[1]喻廷旭,汤达祯,房 媛,等.煤岩比表面积表征方法[J].新疆石油地质,2016,(01):92.[doi:10.7657/XJPG20160118]
 YU Tingxu,TANG Dazhen,FANG Yuan,et al.Characterization Method for Coalbed Specific Surface Area[J].Xinjiang Petroleum Geology,2016,(01):92.[doi:10.7657/XJPG20160118]
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煤岩比表面积表征方法()
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《新疆石油地质》[ISSN:1001-3873/CN:65-1107/TE]

卷:
期数:
2016年01期
页码:
92
栏目:
出版日期:
2016-02-01

文章信息/Info

Title:
Characterization Method for Coalbed Specific Surface Area
文章编号:
1001-3873(2016)01-0092-05
作者:
喻廷旭1汤达祯2房 媛3汪 雷2祝武权2
(1.四川省煤田地质工程勘察设计研究院,成都 610072;2.中国地质大学 a.海相储层演化与油气富集机理教育部重点实验室,b.能源学院,北京 100083;3.地质出版社,北京 100083)
Author(s):
YU Tingxu1 TANG Dazhen2 FANG Yuan3 WANG Lei2 ZHU Wuquan2
(1.Research Institute of Engineering Survey and Design, Sichuan Coalfield Geology Bureau, Chengdu, Sichuan 610072, China;2.China University of Geosciences, a.MOE Key Laboratory of Marine Reservoir Evolution and Hydrocarbon Accumulation Mechanism,b.School of Energy Resources, Beijing 100083, China; 3.China Geological Publishing House, Beijing 100083, China)
关键词:
鄂尔多斯盆地韩城地区煤岩气体吸附等温吸附比表面积
Keywords:
Ordos basin Hancheng coal mining area coalbed gas adsorption isothermal adsorption specific surface area
分类号:
TE122.2
DOI:
10.7657/XJPG20160118
文献标志码:
A
摘要:
为准确表征煤岩比表面积,以鄂尔多斯盆地韩城矿区煤岩为例,进行氮气、二氧化碳和甲烷的吸附等温实验,从煤岩甲烷等温吸附测得的兰氏体积和气体吸附法测得的比表面积相关性分析可知:甲烷吸附能力与二氧化碳SD-R呈正相关关系,与氮气SBET相关性不明显。基于煤岩的二氧化碳吸附数据,运用DFT模型计算微孔分布可知,煤含有大量孔径为0.5~1.0 nm的微孔,基于微孔充填理论的二氧化碳SD-R比氮气SBET更能有效地反映煤岩的吸附能力。鉴于煤岩具有微孔较为发育、微孔控制吸附能力的特点,建议在分析煤岩比表面积时采用二氧化碳吸附SD-R进行表征。
Abstract:
Taking Hancheng coal mining area in Ordos basin as an example, this paper presents the isothermal adsorption experiment of N2 and CO2 to make proper characterization of coalbed specific surface area. The correlation analysis between Langmuir volume from coalbed methane isothermal adsorption and specific surface area from N2/CO2 gas adsorption indicates a positive correlation between coalbed methane adsorption capacity and CO2 SD?R, and a weak correlation between coalbed methane adsorption capacity and N2 SBET. According to the coalbed CO2 adsorption data, coalbed contains a great number of micropores with diameter of 0.5~1.0 nm by DET model calculation approach, while for N2 adsorption data, it has poor effective micropores, which shows that CO2 SD?R is more representative of the coalbed adsorption capacity than N2 SBET. So the coalbed is characterized by more developed micropores and they control adsorption capacity. It is suggested that the coalbed specific surface area should be characterized by CO2 SD?R

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更新日期/Last Update: 2016-02-28