上莱茵地堑深部地热研究与开发评价

IF 2.9 2区 地球科学 Q3 ENERGY & FUELS
Matthis Frey, Kristian Bär, Ingrid Stober, John Reinecker, Jeroen van der Vaart, Ingo Sass
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引用次数: 10

摘要

深层地热能由于其基本负荷能力和几乎取之不尽的资源基础,代表着未来可再生能源生产的关键要素。特别是在供热方面,这项技术提供了巨大的碳减排潜力。中欧地热项目的主要目标之一是上莱茵地堑,该地区地下温度升高,储层具有良好的水力特性。经过几十年的深入研究,人们对该地区的地质情况有了全面的了解。本文总结了深层地热项目的相关研究成果,为利益相关者提供了有益的工作和决策依据。确定了适合深部地热开发的9个地质单元,包括结晶基底、各种砂岩层和中生代碳酸盐岩。对每一个潜在储层进行了广泛的岩石地层、构造、地球化学、水力和岩石物理表征。此外,本文还概述了现有资料以及地质和温度模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessment of deep geothermal research and development in the Upper Rhine Graben

Deep geothermal energy represents a key element of future renewable energy production due to its base load capability and the almost inexhaustible resource base. Especially with regard to heat supply, this technology offers a huge potential for carbon saving. One of the main targets of geothermal projects in Central Europe is the Upper Rhine Graben, which exhibits elevated subsurface temperatures and reservoirs with favorable hydraulic properties. Several decades of intensive research in the region resulted in a comprehensive understanding of the geological situation. This review study summarizes the findings relevant to deep geothermal projects and thus provides a useful working and decision-making basis for stakeholders. A total of nine geological units have been identified that are suitable for deep geothermal exploitation, comprising the crystalline basement, various sandstone formations and Mesozoic carbonates. An extensive lithostratigraphic, structural, geochemical, hydraulic and petrophysical characterization is given for each of these potential reservoirs. This paper furthermore provides an overview of the available data and geological as well as temperature models.

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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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