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the period 2008 to 2024 will be used to analyse the use of health services, medicines and sickness absence. The source data include linked data from the primary and specialist health services
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construction field because of their sustainability, cost effectiveness, and reduced self-weight. The use of wood is particularly beneficial because of its low carbon footprint compared to other construction
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precise in a structured manner and swiftly adapts to new tasks Good communication and collaboration skills Positive attitude and the ability to handle hectic periods and multi-tasking Employment in
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explore the ductility requirements of connections to achieve high performance of timber buildings with respect to all aspects mentioned above. This task will be carried out by use of parametric Finite
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cells using state-of-the art infrastructure for battery research at Department of Materials Science and Engineering Perform relevant sustainability analysis and use relevant energy storage profiles to aid
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research, in and outside academia. The focus for the PhD work will be probabilistic structural lifetime estimation of offshore dynamic riser and power cable systems by use of continuous measurements
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prepared for changes to your work duties after employment. Required selection criteria You must have a relevant Master's degree in civil engineering or equivalent. Your course of study must correspond to a
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industry partners—the project will establish a validated, data-driven design framework. This framework will support multifunctional and dual-use applications, enhancing the resilience of underground spaces
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(Human-AI symbiosis as a means to tackle societal challenges). Symbiosis takes an interdisciplinary approach to address the opportunities, challenges, and risks associated with the use of AI in one
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work with fish behavior, engineering geology, turbine design, variable speed operation, etc. It involves fundamental research including a literature study and CFD modelling with the use of real case