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at Aalto University’s Department of Architecture. In this position you will have a chance to make an impact by analysing and developing solutions for effectively capturing carbon into the built
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to quantify embodied carbon reductions, secondary material recovery rates, and avoided landfill loads. Structured surveys and focus groups will capture user feedback on tool usability and clarity, guiding
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simulation models do not fully capture the complex, temperature-dependent, anisotropic, and evolving optical and thermal properties of thermoplastic composite materials. In addition, the desired prediction
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pathway to low-carbon electricity generation combining simplified fabrication, shortened construction, and reduced capital lead times compared to large gigawatt-scale reactors. Despite these operational
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motivated candidate with a background in chemical or process engineering and strong experimental and analytical skills. Join us to drive innovation in carbon capture and contribute to shaping Europe’s low
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will contribute: in the application of the developed generic, open-source, high-performing and highly scalable framework to assess the Levelized Cost of Energy/Heat - LCOE reduction and carbon emission
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simulation models do not fully capture the complex, temperature-dependent, anisotropic, and evolving optical and thermal properties of thermoplastic composite materials. In addition, the desired prediction
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for sustainable energy technologies. The technologies include fuel cells, electrolysis, power-to-x, batteries, and carbon capture. The research is based on strong competences on electrochemistry, atomic scale and
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technologies. The technologies include fuel cells, electrolysis, power-to-x, batteries, and carbon capture. The research is based on strong competences on electrochemistry, atomic scale and multi-physics
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Using capturing carbon dioxide and clean hydrogen is essential for a sustainable future in energy and chemical production. However, the transition is hindered by a lack of efficient, affordable