多尺度断裂模式及其对致密砂岩天然气富集的影响:中国鄂尔多斯盆地青石茂气田上古生界案例研究

IF 2 3区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
Jie Wang, Jiping Wang, Yuanyuan Zhang, Daofeng Zhang, Lei Sun, Jianning Luo, Wei Wang, Lei Gong, Zongbao Liu, Shuai Gao
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引用次数: 0

摘要

多尺度裂缝形成的良好连接网络是致密砂岩形成优质储层并实现油气高产稳产的关键因素。以中国鄂尔多斯盆地青石嘴气田上古生界为例,基于图像测井、岩心和薄片数据,对致密砂岩储层中的多尺度天然裂缝进行了精细定量表征。我们还建立了多尺度裂缝网络模式划分方法,并讨论了各裂缝网络模式对天然气富集和产能的影响。结果表明,不同尺度天然裂缝的长度、密度、孔隙度、孔隙度、渗透率和连通性都有规律变化。根据不同尺度断裂的空间组合模式和连通性,建立了四种断裂网络模式:高密度、多取向的多尺度断裂网络;中高密度、双取向的多尺度断裂网络;中密度、双取向的小尺度断裂网络;低密度、单取向的小尺度断裂网络。第一种断裂网模式会破坏盖层的完整性,导致天然气泄漏。第二种断裂网模式是天然气富集的有利区域。第三种断裂网模式需要使用水力压裂法获得商业气流。第四种裂缝网络模式对储层控制和储存影响不大。致密砂岩储层天然裂缝的研究通常基于单一尺度的视角。了解多尺度裂缝的发育特征及其对储层的控制作用,有助于全面认识多尺度裂缝网络结构模式的空间构型关系,促进多尺度裂缝在致密储层研究中的发展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multi-scale fracture patterns and their effects on gas enrichment in tight sandstones: a case study of the Upper Paleozoic in the Qingshimao gas field, Ordos Basin, China
A well-connected network formed by multi-scale fractures is a key factor in the formation of high-quality reservoirs and the achievement of high and stable oil and gas production in tight sandstones. Taking the Upper Paleozoic of the Qingshimao gas field in the Ordos Basin, China, as an example, based on data from image logs, cores, and thin sections, fine quantitative characterization of multi-scale natural fractures in tight sandstone reservoirs was carried out. We also established a method for dividing network patterns of multi-scale fractures and discussed the effect of each fracture network pattern on the gas enrichment and production capacity. Results indicate regular changes in the length, density, aperture, porosity, permeability, and connectivity of natural fractures at different scales. Based on the spatial combination patterns and connectivity of fractures of different scales, four types of fracture network patterns were established: multi-scale fracture network with high density and multi-orientations, multi-scale fracture network with moderate-high density and dual orientations, small-scale fracture network with moderate density and dual orientations, small-scale fracture network with low density and single orientation. The first fracture network pattern can destroy the integrity of the cap layer, causing natural gas leakage. The second fracture network pattern is a favorable area for natural gas enrichment. The third fracture network pattern requires the use of hydraulic fracturing to obtain commercial airflow. The fourth fracture network pattern has little effect on reservoir control and storage. The study of natural fractures in tight sandstone reservoirs is usually based on a single-scale perspective. Understanding the development characteristics of multi-scale fractures and their controlling effects on the reservoir helps to comprehensively understand the spatial configuration relationship of multi-scale fracture network structure patterns and promotes the development of multi-scale fractures in tight reservoir research.
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来源期刊
Frontiers in Earth Science
Frontiers in Earth Science Earth and Planetary Sciences-General Earth and Planetary Sciences
CiteScore
3.50
自引率
10.30%
发文量
2076
审稿时长
12 weeks
期刊介绍: Frontiers in Earth Science is an open-access journal that aims to bring together and publish on a single platform the best research dedicated to our planet. This platform hosts the rapidly growing and continuously expanding domains in Earth Science, involving the lithosphere (including the geosciences spectrum), the hydrosphere (including marine geosciences and hydrology, complementing the existing Frontiers journal on Marine Science) and the atmosphere (including meteorology and climatology). As such, Frontiers in Earth Science focuses on the countless processes operating within and among the major spheres constituting our planet. In turn, the understanding of these processes provides the theoretical background to better use the available resources and to face the major environmental challenges (including earthquakes, tsunamis, eruptions, floods, landslides, climate changes, extreme meteorological events): this is where interdependent processes meet, requiring a holistic view to better live on and with our planet. The journal welcomes outstanding contributions in any domain of Earth Science. The open-access model developed by Frontiers offers a fast, efficient, timely and dynamic alternative to traditional publication formats. The journal has 20 specialty sections at the first tier, each acting as an independent journal with a full editorial board. The traditional peer-review process is adapted to guarantee fairness and efficiency using a thorough paperless process, with real-time author-reviewer-editor interactions, collaborative reviewer mandates to maximize quality, and reviewer disclosure after article acceptance. While maintaining a rigorous peer-review, this system allows for a process whereby accepted articles are published online on average 90 days after submission. General Commentary articles as well as Book Reviews in Frontiers in Earth Science are only accepted upon invitation.
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