油页岩干馏产出的页岩油可以作为一种理想的石油替代品。
The shale oil from oil shale by the retorting technology is an ideal substitute for nature oil.
介绍了我国页岩油工业现状,指出了我国页岩干馏工艺存在的问题。
The paper introduces the current status of shale oil industry point out the existing problems of shale distillation process in China.
对油页岩干馏工艺的发展趋势进行了展望:爱沙尼亚经验和做法值得借鉴。
This article envisions the trends in the development of oil shale retorting technologies and concludes that Estonia's experience and practice can be used for reference for China.
对影响油页岩低温干馏的主要因素进行了考察,其中包括最终加热温度、加热时间、加热速度及页岩粒度等因素。
Main factors such as final heating temperature, heating time, heating speed and particle size of raw material on dry distillation of oil shale at low temperature were examined.
固体热载体法低温快速干馏是一项对褐煤、油页岩和长焰煤进行综合加工利用的正在开发的新工艺。
The rapid pyrolysis process using solid heat carrier is a developing technology which is used for the comprehensive utilization of lignite, oil shale or subbituminous coal.
对油页岩的利用主要有三个方面:干馏产油、燃烧发电产热、灰渣利用。
There are three main respects for utilization of Oil shale:pyrolysis oil production, combustion to generate electricity and product heat, ash utilization.
现有的干馏工艺大部分对环境存在污染,且工艺耗能较大,不能够科学、合理地开发利用油页岩资源。
The existing retorting technology can not exploit the oil shale properly for it can cause pollution to the environment and it is high energy-consuming.
实验中采用对油页岩进行低温干馏后测定产物中的水分,从而间接测定油页岩的含油率。
In the experiment, moisture of the product by dry distillation at the low temperature was determined and the ratio of contained oil was indirectly determined.
本发明是一种对小颗粒油页岩进行干馏炼油的设备。
The invention relates to a device for carrying out carbonization oil refining on the oil shale of small grains.
固体热载体干馏工艺炉型复杂,建设相对复杂,但油页岩利用率接近于100%。
Furnaces using solid heat-carrier retorting technology have a complex structure and construction of such furnace is relatively difficult, but the utilization rate of oil shale approaches 100%.
固体热载体干馏工艺炉型复杂,建设相对复杂,但油页岩利用率接近于100%。
Furnaces using solid heat-carrier retorting technology have a complex structure and construction of such furnace is relatively difficult, but the utilization rate of oil shale approaches 100%.
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