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platform and/or its manipulator(s) will be used to trace the emission source, using a combination of sensor data, gas behaviour models, and robotic navigation techniques. The project can be tailored
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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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of uncertain duration, under the Labour Code, for the purpose of carrying out research functions, within the scope of project microGASP – Greenhouse Gas Emissions from Plastic Pollution: The Azores as a Beacon
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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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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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many industries (e.g., oil and gas, offshore platforms, wind turbines, fisheries, aquaculture, agriculture, manufacturing, energy sector). These systems should be capable of autonomously navigating
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diverse and highly dynamic environments and it has applications across many industries (e.g., oil and gas, offshore platforms, wind turbines, fisheries, aquaculture, agriculture, manufacturing, energy
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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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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