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Tounos, S.

Paper Title Page
WEPC138 Transient Electromagnetic Analysis and Thermal Design on the Magnet of 3-GeV Synchrotron 2332
 
  • M. Abe, S. Tounos
    Hitachi, Ltd., Power & Industrial Systems R&D Laboratory, Ibaraki-ken
  • T. Adachi
    KEK, Ibaraki
  • Y. Chida
    Hitachi Ltd., Ibaraki-ken
  • K. Nakamura, T. Watanabe
    Hitachi. Ltd., Hitachi Works, Hitachi-shi
  • T. Takayanagi
    JAEA/J-PARC, Tokai-Mura, Naka-Gun, Ibaraki-Ken
  • N. Tani
    JAEA/LINAC, Ibaraki-ken
  
  J-PARC 3GeV synchrotron is operated at 25Hz alternatively, which can generate eddy currents and heat. They can disturb continuous operations. We prepared a design technique to analyze them and manage the temperature rises of the magnets. Eddy current and hysteresis heat generations were calculated with 3D models then temperature rises were evaluated with natural convection cooling from surfaces. The technique was applied on the dipole, quadrupole and bump magnets. Slits on intense eddy current position can decrease the heat generation, however deep slits can disturb magnetic field distribution. Their depth and positions were optimized for the temperature rise reduction. So far, the synchrotron operation is fair with reasonable temperature rises.