Speaker
Kamil Sedlak
(Swiss Plasma Center)
Description
Three alternative designs of the toroidal field (TF) coil were proposed for the European DEMO being developed under the Eurofusion Consortium. The most ambitious TF coil winding pack in terms of technological deviation from the ITER TF coil design and consequent potential cost saving, the so-called WP1, is based on the react&wind technology of Nb3Sn layer-wound flat multistage conductors. We present the thermal-hydraulic and quench propagation analyses for the WP1 proposed in 2015, in which the realistic magnetic field and nuclear heat load maps, and heat transfer between neighboring turns and layers are taken into account. The aim of the analysis, performed using the Cryosoft software, is to assess the temperature margin at the end-of-burn conditions, as well as the hot-spot temperature and the maximum pressure that is expected in case of quench, and consequently to optimize the WP1 design from the thermal-hydraulic point of view.
Co-authors
Kamil Sedlak
(Swiss Plasma Center, EPFL, Villigen PSI, Switzerland)
Monika Lewandowska
(West Pomeranian University of Technology, Szczecin, Poland)
Pierluigi Bruzzone
(Swiss Plasma Center, EPFL, Villigen PSI, Switzerland)
