Simulation of Hot Spot Temperature Rise of Dry Bridge Reactor Based on Highly Conductive Epoxy Composites-Reference-Cited by-同舟云学术

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Simulation of Hot Spot Temperature Rise of Dry Bridge Reactor Based on Highly Conductive Epoxy Composites

Published:2024 Issue: Volume: Page:405-417
ISSN:1876-1100
Container-title:Lecture Notes in Electrical Engineering
language:en
Short-container-title:

Author:

Yin Li,Yang Wei,Wang Kun,Wang Jie,Zhang Chong,Chen Yun,Qiao Jian,Wang Guangke

Publisher

Springer Nature Singapore

Link

https://link.springer.com/content/pdf/10.1007/978-981-99-7401-6_39

Reference10 articles.

1. Sippola M, Sepponen RE (2002) Accurate prediction of high-frequency power-transformer losses and temperature rise. IEEE Trans Power Electron 17(5):835–847

2. Wang Z, Han D, Fan X, Li J, Zhou Q, Wang Z (2022) Simulation of reactor turn to turn short circuit detection based on finite element analysis. J Guilin Univ Electron Technol 42(06):443–448 (in Chinese)

3. Fan M-Y (2021) Finite element simulation of dry resistance temperature field and measurement method based on optical fiber sensing. North China Electric Power University (in Chinese)

4. Shi C, Chen S, Wang Y, Jin S, Yu Y, He Y, Yang S, Xiong Z, Shi Q (2022) Effects of fibre orientation on thermal conductivity of epoxy/glass fibre composites. Eng Plastics Appl 50(11):108–116 (in Chinese)

5. Liang K (2021) Research on heat transfer characteristics of dry hollow reactor cladding material. Kunming University of Science and Technology (in Chinese)

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