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 result under the optimal condition is: methane conversion 64.0%, acetylene yield 52.0% and ethylene yield 12.0%.
结果表明,甲烷转化率决定于甲烷被激光照射的脉冲次数和甲烷中的添加剂,而反应器中的靶材料无显著影响。
The results show that the conversion of methane depends on the number of laser pulses irradiating methane and additives in methane. The target materials have no obvious influence.
实验采用铜电极和不锈钢电极分别考察了输入电场峰值电压和甲烷、氢气进料流量等参数对甲烷转化率和碳二烃收率、选择性的影响。
Effects of peak electric voltage and feed flow rates of methane and hydrogen on CH4 conversion, C2 yield, and the selectivity were investigated using copper or stainless steel electrode.
随着反应温度的升高,甲烷的转化率增加,甲醛的选择性降低,甲醛比活性升高。
The methane conversion increased and formaldehyde selectivity decreased and formaldehyde specific activity increased as the reaction temperature rising.
研究表明用醋酸铁作催化剂不仅可以使二苯甲烷的转化率增加,而且可使反应速度加快。
The results show that the application of iron acetate catalyst can not only promote diphenylmethane conversion, but also accelerate the reaction rate.
结果表明:天然气在氮热等离子体中热解反应强烈,其转化率主要由输入功率和甲烷流量决定,产品的选择性亦即乙炔的收率与反应器的结构密切相关。
Results show that the conversion rate of methane is mainly determined by plasma power and methane flow rate, the product selectivity is sensitive to reactor configuration.
在最优反应条件下甲烷的转化率可达54.5%,甲醇收率达45.5%。
Under optimum reaction conditions, CH4 conversion of 54.5%, CH3OH yield of 45.5 % were obtained.
为了得到较高的转化率和化学能效值,应采用甲烷和二氧化碳具有相互促进作用的重整反应过程。
The mutual promotion between carbon dioxide and methane in reforming process should be considered in order to obtain high conversion of CH4 and CO2, and high chemical energy efficiency.
为了得到较高的转化率和化学能效值,应采用甲烷和二氧化碳具有相互促进作用的重整反应过程。
The mutual promotion between carbon dioxide and methane in reforming process should be considered in order to obtain high conversion of CH4 and CO2, and high chemical energy efficiency.
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