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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | about 2 months ago
research directed to advancing the public good with human-centric and ethical applications. The core elements of the SDSS include porous borders – leveraging our low-walled collaborative Carolina culture
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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 2 days ago
research directed to advancing the public good with human-centric and ethical applications. The core elements of the SDSS include porous borders – leveraging our low-walled collaborative Carolina culture
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vision, please refer to the following link: https://www.kaust.edu.sa/en/about/our-strategy About the PSE Division and KAUST The Physical Science and Engineering Division comprises seven Degree Programs
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to elucidate how modified brines (“Smart Water”) alter liquid–liquid and liquid–solid interfacial behaviour in low permeable porous media. Wettability and capillary forces depend non-linearly on mineral surface
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. Where to apply Website https://seuelectronica.upc.edu/ca/Tramits/Convocatoria_contractacio_personal_PD… Requirements Research FieldEngineering » Civil engineeringEducation LevelPhD or equivalent Skills
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programming in coupled groundwater and surface water systems. Carry out comprehensive groundwater - surface water modeling. Where to apply Website https://seuelectronica.upc.edu/en/procedures/call-for
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education to enable regions to expand quickly and sustainably. In fact, the future is made here. The Department of Physics at Umeå University (https://www.umu.se/en/department-of-physics/ ) conducts strong
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numerical flow simulations through a porous medium composed of packed equiaxed dendritic grains. These simulations will be performed using research-level numerical models that simulate the solidification of a
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grow into an expert in sustainable energy storage for low-power electronics applications. The aim of the work is to develop supercapacitor energy storage using porous carbons from biochar, greener
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specifically, you will devise strategies for mitigating salt precipitation via innovative GDE and electrolyzer design. You will develop novel porous electrodes from scratch with perfect control over its porosity