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Field
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ignore physical constraints, and evaluation of performance and regulatory requirements requires computationally expensive simulations. Moreover, a complete vessel design involves far more than just
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attributes of the system, or the acceptable walking and waiting times, which will be used both to adapt the design and to have more realistic simulations. Supply and demand levels are intimately intertwined
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ignore physical constraints, and evaluation of performance and regulatory requirements requires computationally expensive simulations. Moreover, a complete vessel design involves far more than just
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idea (max 1000 words), merged in 1 document, motivation letter (max 2 pages), CV, copy Master’s diploma and transcripts The application form and more information can be found on the EGSL-website
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)Master diploma, a written statement from the supervisor is required commenting on performance and expected date of completion. Copy of (Re)Master thesis. A writing sample (for example a published work or
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advanced detection techniques, analyse data, and carry out numerical trajectory simulations of deceleration and scattering processes. You will have the opportunity to work with state-of-the-art and world
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ecology; experience with programming and simulation is an advantage. Excellent analytical and critical thinking skills, with the ability to relate model structure to outcomes and interpret them in
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meter with a non-insulating pipe wall. The research will use existing MHD direct numerical simulations to investigate the flow physics. You will also construct a prototype to test the performance using
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of turbulent pipe flows. In this project you explore novel fundamental approaches of an EM flow meter with a non-insulating pipe wall. The research will use existing MHD direct numerical simulations
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designing and fabricating nanophotonic structures, building an optical low-temperature setup, to performing experiments and simulating spin dynamics. Next to this, you will have the opportunity to build