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Zero commitments, generation from renewables will form a key part of the electrical energy generation mix. Much of this generation will be located offshore and will need to be transported to shore using
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will have the opportunity to work, for part of the time, in GE Vernova’s main HVDC design office, based in Stafford, UK. Here the candidate will have the opportunity to see, design, manufacturing and
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, mechanical or chemical stability. The complex polymer formulations, multi-material components, and diverse use-case scenarios for such plastics create barriers that must be understood at the end of the product
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this fundamental challenge, the PhD candidate will be part of a wider team to establish methodological framework, combing utilisation of controlled tree growth test, thermodynamic modelling and advanced optical
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activated enzymes for selective chemical transformations. The first part of the project will involve preparing and characterising a set of photoresponsive proteins. These proteins will then be screened for a
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, through specific experimental arrangements during the PhD project. This PhD is fully funded by the University of Manchester as part of their commitment to support a recently successful BBSRC-Arxada award
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Gamesa Renewable Energy R&D team and also undertake an industry placement as part of the PhD programme. To apply, please contact the main supervisor, Dr Chen - lujia.chen@manchester.ac.uk . Please include
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partnership with the Royce Institute and Cummins, you will study the microstructure of nickel-based alloys used in turbine wheels — vital components for hydrogen-ready engines and future power technologies
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the main supervisor, Dr Bissett - mark.bissett@manchester.ac.uk , to discuss this. Project Overview Carbon nanotubes (CNTs) are critical components in advanced technologies, particularly as conductive