甲烷二氧化碳重整制取高附加值合成气的过程是近十几年来世界范围的研究热点之一,该过程的研究具有重要的理论和实际意义。
The reaction of carbon dioxide reforming of methane to synthesis gas received significant attention in recent years, and the study on it has important academic and practical significance.
本论文在参考相关文献的基础上,对甲烷、氧气和二氧化碳催化氧化重整制合成气镍基催化剂进行了研究。
Based on correlative references, catalytic oxidation and reformation of methane, carbon dioxide, and oxygen to synthesis gas by Ni-based catalysts was studied in this paper.
采用TPSR、TPD和脉冲反应等方法对担载型镍基催化剂上甲烷二氧化碳重整反应过程中二者的吸附和解离行为进行了详尽的研究。
The adsorption and dissociation of methane and carbon dioxide for reforming on nickel catalyst were extensively investigated by TPSR, TPD and pulse reaction experiments.
甲烷催化燃烧和二氧化碳重整甲烷制合成气是利用甲烷的两条有效途径。由于甲烷的化学稳定性,两个反应都需要高温条件才能进行。
The catalytic combustion of methane and the methane reforming with carbon dioxides are two effective ways of make use of the methane.
结果表明:添加金属钌和锡均降低了催化剂耦合甲烷部分氧化与二氧化碳重整的活性和稳定性。
It was found that doped Ru and Sn both decreased the activity and stability of the catalysts.
利用浸渍法制备了钌和锡掺杂镍系催化剂,考察了其耦合甲烷部分氧化与二氧化碳重整的活性和稳定性。
The research status and progress in the coupling methane partial oxidation and carbon dioxide reforming reaction including the catalysts used for the reaction are described and discussed.
甲烷重整制合成气有三条路径:水蒸气重整,二氧化碳重整和部分氧化。
There are three approaches to produce synthesis gas from methane, namely, reforming with H_2O (steam reforming), with CO_2 (CO_2 reforming), and partial oxidation.
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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