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to staff position within a Research Infrastructure? No Offer Description The main goals of this PhD project are: Develop novel sparse training algorithms that improve the scalability and energy
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committed to investigating, understanding, and supporting the collaborative learning and innovation practices of interorganizational learning communities on the circularity and energy transitions. In this NWO
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control strategies to support the flexibility and resilience of the EU energy grid. This is achieved by enhancing the lifetime and recyclability of components and equipment, devising operation strategies
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the atmosphere, and the interactions between wind farms. This project represents an opportunity for us to advance our collective knowledge of fluid and atmospheric dynamics relevant to wind energy. Join us in
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PhD position in “Economic Life Cycle Costing and Life Cycle Sustainability Assessment of Hydropower”
control strategies to support the flexibility and resilience of the EU energy grid. This is achieved by enhancing the lifetime and recyclability of components and equipment, devising operation strategies
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of wind energy fluid mechanics research! Requirements Specific Requirements We are seeking applications from motivated early-career researchers with a strong background in fluid dynamics, mechanical
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dynamics between wind and waves, assessing their influence on the efficiency of offshore wind farms. This is a chance to advance knowledge in renewable energy and make a significant contribution to improving
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. The Background Metal additive manufacturing at large scale, such as laser cladding, is a well-established technique to reduce the cost of repairing or regenerating the damaged industrial components in energy
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centers, the adoption of heat reuse has the potential to enhance organizational energy efficiency, reduce global energy consumption, and optimize services. In this context, our collaborative team aims
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upscaling of the BAK. For achieving this, new types of artificial membranes would be developed, cell cultures protocols on these membranes would be optimised and uremic solutes removal from blood, by the new