论文信息 - Maximization of flux-linkage in HTS motors using shape design sensitivity analysis with critical current constraint

Maximization of flux-linkage in HTS motors using shape design sensitivity analysis with critical current constraint

This paper proposes a design method for optimizing the rotor winding shape of HTS motor. The design objective is to maximize the flux-linkage of stator winding with a given amount of superconductor volume. The increase of flux-linkage results in output-power increase, compact size and quench-reliable characteristic. The optimization algorithm is a design sensitivity analysis where the HTS critical current condition is taken into account. First, the shape of rotor winding is optimized to give a boundary shape of smooth curves. Second, with the shape the rectangular sizes of windings are approximately obtained for easy manufacture. Finally, the rectangular sizes are also optimized for fine-size tuning. The proposed design method is applied to the 100-hp HTS motor.

[1] Wansoo Nah,et al. Reduction of radial magnetic fields in HTS solenoids with different constraint conditions , 2002 .

[2] Joonhee Kang,et al. Current recycling and SFQ signal transfer in large scale RSFQ circuits , 2003 .

[3] Wansoo Nah,et al. HTS motor shape optimization for its maximum critical current of the field winding , 2003 .

[4] Young-Sik Jo,et al. Advanced design approach to the high temperature superconducting magnet , 2001 .

[5] Wansoo Nah,et al. Radial magnetic field reduction to improve critical current of HTS solenoid , 2002 .