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NGU

Norwegian Geological Survey
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13 Projects, page 1 of 3
  • Funder: Swiss National Science Foundation Project Code: PBBEP2_146226
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  • Funder: European Commission Project Code: 212298
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  • Funder: European Commission Project Code: 238111
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  • Funder: European Commission Project Code: 101119486
    Funder Contribution: 2,700,250 EUR

    TALENTS is a European based research network aiming to train early career researchers with the interdisciplinary, science-driven understanding and skills that are the foundation to develop new sustainable solutions for the global challenges of the energy transition. Our joint research focuses on continental rifts which are key regions for geothermal energy, carbon capture and storage, for new resources such as native hydrogen as well as high-risk human habitats due to geohazards such as earthquakes and volcanic activity. We believe that only if we better understand the natural process chains that shape rifts and passive continental margins by investigating key natural laboratories, characterising rift initiation (East African Rift), rift maturation (Gulf of Corinth in Greece, Central European Rifts), and continental breakup (West Iberian margin), we will obtain key knowledge for a safe and sustainable exploration for new, carbon free energies. TALENTS fuses research and training at 18 beneficiaries and academic partners that are among the world leaders in the study of rift systems and 11 companies that are actively involved in the energy transition. The 12 PhD projects address fundamental scientific aspects of rift system processes, collectively bridging several orders of magnitude of spatial and temporal scales. Each doctoral candidate is linked to (1) an academic partner to complement and broaden their scientific training, (2) to a dedicated industry partner to acquire industry-relevant skills and preview possible non-academic career paths, and (3) to a media contact to actively train in communicating their science to the public. Training by research and interaction will be complemented by various forms of education, spanning a wide range of topics to develop scientific and professional skills, to establish ethical standards and to widen career perspectives.

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  • Funder: European Commission Project Code: 869274
    Overall Budget: 9,248,360 EURFunder Contribution: 8,325,290 EUR

    The manufacture of devices for green energy production and storage in Europe is a strategic, fast-growing sector which is essential in ensuring that the EU meets its energy and climate targets for 2030. It is worth an estimated €30 Bn in turnover, with investments of €4 Bn in the EU27, and is likely to create c.a. 100,000 jobs over the next 10 years. A major limitation to this is that 95% of the key raw materials for green energy devices are currently imported from outside the EU. Securing domestic deposits is therefore urgent for sustainable industrial development, mainly in retaining a large part of the added value, reducing supply risks and ensuring EU environmental standards for the production of raw materials. Exploration investment in Europe has declined in recent years due to increased technical demand and socio-political debate. Private sector engagement will increase only when technical solutions allow economically viable and environmentally friendly exploration and mining. Geologically, lithium-caesium-tantalum (LCT) and niobium-yttrium-fluorine (NYF) pegmatites are relatively common in Europe, enriched in many CRM needed for energy technologies but difficult to explore because most are buried, small and clustered. The GREENPEG approach will develop and test a set of high-level exploration technologies and algorithms to be integrated and upscaled into flexible, ready-to-use (TRL 7) toolsets for the identification of buried pegmatite ores. Validation of the new approach will be ensured from industry-led trials at locations in Austria, Ireland and Norway, while application studies will also be done in Finland, Portugal and Spain. Many of these target areas have established downstream processing industry, thus extending their value chains. The data acquired will enhance European databases, e.g. adding new petrophysical properties for pegmatite ores, making the toolsets also important for geological surveys and increasing the competitiveness of EU companies.

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