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health data have both strategic and business model implications. Two key priorities for this research are (i) to inform through meaningful insights and (ii) challenge the thinking in exploring emerging
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, IR, and radar. Explore the benefits of pulsed vs. continuous wave (CW) techniques to maximise energy transfer. This is a hands-on project offering the chance to develop advanced modelling and
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of Digital Twins being used to assess NBS. This project builds on the Newcastle University team’s decades of expertise in modelling the circulation of open oceans, shelf seas and estuaries. The Digital Twin
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wave power without emissions. In the PhD you will have the opportunity to explore and develop novel renewable energy harvesting systems and devise and develop new modelling approaches and conduct
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of pulsed vs. continuous wave (CW) energy delivery methods for maximum efficiency and accuracy. You’ll gain hands-on experience with advanced modelling tools and collaborate closely with MBDA engineers
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using intense ultrasound waves. For this interdisciplinary project involving optics, electronics and acoustics, we are seeking a self-driven, highly motivated PhD student. About your role: Develop novel
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tests of low-emissions concretes Numerical modelling (e.g. modal, FEM, or equivalent) of a concrete FOWT concept (e.g. VolturnUS) under cyclic wave, wind, and current loading for conditions found around
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. The most widely used computational implementation of Density functional theory employs a plane-wave basis coupled with pseudopotentials. Whilst immensely successful for materials modelling, its calculations
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study of ever more realistic model systems. Single atom catalysts, where the catalytic site contains only a single metal atom supported on a heterogenous substrate, offers a tantalising prospect as a
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Council) PhD scholarships are funded via the ARC discovery project “Modelling, Design and Development of a Novel Wave-Energy Converter”. The purpose of these scholarships is to support outstanding students