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Job Description The project takes place in the Quantum Light Sources group at DTU Electro, where we design, model, fabricate and test sources of single photons or entangled photon pairs
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. The position is part of a large-scale CCS project (CASPER) capturing CO2 from Aalborg Portland’s cement plant, with testing in a dedicated CO2 transport facility. You will also contribute to the CO2MAN project
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to capture vPvM chemicals in water. Optimize effect-directed analysis and implement suitable in vitro assays Investigate operational waterworks and if possible test pilot-scale systems such as advanced
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on a panel of selected test bacteria and culture methods underestimate the biocide tolerance of Campylobacter . Your primary tasks will be to: Collect existing data regarding the biocide tolerance
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robustness of fish with different microbiome profiles. Responsibilities and qualifications Your focus will be to examine the mucosal microbial communities and health and welfare indicators in rainbow trout
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programme can be found here while the details for the enrolment and admission to DTU’s PhD programme are available here Excellent background in the design, creation, and testing of Virtual Learning
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conversion. The project partner at TUM will focus on the materials production, stability characterization and the catalytic activity tests aspect of the project. The work at DTU will focus on the materials
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application phases. This will involve toxicological testing (e.g., cytotoxicity, mutagenicity) and evaluating microplastic release and ecotoxicity using standardized and novel methods (in collaboration with a
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testing dynamic equivalencing methods for power system dynamic simulations and integrating these into commercial simulation tools. Dynamic equivalents are simplified representations of complex power system
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collaborate closely with a postdoctoral researcher responsible for in-situ fatigue testing under corrosive environments, and will participate in the 4D (x,y,z,time) analysis of the AM microstructure and crack