Different from many superconducting magnet designs based on the analytical algorithm and finite element method (FEM), this article presents an intelligent design of the SMES and high-field magnet using the self-programmed graphical user interface (GUI). As the important basis, the analytical solutions of SMES magnet are developed for calculating the magnetic field, inductance and critical current, whose accuracies are also verified by the experiment. Then, the analytical solutions are merged into the GUI tool with multi-window interface based on the MATLAB. The new platform is built to offer scientists and engineers a smart tool to design and optimize SMES magnets to reach the maximum energy capacity. After the structural optimization of a MJ-class SMES magnet, the critical current and energy capacity improve by 20.46% and 38.67%, respectively. Compared to previous superconducting magnet designs, this new platform for the SMES and high-field magnet design has the advantages of diverse HTS tape/magnet structure selections, user-friendly interface, automatic optimization, and fast speed.

与许多基于分析算法和有限元法 (FEM) 的超导磁体设计不同，本文介绍了使用自编程图形用户界面 (GUI) 的 SMES 和高场磁体的智能设计。作为重要依据，开发了SMES磁体的解析解，用于计算磁场、电感和临界电流，其精度也得到了实验验证。然后，将解析解合并到基于MATLAB的具有多窗口界面的GUI工具中。新平台旨在为科学家和工程师提供一种智能工具来设计和优化 SMES 磁铁，以达到最大的能量容量。MJ级SMES磁体经过结构优化后，临界电流和能量容量分别提高了20.46%和38.67%。