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PhD Studentship - Process Industries: Net Zero CDT: Lifecycle & Systems Modelling of Future Marine Fuels and Engine Systems Award Summary 100% fees (UK home only), a minimum tax-free annual living
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how ultrasound aligns particles and controls crystallisation to create materials with tailored anisotropy. Using experimental acoustics, modelling, and advanced characterisation, you will pioneer new
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intervention strategies (repair, refurbishment, remanufacture, or recycling) under different energy system scenarios. The model will use industry case studies, quantifying how robotics-enabled predictive
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importance of different sources, mobilisation and concentration processes, and lithium fluxes are still poorly constrained. Consequently, the prediction how lithium moves through the crust and becomes
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application! We are seeking a highly motivated PhD student to join a research project at the forefront of battery diagnostics and modelling, that will help shape the future of battery technology by developing
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PhD Scholarship This PhD project will develop an Australian-focused modelling framework to assess carbon and biodiversity market designs, comparing environmental and economic outcomes to inform
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reliability. This PhD project will develop lifecycle and systems‑level models that track these fuels from production through storage, onboard use and energy conversion. Using advanced simulation and analysis
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-vestibular), input-related, and voluntary movement-related determinants of HD signals in the mouse model, to elucidate their role in goal-directed navigation. The candidate will study thalamo-cortical and
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developments by the project team regarding advanced crystal plasticity models, different modeling strategies will be explored, including strain gradient plasticity [1,8,9], micromorphic approaches [2], and
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are focused on areas with high noise exposure: areas near the runway or final approach or early departure routes. Current noise models only consider a free propagation path from the sound source towards