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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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experts. The researcher is expected to contribute the development and validation of mathematical and integrated models for offshore wind – hydrogen hubs, and to develop element models including balance
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Researcher will work on a Women’s Health project performing cell and bacterial culture. The appointee will be involved in both technical and commercial elements of the project which aims to development a
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mechanisms using microbiology approaches, metabolomics or other suitable techniques. The successful candidate will work closely with members of the Browne Lab as well as collaborators within our JPIAMR
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analysis, PCR, and chemical analysis of constituent components is desirable. The successful candidate will be expected to have strong experimental skills as well as a significant track record of research
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in Probiotic under study. Candidates should have a PhD with relevant molecular or biochemical experience. Expertise in cell culture, western analysis, PCR, and chemical analysis of constituent
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to identify commensal gut bacteria that are inhibitory against Candida species. Once identified, these bacteria will be characterised to determine the underlying inhibitory mechanisms using microbiology