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production and bioelectrochemical systems. Their role becomes especially important under stress conditions, where slow growth and fragile cooperation can limit process performance. When this microbial teamwork
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per cent of full-time. Your qualifications You have graduated at Master’s level in electrical engineering, engineering physics, mechanical engineering, computer engineering, engineering mathematic
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qualifications You have a master’s degree in electrical engineering, engineering physics, mechanical engineering, computer engineering, engineering mathematics or have completed courses with a minimum of 240
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(TSCI) and Textile Value Chain Management (TVCM). TSCI applies a systems-oriented perspective and advanced computational intelligence in studying the complex interplay of production units, technologies
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such as autonomous systems, complex networks, data-driven modeling, learning control, optimization, and sensor fusion. The division has extensive collaborations both with industry and other research groups
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as possible. Salary is in accordance with local guidelines. For more information, please contact: Paul Christakopoulos, Professor and Head of Subject in Biochemical Process Engineering, (+46)920-492510
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on increasingly complex questions where the interplay between different phases is crucial for success. Interface systems—whether involving material transitions, biological systems, energy-conversion devices
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social issues that require more knowledge. In order to both sustainably use and safeguard forest biodiversity, a coherent basic science research program is needed that addresses large and complex issues
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of comminution circuits based on the ore’s mineralogical and textural properties. Ore comminution is facing growing challenges due to ever more complex ores that increase the deposits’ variation of grinding
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fragile cooperation can limit process performance. When this microbial teamwork fails, organic acids can accumulate after disturbances and reduce system efficiency. Because no single microorganism can