In this paper, taken the deep-sea transformer as the research goal and based on the numerical model method, the finite two-dimensional numerical model of deep-sea transformer is established by ANSYS and the leakage magnetic field and winding loss of the transformer are calculated. Then based on the two-dimensional numerical model, a three-dimensional model is established to solve the winding losses and verify the accuracy of the two-dimensional loss solution results. The analysis results show that the leakage magnetic field distribution and winding loss of the transformer obtained by the three-dimensional numerical model method are similar to the calculation results of the two-dimensional numerical model, which further verifies the accuracy of the finite element numerical calculation method in the calculation of the electromagnetic characteristics of deep-sea transformers With usability.
Published in | Asia-Pacific Journal of Energy and Power Engineering (Volume 2, Issue 2) |
Page(s) | 10-16 |
Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
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Copyright © The Author(s), 2024. Published by Science Publishing Group |
Deep-sea Transformers, Electromagnetic Fields, Finite Element
[1] | 周守为.中国海洋石油开发战略与管理研究[D].成都:西南石油学院,2002. |
[2] | 常焕辉.新时期海洋石油钻井技术的发展分析[J].当代化工研究,2016(01):54-55. |
[3] | 李志刚 安维峥.我国水下油气生产系统装备工程技术进展与展望[J].中国海上油气,2020,32(02):134-141. |
[4] | 唐宇.大型电力变压器附加损耗与温度场分析[D].哈尔滨:哈尔滨理工大学,2017. |
[5] | 周少静.特型变压器绕组漏磁场及特性参数的数值仿真研究[D].天津:河北工业大学,2013. |
[6] | 高一飞.直流偏磁对变压器的影响研究[D].济南:山东大学,2010. |
[7] | 王菲菲.电力变压器漏磁场研究及绕组温度场分析[D].济南:山东大学,2010. |
[8] | L. J.Yang, W. T. Cui, S. W. Gao. Magnetic flux leakage field within the detector unit optimization based on Comsol [A]. Advanced Science and Industry Research Center. Proceedings of the 2015 International Conference on Testing and Measurement: Techniques and Applications(TMTA 2015) [C]. Advanced Science and Industry Research Center:, 2015: 5. |
[9] | Ting-ting ZHU, Min-fang PENG, Xun WAN, Mei-e SHEN. Diagnosis of Inter-turn Fault in Transformers Based on the Change of Leakage Magnetic Field[A]. Science and Engineering Research Center. Proceedings of 2016 International Conference on Power, Energy Engineering and Management (PEEM 2016)[C].Science and Engineering Research Center:,2016:6. |
[10] | Imre L. Determination of the Steady State Temperature in Naturally oil Cooled Disc Type Transformers [J]. IEEE Trans on Power Delivery,2008,10(2):123-128. |
[11] | 魏澈,李强,洪毅,等.流花16-2油田电潜泵长距离供电系统仿真分析[J].中国海上油气, 2018,30(04):190-195. GAO Yifei. Research on the impacts of DC Magnetic Bias on Transformer[D].Shandong University.2010. |
[12] | 盛坚, 肖鹏. 影响变压器运行可靠性的因素及对策分析[J]. 科技与企业, 2013(24): 395. |
[13] | 包博, 刘鹏, 王闯, 谢天喜,李靖,李旭. 大型电力变压器磁场分布及涡流损耗优化研究[J]. 变压器, 2012, 49(3): 17-20. |
[14] | Chang H C, Bucknall R W. Harmonic calculations of proximity effect on impedance characteristics in subsea power transmission cables[J]. IEEE Transactions on Power Delivery, 2009, 24(4): 2150-2158. |
[15] | Monsen B, Rongve K S, Laegreid T, et a1. Asgard Subsea Gas Compression-Technology Qualification Testing With High-Speed Vsd and Very Long Step-Out Cable[J]. IEEE Transactions on Industry Applications, 2014, 50(2): 1552-1561. |
APA Style
Lei Yang, Fu Gaojin, Guo Hong, Guo Jiangyan, Liu Xushuai. (2020). Analysis of Leakage Magnetic Field and Winding Loss of Deep-sea Transformer. Asia-Pacific Journal of Energy and Power Engineering, 2(2), 10-16.
ACS Style
Lei Yang; Fu Gaojin; Guo Hong; Guo Jiangyan; Liu Xushuai. Analysis of Leakage Magnetic Field and Winding Loss of Deep-sea Transformer. Asia-Pac. J. Energy Power Eng. 2020, 2(2), 10-16.
@article{10049387, author = {Lei Yang and Fu Gaojin and Guo Hong and Guo Jiangyan and Liu Xushuai}, title = {Analysis of Leakage Magnetic Field and Winding Loss of Deep-sea Transformer}, journal = {Asia-Pacific Journal of Energy and Power Engineering}, volume = {2}, number = {2}, pages = {10-16}, url = {https://www.sciencepublishinggroup.com/article/10049387}, abstract = {In this paper, taken the deep-sea transformer as the research goal and based on the numerical model method, the finite two-dimensional numerical model of deep-sea transformer is established by ANSYS and the leakage magnetic field and winding loss of the transformer are calculated. Then based on the two-dimensional numerical model, a three-dimensional model is established to solve the winding losses and verify the accuracy of the two-dimensional loss solution results. The analysis results show that the leakage magnetic field distribution and winding loss of the transformer obtained by the three-dimensional numerical model method are similar to the calculation results of the two-dimensional numerical model, which further verifies the accuracy of the finite element numerical calculation method in the calculation of the electromagnetic characteristics of deep-sea transformers With usability.}, year = {2020} }
TY - JOUR T1 - Analysis of Leakage Magnetic Field and Winding Loss of Deep-sea Transformer AU - Lei Yang AU - Fu Gaojin AU - Guo Hong AU - Guo Jiangyan AU - Liu Xushuai Y1 - 2020/07/17 PY - 2020 T2 - Asia-Pacific Journal of Energy and Power Engineering JF - Asia-Pacific Journal of Energy and Power Engineering JO - Asia-Pacific Journal of Energy and Power Engineering SP - 10 EP - 16 PB - Science Publishing Group UR - http://www.sciencepg.com/article/10049387 AB - In this paper, taken the deep-sea transformer as the research goal and based on the numerical model method, the finite two-dimensional numerical model of deep-sea transformer is established by ANSYS and the leakage magnetic field and winding loss of the transformer are calculated. Then based on the two-dimensional numerical model, a three-dimensional model is established to solve the winding losses and verify the accuracy of the two-dimensional loss solution results. The analysis results show that the leakage magnetic field distribution and winding loss of the transformer obtained by the three-dimensional numerical model method are similar to the calculation results of the two-dimensional numerical model, which further verifies the accuracy of the finite element numerical calculation method in the calculation of the electromagnetic characteristics of deep-sea transformers With usability. VL - 2 IS - 2 ER -