74 evolution "https:" "https:" "https:" "Multiple" "Newcastle University" PhD positions at Newcastle University
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years Application Closing Date Friday 30 January 2026 Sponsor EPSRC , Anglian Water & Northumbrian Water Group Supervisors Dr Anna Murgatroyd and Prof Richard Dawson at Newcastle University, Dr Geoff
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Water Group Supervisors Dr Anna Murgatroyd and Prof Richard Dawson at Newcastle University, Dr Geoff Darch at Anglian Water and Liz Corbett at Northumbrian Water Group Eligibility Criteria An MEng
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project costs will also be provided. Overview In vitro models of cardiac tissue are synthetic tissues produced in the lab which allow for the development of organs and the treatment of diseases to be
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testing potential drug candidates in high-throughput. One of the barriers to the discovery of new medicines is the time taken to design, synthesise and test compounds through multiple cycles of optimisation
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UKRI rate). Additional project costs will also be provided. Overview The project aims to explore the potential of new warheads for the development of targeted covalent inhibitors for drug discovery
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their targets are simulated at the atomistic level. The most widely-used tool for this are molecular mechanics force fields, such as those developed by the Open Force Field Initiative [https://doi.org
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their operational reliability. The PhD student will combine mathematical models, in-house laboratory tests in a wind-wave-current flume (https://research.ncl.ac.uk/amh/ ) and numerical methodology to quantify
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attention to boundary conditions and heterogeneity. The outcomes will support improved design, risk reduction and development of low-carbon geothermal resources. This project addresses sustainable resource
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flood extents under different storm surge scenarios, as determined through high-fidelity CFD-DEM simulations? - What is the optimal spatial arrangement (single/multiple lines, angle of incidence) of PBs
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approach which considers multiple interacting aspects of the water system. This research will explore how SROs can be optimised to deliver dual benefits: reducing flood risk and enhancing water security