生物质的快速热解是一种新型生物能源转化技术。
Fast pyrolysis of biomass for bio-oil is a kind of new technology of energy conversion which attracts growing research rapidly.
煤在快速热解过程中脱除热解水、焦油、部分的硫和煤气。
The chemical bond water, tar, partial sulfur and gas escape from coal during rapid pyrolysis.
在生物质快速热解的研究中,生物质细粉的稳定加料问题非常重要。
Biomass powder feeding is an important problem in the study of fast pyrolysis.
生物质快速热解技术是国内外生物质资源高效利用的重点研究课题。
Biomass fast pyrolysis is a key subject on biomass high-efficient utilization both at home and abroad.
本研究围绕着阵列式生物质快速热解反应器设计及其流态化模拟进行。
This paper focus on the design of an array fast pyrolysis reactor and its CFD simulations.
本文在快速热解试验装置中对片状的白松样品进行制取生物油的试验研究。
Experimental research on the pyrolysis of white-pine wood has been carried out on a flash pyrolysis equipment.
大规模生物质快速热解制取生物油将成为解决液体燃料短缺的一个重要途径。
A fluidized bed reactor biomass fast pyrolysis system for producing bio-oil was developed independently.
煤炭拔头是采用煤炭快速热解方法获得轻质焦油、煤气产品以及半焦的多联产技术。
The coal topping process is an integrated multiproduct process to obtain a high yield of light liquid fractions, gaseous products and coal by flash pyrolysis.
生物质快速热解制取的生物原油,经过精制提质,具有柴油或汽油的特点,可用于车用燃料。
Through upgrading, bio-oil by biomass fast pyrolysis is promising technology for diesel or gasoline substitute.
木质生物质能是可再生能源的重要组成部分,快速热解技术是国内外木质生物质能源化的热点研究课题。
Woody biomass energy is an important part of the renewable energies; the fast pyrolysis technologies are the hotspot of studies on woody biomass energy both at home and abroad.
为了研究生物质颗粒在等离子体快速热解液化设备水平携带床热解管中的运动,设计制造了水平携带床冷态模拟装置。
A set of transparent cold model was designed for studying the movements of biomass particulate in horizontal entrained bed of the plasma heated biomass fast pyrolysis liquefaction prototype.
利用红外光谱、差热扫描以及气相色谱—质谱联用等先进的分析手段对落叶松树皮快速热解油的主要成分进行了分析。
Major ingredients of pyrolytic tar of larch bark were studied by advanced analysis methods such as FTIR, DTA and GC-MS.
充分利用煤颗粒在自由落下床反应器中停留时间短的特点,直接用空气做载气,对自由落下床反应器中煤在氧化性气氛下的快速热解行为和硫的变迁进行了研究。
Considering the very short particle residence time in the free-fall reactor, air was directly used as carrier gas to study the fast pyrolysis and sulfur evolution of coal under oxidizing atmosphere.
介绍了各国煤快速加氢热解(FHP)的研究概况。讨论了温度、压力、加热速率等因素对FHP的影响。
The research status quo of coal flash hydropyrolysis (FHP) in the world is reviewed and the effects of pressure, temperature, heating rate and catalyst on the FHP process are discussed.
介绍了各国煤快速加氢热解(FHP)的研究概况。讨论了温度、压力、加热速率等因素对FHP的影响。
The research status quo of coal flash hydropyrolysis (FHP) in the world is reviewed and the effects of pressure, temperature, heating rate and catalyst on the FHP process are discussed.
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