Innovative Transformer Life Assessment Considering Moisture and Oil Circulation
Zhengping Liang,
Yan Fang,
Hao Cheng,
Yongbin Sun,
Bo Li,
Kai Li,
Wenxuan Zhao,
Zhongxu Sun,
Yiyi Zhang
Affiliations
Zhengping Liang
North China Power Engineering Co., Ltd. of China Power Engineering Consulting Group, Beijing 100120, China
Yan Fang
North China Power Engineering Co., Ltd. of China Power Engineering Consulting Group, Beijing 100120, China
Hao Cheng
North China Power Engineering Co., Ltd. of China Power Engineering Consulting Group, Beijing 100120, China
Yongbin Sun
North China Power Engineering Co., Ltd. of China Power Engineering Consulting Group, Beijing 100120, China
Bo Li
Guangxi Power Transmission and Distribution Network Lightning Protection Engineering Technology Research Center, Guangxi University, Nanning 530004, China
Kai Li
North China Power Engineering Co., Ltd. of China Power Engineering Consulting Group, Beijing 100120, China
Wenxuan Zhao
North China Power Engineering Co., Ltd. of China Power Engineering Consulting Group, Beijing 100120, China
Zhongxu Sun
North China Power Engineering Co., Ltd. of China Power Engineering Consulting Group, Beijing 100120, China
Yiyi Zhang
Guangxi Power Transmission and Distribution Network Lightning Protection Engineering Technology Research Center, Guangxi University, Nanning 530004, China
Power transformers are one of the most expensive and important equipment in the power system. Significant differences exist in the insulation lifespan of transformers that have been in operation for more than 20 years, and using identical maintenance or scrapping methods may result in significant economic losses. However, most existing transformer life assessment methods only consider the impact of moisture content on the life decay rate without considering the impact of oil circulation cooling modes, which leads to some evaluation errors. In this study, we established a new transformer life assessment method that considers the influence of moisture content and oil circulation cooling modes, which is more accurate than most life assessment methods. Then, the proposed life evaluation method was validated on the on-site transformers, demonstrating its accuracy and effectiveness. The novelty of this study is that it establishes a new on-site transformer life assessment method that considers the comprehensive effect of moisture content and oil circulation cooling mode, which helps to evaluate the remaining lifespan of power transformers more accurately and thus extends the transformer lifespan systematically.
