This paper has two parts: (1) methane coupling under microwave plasma catalysis, (2) acetylene conversion into ethylene under conventional method.
本论文的研究内容有两个方面:(1)微波等离子体催化的甲烷偶联反应,(2)传统技术催化乙炔加氢转化为乙烯。
The result under the optimal condition is: methane conversion 64.0%, acetylene yield 52.0% and ethylene yield 12.0%.
在优化反应条件下最佳的反应结果为:甲烷转化率64.0%,乙炔收率52.0%,乙烯收率12.0%。
The process of conversion of methane to nana-carbon black and acetylene via thermal Plasma is under the control of mixing and diffusion rate.
本装置上,等离子体热解天然气制乙炔和炭黑的动力学不是由反应速度控制,而是由混合与扩散控制。
Final ly, the overall energy conversion efficiency of DSSC with PANI50% (in weight) acetylene black electrolyte is 48% of that of liquid DSSC.
最后,加入50%乙炔黑的聚苯胺电解质的电池光电转换效率达到了液态电池的48%。
So the temperature of reaction system must be raised above 4000k in order to improve the conversion ratio of carbon in coal to acetylene.
为了提高乙炔的碳利用率,必须提高反应体系的温度到4000K以上。
So the temperature of reaction system must be raised above 4000k in order to improve the conversion ratio of carbon in coal to acetylene.
为了提高乙炔的碳利用率,必须提高反应体系的温度到4000K以上。
应用推荐