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to the development of concepts of hydrogen storage by using floating foundations and necessary improvements. • Develop finite element structural models / hydrodynamic simulations of floating foundations
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. Develop finite element structural models / hydrodynamic simulations of floating foundations storing hydrogen with operational wind turbine, electrolysers and environmental loads. Optimise design of hybrid
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achieved by engineering metal cofactors to increase the rates of enzymatic biological processes and optimizing the method of gas delivery. This will eventually assist the development of an efficient and
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pipelines and writing of custom MATLAB scripts for signal analysis. Prior experience in programming and statistical analysis are therefore essential. An additional component of the project will involve
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the methods for optimizing performance of future cellular communication networks. The research will identify the technical challenges and limitations with the RF front-end and seek to implement solutions
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communication network infrastructure. This role will lead efforts in the study of the methods for optimizing performance of future cellular communication networks. The research will identify the technical
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including prison officers, psychologists, and others. The post-doctoral researcher will be an integral part of a mixed methods two-year study with a Research Team led by Principal Investigator, Dr Joe Garrihy
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-targeting ability of glycoconjugates with bioactive metal complexes. If successful, you will focus on design and synthesis of new families of metal complexes and associated mechanically-interlocked molecules
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universally accepted initiating factor in disease development is the loss of tolerance to harmless self-antigens. Functionally this results in the immunological targeting of healthy cells and tissues leading
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research. This project will use a mixed-methods approach to examine how individuals’ capabilities, opportunities, and motivations influence their decision-making behaviour, and how the setting including