A research and production geothermal project on the TU Delft campus: initial modeling and establishment of a digital twin

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Abstract

Nearly half of the Netherlands’ natural gas consump tion is allocated to heating, with direct -use geothermal heating being one of the available low-carbon energy solutions. A geothermal well doublet, designed with the two primary aims of research and commercial heat supply, is currently being installed on the campus of Delft University of Technology. The project is a key national research infrastructure and is being incorporated into the European sustainable and distributed infrastructure (EPOS: European Plate Observing System, https://www.epos-eu.org/), such that accessibility and data availability will be as wide as possible. All observations will be included in a digital-twin framework, which will allow us to make better decisions in future geothermal projects. The project includes a comprehens ive research program, involving the installation of a wide range of instruments alongside an extensive logging and coring program and monitoring network. The doublet has been cored, with substantial continuous samples from the heterogeneous reservoir, alongside a large suite of well logs in both the reservoir and overlying geological units. Such investigation is rarely undertaken in geothermal projects. A fiber-optic cable will monitor the producer well all the way down to the reservoir section, at approximately 2300m depth, in the Lower Cretaceous Delft Sandstone that is used as a geothermal reservoir in a series of existing and planned doublets in the West Netherlands Basin. A local seismic monitoring network has been installed in the surrounding area with the aim of monitoring very low-magnitude natural or induced seismicity. A vertical observation well with electromagnetic sensors will be drilled in the near future between the injector and producer to monitor cold-front propagation. This paper presents the initial modeling for the project and steps towards the production of a digital twin. Two modeling examples in the paper will emp hasize current operational challenges relevant to the project.
Original languageEnglish
Title of host publicationPROCEEDINGS, 49th Workshop on Geothermal Reservoir Engineering
PublisherStanford University
Number of pages11
Publication statusPublished - 2024
Event49th Workshop on Geothermal Reservoir Engineering - Frances C. Arrillaga Alumni Center, Stanford, United States
Duration: 12 Feb 202414 Feb 2024
https://geothermal.stanford.edu/events/workshop
https://pangea.stanford.edu/ERE/db/IGAstandard/search_results.php?showmax=99&CONFERENCE=Stanford%20Geothermal%20Workshop&SortField=Last1&SortOrder=Ascend&Find=Start%20Search&Year=2024

Conference

Conference49th Workshop on Geothermal Reservoir Engineering
Country/TerritoryUnited States
CityStanford
Period12/02/2414/02/24
Internet address

Keywords

  • geothermal doublet
  • direct-use heating
  • digital twin
  • uncertainty quantification
  • water loss

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