摘要
为深入研究电力外绝缘积污规律,分析了大气污秽颗粒在绝缘表面的沉降过程,建立了污秽颗粒、空气流场简化模型;使用流体力学分析方法,分析了污秽颗粒在空气中和边界层的受力和运动过程,建立了污秽颗粒在绝缘表面吸附前的运动分析模型,并对该模型的计算结果进行了探讨.研究表明:在大气污秽颗粒较大的地区,绝缘子上表面积污速率明显偏大;而在大气污秽颗粒较小的地区以及风力较大的地区,绝缘子下表面积污速率明显偏大;控制粒径在20μm以下的大气污染颗粒的浓度,可以有效降低绝缘子的表面污秽度.
In order to further investigate the principle of contamination deposition on electrical insulator surface, the settlement process of polluted particles on the electric insulator surface is analyzed, and a simplified model to describe the polluted particles and the air flow field is established. Then, by adopting the hydromechanical method, the force and the motion processes of polluted particles in the air and the boundary layer are analyzed, and a motion model of polluted particles before their adsorption on the insulator surface is established, with the corresponding calculation results being also discussed. It is demonstrated that the contamination deposition rate on the upper surface of electric insulator is greatly higher in the area with larger polluted particles, while in the area with smaller polluted particles and stronger wind, the rate on the lower surface is greatly higher. Moreover, it is found that the pollution level of electrical insulator surface can be reduced by controlling the consistency of polluted particles with a diameter of less than 20 μm.
出处
《华南理工大学学报(自然科学版)》
EI
CAS
CSCD
北大核心
2013年第4期21-26,共6页
Journal of South China University of Technology(Natural Science Edition)
基金
国家"973"计划项目(2009CB724507)
关键词
污秽颗粒
沉降
吸附
空气流场
边界层
受力分析
运动分析
polluted particle
settlement
adsorption
air flow field
boundary layer
force analysis
kinematic analysis