潘诺尼亚盆地砂岩孔隙网络的微尺度调查,以改进地热能源开发

IF 3.5 2区 工程技术 Q3 ENERGY & FUELS Geothermics Pub Date : 2024-06-22 DOI:10.1016/j.geothermics.2024.103071
Rita Mwendia Njeru , Matthias Halisch , János Szanyi
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引用次数: 0

摘要

这项研究的重点是潘诺尼亚盆地,特别是匈牙利森特什地区,该地区具有巨大的地热潜力,研究重点是 Dunántúl 组;这是扎吉瓦地层和乌伊法鲁地层的总称,由轻微固结的三角洲前缘砂岩沉积物组成。这项研究对于了解与地热井堵塞相关的挑战至关重要,这一问题已导致该地区的注水井过早关闭。我们的方法将经典岩石物理和矿物学方法与微计算机 X 射线断层成像、三维图像分析和数字岩石模拟等先进技术相结合。我们的研究结果表明,Dunántúl 组的目标地热岩层具有高孔隙率(27-31%)和可变渗透率(60-400 mD),这取决于岩层的位置和具体特征。我们的显微计算机断层扫描分析进一步确定,较小孔隙中存在的细粒材料以及颗粒普遍较弱的胶结作用在很大程度上加剧了这些挑战。
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Micro-scale investigation of the pore network of sandstone in the Pannonian Basin to improve geothermal energy development

This study focuses on the Pannonian Basin, specifically in Szentes, Hungary a region of significant geothermal potential, with particular emphasis on the Dunántúl Group; a collective name for the Zagyva and Újfalu formations, which consists of slightly consolidated delta-front sandstone sediments. This research is pivotal in understanding the challenges associated with clogging in geothermal wells, a problem that has led to the premature shutdown of injection wells in the region. Our approach integrates classical petrophysical and mineralogical methods with advanced techniques such as micro-Computed X-Ray Tomography imaging, 3D image analysis, and digital rock simulations. Our findings indicate that the target geothermal rock formations within the Dunántúl Group exhibit high porosity (27–31 %) and variable permeability (60–400 mD), dependent on the location and specific characteristics of the formation. Our micro-CT analyses further identified that the presence of fine-grained materials in smaller pores and generally weak cementation of grains substantially contributes to these challenges.

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来源期刊
Geothermics
Geothermics 工程技术-地球科学综合
CiteScore
7.70
自引率
15.40%
发文量
237
审稿时长
4.5 months
期刊介绍: Geothermics is an international journal devoted to the research and development of geothermal energy. The International Board of Editors of Geothermics, which comprises specialists in the various aspects of geothermal resources, exploration and development, guarantees the balanced, comprehensive view of scientific and technological developments in this promising energy field. It promulgates the state of the art and science of geothermal energy, its exploration and exploitation through a regular exchange of information from all parts of the world. The journal publishes articles dealing with the theory, exploration techniques and all aspects of the utilization of geothermal resources. Geothermics serves as the scientific house, or exchange medium, through which the growing community of geothermal specialists can provide and receive information.
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