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Postdoc in energy systems modelling and optimization (V25.0156) « Back to the overview Job description Are you passionate about shaping the future of energy? We're looking for an energetic
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. The focus involves expertise in energy modeling, optimization and analyzing diverse energy mixes, primarily emphasizing hydrogen-based systems. As we move toward cleaner energy systems, the way we plan and
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collaborative, leading-edge projects within expansive energy consortia. The focus involves expertise in energy modeling, optimization and analyzing diverse energy mixes, primarily emphasizing hydrogen-based
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on the fundamental understanding and process optimization of an electrochemical cell system incorporating redox-flow electrodes and ion-selective membranes for Lithium purification. The goal is to selectively remove
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to keep the data up-to data with very little effort. Estimate energy and land needs for the realization of the CCU potential. Develop a multi-objective optimization model for individual CCUS projects
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are looking for motivated candidates who can bridge system modelling, control and optimization with psychological theories and are confident with calculus, probability, statistics, control, and optimization. In
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, employing both qualitative and quantitative methods to optimize the tool and explore the effectiveness of various implementation strategies (e.g., peer reflection groups, individual coaching). What you will
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random dynamics. You will work on quantifying the typical times of observability for the different transient phenomena and elaborating criteria for a dynamically optimal decomposition of the state space
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antigens for broad-spectrum protection; exploring the optimal (viral) vector vaccine platforms for antigen delivery; developing advanced serology tools to track chicken immunity against IBV; collaborating
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on peptide sequence and end-group functionalization; 2) guiding experimental structure optimization workflows to minimize the number of experiments to achieve desired properties; 3) generating new peptide