Pilot-scale pulsed corona discharge process was applied to the removal of SO/sub 2/ and NO/sub x/ from iron-ore sintering due gas. We made use of a two-stage magnetic pulse compression modulator to produce repetitive high voltage pulses. The dependencies of variables such as channel width, voltage level and dust content on power delivery were examined. In this system, we were able to deliver pulse power with peak voltage of 140 kV and peak current of 3.3 kA to the corona reactor. Under spark-over voltage, the energy delivered per pulse was almost similar regardless of the channel width. The energy conversion efficiency of the magnetic pulse compression modulator was not largely affected by the voltage level and the channel width, and around 65%. The dust content in the flue gas up to 4.6 g/Nm/sup 3/ did not have any influence on the power delivery. The maximum energy intensity that can be obtained was 0.5 J/pulse/m and 0.44 J/pulse/m when the channel width was 300 mm and 200 mm, respectively. More than 90% and 80% of SO/sub 2/ and NO/sub x/ could be removed in the corona reactor in the presence of additives such as ammonia (NH/sub 3/) and propylene (C/sub 3/H/sub 6/).
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机译:试验型脉冲电晕放电过程被应用于去除SO / SUP 2 /和NO / SUP X /来自铁矿石烧结到期气体。我们采用了两级磁脉冲压缩调制器以产生重复的高压脉冲。检查了诸如电力输送上的通道宽度,电压电平和灰尘内容的变量的依赖关系。在该系统中,我们能够将脉冲功率提供140 kV的峰值电压和3.3ka的峰值电流为电晕电抗器。在火花上电压下,无论通道宽度如何,每次脉冲输送的能量几乎相似。磁脉冲压缩调制器的能量转换效率在很大程度上受电压电平和通道宽度的影响,约为65%。烟道气中的粉尘含量高达4.6克/ nm / sup 3 /对电力输送没有任何影响。当沟道宽度分别为300mm和200mm时,可以获得的最大能量强度为0.5J /脉冲/ m和0.44 j /脉冲/ m。在添加剂如氨(NH / SUB 3 /)和丙烯(C / SUB 3 / H的情况下,在Corona反应器中可以在电晕反应器中除去超过90%和80%的SO / SUP 2 /和NO / SUB X / / sub 6 /)。
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