The principle of creating a "smart" electricity meter in electric traction networks with stochastic electromagnetic processes

M. Kostin, T. Mishchenko, O. Hoholyuk
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Abstract

Voltage and current are sharply variable random (stochastic) processes in traction networks of DC electric transport systems. As a result, electronic and hybrid electricity meters used in electric systems measure electric power with a large relative error that significantly exceeds that of their accuracy class. In this paper the principle of developing smart meters for accounting the electricity transmitted from traction substations to electric rolling stock through a traction network is proposed. Proposed ideas are developed on the basis of the random processes correlation theory. The meter operates in real time and monitors not a set of realizations of random voltage and current processes, but their deterministic characteristics, that is, time functions of mathematical expectations and variances which make up the background of its operating principle. The experimental implementation of the proposed principle has been conducted in the feeder zone of an A-B section of the GisDnieper Railway of Ukraine, where registration and processing of realizations of stochastic voltage and current processes obtained in real operation mode has been done. The ratios obtained for active and reactive power can be applied not only for traction power grids, but also for electric networks of external power supply of DC electric traction systems as the basis for the “smart meter” design.
在具有随机电磁过程的电力牵引网络中创建“智能”电表的原理
在直流输电系统的牵引网络中,电压和电流是急剧变化的随机过程。因此,电力系统中使用的电子和混合电表测量电力的相对误差很大,明显超过其精度等级。本文提出了开发智能电表的原理,用于计算牵引变电所通过牵引网输送给电动机车车辆的电量。在随机过程相关理论的基础上,提出了相应的思想。电表是实时运行的,它监测的不是随机电压和电流过程的一组实现,而是它们的确定性特征,即数学期望和方差的时间函数,它们构成了其工作原理的背景。所提出的原理已在乌克兰吉德尼伯河铁路A-B段支线区进行了实验实施,并对实际运行模式下获得的随机电压和电流过程的实现进行了登记和处理。所得的有功与无功比值不仅可以应用于牵引电网,也可以应用于直流电力牵引系统的外供电电网,作为“智能电表”设计的依据。
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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