EPJ Web of Conferences
Volume 33, 20122nd European Energy Conference
|Number of page(s)||8|
|Published online||02 October 2012|
Adapting computational optimization concepts from aeronautics to nuclear fusion reactor design
1 KU Leuven, Department of Mechanical Engineering, Celestijnenlaan 300A, 3001, Leuven, Belgium
2 Institute of Energy and Climate Research, Forschungszentrum Juelich GmbH, EURATOM Association, Trilateral Euregio Cluster, D-52425, Juelich, Germany
a email: Wouter.Dekeyser@mech.kuleuven.be
Even on the most powerful supercomputers available today, computational nuclear fusion reactor divertor design is extremely CPU demanding, not least due to the large number of design variables and the hybrid micro-macro character of the flows. Therefore, automated design methods based on optimization can greatly assist current reactor design studies. Over the past decades, “adjoint methods” for shape optimization have proven their virtue in the field of aerodynamics. Applications include drag reduction for wing and wing-body configurations. Here we demonstrate that also for divertor design, these optimization methods have a large potential. Specifically, we apply the continuous adjoint method to the optimization of the divertor geometry in a 2D poloidal cross section of an axisymmetric tokamak device (as, e.g., JET and ITER), using a simplified model for the plasma edge. The design objective is to spread the target material heat load as much as possible by controlling the shape of the divertor, while maintaining the full helium ash removal capabilities of the vacuum pumping system.
© Owned by the authors, published by EDP Sciences, 2012
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