1·Developing a new type of pyrolysis reactor is a key step for industrialization of the new process.
而研究和开发一种新型的热解反应器是实现新工艺工业化的关键课题。
2·In this paper the pyrolysis of coals with different metamorphism is performed under inert gas ambience in a non-isothermal reactor.
本试验的目的是研究不同变质程度的煤在惰性气氛中的非等温热解。
3·Slow pyrolysis as the pretreatment technology before biomass entrained flow gasification was experimentally studied, and its feasibility assessed.
针对生物质气化过程面临的问题,利用慢速热解方法作为生物质气流床气化的前处理工艺并考察其可行性。
4·Kinetics study of the pyrolysis process is carried out at last.
最后对花生壳的热解过程进行了动力学研究。
5·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。
1·This is called pyrolysis and, if done correctly, results in a mixture of carbon monoxide and hydrogen called "syngas" (short for synthesis gas).
这叫做高温分解,之后可以得到一氧化碳和氢气,也就是合成煤气(好像初中时候说过的水煤气——by译者)。
2·The gasification process is assumed comprising of an initial instantaneous pyrolysis step followed by rapid partial combustion and char gasification.
气化过程假定包含一个最初瞬间的高温分解步骤,紧接着是部分燃烧和焦炭气化。
3·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;