，ペレット状ゼオライトに吸着したメチレンブルー（MB）を誘電体バリア放電（DBD）で分解し，ゼオライトを吸着剤と

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介质阻挡放电分解吸附在沸石上的亚甲基蓝

本研究采用介质阻挡放电(DBD)对吸附在球团状沸石上的亚甲基蓝(MB)进行分解，沸石作为吸附剂再利用。DBD处理在常压下的空气中进行。研究了等离子体处理对沸石结构的影响。通过沸石吸附MB的量和溶液中总有机碳(TOC)的重复吸附试验来评价DBD处理的效果。将等离子体处理后的沸石加入到纯水中，沸石中有一些物质解吸，经核磁共振分析，发现该物质不具有苯环结构。结果表明，吸附在沸石上的亚甲基蓝经DBD处理分解为无苯环的低分子，并在下一个吸附循环中被解吸，从而在保持沸石结构的同时恢复了吸附位点。本研究では,ペレット状ゼオライトに吸着したメチレンブルー(MB)を誘電体バリア放電(DBD)で分解し,ゼオライトを吸着剤と

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