生物质油是用秸杆作原料,通过热裂解、液化等工艺而生产的环保型燃料。
The creature oil is a fuel of environmental protection, it is produced with straw material, using the crafts of the hot cracking and liquefying etc.
她在一份新闻稿中说,高价的棕榈油和橡胶意味着此类作物是有利可图的,利用生物质很低的土地种植它们使得这种种植在环境上也可行。
She said in a press release that high prices for palm oil and rubber means these crops can be profitable and that using land with low original biomass makes their cultivation environmentally feasible.
本文最后介绍了国内外所进行的生物油的改性研究,讨论了生物质热裂解制取生物油技术的应用前景。
Some overseas research results of bio-oil upgrading were introduced, and the prospect of biomass pyrolysis for producing liquid fuel was discussed.
微藻生物质做为一种可再生能源通过液化可以转化为生物油,减少人类对化石能源的消耗与依赖。
Microalgae biomass, as a renewable energy through liquefaction, can be turned into bio-oil, reducing consumption and reliance on fossil fuels.
其中反应器温度做为最重要的影响因素对生物油的产率起决定作用,而生物质颗粒粒径、载气流量对生物油产率的影响相对较小。
Reactor temperature is the most important influence factor and plays the decision role to the bio-oil production rate, the particle size and fluidization gas amount play the relative small role to it.
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.
生产的原料:木质生物质,油籽,禾草,谷类作物残余物。
Feedstock. Woody biomass, oil seed, grasses, cereal crop residue.
本文详细归纳了国外及我国生物质热裂解制取生物油技术的研究现状,并且对国内外关于生物油组成成分的研究现状进行了系统地总结。
This paper concludes detailed the current status of biomass pyrolysis for liquid product in china and overseas, especially about analysis of bio-oil composition.
该研究为熔盐热裂解生物质制生物油的研究提供了参考。
This research can provide a scientific reference for rice straw pyrolysis in molten salts to produce bio-fuels.
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.
胶粘剂的胶接强度主要与热解生物油中酚类物质含量有关。
The bonding strength of adhesive was mainly related to the contents of phenolic substances in pyrolysis bio-oil.
先进生物燃料的原料来源包括柳枝稷、大豆油、玉米油、农作物残余物、木质生物质等等。
Feedstock pathways for advanced biofuels include switchgrass, soybean oil, corn oil, crop residues, woody biomass and other feedstocks.
通过热解技术可以实现把低能量密度的生物质转化为高能量密度的液、固、气产品,同时还能从生物油中提取多种化学品。
With this process, the low energy density in biomass can be converted into the products with high energy density and many che...
生物质裂解油以秸秆等农林废弃物为原料,其特质适于替代燃料油。
Biomass based pyrolysis oil use agricultural or forestry waste as feedstock, and the product is suitable to substitute fuel oil.
这种方法不但提高生物油的品质而且提高了生物质的综合利用效率。
The liquid yield rate can be up to 70%, and said biological oil is low in oxygen content, stable in oil quality, and is easily refined.
这种方法不但提高生物油的品质而且提高了生物质的综合利用效率。
The liquid yield rate can be up to 70%, and said biological oil is low in oxygen content, stable in oil quality, and is easily refined.
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