Multi-physics field coupling calculation and test of temperature field for dry-type air-core reactor

Jin Miao; Bin Fei; Xi Wu; Jun Qin; Junfeng Wu; Fen Huang; Yinkang Liu

doi:10.1117/12.3009015

27 October 2023 Multi-physics field coupling calculation and test of temperature field for dry-type air-core reactor

Jin Miao, Bin Fei, Xi Wu, Jun Qin, Junfeng Wu, Fen Huang, Yinkang Liu

Proceedings Volume 12922, Third International Conference on Electronics, Electrical and Information Engineering (ICEEIE 2023); 1292224 (2023) https://doi.org/10.1117/12.3009015
Event: The Third International Conference on Electronics, Electrical and Information Engineering (ICEEIE 2023), 2023, Xiamen, China

Abstract

To support the implementation of smart grid policy, the steady-state temperature distribution of a dry-type air-core reactor is studied by a multi-physics field coupling method based on finite element method simulation software. Based on the simulation results, the one-dimensional distribution curves of the reactor encapsulation temperature along the axial and radial directions are obtained, and then the location of the temperature sensor is preferentially selected. Furthermore, based on the temperature rise test of the reactor entity, the experimental measurement results are compared and analyzed with the simulated calculation results. The results demonstrate a strong correlation b etween the temperature rise of the encapsulation obtained from the experiments and simulations. The above research results can provide valuable insights for the optimized design of dry-type air-core reactor based on temperature field.

(2023) Published by SPIE. Downloading of the abstract is permitted for personal use only.

Citation Download Citation

Jin Miao, Bin Fei, Xi Wu, Jun Qin, Junfeng Wu, Fen Huang, and Yinkang Liu "Multi-physics field coupling calculation and test of temperature field for dry-type air-core reactor", Proc. SPIE 12922, Third International Conference on Electronics, Electrical and Information Engineering (ICEEIE 2023), 1292224 (27 October 2023); https://doi.org/10.1117/12.3009015

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