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About the role We are seeking a full-time Postdoctoral Research Assistant in Heat Exchanger and Thermal System Aerothermal Research at the Oxford Thermofluids Institute which is part of
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solar (thermal and PV) and geothermal energy with soil-based thermal storage to enable reliable 24/7 operation of adsorption desalination. We also develop low-cost sorption composites from locally
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blades. In this role you will: Design, build and optimise optical and inductive thermal NDE rigs for curved, metre‑scale blade sections; Develop and validate forward–inverse heat‑transfer models
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is to deliver a new class of high-quality AM materials with lightweight, uniform structure and properties, high rigidity, thermal stability, and designed functionality. The proposed research is
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research experience in the field of computational mechanics, thermal and chemical processes in a combustion system. Possess sufficient breadth and/or depth of knowledge in combustion, fluid dynamics and
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measurements, linewidth analysis) Knowledge of semiconductor laser physics (thermal effects, carrier dynamics) Experience with mask layout design Knowledge of LIDAR systems, especially FMCW LIDAR architectures
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techniques using polymer- and nanomaterial-based coatings. These advanced coatings will enhance not only the chemical and thermal stability of the LFP materials but also improve their electrochemical
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thermal analyses, XRD and solid-state NMR. To develop and implement coding tools (python, C++, bash scripting…) for the automation of MoSS characterisation To work closely with other experimentalists in
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translate research outcomes to real world impact. The post holder will be required to carry out research in the area of cell characterisation and safety by examining the thermal and electrical responses
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of the expansion is to reduce the frequency of collisions, so that chemical and thermal relaxation processes are slowed down. There are indications that commonly accepted rate constants for non-equilibrium