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深部中－高煤级煤储层孔隙结构与吸附性

许启鲁黄文辉唐书恒刘贝杨延绘闫德宇陆小霞

现代地质2016，Vol.30Issue(2)：413-419,7.

深部中－高煤级煤储层孔隙结构与吸附性

Pore Structure and Adsorption of Deep Medium-high Rank Coal Reservoirs

许启鲁 ¹黄文辉 ²唐书恒 ³刘贝 ²杨延绘 ³闫德宇 ²陆小霞³

作者信息

1. 中国地质大学北京地球科学与资源学院，北京 100083
2. 中国地质大学北京海相储层演化与油气富集机理教育部重点实验室，北京 100083
3. 中国地质大学北京能源学院，北京 100083
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摘要

Abstract

The exploration and exploitation of coalbed methane have gradually turned into deep coal seams. Taking Yichuan of Shaanxi and Shizhuang of Shanxi as the study area,collecting shallow and deep coal samples and integrating with some experiments,this paper analyzes the difference of pore structures between shallow coal seams and deep coal seams and the adsorption characteristics of deep medium-high rank coal reservoirs.Mineral and lithotype test,mercury intrusion method,NMR,low-temperature nitrogen adsorption test and isothermal ad-sorption test had been used for this study with those coal samples (1 00 -1 ,800 m).The results with the in-crease of the depth are as follows:(1 )The percentage of adsorption pore shows a trend of increase while the number of seepage pore decreases.The mercury injection curve has a trend toward type Ⅲ.The main peak area of low NMR T2 relaxation is gradually increasing and even can be up to 90% of all peak areas when the depth is more than 1 ,700 m;the zero signal sections among main peaks show that the ability of connectivity between mi-cropores and mesopores is worse.The curves of low-temperature nitrogen adsorption have a trend from typeⅠto typeⅡ.The above results show that the abilities of pore connectivity,permeability and physical properties of reservoirs are becoming worse.(2)Coal reservoir surface area and pore volume have their high-value ranges near 1 ,000 m.Then,they decrease just as the predecessors’point of view,which is due to the small pores. (3)The adsorption ability of deep coal seam is influenced by positive effect of pressure and negative effect of temperature.The maximum adsorption capacity increases when the pressure becomes high,but the adsorption capacity has a decrease of 0.25 cm3 /g while the temperature rises 1 ℃.The effect of temperature on Langmuir pressure is different from predecessors’views.There is an inflexion point in temperature (35 ℃)and Langmuir pressure will not rise until the temperature reach it.

关键词

深部煤层/中 -高煤级/孔隙结构/渗透性/吸附性/煤层气/煤储层

Key words

deep coal seam/medium-high rank coal/pore structure/permeability/adsorption/CBM/coal reservoir

分类

能源科技

引用本文复制引用

许启鲁,黄文辉,唐书恒,刘贝,杨延绘,闫德宇,陆小霞..深部中－高煤级煤储层孔隙结构与吸附性[J].现代地质,2016,30(2):413-419,7.

基金项目

国家科技重大专项项目“深煤层煤层气开发技术研究与装备研制”（2011 ZX05042－001－002）；国家重点基础研究发展计划项目“煤中有害元素分布富集机理及环境污染防治”（2014CB238900）。（）

现代地质

OA北大核心CSCDCSTPCD

ISSN：1000-8527

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