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fuel, but its high reactivity makes it vulnerable to pre-ignition. The presence of lubricating oil droplets can worsen this risk by evaporating, altering chemical pathways, and producing nanoscale soot
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background within petroleum and/or mechanical engineering or equivalent education (Rock mechanics / Geotechnical / Geological Engineering, Applied Physics, Civil Engineering with geomechanics or materials
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seismic data to produce 3D geophysical models that will constrain the subsurface extent of rock units that might be suitable for hydrogen generation via radiolysis and/or serpentinization and identify
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Project advert The Coriolis mass flowmeter (CMF), as one of the best and accurate flowmeters, is widely used in the oil & gas, water & wastewater industries. CMF determine the mass flow rate based
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into plant-available forms. This project will determine the mechanisms of microbial phytate degradation in soil and develop microbe-enhanced biofertilizers to reduce dependence on rock phosphate
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of the mechanical properties of the cellular actin cortex, the biomechanics of cell division, and the coupling between cell shape and mechanics and cellular state / fate during cellular transitions. The successful
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. The successful candidate will work on a research project that will investigate the neural circuit mechanisms of visual decision-making, learning, and attention. The project combines electrophysiology and
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interest in rock mechanical experiments, or high-pressure and/or high-temperature laboratory experiments; strong quantitative and data analysis skills; the ability to work independently and as part of a team
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of the mechanical properties of the cellular actin cortex, the biomechanics of cell division, and the coupling between cell shape and mechanics and cellular state / fate during cellular transitions. The successful
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Funder: EPSRC and Rolls-Royce plcDuration: 3.5 years Supervisors: Prof. Nick Jones & Prof. Howard Stone Stipend: £20,780 + £5,500 industry top-up per annum Fees: Home rate; international applicants