Degradation of aqueous safranine T solution by DC glow discharge plasma at atmospheric pressure air

机译：大气压空气下DC辉光放电等离子体降解水溶液T溶液

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The degradation of aqueous safranine T (ST) solution using direct current (DC) glow discharge plasma (GDP) at atmospheric pressure air was investigated. Several factors including pH, the gas gap between the anode tip and the solution surface, the anode needle sealed into the glass, which might impact the ST degradation process, were examined, respectively. Both the degradation rate of ST and the energy utilization efficiency were used as characteristic quantities to evaluate the degradation effect in our work. The results suggest that the highest degradation rate is 94.26% after 16 min treatment and the highest average energy utilization efficiency reaches 5.28 g/kWh in the 12 min treatment, the most suitable gas gap height and pH are 5 mm and 4.60, respectively. Meanwhile, the needle sealed with the glass facilitates the ST degradation process.

机译：研究了在大气压空气下使用直流（DC）辉光放电等离子体（GDP）的水溶液T（ST）溶液的降解。几个因子包括pH，阳极尖端和溶液表面之间的气隙，分别被检查到玻璃中的阳极针，这可能影响ST降解过程。 ST的降解率和能量利用效率都被用作特征量，以评估我们工作中的降解效果。结果表明，16分钟处理后，最高降解率为94.26％，12分钟处理中最高的平均能量利用效率达到5.28克/千瓦时，最合适的气隙高度和pH分别为5毫米和4.60。同时，用玻璃密封的针有利于ST降解过程。

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《International Conference on Energy, Environment and Sustainable Development》|2013年||共6页
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作者
Fengqiu Wang; Aihua Gao; Fang Cheng;
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中图分类 X1-532;
关键词
Safranine T; DC discharge plasma; Degradation rate; Energy utilization efficiency;

机译：Safranine T;直流放电等离子体;降解速率;能源利用效率;

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3. The development of uniform atmospheric pressure glow discharges: appearance of stable glow discharge in air, argon, oxygen and nitrogen at atmospheric pressure using a 50 Hz source (S Okazaki et al 1993 J. Phys. D: Appl. Phys. 26 889) [J] . Kushner Mark J. Journal of Physics, D. Applied Physics: A Europhysics Journal . 2016,第40期

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4. Degradation of aqueous safranine T solution by DC glow discharge plasma at atmospheric pressure air [C] . Fengqiu Wang, Aihua Gao, Fang Cheng International Conference on Energy, Environment and Sustainable Development . 2013

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8. Physics of Atmospheric Pressure Glow Discharges and Nanoparticle Nucleation and Dynamics in Low-Pressure Plasmas. Final Report for Award DE-FG02-00ER54583. Report Period: Aug. 15, 2000- Aug. 14, 2007 [R] . Kortshagen, U. 2007

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Degradation of aqueous safranine T solution by DC glow discharge plasma at atmospheric pressure air

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