摘要详情
463 / 2022-03-15 22:55:43
Electric field analysis and parameter optimization design of 200kV DC resin impregnated fiber bushing capacitor core
capacitor bushing; capacitor core; finite element method; field strength; automatic calculation
摘要录用
Electric field analysis and parameter optimization design of 200kV DC resin impregnated fiber bushing capacitor core
Yiqun Qiu1, Daochun Huang1, Jiangjun Ruan1, Jiangang Deng2, Zhenbo Lan2, Zhuolin Xu2
1 School of Electrical Engineering and Automation, Wuhan University 430072 China. 2 Wuhan NARI Limited Liability Company of State Grid Power Research Institute, Wuhan 430074 China
2913730768@qq.com
Purpose/Aim
This paper mainly designs an automatic simulation platform of 200 kV DC resin impregnated fiber bushing capacitor core based on ANSYS and MATLAB to optimize the structure of the capacitor core.
Experimental/Modeling methods
The platform designed in this paper uses MATLAB to design 200kV DC resin impregnated fiber bushings with different plate layers for equal resistance and equal thickness, equal resistance and equal plate length difference, and equal margin design. MATLAB transmits data to ANSYS to automatically perform two-dimensional axisymmetric modeling and calculation of capacitor cores, guide rods, flanges, etc., Then user can adjust the plate size of the part of the capacitor core according to the simulation calculation results and automatic simulation calculation again for comparison.
Results/discussion
The empirical formula for the design of the capacitor core deduces that the field strength at the end of the plate deviates from the actual calculation. The design of the capacitor core requires the maximum field strength data at the end of the plate to adjust.
Conclusions
The platform can design the capacitor core according to the actual situation, automatically obtain the simulation calculation results and the maximum field strength at the end of the plate, and make local adjustments to obtain the desired capacitor core model.
Appendix (Figure, table, image…)
Yiqun Qiu1, Daochun Huang1, Jiangjun Ruan1, Jiangang Deng2, Zhenbo Lan2, Zhuolin Xu2
1 School of Electrical Engineering and Automation, Wuhan University 430072 China. 2 Wuhan NARI Limited Liability Company of State Grid Power Research Institute, Wuhan 430074 China
2913730768@qq.com
Purpose/Aim
This paper mainly designs an automatic simulation platform of 200 kV DC resin impregnated fiber bushing capacitor core based on ANSYS and MATLAB to optimize the structure of the capacitor core.
Experimental/Modeling methods
The platform designed in this paper uses MATLAB to design 200kV DC resin impregnated fiber bushings with different plate layers for equal resistance and equal thickness, equal resistance and equal plate length difference, and equal margin design. MATLAB transmits data to ANSYS to automatically perform two-dimensional axisymmetric modeling and calculation of capacitor cores, guide rods, flanges, etc., Then user can adjust the plate size of the part of the capacitor core according to the simulation calculation results and automatic simulation calculation again for comparison.
Results/discussion
The empirical formula for the design of the capacitor core deduces that the field strength at the end of the plate deviates from the actual calculation. The design of the capacitor core requires the maximum field strength data at the end of the plate to adjust.
Conclusions
The platform can design the capacitor core according to the actual situation, automatically obtain the simulation calculation results and the maximum field strength at the end of the plate, and make local adjustments to obtain the desired capacitor core model.
Appendix (Figure, table, image…)
重要日期
-
会议日期
09月25日
2022
至09月29日
2022
-
08月15日 2022
提前注册日期
-
09月10日 2022
报告提交截止日期
-
11月10日 2022
注册截止日期
-
11月30日 2022
初稿截稿日期
-
11月30日 2022
终稿截稿日期
主办单位
IEEE DEIS
承办单位
Chongqing University
联系方式
- Zhengyong Huang
- 61******@qq.com
历届会议
-
2020年09月06日 中国 Beijing
2020 IEEE International Conference on High Voltage Engineering and Application -
2018年09月10日 希腊
2018 IEEE International Conference on High Voltage Engineering and Application -
2016年09月19日 中国 Chengdu, China
2016 IEEE International Conference on High Voltage Engineering and Application
