Control Systems for High Voltage Thyristor Arms of Ice Melting Plants on Overhead Transmission Lines

2020 International Ural Conference on Electrical Power Engineering (UralCon) Pub Date : 2020-09-01 DOI:10.1109/UralCon49858.2020.9216270

S. Shovkoplyas, L. A. Zhlobitsky, I. S. Bakaev

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引用次数: 2

Abstract

The article provides general information on ice melting plants (IMPs) on overhead transmission lines (OHL) 110, 220, 330, 500 kV and the field of their application. The relevance of the multipurpose ice melting plants (MIMPs) for OHLs 110, 220 kV and low-voltage device for melting ice (LIMD) on the wires of OHLs of small length is noted. The main elements of the IMPs, such as a thyristor controlled rectifier bridge (CRB) and an ice melting switch (IMS), are highlighted. The results of computer and physical modeling of operation of a CRB with three types of pulse-phase control systems (CPPS) are described. The shortcomings of these three CPPSs are noted, while the most effective CPPS No. 3 is highlighted. The possibility of the presence of the distortion of significant value of power during deep regulation of the rectified current from a CRB is also emphasized. An innovative system of discrete (relay) control (SCD) by the thyristor arms of a CRB and an IMS is considered, while the operability of the SCD on computer and physical models is shown.

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架空输电线路融冰装置高压晶闸管臂控制系统

本文介绍了110、220、330、500千伏架空输电线路上的融冰装置及其应用领域。指出了110、220千伏高压电缆多用途融冰装置(mimp)和小长度高压电缆低压融冰装置(LIMD)的相关性。imp的主要元件，如晶闸管控制整流桥(CRB)和融冰开关(IMS)，被强调。本文介绍了三种脉冲相位控制系统(CPPS)下CRB运行的计算机和物理建模结果。指出了这三种CPPS的缺点，并重点介绍了最有效的CPPS 3。文中还强调了在对CRB的整流电流进行深度调节时，功率显著值存在畸变的可能性。提出了一种由CRB和IMS的晶闸管臂组成的新颖的离散(继电器)控制系统，并展示了该系统在计算机和物理模型上的可操作性。

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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2020 International Ural Conference on Electrical Power Engineering (UralCon)

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