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of Excellence for Biocatalysis, Biotransformations and Biocatalytic Manufacture (CoEBio3), which brings together world-leading industrial and academic partners including AstraZeneca, GlaxoSmithKline, Merck Sharpe
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Develop practical, industry-transforming technology in this hands-on PhD program focused on immediate industrial applications. This exclusive opportunity places you directly at the interface between
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myriad of new techniques and much sought-after skills demanded by industry, including the following: Design of experiments, data harvesting/analysis and interpretation of results to derive insight
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The pipe industry, comprising PVC, HDPE, steel, ductile iron, and concrete pipes, significantly contributes to greenhouse gas emissions due to energy-intensive production, material sourcing, and
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to a myriad of new techniques and much sought-after skills demanded by industry, including the following: Design of experiments, data harvesting/analysis and interpretation of results to derive insight
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energy-intensive and it yearly accounts for 1.2 trillion Kg of CO2. The migration to low carbon electricity and high energy efficient firing is an essential option to “reduce overall industry emissions
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and support seaweed industry innovation. Additionally, the successful applicant will conduct an industrial placement at Biotechnica. Methodology: You will receive training in advanced metabolomics, e.g
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AI techniques for damage analysis in advanced composite materials due to high velocity impacts - PhD
to support this research through its deep expertise in aerospace engineering, composite materials, and applied artificial intelligence. As a wholly postgraduate institution with a mission to deliver industry
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heavily in people and infrastructure to enhance the experience of research students. The project also offers opportunities for collaboration with academic and industry partners in the fields of digital
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develop your software engineering skills to redefine manufacturing? This exciting PhD project is for you if you want to develop innovative techniques to ensure industrial robots are reliable, safe, and