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This exciting fully funded PhD, with an enhanced stipend of £24,000 per annum, will focus on the application of nanobubbles to support waste management at the UKs designated nuclear waste management
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is one of eight major themes at Cranfield University. The manufacturing capability is world-leading and combines a multi-disciplinary approach that integrates design, technology and management
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systems enables effective digitalisation and automation transition. This project aims to build a generative AI model and algorithm for optimising manufacturing systems’ engineering design and processes
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. Emergency overflows divert excess flows to receiving water courses or attenuation facilities to prevent sewage backing up. Initially designed for intermittent discharges, these overflows now routinely operate
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: biological engineering reactor design, molecular microbiology, molecular ecology and bioinformatics. You will also have the opportunity to attend conferences. Cranfield University is a specialist postgraduate
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, Technology, Engineering and Mathematics (STEM) through our Athena SWAN Bronze award and action plan, we are members of the Women’s Engineering Society (WES) and Working Families, and sponsors of International
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of the industrial giants from the defense sector (BAE Systems) The work is envisioned to have great impact on design and development of intelligent autonomous agents. Fully funded Ph.D. covering not only tuition
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connectivity and flight dynamics, incorporating Artificial Intelligence (AI) and Machine Learning (ML) to develop innovative prediction mechanisms. The primary goal of this project is to design advanced
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inclusion agenda, for example; gender diversity in Science, Technology, Engineering and Mathematics (STEM) through our Athena SWAN Bronze award and action plan, we are members of the Women’s Engineering
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-engine design and a key research area is the ability to measure complex flow fields. Within that context, the overall aim of this PhD is to further develop non-intrusive laser-based flow measurement