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decisive influence on the production of hydrogen and its derivatives – and thus on the associated transport distances. However, a key and as yet unresolved question is which energy carriers can be imported
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SU-3-1 Hydrogen Conversion of a Gas Turbine – Optimisation Operating Parameters for Co-Firing Green Industrial Futures Centre for Doctoral Training (GIF CDT) PhD Research Project Directly Funded UK
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The Fire and Explosion Modelling Group (FEMG) at University of Surrey is seeking a Research Fellow to work on computational fluid dynamics (CFD) analysis of accidental releases of liquid hydrogen and ammonia
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carriers such as hydrogen (H₂) are major challenges in the energy transition. Current gas capture and separation processes mainly rely on solid porous materials (zeolites, MOFs, activated carbons) or liquid
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professor or Assistant professor 7. Grid Modernization · Power Semiconductor · Rank: Associate professor or Assistant professor 8. Hydrogen Energy · Hydrogen Production · Storage, Sector Coupling · Rank
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for developing materials and photocatalytic conditions for selective reactions, such as green hydrogen production or demethylation reactions from biomass. Two approaches will be explored: heterogeneous
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action team with the potential for carbon removal at a global scale. This position will work on novel electrolyzer for hydrogen generation and mineral precipitation for use of carbon dioxide avoidance
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of the SciLifeLab Integrated structural biology platform https://www.scilifelab.se/units/structural-proteomics/ The unit provides access to cutting-edge equipment and expertise, for the analysis
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surfaces. Deep eutectic solvents are typically biocompatible and biodegradable solvents formed by a hydrogen bond donor and a hydrogen bond acceptor. This characteristic confers them a highly tunable
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(wood, hydrocarbons). They can also be used for hydrogen production. Indeed, in an environment containing water vapour, the metals react and form oxides, releasing hydrogen (Me + H2O → MeO + H2