MOTOR

As part of the EU's Horizon 2020 research and innovation programme, the MOTOR (Multi-ObjecTive design Optimization of fluid eneRgy machines) Project aims to develop new types of numerical simulation and automatic shape optimization technologies for aircraft engines, ship propellers, water turbines and rotary screw compressors. Coordinated by TU Delft, the research will be conducted by an international consortium that will explore new mathematical concepts and advanced computational tools over the next three years. The idea is to harmonize the geometry and mathematical language used in computer-aided design and engineering systems, making it possible to virtually analyse machine designs in greater detail.

"In this project, we will create new software tools for optimizing the shapes of these so-called fluid energy machines to finally increase their overall efficiency," said Matthias Möller, Assistant Professor of Numerical Analysis. "Mathematics is omnipresent in this project. It starts with the accurate algorithmic modelling of the rotor geometries, which are so-called functional free-form surfaces. Next, numerical simulation and optimization algorithms are entirely based on rigorous mathematical concepts like calculus of variation or iterative solution algorithms for systems of equations."

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Contact information: Kees Vuik

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