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nature. To this end we will adapt existing enzyme architectures (i.e. naturally occurring cofactors and catalytic machinery) to conduct new catalytic tasks through a combination of chemical intuition and
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of Mechanical Engineering, Civil Engineering and Industrial Design Engineering. We enable society and industry to innovate and create value using efficient, solid and sustainable technology. We are part of a
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machinery) to conduct new catalytic tasks through a combination of chemical intuition and enzyme engineering. The PhD project will involve bioinformatic selection of candidate enzymes, employing a combination
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water from the solid sludge matrix. Conventional aids like flocculants only partly help, while thermal processes such as hydrolysis can improve dewaterability but are energy intensive and underlying
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with the following qualifications, knowledge, and skills: A master’s degree (or equivalent) in computer science, human-computer interaction, traffic engineering, or related fields. A solid background and
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of Mechanical Engineering, Civil Engineering and Industrial Design Engineering. We enable society and industry to innovate and create value using efficient, solid and sustainable technology. We are part of a
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of market mechanisms and market transactions. You will work closely with the project leaders, Prof. Dr. Vitali Gretschko (University of Münster) and Prof. Dr. Peter Werner (Maastricht University), and join a
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them against welding experiments. We are looking for a colleague who has experience in deriving and implementing numerical methods to solve 3D field equations, has a solid understanding of
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data analysis and operations research. You hold, or will shortly acquire, a Master’s degree in Civil Engineering, Industrial Engineering, Mechanical Engineering, Econometrics, Computer Science, or a
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microeconomic models that explain behavior and predict the impact of different policies to improve the societal acceptance of market mechanisms and market transactions. You will work closely with the project