Balancing Properties of the Booster Transformer with the Longitudinal-Transverse Regulation

IF 0.3 Q4 ENERGY & FUELS
Dumitru Zaitsev, I. Golub, M. Tirsu, Danila Caloshin
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引用次数: 0

Abstract

The current development of the power industry involves various kinds of FACTS, being element of the Smart Grid and controlled by power electronics used for increasing the flexibility of electrical networks. Thus, the development and research of such devices are relevant. The study object is a controller belonging to the "Sen" family of transformers, which provides regulation of voltage and power flows in networks. The aim of the work is to study the balancing properties of booster transformer, which has an extended range and higher control accuracy in various modes. The goal was achieved during research carried out on the basis of structural simulation models. The most significant result was statement that the device under study has a pronounced per-phase balancing effect, which is preserved in various modes, including reverse ones. The main result can be consider that the proposed device, in comparison with the currently existing transformers of the "Sen" family, due to the extended range and accuracy of voltage regulation, allows using it when working, both for symmetrical and asymmetric loads. It is shown that the proposed technical solution provides ample opportunities for longitudinal-transverse phase-by-phase voltage regulation. Moreover, the deviations of parameters characterizing the quality of electricity, such as modules and voltage angles, do not go beyond the limits regulated by the requirements of the standard. The results obtained allowed us to conclude that this device can be used to solve the problem of coordinating the operation of two asymmetric systems in different operating modes.
纵向-横向调节升压变压器的平衡特性
目前电力工业的发展涉及到各种各样的FACTS,它们是智能电网的组成部分,并由电力电子设备控制,用于增加电网的灵活性。因此,开发和研究这种装置是有意义的。研究对象为变压器“森”族控制器,对电网电压和潮流进行调节。研究升压变压器的平衡特性,使升压变压器在多种模式下具有更大的控制范围和更高的控制精度。在结构仿真模型的基础上进行研究,实现了这一目标。最重要的结果是,所研究的装置具有明显的每相平衡效应,这种效应在各种模式下都保持不变,包括反向模式。主要结果可以认为,与目前现有的“Sen”系列变压器相比,由于扩展的电压调节范围和精度,允许在工作时使用它,无论是对称负载还是非对称负载。结果表明,所提出的技术方案为纵向-横向逐相电压调节提供了充分的机会。此外,表征电能质量的参数的偏差,如模块和电压角,不超过标准要求规定的范围。得到的结果使我们得出结论,该装置可用于解决两个不对称系统在不同工作模式下的协调工作问题。
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
CiteScore
0.70
自引率
33.30%
发文量
38
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