Effect of Gas Pressure on Decomposition of Indigo Carmine in Water Subjected to Reciprocal Traveling Wave Voltage Pulse

2006 International Symposium on Discharges and Electrical Insulation in Vacuum Pub Date : 2006-09-01 DOI:10.1109/DEIV.2006.357372

K. Kadowaki, T. Sone, H. Nishiyama, I. Kitani

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Abstract

This paper describes experimental results of decomposition of an organic material in water using repetitive surface discharges produced by reciprocal traveling wave voltage pulse. A point electrode with a CR high-pass-filter at one end of a long coaxial cable was faced on a surface of 3 mm thick water layer on the grounded-plate in a low-pressure chamber. When the cable and a coupling condenser in the filter were charged and then directly grounded at the other end of the cable, repetitive discharges propagated from the point electrode along the water surface with a very high frequency. In the test of an optical study, transient discharge light was observed using a gated image intensifier under gas pressures of 0.1 MPa and 0.02 MPa in air. Several discharge channels with branches propagated from the point electrode in 0.1 MPa, whereas glow-like discharges rapidly spread along the water surface in 0.02 MPa with a very high propagation speed. However, reaction speed of indigo carmine molecules in water in 0.1 MPa became higher than that in 0.02 MPa in a decolorization test. We concluded that active species produced by the surface discharge under atmospheric pressure had an important role for the decomposition of the indigo carmine molecules in water

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气压对反向行波电压脉冲作用下水中靛蓝胭脂红分解的影响

本文描述了用互反行波电压脉冲产生的重复表面放电分解水中有机物质的实验结果。将长同轴电缆一端带CR高通滤波器的点电极置于低压室接地板表面3mm厚的水层上。当电缆和滤波器中的耦合电容器被充电，然后在电缆的另一端直接接地时，重复放电从点电极沿水面以非常高的频率传播。在一项光学研究的测试中，使用门控图像增强器在空气中0.1 MPa和0.02 MPa的气体压力下观察了瞬态放电光。在0.1 MPa条件下，多个带分支的放电通道从点电极开始传播，而在0.02 MPa条件下，类辉光放电沿水面迅速传播，传播速度非常快。但在脱色试验中，靛蓝胭脂红分子在水中0.1 MPa的反应速度比0.02 MPa的反应速度要快。结果表明，大气压力下地表排放产生的活性物质对水中靛蓝胭脂红分子的分解具有重要作用

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2006 International Symposium on Discharges and Electrical Insulation in Vacuum

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