油页岩热解过程矿物质行为分析

王擎; 孙斌; 刘洪鹏; 柏静儒; 肖冠华

油页岩热解过程矿物质行为分析

东北电力大学油页岩综合利用教育部工程研究中心, 吉林吉林 132012

基金项目: 教育部国家潜在油气资源(油页岩勘探开发利用)产学研用合作创新建设项目(OSR-05)。

详细信息

通讯作者:
王擎(1964-)男,博士后,教授,主要从事洁净煤技术,生物质型煤及油页岩综合开发利用工作,Tel:0432-64807366,Fax:0432-64806281,E-mail:rlx888@126.com。

中图分类号: X773
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出版历程
- 收稿日期: 2012-08-01
- 修回日期: 2012-10-25
- 刊出日期: 2013-02-28

Analysis of mineral behavior during pyrolysis of oil shale

Engineering Research Centre of Oil Shale Comprehensive Utilization, Ministry of Education, Northeast Dianli University, Jilin 132012, China

摘要

摘要: 采用XRD、SEM、灰成分测定等方法对桦甸两个矿区的油页岩样品以及制备的半焦样品矿物质组成进行了分析,确认其主要成分均为,石英、方解石和黏土矿物。而半焦中矿物组成反映了油页岩中矿物质在热解中的变化。研究表明,在热解过程中油页岩中矿物质变化细微,其中,石英、长石没有变化;方解石有微量分解,生成的固体产物CaO与黄铁矿分解的硫反应生成CaS矿物;黏土矿物质受热脱除羟基,放出大量水分,同时分解产生的无定形玻璃体氧化硅与其他金属形成低熔点的共融物,导致部分半焦样品颗粒表面出现熔融态囊状结构。
- 油页岩 /
- 半焦 /
- 矿物质 /
- 热解 /
- XRD
Abstract: The predominant mineral composition of Huadian oil shale and semi-cokes, including quartz, calcite and clays, was investigated in detail using XRD and SEM. The composition of semi-coke indicates that the minerals change slightly during the pyrolysis of oil shale. The quartz and feldspars remain the same. Few calcites are decomposed to form CaO which reacts with sulfur, resulted from decomposition of pyrite, to form CaS. The amorphous SiO₂, generated from the decomposition of clays, tends to react with other metallic oxides to form relative low melting point mixture. This results in the molten vesicular microstructure in the semi-coke.
- oil shale /
- semi-coke /
- mineral /
- retorting /
- XRD

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参考文献(14)

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