交流电力机车牵引电流频谱分析方法

IF 1.3 4区 工程技术 Q3 TRANSPORTATION SCIENCE & TECHNOLOGY
S. Goolak, V. Tkachenko, G. Bureika, G. Vaičiūnas
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引用次数: 10

摘要

本文提出了一种改进的交流电力机车牵引电流谱分析方法。一种新的频谱分析方法将接触网系统中的电压变化视为一个非确定性、非遍历和非高斯过程。研究表明,接触网系统中的高电压谐波对非牵引铁路用电用户的运行有显著的负面影响。此外,在同一馈线区内运行的电力机车之间存在相互影响。电气化铁路运输是高电压谐波的来源,并强烈地扭曲了接触网系统的正弦电压形状,这是由电力机车牵引驱动电路中电流的高频谱成分引起的。由于电力机车的电子设备(如接触整流器、牵引电动机的电容电路)的电流-电压特性的非线性,在牵引驱动电路中产生了牵引电流的这些频谱分量。无功补偿器用于电力机车接触网系统中消除高次谐波牵引电流的成分。传统上,这种系统的光谱分析是使用傅里叶方法进行的。然而,只有当电压变化过程是确定性的或遍历的高斯过程时,用傅立叶方法确定牵引电流的频谱成分才能用于构建无功补偿器的控制系统。否则,应用傅里叶变换方法将是不正确的。对影响接触网系统电压变化的因素进行了分析,表明该过程与遍历高斯过程有显著不同。这些因素包括:电力机车的运行方式;一馈线区内电力机车数量及总容量;通过支线的电力机车;收集电流不稳定。因此,在考虑的情况下,应用傅立叶方法来分析牵引电流的频谱成分是不正确的。这影响了牵引电流高次谐波分量的补偿质量,在某些情况下,还会导致无功补偿器有功部分控制系统的不稳定运行。提出的科学方法是基于Levinson-Durbin线性预测算法。一方面,这使得补偿器的控制系统能够适应接触网系统的电压参数。另一方面,这允许考虑无功补偿的电动轨道车辆的运行模式。采用Levinson-Durbin算法构建补偿器控制系统,大大简化了交流电力机车牵引电传动补偿器与电源电路的同步方案。将基于快速傅里叶变换(FFT)的传统频谱分析方法与基于Levinson-Durbin算法的方法进行了比较,结果表明后者具有较高的效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
METHOD OF SPECTRAL ANALYSIS OF TRACTION CURRENT OF AC ELECTRIC LOCOMOTIVES
An improved method for spectral analysis of traction current of an Alternating Current (AC) electric locomotive is considered in the article. A new method of spectral analysis considers the change in voltage in the catenary system as a non-deterministic, non-ergodic and non-Gaussian process. It has been established that higher voltage harmonics in the catenary system have a significant negative effect on the operation of non-traction railway consumers of electricity. In addition, electric locomotives operating in the same feeder zone have a mutual influence on each other. Electric railway transport is a source of higher voltage harmonics and strongly distorts the shape of the sinusoidal voltage of the catenary system, which are caused by the higher spectral components of the current in the electric locomotive traction drive circuit. These spectral components of the traction current arise in the traction drive circuit due to the nonlinearity of the current-voltage characteristics of the electronic devices of an electric locomotive, for example, a contact rectifier, a capacitor circuit of traction motors. Reactive power compensators are used in electric locomotives to eliminate components of higher harmonic traction current in the catenary system. Traditionally, spectral analysis in such systems is performed using Fourier methods. However, the determination of the spectral components of the traction current by the Fourier method for constructing a control system for a reactive power compensator is possible only if the process of voltage variation is a deterministic or ergodic Gaussian process. Otherwise, the application of Fourier transform methods will be incorrect. An analysis of the factors that affect voltage changes in the catenary system showed that this process is significantly different from the ergodic Gaussian process. Such factors include the following: the operating mode of the electric locomotives; number and total capacity of electric locomotives in one feeder zone; electric locomotives passing through feeder zones; instability of collection current. Thus, in the case under consideration, the application of the Fourier methods is incorrect for the analysis of the spectral components of the traction current. This affects the quality of compensation of the higher harmonic components of the traction current, and in some cases, the unstable operation of the control system of the active part of the reactive power compensator. Proposed scientific approach is based on the Levinson–Durbin linear prediction algorithm. On the one hand, this allows adapting the control system of the compensator to the voltage parameters of the catenary system. On the other hand, this allows taking into account the operating modes of electric rail vehicle with reactive power compensation. The construction of a compensator control system using the Levinson–Durbin algorithm significantly simplifies thensynchronization scheme of the compensator and power circuits of the traction electric drive of AC electric locomotive. A comparison of the traditional method of spectral analysis, based on the Fast Fourier Transform (FFT), and the method, based on the Levinson–Durbin algorithm, proposed by the authors, showed the high efficiency of the latter.
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来源期刊
Transport
Transport Engineering-Mechanical Engineering
CiteScore
3.40
自引率
5.90%
发文量
19
审稿时长
4 months
期刊介绍: At present, transport is one of the key branches playing a crucial role in the development of economy. Reliable and properly organized transport services are required for a professional performance of industry, construction and agriculture. The public mood and efficiency of work also largely depend on the valuable functions of a carefully chosen transport system. A steady increase in transportation is accompanied by growing demands for a higher quality of transport services and optimum efficiency of transport performance. Currently, joint efforts taken by the transport experts and governing institutions of the country are required to develop and enhance the performance of the national transport system conducting theoretical and empirical research. TRANSPORT is an international peer-reviewed journal covering main aspects of transport and providing a source of information for the engineer and the applied scientist. The journal TRANSPORT publishes articles in the fields of: transport policy; fundamentals of the transport system; technology for carrying passengers and freight using road, railway, inland waterways, sea and air transport; technology for multimodal transportation and logistics; loading technology; roads, railways; airports, ports, transport terminals; traffic safety and environment protection; design, manufacture and exploitation of motor vehicles; pipeline transport; transport energetics; fuels, lubricants and maintenance materials; teamwork of customs and transport; transport information technologies; transport economics and management; transport standards; transport educology and history, etc.
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