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页岩微纳米孔隙结构分形特征研究
STUDY ON FRACTAL CHARACTERISTICS OF MICRO-NANO PORE STRUCTURE OF SHALE

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李志清 1,2,3,4   王伟 5   王晓明 5   白雅伟 5   秦道天 5   赵颖 6  
文摘 页岩气作为非常规气,是一种重要能源。页岩的孔隙结构特征是衡量与评价页岩储层存储能力与可压裂性的重要参数。选取威远海相页岩(1#)、龙马溪海相页岩(2#)、瑶曲凝灰岩(4#)以及瑶曲陆相页岩(5#,6#),进行压汞实验、氮气吸附性实验以及核磁共振实验。利用分形理论,表征孔隙结构的非均质性,揭示分形维数和孔隙结构之间的关系。结果表明:孔隙在0.1~ 100 μm范围采用压汞实验,陆相页岩样品得到的分形维数要比海相页岩样品大;孔隙在2~ 200 nm范围采用氮气吸附实验,海相页岩的分形维数比陆相页岩大;相比之下,孔隙在10 nm~ 10 μm范围采用核磁共振实验得到的焦石坝海相页岩与陆相页岩的分形维数大小比较接近。尤其是本文统计的氮气吸附实验样本中,焦石坝海相页岩的分形维数最大,即焦石坝海相页岩的微孔结构最为发育,非均质性最强。因此分形维数可作为一种用于评价页岩孔隙非均质性与储存压裂效果的重要参数。
其他语种文摘 Shale gas,as one kind of unconventional gas,is an important energy supplement. The pore structure characteristic is an important index used to measure and evaluate the storage capacity and fracturing of shale reservoir. The Weiyuan marine shale (1#) ,Jiaoshiba marine shale (2#) ,Yaoqu tuff (4#) and Yaoqu continental shale(5# and 6#) are selected for tests with mercury porosimetry(MP) ,N_2 adsorption(NA) and nuclear magnetic resonance(NMR) devices. Based on fractal theory,the relationships between fractal dimensions and pore structure are investigated with MP,NA and NMR to characterize the pore anisotropy. The results illustrate that the fractal dimensions of continental samples 5# and 6# are bigger than that of marine sample 2# in the pore range between 0.1~100 μm based on MP method. The fractal dimensions of marine sample 2# is bigger than those of continental samples 5# and 6# in the pore range of 2 ~ 200 nm based on NA method. In contrast,the max fractal dimensions (D_(NMR)) of marine sample 2# are about equal to those of continental samples 5# and 6# in the pore range between 10 nm to 10 μm by NMR method. Especially,the fractal dimensions of Jiaoshiba marine sample 2# are biggest among all the samples using NA method. The micropores of Jiaoshiba marine shale are the most development,so the heterogeneity of pore characteristic is the strongest. Therefore,the fractal dimension can be used as an important parameter to evaluate the fracturing effect of shale reservoir and the heterogeneity of pore structure.
来源 工程地质学报 ,2018,26(2):494-503 【核心库】
DOI 10.13544/j.cnki.jeg.2017-119
关键词 页岩 ; 孔隙结构 ; 分形维数 ; 压汞 ; 氮气吸附 ; 核磁共振
地址

1. 成都理工大学, 地质灾害防治与地质环境保护国家重点实验室, 成都, 610059  

2. 中国科学院地质与地球物理研究所, 中国科学院页岩气与地质工程重点实验室, 北京, 100029  

3. 中国科学院大学, 北京, 100049  

4. 中国科学院地球科学研究院, 北京, 100029  

5. 河南省尧栾西高速公路建设有限公司, 洛阳, 471521  

6. 中国科学院力学研究所, 北京, 100190

语种 中文
文献类型 研究性论文
ISSN 1004-9665
学科 地质学
基金 中国科学院战略性先导科技专项 ;  国家自然科学基金 ;  中国科学院青年创新促进会项目 ;  成都理工大学地质灾害防治与地质环境保护国家重点实验室开放基金
文献收藏号 CSCD:6246095

