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  4. Repurposing idle wells in the North German Basin as deep borehole heat exchangers
 
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2024
Journal Article
Title

Repurposing idle wells in the North German Basin as deep borehole heat exchangers

Abstract
This study investigates the feasibility to repurpose wells from gas production for geothermal closed-loop application in the North German Basin (NGB). The objective for this research topic is to extend the value-added chain of idle wells by re-completion as coaxial deep borehole heat exchangers as an efficient way to produce green energy without drilling new wells by saving the carbon emission and costs of building a new geothermal well. With numerical models of two typical geological settings of the NGB and two different completion schemes, it is possible to simulate the thermal performance over a lifetime of 30 years. The calculated heat extraction rates range from 200 to 400 kW, with maximum values of up to 600 kW. Sensitivity analyses demonstrate that re-completion depth and injection temperature are the most sensitive parameters of thermal output determination. The heat demand around the boreholes is mapped, and heat generation costs are calculated with heating network simulations. The initial production costs for heat are comparable to other renewable energy resources like biomass and competitive against gas prices in 2022. This study highlights available geothermal resources’ environmental and economic potential in already installed wells. The application has almost no geological and no drilling risks and may be installed at any idle well location.
Author(s)
Koltzer, Nora  orcid-logo
Fraunhofer-Einrichtung für Energieinfrastrukturen und Geothermie IEG  
Schoenherr, Johannes
ExxonMobil Production Deutschland GmbH  
Sporleder, Maximilian  orcid-logo
Fraunhofer-Einrichtung für Energieinfrastrukturen und Geothermie IEG  
Niederau, Jan  orcid-logo
Fraunhofer-Einrichtung für Energieinfrastrukturen und Geothermie IEG  
Wellmann, Florian  orcid-logo
Fraunhofer-Einrichtung für Energieinfrastrukturen und Geothermie IEG  
Journal
Geothermal Energy  
Open Access
DOI
10.1186/s40517-024-00315-4
Additional link
Full text
Language
English
Fraunhofer-Einrichtung für Energieinfrastrukturen und Geothermie IEG  
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