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黏结性对富油煤热解孔隙结构演变及渗流的影响研究

畅志兵王楚楚旷文昊唐颖吴晓丹刘淑琴

煤田地质与勘探2024，Vol.52Issue(7)：54-63,10.

煤田地质与勘探2024，Vol.52Issue(7)：54-63,10.DOI:10.12363/issn.1001-1986.24.01.0048

黏结性对富油煤热解孔隙结构演变及渗流的影响研究

Impacts of the caking property of tar-rich coals on their pore structure evolution and seepage during pyrolysis

畅志兵 ¹王楚楚 ¹旷文昊 ¹唐颖 ²吴晓丹 ³刘淑琴¹

作者信息

1. 中国矿业大学(北京) 化学与环境工程学院,北京 100083
2. 中海石油气电集团技术研发中心,北京 100028||中国海洋石油集团有限公司液化天然气及低碳技术重点实验室,北京 100028
3. 中海石油气电集团技术研发中心,北京 100028
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摘要

Abstract

[Objective]The in-situ pyrolysis of tar-rich coals stands as a technique whereby coal seams are heated under-ground to produce tar and gas products.During the in-situ pyrolysis,the injection of heating media and the production of tar and gas are affected by the pore structure and permeability of coal seams.Since pyrolysis of caking tar-rich coals is accompanied by the formation of colloids,the pore structure and permeability of caking tar-rich coals differ from those of non-caking tar-rich coals.[Methods]Caking tar-rich coals were pyrolyzed at 300,400,500,and 600℃.During the pyrolysis,the pore parameters of the semi-coke were tested using the saturated fluid method and nitrogen adsorption method,and the pore structure of the semi-coke was characterized using micro-computed tomography(micro-CT).Meanwhile,using equivalent pore network models established in this study,the laws of changes in parameters such as the pore number,pore radius,and coordination number were analyzed,and the seepage characteristics of high-temperat-ure nitrogen in the pore network were simulated.[Results and Conclusions]The results revealed small numbers of fis-sures in the coal samples after the pyrolysis at 300℃,with a total porosity maintained at about 5%.After pyrolysis at temperatures ranging from 400℃to 600℃,the total porosity gradually increased to about 50%,while micropores be-came more abundant only after degassing at 600℃.When the pyrolysis temperature rose from 300℃to 400℃,the number of pores and throats increased significantly due to the formation and expansion of colloids,whereas the average pore and pore-throat radii were maintained at about 160 μm and 88 μm,respectively.As the pyrolysis temperature in-creased further from 400℃to 600℃,the precipitation of volatile constituents promoted the pore connectivity.Accord-ingly,pores and throats gradually decreased in number,with equivalent radii trending upward in terms of probability dis-tribution.Specifically,the average pore and pore-throat radii increased to 292.81 μm and 170.60 μm,respectively,and the average coordination number of pores increased from 5.82 to 6.60(500℃)and 6.33(600℃).The increasing poros-ity and coordination number led to a significant increase in the average simulated permeability of the semi-coke from 246.75 μm2 to 1 377.49 μm2.The findings of this study can serve as a reference for the R&D of the in-situ pyrolysis pro-cess of caking tar-rich coals.

关键词

富油煤/热解/显微CT/三维表征/孔隙结构/渗透率

Key words

tar-rich coal/pyrolysis/micro CT/3D characterization/pore structure/permeability

分类

化学化工

引用本文复制引用

畅志兵,王楚楚,旷文昊,唐颖,吴晓丹,刘淑琴..黏结性对富油煤热解孔隙结构演变及渗流的影响研究[J].煤田地质与勘探,2024,52(7):54-63,10.

基金项目

中央高校基本科研业务费专项项目(2024ZKPYHH04) （2024ZKPYHH04）

中海石油气电集团科技项目(QDKY-2023-YFZX-02) （QDKY-2023-YFZX-02）

煤田地质与勘探

OA北大核心CSTPCD

ISSN：1001-1986

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