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under the supervision of Dr Mehrdad Vasheghani Farahani from Department of Chemical Engineering, with co-supervision by Professor Ian Kinloch from Department of Materials. The successful candidate will
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facilities. The project will be supervised by Professor Chris Hardacre and Dr Marta Falkowska, with expertise spanning heterogeneous catalysis, reaction engineering, and neutron-based characterisation. Full
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simulation. The supervisory team, Dr Rwayda Al-Hamd, Dr Lee Cunningham, and Professor Yong Wang, also has an established network of national and international collaborators, which will provide opportunities
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, specialises in laser-matter interactions of metal additive manufacturing, and the co-supervisor, Professor Paul Mativenga (UoM), has extensive expertise in laser materials processing. Dr Chu Lun Alex Leung
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equations, calculus of variations and numerical methods for differential equations is desirable. To apply, please contact the supervisors: Professor Apala Majumdar (apala.majumdar@manchester.ac.uk ) and Dr
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Carlo simulation, deterministic methods, and AI/ML-assisted techniques. The study seeks to improve predictive accuracy for key performance and safety parameters while addressing the challenges associated
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tuition fees will be paid. We expect the stipend to increase each year. The start date is October 2026 but a later start date can be considered. Candidates will need to cover relocation and associated costs
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accuracy/reducing uncertainties associated with mathematical modelling approaches based on PDE (partial-differential equation) descriptions. It will also investigate how material structure and gas-material
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development, the studentship will provide exposure to the challenges and opportunities associated with translation of long-acting technologies towards clinical implementation. This studentship is closely linked