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difference: Be at the forefront of developing efficient storage solutions for a sustainable future. Play a key role in the transition towards a carbon-neutral world through innovative technology. Help unlock
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Exciting Funded PhD: Durability of Seals for High-Pressure H2 Generation, Storage & Use - Shape The Future Of Clean Energy! Department of Mechanical Engineering PhD Research Project Directly Funded
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networks. About the Department & Research Group Department of Computer Science: 99% of our research is rated in the highest two categories in the REF 2021, meaning it is classed as world-leading
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GIF CDT: A Novel Gas/Liquid contactor for Direct Air Capture and industrial CO2 capture technologies
technology of a $3.5 billion US government programme to establish four regional Direct Air Capture hubs across the country. This project has three objectives: Generate data on the pressure drop, hydrodynamics
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barriers and opportunities to ensure your project contributes towards ‘real world’ solutions. Candidate Requirements As a minimum we require candidates to have a First-class or 2:1 MEng or and MSc with merit
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Nonlinear Distributed Control Department of Automatic Control and Systems Engineering PhD Research Project Competition Funded Students Worldwide Dr Pablo Baldivieso Monasterios Application Deadline
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‘real world’ solutions. Candidate Requirements As a minimum we require candidates to have a First-class or 2:1 MEng or and MSc with merit (over 60%) in a relevant area i.e. Chemical Engineering, Process
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to identify critical barriers and opportunities to ensure your project contributes towards ‘real world’ solutions. Candidate Requirements As a minimum we require candidates to have a First-class or 2:1 MEng
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GIF CDT: Fundamental combustion chemistry of hydrogen/ammonia/nitrogen fuel blends Green Industrial Futures Centre for Doctoral Training (GIF CDT) PhD Research Project Directly Funded Students
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Ultrafast dynamics of Photoactive Metal Complexes for antibacterial applications School of Mathematical and Physical Sciences PhD Research Project Directly Funded UK Students Prof J Weinstein