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hydrogen (H₂) production. Conventional thermal catalytic methods for H₂ production (e.g., steam reforming, water gas shift reaction) requires conditions of temperatures exceeding 500 °C and high pressures
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) develop and optimize extraction techniques using enzymes in combination with non-thermal technologies such as ultrasound, ohmic heating, and pulsed electric fields, (iii) evaluate the techno-functional
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during emergencies and is based on high-temperature PEM (HT-PEM) technology. The HT-PEM stacks operate at approximately 160 °C, offering simplified designs and operational advantages, including improved
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, solid mechanics, fluid mechanics, materials technology, manufacturing engineering, engineering design and thermal energy systems. Technology for people DTU develops technology for people. With our
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bioimmunostimulants, biopesticides, biofertilisers, biobased plastics, and bioenergy. Key focuses include reducing greenhouse gas emissions, optimising exhaust flows, minimising noise, recovering thermal energy, and
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£20,780 per year, and includes a 3-month fusion engineering CDT training programme as part of the 2025 Cohort. This project is co-supervised by Dr Chris Hardie from UKAEA. The UoB Materials for eXtremes
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Fully-funded PhD Studentship: Adaptive Mesh Refinement for More Efficient Predictions of Wall Boiling Bubble Dynamics This exciting opportunity is based within the Fluids and Thermal Engineering
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to increase each year. The start date is 1st October 2025. Industrial filtration felts are constructed using both mono-material and blended fibre systems to meet the mechanical, chemical, and thermal demands
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The University of Exeter’s Department of Engineering is inviting applications for a PhD studentship fully funded by the department to commence on September 2025 or as soon as possible thereafter
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, engineering design and thermal energy systems. Technology for people DTU develops technology for people. With our international elite research and study programmes, we are helping to create a better world and