参考文献 共 44 共3页

1.  Avnir D. An isotherm equation for adsorption on fractal surfaces of heterogeneous porous materials. Langmuir,1989,5(6):1431-1433 被引 73    
2.  Bai R T. Fractal nature of microscopic porethroat structure in Chang 7 tight oil reservoir of Longdong area. Science Technology and Engineering,2016,16(5):54-59 被引 2    
3.  Bramowicz M. Comparison between contact and tapping AFM modes in surface morphology studies. Tech. Sci,2012,15:307-331 被引 1    
4.  Bu H L. Fractal characteristics of pores in non-marine shales from the Huainan coalfield,eastern China. Journal of Natural Gas Science and Engineering,2015,24:166-177 被引 12    
5.  Burger J. Aspects of the surface roughness of ceramic bonding tools on a nanometer scale investigated with atomic force microscopy. Thin Solid Films,1994,253(1/2):308-310 被引 2    
6.  Cao T T. Characterization of pore structure and fractal dimension of Paleozoic shales from the northeastern Sichuan Basin, China. Journal of Natural Gas Science and Engineering,2016,35:882-895 被引 10    
7.  Chalmers G R L. Characterization of gas shale pore systems by porosimetry,pycnometry,surface area,and field emission scanning electron microscopy/transmission electron microscopy image analyses: examples from the Barnett,Woodford,Haynesville,Marcellus,and Doig units. AAPG Bull,2012,96(6):1099-1119 被引 294    
8.  Chen X J. Fractal and multifractal analysis of different hydraulic flow units based on micro-CT images. Journal of Natural Gas Science and Engineering,2017,48:145-156 被引 3    
9.  Dong X. Experimental research of gas shale electrical properties by NMR and the combination of imbibition and drainage. Journal of Geophysics and Engineering,2015,12(4):610-619 被引 2    
10.  Giri A. Fractal pore structure of sedimentary rocks: simulation in 2-D using a relaxed bidisperse ballistic deposition model. Journal of Applied Geophysics,2012,87:40-45 被引 11    
11.  Groen J C. Pore size determination in modified micro-and mesoporous materials. Pitfalls and limitations in gas adsorption data analysis. Microporous Mesoporous Materials,2003,60(1/3):1-17 被引 131    
12.  Hu J G. Investigation of pore structure and fractal characteristics of the Lower Silurian Longmaxi shales in western Hunan and Hubei Provinces in China. Journal of Natural Gas Science and Engineering,2016,28:522-535 被引 13    
13.  Ismail I M K. Fractal analysis and surface roughness of nonporous carbon fibers and carbon blacks. Langmuir,1994,10:1532-1538 被引 17    
14.  Jaroniec M. Evaluation of the fractal dimension from a single adsorption isotherm. Langmuir,1995,11(6):2316-2317 被引 26    
15.  Lee C. X-ray computed tomography of Australian oil shales: non-destructive visualization and density determination. Fuel,1994,73(8):1317-1321 被引 1    
16.  Li P. Pore throat structure and fractal characteristics of tight oil sandstone: A case study in the Ordos Basin,China. Journal of Petroleum Science and Engineering,2017,149:665-674 被引 28    
17.  Li Z Q. Study on Pore Structure Characteristics of Marine and Continental Shale in China. Journal of Natural Gas Science and Engineering,2016,33:143-152 被引 3    
18.  Liang L X. An investigation of the fractal characteristics of the upper Ordovician Wufeng Formation shale using nitrogen adsorption analysis. Journal of Natural Gas Science and Engineering,2015,27(2):402-409 被引 8    
19.  Liu X J. Investigation of pore structure and fractal characteristics of organicrich Yanchang formation shale in central China by nitrogen adsorption/desorption analysis. Journal of Natural Gas Science and Engineering,2015,22:62-72 被引 29    
20.  Mahamud M M. The use of fractal analysis in the textural characterization of coals. Fuel,2008,87(2):222-231 被引 14    
引证文献 11

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2 张向东 基于岩石“等效损伤”探究宏观断裂规律 中国地质灾害与防治学报,2020,31(3):117-125,138
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