生物质能源的开发主要利用了沼气技术、生物质热裂解气化技术、生物质液体燃料技术等。
The development of biomass energy use of biogas technology mainly biomass pyrolysis gasification technology, biomass liquid fuel technologies.
根据三种材料作用机理的不同,研究探讨催化剂活性中心对热解气中焦油裂解率、催化裂解气体成分及反应速度(活化能)的影响。
The mechanism of the activated center of the catalysts on the tar removal efficiency, the gas component after tar cracking and the reaction speed or activation energy were studied.
本文用裂解气相色谱研究氯甲基化交联聚苯乙烯的热裂解行为。
The thermal degradation behaviour of chloromethylated crosslinked polystyrene has been studied by pyrolysis—gas chromatography in this paper.
实验证明,热裂解未经催化改质的产物与裂解气经催化改质后的产物组成有明显的区别。
Experiment showed that the product components of catalytic reforming are distinctively different from that of thermal pyrolysis.
实验证明,热裂解未经催化改质的产物与裂解气经催化改质后的产物组成有明显的区别。
Experiment showed that the product components of catalytic reforming are distinctively different from that of thermal pyrolysis.
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