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groups. Professor Bram Nauta’s Integrated Circuit Design (ICD) group focuses on various aspects of analog and Radio Frequency (RF) Integrated Circuits (IC). The group's motto is “fundamental solutions
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a next step, you will explore to what extent these pathways match stakeholder’s values and the increase of drought resilience. You will subsequently design a serious game to support interaction with
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enabled technologies and methods for the design and operation of future manufacturing. In line with the Industry 5.0 paradigm, aspects like sustainability in manufacturing (e.g. circular manufacturing
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aims to bring about a paradigm shift in the design, fabrication, and functionalization of 3D-printed structures to create an innovative thermochemical heat transformer. These will assist in temperature
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operational hydropower experts from the early development stages of technologies to inform and influence the design processes. Next to analysing global environmental impacts along the supply chain, you will
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PhD position Facilitating the co-creation of sponge measures and strategies in European river basins
effects, implementation of such approaches is still lagging. A key challenge is to mobilise and involve all relevant actors for the inclusive and integrative design and implementation of effective sponge
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geological faults is overcome. We plan to study the friction phenomena in a single-grain (asperity) contact by performing experiments to accurately model friction during high-acceleration sliding. Dynamic
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PhD position in “Economic Life Cycle Costing and Life Cycle Sustainability Assessment of Hydropower”
with technological and operational hydropower experts from the early development stages of technologies to inform and influence the design processes. By means of economic life cycle costing analysis (LCC
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check: Bremer, S. J. L., et. al. (2023). Laser intensity profile as a means to steer microstructure of deposited tracks in Directed Energy Deposition. Materials and Design, 227, [111725]. Ya, W. , et. al
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challenging novel membrane approach to effectively remove MPs from surface and drinking water. Charge-mosaic membranes comprise a nanoscale pattern of positively and negatively charged patches. These membranes