摘要
多绕组干式整流变压器作为托卡马克装置加热系统中高压电源的一个重要设备,其性能优良与否直接关系到高压电源的输出品质。开展变压器的功率损耗与散热分析研究,减少变压器因温度上升造成的性能影响,对保证变压器的良好工作状态是十分重要的。通过MATLAB对干空气下的比热容、传热系数等热物理性质与温度的关系进行拟合分析,得到相关的关系方程,对变压器的对流传热与热辐射进行分析计算,得到仅在空气自然对流和热辐射的情况下,不能使变压器的温度控制在满足性能的温度范围之内。在强迫空气对流的情况下,实现了变压器良好的散热。进一步利用ANSYS对变压器的温度场分布进行分析,利用温度场的分布趋势图观察强迫风冷相对于自然冷却的优点,强迫风冷降低了整体的温度,使热量更快地散发到周围大气中,减少了变压器受高温的危害。
Multi-winding dry rectifier transformer is an important equipment for high voltage power supply in Tokamak heating system.Its excellent performance is directly related to the output quality of high voltage power supply.Carrying out research on power loss and heat dissipation of transformers,reducing the performance impact of transformers due to temperature rise,is very important to ensure the good working condition of the transformer.In this paper,the relationship between thermophysical properties and temperature is fitted by MATLAB.The convective heat transfer and thermal radiation of the transformer are analyzed and calculated by the equations.In the case of natural convection and heat radiation of the air,the temperature of the transformer cannot be controlled within a temperature range that satisfies the performance,and the temperature rise is about 200℃.In the case of forced air convection,the good heat dissipation of the transformer is realized,and finally the forced air cooling at a wind speed of 2 m/s is achieved,and the temperature rise of the transformer is less than 75℃,ensuring the good working condition of the transformer.The article further uses ANSYS to analyze the temperature field distribution of the transformer.Forced air cooling reduces the overall temperature and allows heat to be released to the surrounding atmosphere more quickly,reducing the damage of the transformer under high temperature.
作者
夏于洋
李青
毛晓惠
Xia Yuyang;Li Qing;Mao Xiaohui(Southwest Institute of Physics,Chengdu 610225,China)
出处
《强激光与粒子束》
EI
CAS
CSCD
北大核心
2020年第2期40-45,共6页
High Power Laser and Particle Beams
基金
国家重点研发计划项目(2017YFE0300504)
关键词
干式变压器
拟合分析
强迫对流
ANSYS
温度场
dry-type transformer
fitting analysis
forced convection
ANSYS
temperature field
