Pore-throat structure and fractal characteristics of tight gas sandstone reservoirs: A case study of the second member of the Upper Triassic Xujiahe Formation in Zhongba area, western Sichuan depression, China

IF 1.4 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY Geological Journal Pub Date : 2024-04-24 DOI:10.1002/gj.4975
Lin Liu, Xiangjun Liu, Qin Sang, Wei Li, Jian Xiong, Lixi Liang
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Abstract

Pore-throat structure is a key factor that influences the storage and fluid flow capacity of tight sandstone reservoirs. Taking the tight sandstone reservoir of Xu2 Fm in Zhongba area as an example, the reservoir quality, pore-throat type and pore size distribution of tight sandstone in the study area were described by casting thin section, scanning electron microscope and high-pressure mercury injection test. In order to quantitatively characterize the complexity and heterogeneity of pore-throat structure, fractal analysis was performed using mercury saturation and pore size data. This study mainly reveals the relationship between the geometric shape characteristics and fractal dimension of the binary pore structure of ultra-low permeability tight sandstone and clarifies the influence of different scale pore throats on reservoir physical properties. The results indicate that the physical properties of the reservoir in the study area are poor, the pores are mainly intergranular pores and dissolution pores, the throat is flake and necked and the pore size distribution range is large. The fractal curve obtained by the mercury saturation method shows a significant turning point, and the pore-throat system is divided into two types: small-scale and large-scale. The fractal dimension of large-scale pore throat is greater than the three-dimensional Euclidean space dimension, which does not conform to the fractal theory. The fractal dimension of small-scale pore throat is closely related to the pore-throat structure and has obvious fractal characteristics. The geometric shape of binary pore-throat structure in tight sandstone is the main factor affecting the difference of fractal dimension. The development of small pores in sandstone is positively correlated with the total porosity, but its contribution to permeability is relatively low. The physical properties of tight sandstone are mainly controlled by the development degree of large-scale pore throat.

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致密气砂岩储层的孔喉结构与分形特征:中国四川西部坳陷中坝地区上三叠统徐家河组第二层的案例研究
孔喉结构是影响致密砂岩储层储量和流体流动能力的关键因素。以中坝地区许2 Fm致密砂岩储层为例,通过铸造薄片、扫描电镜和高压注汞测试,描述了研究区致密砂岩的储层质量、孔喉类型和孔径分布。为了定量描述孔喉结构的复杂性和异质性,利用汞饱和度和孔径数据进行了分形分析。该研究主要揭示了超低渗透致密砂岩二元孔隙结构的几何形状特征与分形维数之间的关系,阐明了不同尺度孔喉对储层物性的影响。结果表明,研究区储层物性较差,孔隙主要为粒间孔隙和溶蚀孔隙,孔喉呈片状和颈状,孔径分布范围较大。水银饱和法得到的分形曲线出现了明显的转折点,孔喉系统分为小尺度和大尺度两种类型。大尺度孔喉的分形维度大于三维欧几里得空间维度,不符合分形理论。小尺度孔喉的分形维数与孔喉结构密切相关,具有明显的分形特征。致密砂岩中二元孔喉结构的几何形状是影响分形维度差异的主要因素。砂岩中小孔隙的发育与总孔隙度呈正相关,但对渗透率的贡献相对较低。致密砂岩的物理性质主要受大尺度孔喉发育程度的控制。
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来源期刊
Geological Journal
Geological Journal 地学-地球科学综合
CiteScore
4.20
自引率
11.10%
发文量
269
审稿时长
3 months
期刊介绍: In recent years there has been a growth of specialist journals within geological sciences. Nevertheless, there is an important role for a journal of an interdisciplinary kind. Traditionally, GEOLOGICAL JOURNAL has been such a journal and continues in its aim of promoting interest in all branches of the Geological Sciences, through publication of original research papers and review articles. The journal publishes Special Issues with a common theme or regional coverage e.g. Chinese Dinosaurs; Tectonics of the Eastern Mediterranean, Triassic basins of the Central and North Atlantic Borderlands). These are extensively cited. The Journal has a particular interest in publishing papers on regional case studies from any global locality which have conclusions of general interest. Such papers may emphasize aspects across the full spectrum of geological sciences.
期刊最新文献
Issue Information Issue Information Reply to Comment on “Singh R, Vadlamani R, Bajpai S & Maurya AS (2024) Strontium Isotope Stratigraphy of Marine Oligocene–Miocene Sedimentary Successions of Kutch Basin, Western India. Geological Journal, 1–20. DOI: 10.1002/gj.4961” Fabrics and Origin of Troctolites in the Keketoukeleke Ultramafic–Mafic Complex, South Altyn Tagh, Northwest China Comment on “Singh R, Vadlamani R, Bajpai S, Maurya AS (2024) Strontium Isotope Stratigraphy of Marine Oligocene–Miocene Sedimentary Successions of Kutch Basin, Western India. Geological Journal, 1–20. DOI: 10.1002/gj.4961”
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