It is provided as a reference for holding the pyrolysis gasification character and efficacious utilization of coal.
为掌握煤的热解气化特性及煤的有效利用提供了参考依据。
The development of biomass energy use of biogas technology mainly biomass pyrolysis gasification technology, biomass liquid fuel technologies.
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 influences of temperature, catalysts and moisture on microcrystallite structure of pyrolysis gasification semicoke were investigated using X-ray diffraction(XRD).
采用X-射线衍射(XRD)法分别考察了温度、催化剂和水分对生物质热解气化半焦微晶结构的影响。
Pyrolysis gasification semicoke charateristics of two kinds of fresh biomass were studied in order to better investigate the pyrolysis gasification mechanism of fresh biomass.
为了更全面地研究新鲜生物质的热解气化过程,对二种新鲜生物质不同热解气化条件下的半焦特性进行了研究。
The catalytic pyrolysis gasification of fresh grass (GR) and wheat straw (WS) for production of hydrogen rich gas was investigated in a little fixed-bed gasification experimental system.
在小型固定床反应器上进行了新鲜草和小麦秸秆的催化热解气化制富氢燃料气的研究。
Much the same doubt surrounds two other technologies called gasification and pyrolysis.
另外两种垃圾处理技术——气化法和高温分解法也受到同样的质疑。
This paper also set up a multicomponent model based on the whole medical waste, which solved the difficulty of simulating mixed wastes' pyrolysis and gasification process.
本文还从医疗废物总体出发,建立了多组分模型,解决了以往对混合性废物热解气化模拟的难点。
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。
The chemical conversion techniques, e. g. liquefaction, gasification and pyrolysis, are the main orientation for research and development.
化学转变中的液化、气化和热解技术是目前主要研究方向。
Pyrolysis and gasification incineration is considered to be of prodigious long term potential.
热解气化技术是具有前景的一项医疗垃圾处理技术。
The technology in municipal solid waste treatment includes disposal, combustion, refuse derived fuel technology, MSW anaerobic ferment, pyrolysis and gasification.
这些技术涉及垃圾卫生填埋、垃圾梦烧、垃圾衍生燃料技术、垃圾厌氧发酵和垃圾的热解气化等。
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。
Due to its low energy density and high oxygen content, biomass is often pretreated by slow pyrolysis to form semi-char which is then fed to the entrained flow gasification reactor.
运用慢速热解方式对生物质颗粒进行预处理,半焦作为生物质气流床气化的原料,通过自动量热仪和元素分析仪对稻草和梧桐树叶热解后的半焦进行热值、元素分析。
Pyrolysis is thermal degradation either in the complete absence of oxidizing agent, or with such a limited supply that gasification does not occur to an appreciable extent.
热解是在完全无氧或有限供氧条件下,极少发生气化反应的情况下进行的降解反应。
Medium temperature desulfurization occupies an important position in clean and efficiency poly-generation technology based on gasification gas and pyrolysis gas.
中温煤气脱硫在气化煤气和热解煤气为基础的高效、清洁“多联产”技术中占有重要的地位。
Much the same doubt surrounds two other technologies called gasification and pyrolysis .
另两种技术:气化和热解,也面临同样的怀疑。
Slow pyrolysis has become a new pretreatment method used before biomass entrained flow gasification.
慢速热解作为生物质气流床气化的前处理工艺在国内为首创。
Circulating fluid bed multi-generation technology can combine pyrolysis, gasification and combustion in a hybrid process according to different compositions of coalition.
循环流化床多联供技术根据煤的不同组分的特点,实现热解、气化、燃烧的分级利用,是适合我国煤炭特点的技术。
Oxygen carriers actually react with the products from the pyrolysis and gasification of coal instead of coal in itself when coal is directly used as the fuel.
煤与金属氧载体的反应并不是氧载体与煤的直接反应,而是与其热解和气化产物的气固反应。
Under high speed preheat in blast furnace and gasification in iron-bath for smelting reduction the pyrolysis of pulverized coal injection is the first important stage.
高炉喷吹煤粉和熔融还原铁浴粉煤气化等高速加热条件下,快速热分解是第一步。
Slow pyrolysis as the pretreatment technology before biomass entrained flow gasification was experimentally studied, and its feasibility assessed.
慢速热解作为生物质气流床气化的前处理工艺在国内为首创。
Besides, the gasification activity of liquid phase carbonization coke at the pyrolysis of atmospheric pressure was distinctly higher than that at the pressurized activity.
常压条件下液相炭化焦的气化活性明显高于加压条件下的气化活性。
Thermochemical conversion of biomass includes gasification, pyrolysis and liquefaction.
对生物质液化的机理进行了剖析;
Thermochemical conversion of biomass includes gasification, pyrolysis and liquefaction.
对生物质液化的机理进行了剖析;
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