Distribution of Electrical Field Energy for Conversion of Methane to C_2 Hydrocarbons via Dissymmetrical Electric Field Enhanced Plasma

Baowei Wang; Genhui Xu; Hongwei Sun

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Distribution of Electrical Field Energy for Conversion of Methane to C_2 Hydrocarbons via Dissymmetrical Electric Field Enhanced Plasma

机译：通过不对称电场增强等离子体将甲烷转化为C_2碳氢化合物的电场能分布

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Direct conversion of methane into C_2 hydrocarbons through alternating current electric field enhanced plasma was studied under room temperature, atmospheric pressure and low power conditions. The distribution of electrical field intensity and distribution of energy were calculated with software that was developed by us according to the charge simulation method. The results indicated that the energy of tip of electrode was 0.36 J/mm~3 and it was higher than the methane dissociation energy (0.0553 J/mm~3). The methane located at this area can be activated easily. The higher-energy particles produced by dissociation collided with molecules around them and initiated consecutive reactions between free radicals and molecules. The method was proved to be valided and could be taken as a basis for the electrical field study concerned.

机译：在室温，大气压和低功率条件下，研究了通过交流电场增强等离子体将甲烷直接转化为C_2碳氢化合物的方法。使用我们根据电荷模拟方法开发的软件计算电场强度的分布和能量的分布。结果表明，电极尖端的能量为0.36 J / mm〜3，高于甲烷的离解能（0.0553 J / mm〜3）。位于该区域的甲烷很容易被活化。解离产生的高能粒子与周围的分子碰撞，引发自由基和分子之间的连续反应。该方法被证明是有效的，可作为有关电场研究的基础。

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来源
《Journal of Natural Gas Chemistry》 |2006年第2期|p.115-121|共7页
作者
Baowei Wang; Genhui Xu; Hongwei Sun;
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作者单位

Key Laboratory for Green Chemical Technology, School of Chemical Engineering and Technology, Tianjin University, Tianjin 300072, China;

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收录信息美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类化学;
关键词
electrical field enhanced; plasma; intensity of electrical field; distribution of energy;

机译：增强电场等离子体电场强度能量分布;
入库时间 2022-08-17 23:58:39

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专利

1. Distribution of Electrical Field Energy for Conversion of Methane to C2 Hydrocarbons via Dissymmetrical Electric Field Enhanced Plasma [J] . Baowei Wang, Genhui Xu, Hongwei Sun 天然气化学（英文版） . 2006,第002期

机译：通过不对称电场增强等离子体将甲烷转化为C2烃的电场能分布
2. STUDY ON THE CONVERSION OF METHANE TO C_2 HYDROCARBONS THROUGH SYMMETRIC ELECTRICAL FIELD ENHANCING CATALYSIS [J] . Wang Baowei, Xu Genhui, Sun Hongwei Journal of Natural Gas Chemistry . 2001,第2期

机译：对称电场增强催化甲烷转化为C_2烃的研究
3. Catalysis Conversion Methane into C2 Hydrocarbons via Electric Field Enhanced Plasma [J] . Bao Wei WANG, Gen Hui XU 中国化学快报（英文版） . 2003,第012期

机译：电场增强等离子体催化甲烷转化为C2烃
4. Kinetics of Methane Conversion with Electric Field -Enhance Plasma Technology under low Temperature [C] . Baowei Wang, Yang Li, Genhui Xu, Joint China/USA chemical engineering conference;CUChE-3 . 2000

机译：低温下电场增强甲烷转化甲烷的动力学
5. Electric field-enhanced catalytic conversion of methane: An experimental study on the effects of corona discharge on methane reactions. [D] . Marafee, Abdulathim M. J. 1996

机译：电场增强的甲烷催化转化：电晕放电对甲烷反应影响的实验研究。
6. The distribution of free calcium in transected spinal axons and its modulation by applied electrical fields [O] . AF Strautman, RJ Cork, KR Robinson 1990

机译：游离钙在横断脊髓轴突中的分布及其施加电场的调制
7. Advanced-fueled fusion reactors suitable for direct energy conversion. Project note: temperature-gradient enhancement of electrical fields in insulators [O] . A. S. Blum, L. Mancebo 1976

机译：适用于直接能量转换的先进燃料的熔化反应器。项目注意：绝缘体中电场的温度梯度增强
8. Advanced-Fueled Fusion Reactors Suitable for Direct Energy Conversion. Project Note:Temperature-Gradient Enhancement of Electrical Fields in Insulators. [R] . blum, a. s. mancebo, l. 1977

机译：先进燃料的聚变反应堆适用于直接能量转换。项目说明：绝缘子中电场的温度梯度增强。

Distribution of Electrical Field Energy for Conversion of Methane to C_2 Hydrocarbons via Dissymmetrical Electric Field Enhanced Plasma

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