FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3213552114> ?p ?o ?g. }

• W3213552114 abstract "Geothermal energy, the heat that can be extracted from the Earth’s subsurface, could play an important role in the energy transition towards renewable energy sources. However, the global increase in geothermal applications is relatively slow compared to other renewables, related to the economic uncertainty of geothermal operations. Therefore, a detailed ... read more understanding of geothermal reservoirs is necessary, not only to map their potential but also to reduce the risks of geothermal projects by quantifying subsurface uncertainties. In this thesis I aim to provide novel approaches for improving geothermal reservoir characterization with the use of temperature measurements and ground deformation observations. To achieve this, country-scale thermal models (Chapter 2 and Chapter 3) and site-specific source models for surface movements (Chapters 4 – 6) were constructed. Models were constrained by independent geological and geophysical data, assessing the thermal field, deformation processes, and associated properties of the geothermal reservoirs. Access to datasets for the case studies from Hungary (Chapter 2 and Chapter 4) and the Netherlands (Chapter 3) were provided through collaborations with Hungarian partners and TNO. Various geological and geophysical datasets together with conceptual models were available within the framework of the EU-funded GEMex project, which facilitated the interpretation of ground deformation at the Mexican Los Humeros geothermal field (Chapter 5 and Chapter 6). This thesis demonstrates that the identification of temperature and ground motion anomalies and the understanding of physical processes and properties behind them can significantly contribute to map potential areas and to plan exploitation strategies for geothermal utilization. Additionally, continuous monitoring of operating geothermal fields using InSAR measurements and inverse modeling has been proven to be a valuable addition to conventional geophysical methods for geothermal field management, and is expected to become a widely used technology in the future. Effective exploration and safe and sustainable production of subsurface resources require knowledge of the subsurface processes, the driving parameters and their uncertainties. For the understanding of the complex processes occurring at geothermal sites, the integration of multi-disciplinary models and datasets is paramount. By facilitating this integration and quantification, inversion methods demonstrate their effectiveness in the case studies of this thesis. show less" @default.
• W3213552114 created "2021-11-22" @default.
• W3213552114 creator A5081906092 @default.
• W3213552114 date "2021-11-03" @default.
• W3213552114 modified "2023-10-17" @default.
• W3213552114 title "Geophysical characterization of geothermal fields: Inversion of temperature data and ground motions" @default.
• W3213552114 doi "https://doi.org/10.33540/950" @default.
• W3213552114 hasPublicationYear "2021" @default.
• W3213552114 type Work @default.
• W3213552114 sameAs 3213552114 @default.
• W3213552114 citedByCount "0" @default.
• W3213552114 crossrefType "dissertation" @default.
• W3213552114 hasAuthorship W3213552114A5081906092 @default.
• W3213552114 hasBestOaLocation W32135521141 @default.
• W3213552114 hasConcept C111766609 @default.
• W3213552114 hasConcept C119599485 @default.
• W3213552114 hasConcept C127313418 @default.
• W3213552114 hasConcept C127413603 @default.
• W3213552114 hasConcept C165205528 @default.
• W3213552114 hasConcept C188573790 @default.
• W3213552114 hasConcept C1893757 @default.
• W3213552114 hasConcept C1965285 @default.
• W3213552114 hasConcept C2778163838 @default.
• W3213552114 hasConcept C39432304 @default.
• W3213552114 hasConcept C518406490 @default.
• W3213552114 hasConcept C53914812 @default.
• W3213552114 hasConcept C77928131 @default.
• W3213552114 hasConcept C8058405 @default.
• W3213552114 hasConceptScore W3213552114C111766609 @default.
• W3213552114 hasConceptScore W3213552114C119599485 @default.
• W3213552114 hasConceptScore W3213552114C127313418 @default.
• W3213552114 hasConceptScore W3213552114C127413603 @default.
• W3213552114 hasConceptScore W3213552114C165205528 @default.
• W3213552114 hasConceptScore W3213552114C188573790 @default.
• W3213552114 hasConceptScore W3213552114C1893757 @default.
• W3213552114 hasConceptScore W3213552114C1965285 @default.
• W3213552114 hasConceptScore W3213552114C2778163838 @default.
• W3213552114 hasConceptScore W3213552114C39432304 @default.
• W3213552114 hasConceptScore W3213552114C518406490 @default.
• W3213552114 hasConceptScore W3213552114C53914812 @default.
• W3213552114 hasConceptScore W3213552114C77928131 @default.
• W3213552114 hasConceptScore W3213552114C8058405 @default.
• W3213552114 hasLocation W32135521141 @default.
• W3213552114 hasOpenAccess W3213552114 @default.
• W3213552114 hasPrimaryLocation W32135521141 @default.
• W3213552114 hasRelatedWork W2004773421 @default.
• W3213552114 hasRelatedWork W2694799514 @default.
• W3213552114 hasRelatedWork W2735217447 @default.
• W3213552114 hasRelatedWork W2796490461 @default.
• W3213552114 hasRelatedWork W2801019808 @default.
• W3213552114 hasRelatedWork W2917791646 @default.
• W3213552114 hasRelatedWork W4224273426 @default.
• W3213552114 hasRelatedWork W4224949889 @default.
• W3213552114 hasRelatedWork W4285274672 @default.
• W3213552114 hasRelatedWork W4289929469 @default.
• W3213552114 isParatext "false" @default.
• W3213552114 isRetracted "false" @default.
• W3213552114 magId "3213552114" @default.
• W3213552114 workType "dissertation" @default.