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。
It is shown that the pyrolysis temperature has a great effect on the yield and the compositions of the bio-oil.
废旧电路板中的树脂与碳酸钙共同加热,获得气体、固体和热解油3种热解产物。
The pyrolytic tar, gas and solid were obtained by pyrolysising of waste printed circuit boards mixed with CaCO3.
由于热解油中物质的复杂性及共沸现象的存在,给热解油的分离提纯带来了很大的困难。
Because the complexity and mutual boiling existence of pyrolysis oil, it bring out much difficult to separate and purify pyrolysis oil.
通过与各种商用石油衍生油品的比较,认为当热解油产量较低时,可以将其整体作为重柴油使用;
By comparison with industrially petroleum fuel, it's considered that pyrolytic oil can be used as diesel oil when the output is low;
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.
从西北地区侏罗纪煤中分离出来的不同显微组分热解油生物标志物总体上比较相似,但在一些特殊生物标志物的分布上存在明显差异。
Biomarkers in the pyrolysis oils produced by various macerals from Jurassic coals, the Northwest China are generally similar, with distinct differences in some special compounds.
以三种高挥发分烟煤为原料,对固体热载体煤热解获得的气、油、焦产物产率、组成和性质进行了考察。
Three high volatile bituminous coals were used pyrolysis with solid heat carrier to investigate the product distribution and characteristic of gas, tar and char.
热解的主要产物有生物油、焦炭和气体。
提出了用热解参数计算残余油饱和度的新方法。
Suggest a new method of calculating residual oil saturation by means of pyrolytic parameters.
热解产生的油和气体有较高的热值,可与传统的燃料相比,表明这些产物做为燃料是可能的。
Both oils and gases produced in the pyrolysis showed relatively high overall heating values, comparable to some conventional fuels, revealing the potential application of these products as fuel.
考察了冷却剂对分离效果的影响,开发了聚丙烯的热解动力学模型,探讨了此研究对废聚丙烯油化工艺的指导作用。
A kinetic model of the pyrolysis of polypropylene is developed and the guidance of this research to the technology of converting polypropylene waste to oil is discussed as well.
研究表明,所得到的热解液体中,轻中馏分可作为汽、柴油馏分,重馏分可作为橡胶加工中的填充油;
The pyrolysis liquid obtained are fractionated to get light fractions, used as gasoline and diesel fuel and heavy fractions, used as filling oil for rubber processing.
通过开展模拟水驱油实验研究岩石地化热解分析参数随油层含水上升的变化规律。
This paper analyzes the rules of rock geochemical pyrolysis analysis parameters changing with reservoir water cut increase through simulated water flooding experiment.
将地球化学分析技术引入开发领域,应用井壁取心的地化热解分析方法在水淹层评价、剩余油挖潜方面做了一些尝试性工作。
This paper introduces geochemical analysis into development field, USES geochemical pyrolysis analysis of sidewall coring in evaluation and remaining oil potential tapping in watered out zones.
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.
实验结果也表明生物油中萘、甲基萘等主要来自于纤维素和半纤维素的热解,酚类化合物主要源自于木质素的热解。
The result also showed that the chemicals such as naphthalene and methyl-naphthalene are produced mainly from cellulose, and phenols from lignin.
热解岩石总烃含量是评价储层含油性的重要参数,是准确求取剩余油饱和度的关键。
Total hydrocarbon content in pyrolysis rock is an important parameter for evaluating the oil bearing property of reservoirs, and is a key point of calculating the saturation of remaining oil.
高节油率是燃料热解产生氢气和乳化油共同作用的结果。
The reason of this high saving rate of fuel consumption is from the hydrogen produced in fuel pyrolysis and the usage of emulsified fuel.
考察了运行参数对热解产物分布的影响,重点研究了各个参数对热解气体和生物油组分的影响规律。
The effect of operation parameters on pyrolysis behavior of biomass, especially on the composition of bio-oil and gas, was investigated.
以杉木屑为原料,进行了真空热解制备生物油的实验研究。
Using Chinese fir sawdust as raw material, the experiments of biomass vacuum pyrolysis for production of bio-oil were carried out.
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.
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.
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