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Research Associate - Thermo-electrochemical Energy Storage Specialist and Supporting Academic Research grade 6 from £33966 to £44263 Full Time, Fixed-term, Hybrid work available. Join us and be part
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months from October. 2024 Closing Date : 5 February, 2024 - 17:00 Project summary With increasing global demand for efficient and powerful energy storage systems, future batteries and/or supercapacitors
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., Castell, A., Browne, M., McCormack, S.J., Griffiths, P., Cabeza, L.F., (2016). Thermal energy storage in building integrated thermal systems: A review. Part 2. Integration as passive system. Renew. Energy
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shaving. Journal of Energy Storage, 32, Article 101779. Jankowiak, C., Zacharopoulos, A., Brandoni, C., Keatley, P., MacArtain, P., & Hewitt, N. (2019). The Role of Domestic Integrated Battery Energy
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(2023) ‘Experimental Characterization of the Optical Performance of Concentrating Photovoltaic Glazing (CoPVG) Systems’ Energies, 16,6. Ghoraishi, M., Hyde, T., Zacharopoulos, A., Mondol, J., Pugsley, A
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Process Simulation and Integration of Compressed Air Energy Storage (CAES) in the Context of Wind Electricity Department of Chemical & Biological Engineering PhD Research Project Self Funded Prof
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Continuous Manufacture of Materials for Energy Storage Department of Chemical & Biological Engineering PhD Research Project Self Funded Dr Stephen Ebbens Application Deadline: Applications accepted
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Hybrid Wind and Photovoltaic Power Generation with Energy Storage Department of Mechanical Engineering PhD Research Project Self Funded Prof M Pourkashanian, Prof L Ma, Prof K Hughes Application
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networks connecting renewable energy generation, hydrogen, and energy storage systems, to support the Net Zero transition. An ideal candidate would be a self-starter and a resourceful team-player with
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brain tissue. You will be responsible for the culture/characterisation cell models of tauopathy (immortalised and iPSC-derived) and will be carrying out human brain tissue homogenisation/fractionation