Pore-Fracture Distribution Heterogeneity of Shale Reservoirs Determined by using HPMI and LPN_(2 )GA Tests  

作　　者：ZHANG Junjian QIN Zhengyuan HAN Yanning WANG Huaimeng HOU Maoguo YAN Gaoyuan FENG Guangjun ZHANG Xiaoyang YIN Tingting ZHANG Hainan WEN Shupeng 

机构地区：[1]College of Earth Sciences&Engineering,Shandong University of Science and Technology,Qingdao,Shandong 266590,China [2]School of Resources and Earth Science,China University of Mining and Technology,Xuzhou,Jiangsu 221116,China [3]Nottingham Geospatial Institute,Faculty of Engineering,University of Nottingham,Nottingham,NG72TU,UK [4]The First Exploration Team of Shandong Province Coal Geology Bureau,Shandong,Qingdao,Shandong 266000 [5]General Institute of Chemical Geology Survey of CCGMB,Beijing 100013,China [6]School of Geosciences,China’s University of Petroleum(East China),Qingdao,Shandong 266580,China [7]113 Team of Guizhou Coal Geology Bureau,Guiyang 550000,China

出　　处：《Acta Geologica Sinica(English Edition)》2022年第5期1659-1672,共14页地质学报（英文版）

基　　金：funded by grants from the Natural Science Foundation of Shandong Province, China (Nos. ZR2021QD072 and ZR2020QD040)。

摘　　要：The compressibility of shale matrix reflects the effects of reservoir lithology, material composition, pore structure and tectonic deformation. It is important to understand the factors that influence shale matrix compressibility(SMC) and their effects on pore size distribution(PSD) heterogeneity in order to evaluate the properties of unconventional reservoirs.In this study, the volumes of pores whose diameters were in the range 6–100 nm were corrected for SMC for 17 shale samples from basins in China using high-pressure mercury intrusion and low-temperature nitrogen gas adsorption analyses,in order to investigate the factors influencing the SMC values. In addition, the variations in fractal dimensions before and after pore volume correction were determined, using single and multifractal models to explain the effects of SMC on PSD heterogeneity. In this process, the applicability of each fractal model for characterizing PSD heterogeneity was determined using statistical analyses. The Menger and Sierpinski single fractal models, the thermodynamic fractal model and a multifractal model were all used in this study. The results showed the following. The matrix compression restricts the segmentation of the fractal dimension curves for the single fractal Menger and Sierpinski models, which leads to a uniformity of PSD heterogeneity for different pore diameters. However, matrix compression has only a weak influence on the results calculated using a thermodynamic model. The SMC clearly affects the multifractal value variations, showing that the fractal dimension values of shale samples under matrix compression are small. Overall PSD heterogeneity becomes small for pores with diameters below 100 nm and the SMC primarily affects the PSD heterogeneity of higher pore volume areas. The comparison of fractal curves before and after correction and the variance analysis indicate that the thermodynamic model is applicable to quantitatively characterize PSD heterogeneity of shale collected from this sampling area. The results sh

关 键 词：shale reservoirs matrix compressibility pore structure fractal dimension MULTIFRACTAL 

分 类 号：P618.13[天文地球—矿床学]