Voltage Sag Ride-Through in a Joint Installation of a Hot Rolling Mill Plant and a Wind Farm

2022 IEEE Industry Applications Society Annual Meeting (IAS) Pub Date : 2022-10-09 DOI:10.1109/IAS54023.2022.9939726

G. A. Orcajo, Francisco Pedrayes G, J. Cano, J. G. Norniella, C. Rojas, J. Rodríguez D.

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引用次数: 2

Abstract

Present energy and environmental scenarios promote the incorporation of generation systems based on renewable sources into the distribution grids of electro-intensive industries, the benefits of which transcend the local generation of energy with minimal greenhouse gas emissions. In this regard, coordinated management of reactive power in a joint installation of a hot rolling mill plant and a wind farm can improve the immunity of both facilities against voltage sags. In this paper, the various factors influencing the response of the joint installation against voltage sags are analyzed. In this regard, special attention is paid to the wind farm location and, consequently, to the topology of the joint installation distribution network. The closer the wind farm and the rolling mill, the more relevant the shared impedances and the more significant the effect of the reactive power supplied by the wind farm. The main variables of interest are analyzed under actual rolling conditions both in normal operation and in the face of voltage sags to determine the most indicated distribution network topology.

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热轧厂与风电场联合装置的电压骤降穿越

目前的能源和环境情况促使以可再生能源为基础的发电系统并入电力密集型工业的配电网，其好处超越了以最少温室气体排放的当地能源生产。在这方面，在热轧厂和风电场的联合安装中协调管理无功功率可以提高两个设施对电压跌落的抗扰性。本文分析了影响接头装置对电压跌落响应的各种因素。在这方面，特别要注意风电场的位置，因此也要注意联合安装配电网络的拓扑结构。风电场与轧机的距离越近，共享阻抗的相关性越强，风电场提供的无功功率的影响越显著。分析了配电网正常运行和电压跌落情况下实际轧制工况下的主要变量，确定了最能说明问题的配电网拓扑结构。

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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2022 IEEE Industry Applications Society Annual Meeting (IAS)

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