双通道放电等离子体处理模拟酸性紫红染料废水

DECOLORATION OF ACID RED B SOLUTION WITH DUAL CHANNEL PLASMA DEVICE

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摘要采用低温等离子体技术,在自行设计的双通道放电等离子体装置中,对模拟酸性紫红染料废水进行了降解研究。考察了电极距液面间距、液层厚度、初始浓度、pH等因素对酸性紫红废水脱色率的影响。结果显示,电极距液面间距越小,废水脱色率越高;随着液层厚度的增大,相同时间下脱色率降低;随着初始浓度的增大,在相同放电时间下脱色率降低,随着时间的延长,不同浓度的染料废水脱色率都可达到90%以上;pH对脱色率的影响不大。结论表明自行设计的双通道放电等离子体装置对模拟酸性紫红染料废水的脱色率高,同时具有处理时间短、对废水的操作条件较宽、不受pH的限制等优势。 The degradation of Acid red B waste water was studied with low temperature plasma technology in a self-designed plasma device which could discharge with dual channel. The effect on decoloration rate of Acid red B solution by various influencing factors such as the distance between electrode and the liquid, thickness of liquid layer, pH value and solution initial concentration was studied. It is demonstrated that the decoloration rate increases with cutting the distance between electrode and the liquid down; the decoloration rate decreased with increasing of thickness of liquid layer and concentration for the same discharge time, and the decoloration rate could be up to 90% with the time prolonged; the pH value has a little effect on the decorolation rate; The results show that the self-designed plasma device has advantages of high decoloration rate for the Acid red B waste water, short-time processing, wide range of operating conditions and no limitation of the pH value.

作者张峰陈杰瑢陆迪莱赵菁

机构地区西安交通大学能源与动力工程学院

出处《水处理技术》 CAS CSCD 北大核心 2010年第3期78-80,共3页 Technology of Water Treatment

基金国家自然科学基金(20877062) 陕西省"13115"科技创新工程重大专项(2008ZDKG-78) 苏州市工业科技攻关计划项目(SG0842)

关键词低温等离子体双通道放电等离子体酸性紫红脱色率 low temperature plasma dual channel plasma device Acid red B decoloration rate

分类号 X788 [环境科学与工程—环境工程]

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双通道放电等离子体处理模拟酸性紫红染料废水

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