Three-dimension (3-D) geometry models are established for HL-2M tokamak Plasma-Facing Components (PFCs), including Vacuum Vessel (VV) and divertor by ANSYS in this study. We predict Electromagnetic (EM) loads during an upwards Vertical Displacement Event (VDE) disruption by introducing plasma & magnetic field coils currents models. Eddy currents are induced due to the decay of plasma current and then flow into the PFCs components. The interaction between eddy currents and magnetic fields generates enormous EM forces and torques. During the VDE disruption, the halo currents are also born due to plasma currents moving to VV and divertor accompanied with dynamic evolution. Halo currents flow into VV and divertor inside components from the inner &outer target plate, the demo plate, and the cassette box. We found that the EM loads are most substantial on the radial& poloidal EM forces by introducing discretized spatiotemporal current profiles calculated from the DINA code. Inward & upward forces are the dominant factor in the VV and divertor. It may provide helpful experiences in designing China Fusion Engineering Test Reactor (CFETR).
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