从综合储层表征的试点知识到深层地热储层的利用前景:Groß Schönebeck(北德盆地)的3D模型

IF 2.9 2区 地球科学 Q3 ENERGY & FUELS
Ben Norden, Klaus Bauer, Charlotte M. Krawczyk
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引用次数: 2

摘要

德国北部盆地的Groß Schönebeck站点是研究深埋二叠系储层岩石地热潜力和热提取技术可行性的研究平台。通过新获得的3d地震调查,对场地的结构设置进行了更详细的调查,以改进以前基于几条旧的2D地震线的概念模型。新数据允许对地质解释进行修订,从而建立新的储层模型,并为二叠-石炭系目标的进一步现场开发提供基础信息。三维地震技术首次对研究充分的地热区进行了一致的地质解释和模型参数化。在8 km × 8 km × 4 km大地震体范围内,绘制了主要反射层位和相应的地层单元,给出了地下构造格局。属性分析揭示了上Zechstein和后二叠纪单元的一些裂缝和断层模式,而以前假设的大偏移断层在Rotliegend储层中不存在。然而,在Zechstein序列的顶部,一个完善的地堑状结构很可能与几米厚的破碎的无水脆性盐内层有关。盐层以上的大多数反射器显示出一种相当不受干扰的模式。对Dethlingen组(Rotliegend)主要储层砂岩进行了圈定和表征。下伏二叠-石炭系火山岩层序的基底及其厚度不能由地球物理资料可靠地描绘出来。基于Groß Schönebeck研究点的地震资料和现有的钻探、测井、实验室资料,在地震相模式对比的指导下,对沉积Rotliegend(以砂质储层剖面为重点)和火山岩层序的厚度和分布进行了建模,并进行了岩石物性的随机参数化,提供了更真实的储层描述。性能包括总孔隙度和有效孔隙度、渗透率、体积密度、导热系数、热扩散系数和比热容。这些数据和解释为更好地了解现场的热力和流体力学过程以及未来的措施奠定了基础。进一步的现场开发可能包括加深一口井,以提供有关火山岩层序的证据,并考虑将斜井纳入有利区域,以及设计以裂缝为主导的利用方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
From pilot knowledge via integrated reservoir characterization to utilization perspectives of deep geothermal reservoirs: the 3D model of Groß Schönebeck (North German Basin)

The Groß Schönebeck site in the North German Basin serves as research platform to study the geothermal potential of deeply buried Permian reservoir rocks and the technical feasibility of heat extraction. The structural setting of the site was investigated in more detail by a newly acquired 3D-seismic survey to improve the former conceptual model that was based on several old 2D seismic lines. The new data allow a revision of the geological interpretation, enabling the setup of a new reservoir model and providing base information for a possible further site development of Permo-Carboniferous targets. The 3D seismic allows for the first time a consistent geological interpretation and model parameterization of the well-studied geothermal site. Main reflector horizons and the corresponding stratigraphic units were mapped and the structural pattern of the subsurface presented in the 8 km × 8 km × 4 km large seismic volume. Attribute analysis revealed some fracture and fault patterns in the upper Zechstein and post-Permian units, while formerly hypothesized large offset faults are not present in the Rotliegend reservoir. However, a well-established graben-like structure at the top of the Zechstein succession is most likely related to broken anhydritic brittle intra-salt layers of some meter of thickness. Most reflectors above the salt show a rather undisturbed pattern. The main reservoir sandstone of the Dethlingen Formation (Rotliegend) was mapped and characterized. The base of the underlying Permo-Carboniferous volcanic rock sequence and hence its thickness could not be depicted reliably from the geophysical data. Based on the seismic data and the available reconnaissance drilling, logging, and laboratory data of the Groß Schönebeck research site, the thickness and distribution of the sedimentary Rotliegend (with emphasis of the sandy reservoir section) and of the volcanic rock sequence was modelled and stochastically parameterized with petrophysical properties guided by seismic facies pattern correlation, providing a more realistic reservoir description. Properties include total and effective porosity, permeability, bulk density, thermal conductivity, thermal diffusivity, and specific heat capacity. The data and interpretation constitute the basis for a better understanding of the thermo and hydromechanical processes at the site and for future measures. Further site development could include a deepening of one well to provide evidence on the volcanic rock sequence and consider deviated wells into favourable zones and the design of a fracture-dominated utilization approach.

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来源期刊
Geothermal Energy
Geothermal Energy Earth and Planetary Sciences-Geotechnical Engineering and Engineering Geology
CiteScore
5.90
自引率
7.10%
发文量
25
审稿时长
8 weeks
期刊介绍: Geothermal Energy is a peer-reviewed fully open access journal published under the SpringerOpen brand. It focuses on fundamental and applied research needed to deploy technologies for developing and integrating geothermal energy as one key element in the future energy portfolio. Contributions include geological, geophysical, and geochemical studies; exploration of geothermal fields; reservoir characterization and modeling; development of productivity-enhancing methods; and approaches to achieve robust and economic plant operation. Geothermal Energy serves to examine the interaction of individual system components while taking the whole process into account, from the development of the reservoir to the economic provision of geothermal energy.
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