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a low-energy alternative for liberating indurated phosphates. This project integrates mineralogical and mechanical characterization, pilot-scale testing, and advanced process simulation, with
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economic factors to enhance urban resilience to water-related challenges. Key Responsibilities Develop models to simulate urban water flows, assess climate change impacts, and test innovative solutions
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. Description of the position: Develop and improve the best cropping practices under marginal and arid conditions Test, introduce and upscale new and alternative resilient crops Field preparation and
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processes for virtual commissioning and optimization. Examine extensive heterogeneous data sets (including historical process data, sensor data, and laboratory findings) using advanced AI approaches such as
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, BET, ICP). Apply Design of Experiments (DoE) and statistical optimization tools to improve processes within the main project and across other ongoing research lines. Fabricate and test graphite anodes
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/membrane testing instruments; Willingness to learn how to generate new ideas, links, and to build upon existing ideas to generate good concepts and solutions; Ability to co-supervise graduate students
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; Experience in developing and validating methods, operating and troubleshooting different gas/vapor adsorption/membrane testing instruments; Willingness to learn how to generate new ideas, links, and to build
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testing, and advanced process simulation, with the objective of optimizing grinding performance and enhancing resource recovery. The ideal candidate will have a strong background in mineral processing
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and arid conditions Test, introduce and upscale new and alternative resilient crops Field preparation and establishment of field trials Conduct controlled trials under greenhouse conditions testing crop