An experimental study on the removal of NO/sub x/ in flue gas has been carried out using plasma chemical reactions in a dielectric barrier discharge. A multipoint-to-plane geometry is used for the electrode used to lower the operating voltage. The effect of the multipoint electrode configuration on the characteristics of a discharge and NO/sub x/ removal has been investigated. Plasma is produced in a narrow gap by a dielectric barrier discharge at low applied voltage with sinusoidal waveform of 23 kV rms. Specific energy to reduce NO is 63 eV. Electric energy consumed in the discharge increases linearly with area of multipoint electrode, and is approximately 1 /spl mu/J/point at 2.7 kV. In regard to the multipoint electrode configuration, the consumed energy can be increased by reducing the angle of the point. However, the energy efficiency of NO removal becomes small if the point angle is small. It also decreases with reducing the number of points per unit area. In regard to treatment of exhaust gas from a diesel engine generator (20 kVA), NO can be almost completely depleted by the multipoint-to-plane barrier discharge for electrical load below 35% of the rated output.
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机译:利用介电势垒放电中的等离子体化学反应进行了烟道气中NO / sub x /去除的实验研究。多点到平面几何形状用于降低工作电压的电极。已经研究了多点电极配置对放电和NO / sub x /去除特性的影响。等离子体是在低施加电压下以23 kV rms的正弦波形通过介电势垒放电在狭窄的间隙中产生的。还原NO的比能为63 eV。放电中消耗的电能随多点电极的面积线性增加,在2.7 kV时约为1 / spl mu / J / point。关于多点电极构造,可以通过减小点的角度来增加消耗的能量。但是,如果尖角小,则NO去除的能量效率变小。随着单位面积的点数减少,它也会减少。关于柴油发动机发电机(20 kVA)的废气处理,对于低于额定输出功率35%的电负载,多点到平面势垒放电几乎可以完全消除NO。
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