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part of the EPSRC Centre for Doctoral Training (CDT) in Net Zero Aviation, offering an integrated, multidisciplinary training programme focused on innovation, collaboration, and inclusive leadership. As
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with the strategic interests in developing ultra-efficient turbofans along with advancing propulsion integration and aerodynamic technologies. This project will help to de-risking the design of coupled
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, addressing the multifaceted challenges they present has become imperative to safeguard both human well-being and the integrity of our natural environment. Currently, no water or wastewater treatment plants
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treatments of dry fibers, such as UV or atmospheric plasma; the addition of nanoparticles to the resin; and the integration of materials like carbon fibers, carbon nanotubes, carbon black, graphene
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development timescales and cost. This could yield efficiency improvements in areas like integrated fan-intake systems, very high bypass ratio engines, ultra-efficient boundary layer ingestion architectures
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, that are commonly integrated into the end-effectors, but on advanced (e.g. tactile, sound-based, shape) solutions that enhance the perception of the end-effectors so that versatile tasks can be performed. We
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. These innovations are driven by the need to complete complex repairs without disassembling industrial installations. By integrating these technologies, we aim to develop hybrid robotic systems that combine locomotion
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diffraction (EBSD), transmission electron microscope (TEM) and in-situ micromechanics. This project will involve manufacturing trials, workpiece surface quality analysis (e.g. metallurgy, integrity, residual
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materials are connected is critical for the development of next generation functional materials. However, modern atomically-resolved imaging techniques only give an integrated snapshot of the structure
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integrating biological (transcriptome, proteome, physiology) and geochemical (trace element and isotopic ratios) data collected by the rest of the project team. Finally, we will explore the application