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低温等离子体降解偏二甲肼废水研究
引用本文:易志健,卿泽旭,王殿恺,江敏,王永刚,黄逸凡. 低温等离子体降解偏二甲肼废水研究[J]. 集成技术, 2019, 8(6): 65-74
作者姓名:易志健  卿泽旭  王殿恺  江敏  王永刚  黄逸凡
作者单位:中国科学院深圳先进技术研究院先进材料科学与工程研究所 深圳 518055;航天工程大学激光推进及其应用国家重点实验室 北京 101416
基金项目:激光推进及其应用国家重点实验室 2018 年度实验室自主研究(对外开放)课题;深圳市科技研发资金项目(JCYJ20180507182200750);广东省促进经济发展专项项目(GDME-2018D004)
摘    要:该文研究了悬浮电极介质阻挡放电装置(FE-DBD)产生的低温等离子体对偏二甲肼废水的降解效果,并对处理条件进行优化。首先,对比了低温等离子体装置、氙灯和紫外灯降解偏二甲肼废水的效果;然后,考察了低温等离子体装置的放电间隙、初始溶液 pH、工作时间和氢氧化钠加投量对偏二甲肼降解的影响;最后,探究了低温等离子体对偏二甲肼废水 pH 值的影响。实验结果表明,不加入其他试剂的情况下,低温等离子体装置降解偏二甲肼效果好于氙灯及紫外灯;装置放电间隙从 4 mm缩短至 2 mm,偏二甲肼降解率增加 47.2%。随着等离子体处理时间的增加,偏二甲肼的含量降低,处理 20 min 即可降解 82.1% 偏二甲肼。同时,低温等离子体处理会引起偏二甲肼废水 pH 值下降,处理10 min 后废水 pH 从 10 下降至 6.9。废水初始 pH 在 2~10 时,偏二甲肼降解率随废水 pH 值的升高而增大 :与 pH=2 相比,初始 pH=10 时偏二甲肼降解率增加 65.9%。低温等离子体处理 10 min 后,往废水中加入氢氧化钠溶液至终浓度为 1 mg/mL,再继续处理 10 min,可将偏二甲肼降解率提高至 95%。

关 键 词:偏二甲肼  低温等离子体  悬浮电极介质阻挡放电

A Study on Degradation of Unsym-Dimethylhydrazine Waste Liquid byLow Temperature Plasma
YI Zhijian,QING Zexu,WANG Diankai,JIANG Min,WANG Yonggang and HUANG Yifan. A Study on Degradation of Unsym-Dimethylhydrazine Waste Liquid byLow Temperature Plasma[J]. , 2019, 8(6): 65-74
Authors:YI Zhijian  QING Zexu  WANG Diankai  JIANG Min  WANG Yonggang  HUANG Yifan
Abstract:In this paper, the degradation of unsym-dimethylhydrazine wastewater with low atmospheric plasma generated by floating-electrode dielectric barrier discharge was studied, and the treatment conditions were optimized. Firstly, the degradation effects of low atmospheric plasma equipment, xenon lamp and ultravioletlamp were compared. Secondly, the influence of discharge gap, initial solution pH, treatment time, additionof sodium hydroxide solution were also studied. Meanwhile, the effect of low temperature plasma on the pHvalue of unsym-dimethylhydrazine wastewater was also investigated. Without the addition of other reagents,the degradation of unsym-dimethylhydrazine with low temperature plasma was better than xenon lamp and ultraviolet lamp. When the discharge gap was shortened from 4 mm to 2 mm, the degradation rate of unsymdimethylhydrazinewas increased by 47.2%. With the increase of plasma treatment time, the content of unsymdimethylhydrazinedecreased, and 82.1% of unsym-dimethylhydrazine could be degraded after treatment for 20 minutes. The pH value of the unsym-dimethylhydrazine wastewater decreased from 10 to 6.9 after 10 minof treatment. While, the degradation rate of unsym-dimethylhydrazine increased by 65.9% with the initial pHvalue increased from 2 to 10. After 10 min of low temperature plasma treatment, sodium hydroxide solution was added to the wastewater with a concentration of 1 mg/mL, and the degradation rate of unsym-dimethylhydrazine reached 95% after another 10 min treatment.
Keywords:unsym-dimethylhydrazine   low temperature plasma   floating-electrode dielectric barrier discharge
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