高温脉冲电晕等离子体反应器

R. Korzekwa, L. Rosocha
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引用次数: 4

摘要

非热等离子体反应器最近被用于处理气态污染物。高能电子(几个eV)在等离子体中产生,而气体保持在环境温度附近。污染物分子被电子碰撞产生的高活性化学自由基分解。本工作的重点是电弧焚烧炉废气中污染物的处理。一个脉冲电晕反应堆能够在几百摄氏度的排气温度下运行。这种设计可以用作传统的脉冲电晕反应器(线-金属管几何形状),也有可能用作混合反应器,该混合反应器将线管几何形状与金属管内表面的陶瓷介电屏障结合在一起。脉冲宽度为几ns,上升时间小于10ns。具体来说,研究了反应器性能随温度的变化规律。从这个原型气体污染物的破坏的初步结果,以及该装置的电气和化学效率。
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A high temperature pulsed corona plasma reactor
Nonthermal plasma reactors have recently been used for the treatment of gaseous pollutants. High energy electrons (several eV) are produced in the plasma while the gas remains near ambient temperatures. Pollutant molecules are decomposed by highly reactive chemical radicals created through electron collisions. The focus of this work is the treatment of pollutants from the exhaust of electric arc incinerators. A pulsed corona reactor capable of operation at exhaust temperatures of hundreds of degrees C has been constructed. This design can be used as a conventional pulsed corona reactor (wire-metal tube geometry) and has the potential for use as a hybrid reactor which incorporates a wire-tube geometry with a ceramic dielectric barrier on the inside surface of the metal tube. Pulse widths of a few 10's of ns and risetimes of less than 10 ns have been obtained. Specifically, the reactor performance as a function of temperature is investigated. The preliminary results of the destruction of gaseous pollutants from this prototype are presented along with electrical and chemical efficiencies of the device.
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