关键词: 高温超导调相机, 阻尼屏蔽层, 异步电枢磁场, 暂态性能

Abstract: The high-temperature superconducting synchronous compensator ( HTSSC) is used to replace the traditiona synchronous compensator in special power systems such as isolated islands because of its advantages of fast response speed and small space. In order to ensure that the superconducting excitation winding always works in the superconducting state and improve the operation reliability of the HTSSC, it is necessary to explore the suppression ability of the damping shield structure to the asynchronous magnetic field in the region of the superconducting excitation winding. The suppression ability of asynchronous magnetic field in the end and non-end regions of HTSSC with different damping shielding structures was compared by three-dimensional finite element simulation. The results showed that the copper shell damping shield structure
was more suitable for HTSSC. The transient performance of HTSSC with different damping shielding structures was calculated by three-dimensional simulation. It was found that the HTSSC with copper shell damping shielding structure had smaller subtransient reactance and larger short circuit current.

Key words: high-temperature superconducting synchronous compensator ( HTSSC ), damping shield layer, asynchronous armature field, transient performance