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Offer Description This project investigates vibration-based methods for monitoring the structural health of deep underground tunnels throughout their lifetime. Structural Health Monitoring (SHM) based
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for nuclear applications, but this innovation prompts key concerns: can existing structural design codes adapt to these novel materials, and how can long-term durability be guaranteed against degradation
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, the impurity content of the coolant must be kept within certain boundaries to ensure long-term operations. Impurities can be added from various sources, such as corrosion of structural steel in contact with HLM
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to follow the deformation of the gallery. Different environmental conditions are acting on this structure. Firstly, the overburden pressure from the overlying Boom Clay deforms the lining in a lying-egg shape
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molecular modeling, optimize their structures for selectivity and tumor retention, and conjugate the most promising candidates to chelators for radiolabeling with ¹⁷⁷Lu or ¹⁶¹Tb. This chemistry-driven project
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unique advantages for drug and radionuclide delivery due to their biocompatibility, structural regularity and capacity for precise genetic modification. By integrating tumor-targeting ligands, radiometal
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normal operations and accident scenarios. This PhD project will first identify state-of-the-art atmospheric dispersion codes that allow the inclusion of structures such as buildings in the considered
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porous structures with small grain sizes will be attempted to be stabilized at the highest possible temperature and tested for release by irradiation with a proton beam in an external facility. Where
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vital for maintaining the structural integrity of reactor components during transients and accidental scenarios. Unlike conventional Light-Water Reactors, LFRs lack operational experience, making