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Do you want to contribute to developing groundbreaking methods for measuring greenhouse gas emissions and biodiversity at the farm level? We seek a PhD student who wants to work with drone- and
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velocities. To characterise the gas phase at high void fractions, the project will also use a recently developed optical sensor that combines phase detection with Doppler-based velocity measurements
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releases, and greenhouse gas flux estimation. Current approaches struggle to assimilate data from heterogeneous sensor networks, are too computationally demanding for real-time deployment, and lack reliable
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Imagine a world where sensors don’t just collect data, they think. With the exponential growth of the Internet of Things (IoT) and edge computing, the demand for ultra-low-power systems that can
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transport, high-performance mechanical seals are essential. These seals prevent gas leakage by maintaining a sub-micron-thin layer of hydrogen between a rotating ceramic face and a stationary face. The
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systems using cost effective sensors and IoT devices. To enhance assessment reliability, full-scale measurements will be conducted. The results will be analysed to identify the cause of the disturbance
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supporting the transition towards new methods of modelling and simulating battery failure, i.e.: gas venting, fire and explosion. The PhD is sponsored by BP and will take place within the Battery Systems team
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Rare-earth permanent magnets underpin modern life. From electric motors and wind turbines to medical imaging, sensors, and consumer electronics, Neodymium-Iron-Boron (NdFeB) magnets are essential
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metal-oxide model systems with the potential use in modern technological areas such as heterogeneous catalysis, gas sensors and also as catalysts for fuel cells. The surface structure and morphology
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climate impact, future gas turbine technology must be capable of operating using alternative low or zero carbon fuels and fuel blends to support the emergence of zero net CO2emission energy systems. However