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Short description The PhD project is focused on recommended design and engineering principles of totally renewable microgrids with the ambition to outperform traditional networks reliability
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computational tools for quantifying electromagnetic field distributions down to the fundamental atomic scale. The project will build on recent developments in inverse scattering methods, including ptychography
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the direction of A/Prof Claudia Szabo in the School of Computer and Mathematical Sciences at the University of Adelaide. This position will work with our partners Praetorian Aeronautics and their testing team
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of up to AU$50,291 per annum. Start Date: July-August 2025 Additional financial support is available through research and teaching assistance work. The Research Opportunity This PhD research opportunity
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is highly complex. For the proposed PhD project, experimental data are already available that bring together maps of orientations of such crystals together with the deformation pattern generated during
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the project team listed in ‘Our People’ above. It is anticipated that the successful candidate will have enrolled into and commenced the PhD program by June 2022. Prospective applicants can obtain
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domain experts’ beliefs about the relationships among variables that can be used to describe them. The BN structure, the probability distributions and parameters it is built from, can be derived from data
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limitations. Encompassing proton-conducting electrolytes, these cells operate within the 350-650 °C range, which is markedly lower than that of the traditional solid oxide fuel cells (SOFCs) by 200°C
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an environment in which everyone thrives. In line with Curtin’s 2030 Strategic Plan, Curtin University is committed to optimising employment outcomes for Aboriginal and/or Torres Strait Islander peoples. Curtin
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gas is a crucial aspect of the ongoing energy transition, serving as a renewable energy source for industrial processes and a substitute for fossil fuels. Australia, with abundant and cost-effective