Ice-Covered Environmental Adaptability Assessment for Overhead Contact System in High-Speed Railways

Q1 Engineering
Huan Zhang;Wenfu Wei;Like Pan;Zefeng Yang;Guizao Huang;Yuxin Liu;Xing Chen;Ziqian Yang;Guangning Wu
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引用次数: 0

Abstract

High-speed trains rely on pantograph-catenary systems (PCSs) to collect electrical energy from power systems. However, the dynamic interaction between the pantograph and the catenary system may become mismatched once ice accumulates on the overhead conductors. More frequent arcing may occur within the PCS during train operation, posing an unpredictable threat to operational safety. Therefore, it is crucial to evaluate the ability of overhead contact system (OCS) to withstand ice-covered variability during line desgin. A new strategy is proposed to evaluate the adaptive performance of an OCS under various icing conditions. First, a dynamic model considering icing conditions is constructed to simulate the interaction within the PCS. Five different OCS structures with various icing thicknesses are studied. The parameters of the contact force within the PCS and proportion of high-possibility arcing moments are obtained. The dependence of the contact force on the icing thickness and pantograph displacement has been illustrated in the form of cloud maps. Finally, the OCS sensitivity coefficient is calculated, and ice-covered environmental adaptability assessments for the five different OCS oes structures are compared.
高速铁路架空接触网系统的覆冰环境适应性评估
高速列车依靠受电弓-悬挂系统(PCS)从电力系统收集电能。然而,一旦架空导线上结冰,受电弓和导线架系统之间的动态互动可能会变得不匹配。在列车运行期间,PCS 内部可能会出现更频繁的电弧,对运行安全造成不可预测的威胁。因此,评估架空接触网系统(OCS)在线路设计期间承受覆冰变化的能力至关重要。本文提出了一种新策略来评估架空接触网在各种结冰条件下的适应性能。首先,构建了一个考虑结冰条件的动态模型,以模拟 PCS 内部的相互作用。研究了五种不同结冰厚度的 OCS 结构。得出了 PCS 内部接触力的参数和高可能性电弧力矩的比例。接触力与结冰厚度和受电弓位移的关系以云图的形式进行了说明。最后,计算了 OCS 敏感系数,并比较了五种不同 OCS oes 结构的冰覆盖环境适应性评估。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Chinese Journal of Electrical Engineering
Chinese Journal of Electrical Engineering Energy-Energy Engineering and Power Technology
CiteScore
7.80
自引率
0.00%
发文量
621
审稿时长
12 weeks
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