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an important role in the efficient integration and management of solar energy in modern power systems. The studentship project aims to develop a novel PV forecasting model based on physics-informed neural
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printed parts and we are still developing new leading-edge materials to grant them new capabilities. Advantages: In this PhD studentship, you will develop the materials, methods, and designs necessary to 3D
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own idea or one developed with your supervisors, but it must be relevant to local health needs in the Global South. What’s included in the fellowship? We offer a comprehensive package to support your
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-ranging expertise represented by Warwick’s Department of History and its Global History and Culture Centre as well as the range of training and development opportunities offered by the Department and
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to cancer biology, as well as a strong commitment of developing and using new tools to address cutting-edge questions in these fields. This studentship is embedded within the piRNA team, consisting of both
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. Your work will feed directly into the development of predictive models that link microstructure to performance, guiding the design of alloys that are stronger, more reliable, and more efficient. By doing
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mechanical fatigue—individually and sequentially, followed by electrical breakdown testing to assess their impact on the dielectric performance of the material subsystems. The target is to develop a
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very well the behaviour of these cryogenic hydrogen pumps, in order to master their integration into the hydrogen system. The primary objective of this research in collaboration with Airbus is to develop
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, advanced gel polymer electrolytes (GPEs) are needed to boost energy density and reliability. This PhD project offers a unique opportunity to develop cutting-edge GPEs that combine the safety of solid-state
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. With the need for the development of novel hydrogen-compatible combustion devices, understanding of the flame behaviour and thermoacoustic instabilities for hydrogen-air swirl flames is needed