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Role: Research Associate in Numerical Modelling for AI-driven Sorbent-Based Carbon Capture Technologies Grade and Salary: Grade 7, £37,694 - £47,389 per annum FTE and working pattern: 1FTE, 35hrs
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of an evolving sustainable automotive industry. The project will involve the application of catalytic chemistry and reaction engineering, working as part of a team of co-workers with expertise in carbon capture
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performance fillers in coatings and plasters. This PhD will focus on improving CO2 capture efficiency through the use of a novel type of chemicals and converting CO2 to functional carbonates
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regulations, developing low-emission, carbon-free burners has become crucial for industry and a technical challenge for researchers. Ammonia (NH3) and hydrogen (H2) are the main carbon-free fuels under
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multidisciplinary, and you will work together with leading researchers with long and recognized experience in the development of technologies for hydrogen production, carbon dioxide capture, biomass utilization, and
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and Artificial Intelligence (AI) Industrial Data Science Sustainable Energy and Materials (clean energy, energy storage, energy efficiency, green materials, etc.) Carbon Neutrality (carbon capture
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scalable regeneration and upcycling strategies for carbon adsorbents used in medical carbon capture systems. You will manage the laboratory-scale validation of thermal and chemical processes and coordinate
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-doctoral researchers dedicated to advancing the fields of Carbon Negative technology, Capture methods, Utilization processes, and Storage solutions. Successful candidates will have the opportunity to engage
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. (d) Heterogeneous catalysis, e.g. electrolyzers for CO2 reduction. (e) CO2 capture with waste, e.g. carbonation using ashes Work synergistically with PI and Co-PIs in experimental designs, conducting
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About the role: We are looking for a professional research assistant/technician to support our development of the next-generation electrochemical technologies for direct ocean capture of CO2