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Trust-funded project on Plasma-Assisted Combustion (PAC) Modelling of Ammonia, in collaboration with the York Plasma Institute. The successful candidate will develop and apply advanced computational
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-combustion, will be used to quantify the total fluor content. Results will be compared with those obtained by GC×GC-HRMS, TIMS-FTICR, and LC-MS/MS (those parts being done by other postdoctoral fellows funded
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4 Apr 2026 Job Information Organisation/Company CNRS Department Institut de Combustion, Aérothermique, Réactivité et Environnement Research Field Engineering Chemistry Physics Researcher Profile
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prediction of combustion dynamics and emissions in next-generation gas turbine combustion systems operating with gaseous and liquid fuels. • Develop, implement, and validate CFD models for complex reacting
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writing. ● Experience working in a complex experimental system setting. Brief Description of Duties: The Advanced Combustion & Energy Systems Laboratory (ACES Lab ), in the Department of Mechanical
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and non-combustion-derived particles. Particular attention will be given to the study of micro- and nanoplastics, in order to assess the relevance and efficiency of depollution and recycling processes
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disciplines including aerospace, combustion, design, fluid mechanics, materials, mechanical, mechatronic and robotics engineering. To learn more about the School click here We are currently seeking a
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insights and develop reduced order models (ROMs) for boundary layer flows and turbulent combustion. Integrate ROMs with CFD solvers and demonstrate predictive accuracy compared to traditional modeling
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writing. ● Experience working in a complex experimental system setting. Brief Description of Duties: The Advanced Combustion & Energy Systems Laboratory (ACES Lab ), in the Department of Mechanical
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on advanced internal combustion engines, with an emphasis on turbulent-jet ignition systems and structural-mechanics modeling of cylinder-kit components. The ideal candidate will possess a strong background in