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at the University of Birmingham. The post will commence in October 2024. The project’s aim is to understand in its full complexity the artificial acceleration of the carbonate-silicate cycling, from the land surface
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Contract Type: Fixed Term contract up to July 2026 UK and Global travel may be required as part of this role Hybrid working is possible in line with both CRCTU and University of Birmingham policies
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, ideally with prior experience in energy systems. The ideal applicant should possess relevant analytical skills, proficiency in programming, and proficiency in modelling in high-level programming environment
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at the University of Bristol and the University of Birmingham. Based at the University of Bristol, this research post will focus on developing a suite of configurable machine learning models suitable
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Collaborations: You will be based at the University of Birmingham and will be co-supervised by the UKAEA’s Tritium Fuel Cycle division (https://ccfe.ukaea.uk/divisions/h3at ). This project will involve multi
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students only, funding for fees & salary/stipend provided & guaranteed with full certainty by the University of Birmingham.
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Supervision and International Collaborations: You will be based at the University of Birmingham and will be co-supervised by the industrial partner Tokamak Energy Ltd. (https://tokamakenergy.com
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investment We value diversity and inclusion at the University of Birmingham and welcome applications from all sections of the community and are open to discussions around all forms of flexible working
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A 3.5 years joint industry funded PhD studentship is available within the School of Metallurgy and Materials at the University of Birmingham to develop new tungsten alloys for nuclear fusion
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(MTC). It is based within University of Birmingham at the Department of Mechanical Engineering. This is 3-year fully funded studentship is only open to UK home students. The successful applicant will