滑动弧放电等离子体裂解正己烷实验研究

考察了一种新型低温等离子体发生方式滑动弧放电对正己烷的裂解效果,检测了主要裂解产物,并分析了供给电压、正己烷初始浓度、电极材料和反应器结构对裂解率的影响.结果表明,该法可以有效处理正己烷,最高裂解率达96%.在空气中的主要裂解产物为CO2、CO、NO2和H2O.增大供给电压可以提高正己烷裂解率;初始浓度增大后裂解率下降,但绝对处理量增大;相同能耗情况下,采用铁电极时能量利用率最低,正己烷裂解率低于铝电极和铜电极;电极最小间距和喷嘴直径之间的比例关系影响裂解效果,优化两者的匹配关系可以提高裂解率.

The experimental investigation on the decomposition of hexane in gliding arc discharge

The hexane decomposition efficiency with a novel type of non-thermal plasma engendered by gliding arc gas discharge is investigated, and the main decomposition products are analyzed. The effects of supply voltage, hexane initial concentration, electrode material, and reactor structure parameters on decomposition rate of hexane are studied. The results show that hexane can be decomposed effectively with this method, while the maximum removal efficiency of hexane is up to 96% with the air as carrier gas. The main decomposition products in the air are CO2 , CO, NO2 and H2O. The conversion rate of hexane increases with enhancing supply voltage. Increasing the initial concentration of hexane in the gas mixture will decrease the decomposition rate, but increase the absolute treating capacity. The decomposition rate is lower when using the iron as the electrode material, compared with the aluminum and cuprum under the same energy consumption. The ratio of the shortest distance and nozzle diameter will do effect of the decomposition, the maximal decomposition rate can be obtained through optimizing ratio of these two parameters.