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Exciting Funded PhD Project: CFD Modelling of Seals for High-Pressure, Low-Carbon Storage Technologies - Help Shape the Future of Clean Energy Storage! Department of Mechanical Engineering PhD
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-saving and high-performance quantum computing mechanism for applications in quantum storage technologies (QSTs). Objectives: To design new quantum magnetic devices where energy-efficient operations
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to heat. The heat is then converted into steam to drive a turbine that produces electrical power. CSP plants can use thermal energy storage systems to store the power until it’s needed, for example
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the life cycle and techno-economic assessment of various thermochemical energy storage technologies in the context of industrial waste heat application Background: Waste heat generated by UK industry and
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, or GAMS Strong skills with control methodologies, their applications in net-zero. buildings and energy systems (e.g. energy storage and demand response) Project management skills to ensure project
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to support a fully-funded PhD studentship in the area of Smart Energy Systems – Aggregated Demand Response (ADR). The PhD candidate will explore flexible and scaleable ICT and control system achitectures
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production (e.g. solar cells) and energy storage (e.g. batteries and supercapacitors) is vital for achieving net zero targets. Materials with layered structures have shown great promise in this area and
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of waste for long term storage. A particular waste is corroded magnesium alloy clad uranium metal fuel that has formed sludge and is currently contained in open and closed facilities on the Sellafield site
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, clean fuels (e.g. H2,) as well as new energy technologies (e.g. heat pumps, energy storage, electrolysers, etc). However, how to best integrate renewable energy and new technologies is uncertain and poses
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and energy storage. The project will explore: Energy Security Implications: Examining offshore wind power's contribution to enhancing energy security by utilizing domestic renewable resources, reducing