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at Cranfield University. This is a great opportunity to work closely with AWE, for advancing state-of-the-art mathematical models and simulation capabilities. We are looking for an enthusiastic and motivated
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Discontinuous Galerkin/Finite Volume unstructured methods for hypersonic interactions using the Cranfield University high-order UCNS3D code. The research is funded through EPSRC, UK MoD and Cranfield University
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on developing an innovative framework grounded in Design for Dynamic Management, we integrate AI and predictive analytics to enable adaptive decision-making. This PhD research at Cranfield University aligns with
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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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motivating alignment towards sustainability goals. Cranfield University provides the ideal environment for this research endeavour, offering a wealth of resources and expertise in engineering and digital
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to the challenges of free-market systems. Cranfield University provides the ideal environment for this research endeavor, offering a wealth of resources and expertise in engineering and digital technologies
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. Cranfield University is committed to accept all students including those from underrepresented groups and different social economic groups. Funding This is a fully-funded studentship. This opportunity is open
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Organisation Cranfield University School/Department School of Water, Energy and Environment Based at Cranfield Campus, Cranfield, Bedfordshire Hours of work 30 hours per week, normally worked Monday
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Organisation Cranfield University School/Department School of Aerospace, Transport and Manufacturing Based at Cranfield Campus, Cranfield, Bedfordshire Hours of work 37 hours per week, normally
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Agency Ltd). Cranfield Manufacturing is one of eight major themes at Cranfield University. The manufacturing capability is world-leading and combines a multi-disciplinary approach that integrates design