感应发电机无功功率的变流器补偿

J. Tępiński
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摘要

目的:本文的目的是介绍一种小型水电厂用感应发电机的无功补偿方法。讨论了传统的电容补偿方法,并对其进行了改进。代替电容器,与感应发电机并联的三电平电力电子变换器可以用来提供无功补偿。本文的目的是介绍一种主动补偿器的结构及其控制方法。在实验室台架上验证了所开发的控制方法。作为研究的一部分,我们将有源补偿器构建为具有中性点箝位的拓扑三电平电力电子变换器。在配备功率为7.5千瓦的感应发电机的台架上对变换器补偿器进行了实验室测试。使用功率分析仪和示波器进行了实验室系统测量。结果:提出并讨论了一种基于电压定向方法的有源补偿器控制结构。在装有7.5 kW感应发电机的实验台上,对变换器补偿器的运行进行了验证。补偿器电流将从电网中消耗的电流的无功(电感)分量降低到等于零的值。无功补偿器保证tgφ功率因数保持在设定值为零,对应于水电站感应发电机工作时所消耗的感应无功功率的总补偿。有源补偿器的运行没有引起电网消耗电流中谐波含量的显著增加。结论:提出了感应发电机水电厂无功补偿的若干问题。在讨论了常用电容补偿的基础上,提出用电力电子变流器补偿并联感应发电机的无功功率。有源补偿器对感应发电机消耗的全部无功功率进行补偿。无功变流器补偿器的使用,大大降低了水电站业主的无功成本。无功补偿器对整个电网的运行也有积极的影响,来自无功分量的功率损耗的电流对电网各分量阻抗的影响是有限的。关键词:可再生能源,无功功率,有源补偿器,感应发电机文章类型:原创科技文章
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Converter Compensation of Reactive Power Consumed by the Induction Generato
Purpose: The purpose of the article is to present a reactive power compensation for small hydropower plants with an induction generator. The classic compensation with capacitors is discussed and its improvement is proposed. Instead of capacitors, a three level power electronic converter connected in parallel to the induction generator can be used to provide reactive power compensation. The purpose of the paper is to present the developed structure of an active compensator and its control method. The developed control method was verified on a laboratory stand. The project and the methods: As part of research, an active compensator was built as a three-level power electronic converter in topology with Neutral Point Clamped. Laboratory tests of a converter compensator were carried out on a stand equipped with an induction generator with a power of 7.5 kW. Laboratory system measurements were made using a power analyzer and an oscilloscope. Results: A control structure of an active compensator based on a voltage-oriented method was presented and discussed. The operation of the con- verter compensator has been verified on a laboratory stand equipped with a 7.5 kW induction generator. The compensator current reduces the reactive (inductive) component of the current consumed from a power grid to a value equal to zero. The reactive power compensator ensures that the tgφ power factor is maintained at a set value of zero, which corresponds to the total compensation of inductive reactive power consumed by an induction generator working in a hydropower plant. Operation of the active compensator did not cause a significant increase in the harmonic content in the current consumed from the power grid. Conclusions: The paper presents the issues regarding reactive power compensation in hydropower plants with induction generators. Commonly used capacitor compensation has been covered and as a result, it is proposed to replace it with power electronics converter compensation of reactive power connected in parallel induction generators. Active compensator provides compensation for the entire reactive power consumed by the induction generator. The use of the converter compensator of reactive power significantly contributes to the reduction of costs for reactive power incurred by the owners of hydropower plants. The reactive power compensator also has a positive impact on the operation of the entire power grid, power losses from the reactive component of the current on the impedances of power grid components are limited. Keywords: renewable source of electricity, reactive power, active compensator, induction generator Type of article: original scientific article
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