1·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。
2·Thermal pyrolysis of Daqing thermal tar and Xinjiang natural bitumen at various tempertures were studied with the purpose of investigating the mesophase transformation.
通过对大庆热裂化渣油、新疆天然沥青两种典型试样在热转化时中间相转化过程的考察,初步探讨了中间相形成的一般规律。
3·The resulting DPCI spectra can be not only used as finger-prints to distinguish the different polymers, but also applied to investigate mechanism on thermal pyrolysis of …
得到的谱图不仅能作为指纹谱区别不同的聚合物,而且能用于研究聚合物热裂解机理。
4·The resulting DPCI spectra can be not only used as finger-prints to distinguish the different polymers, but also applied to investigate mechanism on thermal pyrolysis of polymers.
得到的谱图不仅能作为指纹谱区别不同的聚合物,而且能用于研究聚合物热裂解机理。
5·The thermal degradation behaviour of chloromethylated crosslinked polystyrene has been studied by pyrolysis—gas chromatography in this paper.
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。
6·The thermal properties of biomass fuels such as cotton stalk briquette in the small furnace of biomass pyrolysis and combustion with moving bed and updraft was investigated.
研究了棉杆成型块等生物质固体燃料在小型移动层上吸式热解燃烧炉中的热特性。
7·The technology of urea pyrolysis to prepare ammonia and its application situation in SCR Denitrification of Huaneng Beijing Thermal Power Co Ltd have been presented.
介绍尿素热解制氨技术及其在华能北京热电有限责任公司SCR脱硝中的应用情况。
8·The structure and oxygen functional groups of coals have a great influence on thermal decomposition during pyrolysis and combustion.
在煤的热解和燃烧过程中,煤的结构及煤中含氧官能团对煤的分解影响很大。
9·In the thermal plasma field arc included basic processes and modelling, diagnostics, plasma systems, melting and evaporation, metallurgy, chemical synthesis, and pyrolysis.
热等离子体方面包括基本过程和模型,诊断,等离子体系统,熔化和气化,冶金,化工过程和热解。
10·The thermal technologies included high temperature over-burning, infrared destruction, plasma arc pyrolysis, molten salt destruction, supercritical water oxidation, in situ vitrification, and etc.
二口恶英治理的热技术包括高温过燃烧技术、红外脱毒技术、等离子体高温分解技术、熔盐脱毒技术、超临界水氧化技术、原位玻璃化技术等;