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work spans the entire production chain, from innovative material design and advanced processes to the characterization of materials and components. About the research project The project is an EU-level
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processes for CO₂ hydrogenation as part of CCU. The objective of the project is to develop novel catalysts for the process that will be examined in high pressure CO2 hydrogenation experiments, combined with
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resources for your research. Project overview The project aims to explore new catalytic processes for CO₂ hydrogenation as part of CCU. The objective of the project is to develop novel catalysts
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research involving sampling and detailed characterization of lime and cement clinker products from electrified manufacturing processes. The position is full-time for two years, starting on November 1, 2025
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sampling and detailed characterization of lime and cement clinker products from electrified manufacturing processes. The position is full-time for two years, starting on November 1, 2025 or as agreed
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velocity air-fuel (HVAF) facility lend a rare uniqueness and versatility to the group’s processing capabilities, which are further complemented by a range of allied equipment for process monitoring, coating
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facilitated by the availability of a high-power axial-feed capable plasma spray system and a high velocity air-fuel facility. These lend a rare uniqueness and versatility to the group’s processing capabilities
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semantic representation models for sign language. Such representations are key to allowing SL to be efficiently processed by large language models (LLMs), and will lead to machine learning models that can
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which marine microalgae-based technologies are used to upcycle nutrients from saline seafood process waters, while simultaneously producing valuable biomass. A core of the project is to tailor mild
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to upcycle nutrients from saline seafood process waters, while simultaneously producing valuable biomass. A core of the project is to tailor mild biorefinery sequences to the microalgal biomasses for recovery