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EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Concrete is one of the most widely used materials in construction, but its production
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profitability. Examples include optimizing production speeds to balance output, equipment deterioration, and energy consumption in manufacturing, or designing dynamic pricing and allocation policies in rental
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, hydrodynamics, sediment dynamics, and chemistry shape estuarine and delta environments in the face of climate change and human interventions. We link fundamental science to societal needs, with a focus on
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contribute to creating a shared vision of a sustainable water system in the port area, to understanding its SETS dynamics, as well as identifying bottlenecks and feasible pathways for achieving a more
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(e.g., salinity dynamics, fish migration), economy (e.g., trade, businesses and resource flows), technology (e.g., infrastructure mapping, urban plans/construction), as well as potential sources of risks
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production speeds to balance output, equipment deterioration, and energy consumption in manufacturing, or designing dynamic pricing and allocation policies in rental systems to match supply with fluctuating
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Discrete Element Method (DEM) models to simulate the charging and formation of multi-component, poly-disperse burden mixtures in the blast furnace. The goal is to optimize burden structure and permeability
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-Ready Solutions for Viable Supply Chains) addresses this challenge. Its goal is to move beyond reactive crisis management and provide a structured approach for building supply chains that are resilient
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closely together to solve societal challenges from the dynamic and cosmopolitan city of Rotterdam. Thanks to the high quality and positive societal impact of our research and education, EUR can compete with
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structured approach for building supply chains that are resilient, sustainable, and regulation-ready. The project develops methods and decision-support tools that integrate resilience and compliance directly