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.
生物质作为唯一可转化为液体燃料的可再生能源。
Biomass is the only practical source of renewable liquid fuel.
在此背景下,生物质作为唯一可转化为液体燃料的可再生资源,正日益受到重视。
Biomass has got more and more recognition under this background due to its capability as the only renewable resource transferable to liquid fuel.
在大部分的生物质燃料(木材,稻草)已加热的10月16日兆焦耳ragne价值/公斤,而液体燃料(柴油,汽油),具有的较高的热值。
The most of the biomass fuels (wood, straw) has heating value in the ragne of 10-16 MJ/kg, whereas liquid fuel (diesel, gasoline) posses higher heating value.
大力开发生物质的热裂解制油技术,可将低品位的生物质能转化成高品质的、高能量密度,清洁、无污染而且二氧化碳排放为零的生物油液体燃料。
The technology of biomass pyrolysis can convert low-quality biomass into bio-oil that has the character of high-quality, high energy density, cleanness and zero carbon dioxide emission.
最后评估了生物质热裂解制取液体燃料技术的经济和社会效益,结果表明它具有广泛的应用前景。
At last the economy benefit was analyzed, with the environmental benefit, the result shows this technology has a good market prospect.
为了在温和条件下从生物质中生产高质量的液体燃料,有必要开发新型液化溶剂。
To produce superior quality liquid biofuel from biomass under mild conditions, it is essential to exploit novel reactive liquid solvent.
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.
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.
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