This study examines the conversion of methane to methanol and other higher hydrocarbons using nonthermal plasma generated by pulsed discharge. A coaxial-type plasma reactor with a glass dielectric interposed between the wire and the cylinder electrodes was used. A sharp-rising square wave pulsed voltage was used with a rise time of 50 ns and peak voltage of about 20 kV. Methane, oxygen and argon were mixed and fed to the reactor. The experimental results indicated that ethylene (C/sub 2/H/sub 4/), ethane (C/sub 2/H/sub 6/), methanol (CH/sub 3/OH), formaldehyde (HCHO), hydrogen (H/sub 2/), carbon monoxide (CO) and carbon dioxide (CO/sub 2/) were the major products of the plasma chemical reactions. Effect of the parameters gas residence time, input power, and partial pressure of argon were studied experimentally. The production efficiency and the selectivity of products (ratio of number of molecules converted from methane to products) were greatly dependent on these parameters. Particularly, it was found that the methanol and formaldehyde production have an optimum specific input power. The highest methanol and formaldehyde production efficiency and selectivity were achieved for a methane and oxygen ratio of 85/15, partial pressure of argon of 50 kPa and input energy of 12 kJ/L. This maximum production efficiency, of about 3.0 /spl mu/L/J, and selectivity of 52% were obtained at the optimum conditions.
展开▼
机译:本研究通过脉冲放电产生的非热等离子体检查甲烷与甲醇和其他高级烃的转化。使用具有插入在线和汽缸电极之间的玻璃电介质的同轴型等离子体反应器。尖锐的方波脉冲电压用于50 ns的上升时间和约20kV的峰值电压。将甲烷,氧气和氩气混合并加入反应器中。实验结果表明,乙烯(C / SUB 2 / H / SUB 4 /),乙烷(C / SUB 2 / H / SUB 6 /),甲醇(CH / SUB 3 / OH),甲醛(HCHO),氢气( H / SUB 2 /),一氧化碳(CO)和二氧化碳(CO / SUB 2 /)是血浆化学反应的主要产物。实验研究了参数气体停留时间,输入功率和氩气部分压力的影响。产品的生产效率和选择性(从甲烷转化为产品的分子数量)大大依赖于这些参数。特别是,发现甲醇和甲醛产生具有最佳的特异性输入功率。甲烷和甲烷的最高甲醇和甲醛生产效率和选择性为85/15的甲烷和氧比,50kPa的分压和12kJ / L的输入能量。在最佳条件下获得该最大的生产效率,约3.0 / SPL mu / L / j和52%的选择性。
展开▼
