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DOI:10.3969/j.issn.1006-4729.2015.06.011
Journal of ShangHai University of Electric Power :2015,31(6):551-555
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油浸式变压器绕组温度场的数值计算与分析
周建聪1, 龙辉1, 胡桃涛1, 李忠1, 张晓群1, 陈炯2, 薛飞2
(1.国网四川省电力公司资阳供电公司;2.上海电力学院电气工程学院)
Numerical Calculation and Analysis of Oil-immersed Transformer Winding Temperature Field
ZHOU Jianchong1, LONG Hui1, HU Taotao1, LI Zhong1, ZHANG Xiaoqun1, CHEN Jiong2, XUE Fei2
(1.Ziyang Power Supply Company, Sichuan Electric Power Company, State Grid, Ziyang 641300, China;2.School of Electrical Engineering, Shanghai University of Electric Power, Shanghai 200090, China)
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Received:May 19, 2015    
中文摘要: 综合考虑了变压器油物性参数随温度的变化和变压器辐射散热的边界条件,采用ANSYS软件对一台630 kW/10 kV自然油循环油浸式变压器的温度场进行了仿真分析.仿真结果表明:随着负载的增加,绕组温度急剧上升,且热点位置基本处于绕组相对垂直高度的85%左右.
中文关键词: 油浸式变压器  热点温度  数值计算
Abstract:Based on the boundary condition of transformer's oil parameter and transformer radiation heat loss, ANSYS is used to conduct simulation analysis of a 630 kW/10 kV transformer with nature cycle-oil cooling method. A conclusion can be made from simulation result that with the increase of load, the winding temperature increases sharpest, and hot spot is located at the 85% vertical height.
keywords: oil-immersed transformer  hot spot temperature  numerical calculation
文章编号:20150611     中图分类号:    文献标志码:
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Author NameAffiliationE-mail
ZHOU Jianchong Ziyang Power Supply Company, Sichuan Electric Power Company, State Grid, Ziyang 641300, China 184061072@qq.com 
LONG Hui Ziyang Power Supply Company, Sichuan Electric Power Company, State Grid, Ziyang 641300, China  
HU Taotao Ziyang Power Supply Company, Sichuan Electric Power Company, State Grid, Ziyang 641300, China  
LI Zhong Ziyang Power Supply Company, Sichuan Electric Power Company, State Grid, Ziyang 641300, China  
ZHANG Xiaoqun Ziyang Power Supply Company, Sichuan Electric Power Company, State Grid, Ziyang 641300, China  
CHEN Jiong School of Electrical Engineering, Shanghai University of Electric Power, Shanghai 200090, China  
XUE Fei School of Electrical Engineering, Shanghai University of Electric Power, Shanghai 200090, China  
Author NameAffiliationE-mail
ZHOU Jianchong Ziyang Power Supply Company, Sichuan Electric Power Company, State Grid, Ziyang 641300, China 184061072@qq.com 
LONG Hui Ziyang Power Supply Company, Sichuan Electric Power Company, State Grid, Ziyang 641300, China  
HU Taotao Ziyang Power Supply Company, Sichuan Electric Power Company, State Grid, Ziyang 641300, China  
LI Zhong Ziyang Power Supply Company, Sichuan Electric Power Company, State Grid, Ziyang 641300, China  
ZHANG Xiaoqun Ziyang Power Supply Company, Sichuan Electric Power Company, State Grid, Ziyang 641300, China  
CHEN Jiong School of Electrical Engineering, Shanghai University of Electric Power, Shanghai 200090, China  
XUE Fei School of Electrical Engineering, Shanghai University of Electric Power, Shanghai 200090, China  
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