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This project aims to develop novel catalysts and reaction systems for energy-efficient electrochemical conversion of captured CO2 into liquid fuels. Electrochemical Conversion of Captured CO
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for climate-positive and CO2-negative processes. What you will do Optimization of the pilot plant for the combustion of solid fuels (biomass, waste) with oxygen and subsequent CO2 capture Development of models
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Job Description Explore your passion for sustainability, creativity and science by joining the exciting Novo Nordisk Foundation CO2 Research Center (CORC). CORC has its main hub at Aarhus
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1st July 2025 Languages English English English The Department of Chemical Engineering has a vacancy for a PhD Candidate in absorption-based CO2 capture Apply for this job See advertisement This is
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Due to unique properties of supercritical CO2 (sCO2), power generation systems using sCO2 as working fluid have many advantages over their counterparts, such as gas turbines and steam turbine power
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Your Job: Analysis of possible applications of CO2 capture and CO2 utilization in the energy system requires detailed techno-economic modelling of these technologies. A major focus of this doctoral
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Solid State Physics group at KU Leuven are looking for a full-time (100%) doctoral scholarship holder in the field of novel CO2 reduction photocatalysts based on ultra-small gas-phase bi- and multi
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system in Germany and Europe and analyze the role of CO2 infrastructures in the design of energy infrastructures. Based on the findings of a related doctoral thesis, options for CO2 capture and utilization
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to develop intensified processes for CO2 conversion into sustainable synthetic fuels via cobalt-catalysed Fischer-Tropsch Synthesis (FTS), based on advanced catalysis and reactor engineering concepts
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(CCUS) and renewable energy sources, energy systems, and energy storage. About the project If CO2 is to be stored safely underground, it is important to understand the long-term effects of storage. CO2 is