Bio oil, char and gas are main products of pyrolysis.
热解的主要产物有生物油、焦炭和气体。
The yield of three component pyrolysis bio oil decreased with the temperature change.
三组分热裂解生物油产量随温度变化先升后降。
The invention relates to a method for preparing phenol formaldehyde adhesive by bio oil, which belongs to the technical field of the wood adhesive.
本发明涉及一种用生物油制备酚醛树脂胶粘剂的方法,属于木材胶粘剂技术领域。
The heat breaks the biomass down into a charcoal-like solid and the bio-oil, giving off some gas in the process.
这种情况下,加热会把生物原料变成木炭似的固体物质和生物原油,同时释放某些气体。
United Flight 1403 burned a blend of traditional petroleum-based jet fuel and bio-jet fuel refined from algal oil.
联合航空的1403号飞机使用的就是由传统航空汽油和海藻油提供的混合双能源。
This divergence within the commodity family is untenable, given the bio-ethanol linkage to oil.
在生物乙醇与燃油关联的情况下,商品家族里这一背驰是站不住脚的。
Deconstruction at higher temperatures (300 to 600 degrees C) produces a biocrude, or bio-oil, that can be refined into gasoline or diesel.
温度再高一些的工艺(300~600摄氏度)得到的则是生物原油(biocrude或bio-oil),可进一步提炼成汽油或柴油。
Waste oil, fruit peel and rotten vegetable leaves, which is familiar in the kitchen, will become the bio-diesel, organic fertilizer or biogas to generate electricity.
潲水油、瓜果皮、烂菜叶,这些厨房常见的垃圾将变身生物柴油、有机肥料或进行发电。
Exterior walls and ceilings covered with maintenance-pine relief tempered with bio-based oil.
外墙壁和天花板被涂了生物油的养护松覆盖。
The chemicals determined from the bio-oil are valuable indicating a wide range of application of the bio-oil.
对液化油成分的分析,表明了它具有广阔的应用前景。
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.
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。
The applications of bio-oil was point out.
并指出了生物油的应用方式。
Using Chinese fir sawdust as raw material, the experiments of biomass vacuum pyrolysis for production of bio-oil were carried out.
以杉木屑为原料,进行了真空热解制备生物油的实验研究。
The utilization of Idesia polycarpa oil in edible oil and bio-energy are studied by analyzing its component and the oil content of the seed.
在研究山桐子果实含油率、山桐子油成分的基础上,探讨山桐子油在食用油及生物能源等方面的利用。
The characters of bio-active components in vegetable oil and their physiological functions are introduced. The significance of the investigation and the future of its exploiture are prospected.
介绍了植物油脂中的各种生物活性成分的性质及其生理功能,并对其研究意义和开发前景进行了展望。
Now reduce the cost and enhance the yeild of bio-oil by improve the pyrolysis set are our effort direction.
改进热裂解装置来降低生产生物油的成本,提高产油率是现阶段努力的方向。
The yield of bio-oil is determined by materials and reaction conditions.
实验的原料和反应条件决定了液化产物的收率。
The bio-oil yield from cellulose is the highest of the three fractions, but it is lest stable.
纤维素生物油产量在峰值上最高,但纤维素生物油热稳定性差,高温时挥发分的二次分解最明显;
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.
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。
Some overseas research results of bio-oil upgrading were introduced, and the prospect of biomass pyrolysis for producing liquid fuel was discussed.
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。
The stability of bio-oil is very important for its applications.
稳定性对生物油的应用十分重要。
It is shown that the pyrolysis temperature has a great effect on the yield and the compositions of the bio-oil.
结果表明,裂解温度对热解油产率及其族馏分构成的影响很大。
The results show that the main effect on the oil production rate is the pyrolytic temperature. But gas flow rate and bed depth can also affect the rate of bio-oil.
结果表明热解温度是生物质产油率的主要影响因素,流化气流速和床层高度对产油率也有一定的影响。
This paper concludes detailed the current status of biomass pyrolysis for liquid product in china and overseas, especially about analysis of bio-oil composition.
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。
The component's distribution of bio-oil, which was produced from Fraximus mandshurica by flash pyrolysis in a fluidized bed reactor, was determined by GC-MS analysis.
结合色质联机技术分析了由流化床热裂解水曲柳获得的生物油主要组分的分布。
This paper mainly introduced the research and progress of the technology about heating through heat-carrier during the process of producing bio-oil.
本文简要介绍了生物燃油生产过程中热载体加热技术的研究及进展。
This paper mainly introduced the research and progress of the technology about heating through heat-carrier during the process of producing bio-oil.
本文简要介绍了生物燃油生产过程中热载体加热技术的研究及进展。
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