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rate). Overview The research addresses the broad areas of infrastructure resilience and design in the face of climate change and the implications for disruption management. Specifically, the following
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waste streams will differ geographically. By understanding this, the candidate can then design, evolve and optimise highly characterised biocatalysts, microorganisms, and microbial consortia to convert
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Newcastle University. The candidate will also work with the industrial partner, PuriFire Labs Ltd , in aspects of process engineering design features for a scalable prototype facility, industrial installation
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mechanics. They will integrate the workflows into drug discovery pipelines at Newcastle University and/or at the industry partner, and thereby showcase the potential of physics-based modelling for design of
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grant + UKRI fees paid Overview Modern flood risk management relies on hydrodynamic models for risk assessment, design and evidence to guide future investment and planning. Accurate and reliable
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rapid process development and scale-up, whilst ensuring inherently more efficient continuous, rather than batch, processing. In this project, novel laboratory-scale continuous reactors will be designed