Surge Arrester Placement in Wind Turbine System by Evaluation Overvoltages of Direct Lightning Strike to the Wind Turbine Blades and Overhead Distribution Lines

2021 25th Electrical Power Distribution Conference (EPDC) Pub Date : 2021-08-18 DOI:10.1109/EPDC53015.2021.9610790

Mahmoud Eshaghahmadi, M. Hoorzad

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引用次数: 2

Abstract

With the increasing use of renewable energy, the design of lightning protection system in generating electricity from wind energy is an important issue. Most wind turbines are installed in areas with high lightning density, high altitudes and rocky areas. Therefore, wind turbines are strongly affected by the direct impact of lightning on the wind turbine blades and even on the adjacent ground. On the other hand, the ground system is one of the most important components required in a lightning protection system suitable for wind turbines that proper design with an effective surge arrester is essential for the safety of people and equipment and the reduction of transient overvoltages on wind turbine electronic equipment. In this paper, using the real parameters of a 100 kW wind turbine, transient overvoltages against direct lightning strike to WT blades and overhead distribution line simulated. wind turbine equipment, grounding system, and a selected arrester are modelled in EMTP-RV environment for analyzing overvoltages in differenct scenarios.

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通过评估风力发电机叶片和架空配电线路的直接雷击过电压，在风力发电机系统中放置避雷器

随着可再生能源的日益普及，风电防雷系统的设计是一个重要的问题。大多数风力涡轮机都安装在闪电密度高、海拔高和多岩石的地区。因此，雷电对风力涡轮机叶片甚至相邻地面的直接冲击对风力涡轮机的影响很大。另一方面，接地系统是风力发电机组防雷系统中最重要的组成部分之一，合理设计有效的避雷器对人员和设备的安全以及减少风力发电机组电子设备的瞬态过电压至关重要。本文利用100kw风力机的实际参数，模拟了WT叶片和架空配电线路受直击时的瞬态过电压。在EMTP-RV环境中对风力发电机设备、接地系统和选定的避雷器进行了建模，以分析不同场景下的过电压。

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

2021 25th Electrical Power Distribution Conference (EPDC)

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