A Proposed Method for Calculating Earth Electrode Length for a Wind Turbine Generator Grounding System

2018 International Conference and Utility Exhibition on Green Energy for Sustainable Development (ICUE) Pub Date : 2018-10-01 DOI:10.23919/ICUE-GESD.2018.8635668

Raghavender D. Goud, Tony Auditore, R. Rayudu, C. Moore

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引用次数: 1

Abstract

A safe and reliable grounding system plays a critical role in the design of an effective lightning protection system of a wind turbine generator. An accurate design of grounding electrodes is required to achieve the necessary low impedance of a wind turbine generator earthing system. IEC 61400-24 provides guidelines for selecting the minimum length of an earth electrode, however, this standard cannot be utilized for all types of electrode shapes and buried depths. Moreover, it is important to address the frequency dependency of soil resistivity for the selection of electrode length. This paper proposes a novel method enhancing the IEC 61400-24 standard method. Also, a thorough analysis of existing method with suitable recommendations for the selection of electrode length for various dimension and buried depth to address the frequency dependency issue has been provided. Finally, guidelines for the selection of electrode length for the wind turbine grounding design from the lightning protection view point are proposed.

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一种风力发电机接地系统接地电极长度的计算方法

安全可靠的接地系统是设计有效的风力发电机组防雷系统的关键。为了实现风力发电机组接地系统所需的低阻抗，需要精确地设计接地电极。IEC 61400-24提供了选择接地电极最小长度的指南，然而，该标准不能用于所有类型的电极形状和埋深。此外，重要的是要解决土壤电阻率的频率依赖于电极长度的选择。本文提出了一种改进iec61400 -24标准方法的新方法。此外，对现有方法进行了彻底的分析，并对不同尺寸和埋深的电极长度选择提出了适当的建议，以解决频率依赖问题。最后，从防雷的角度提出了风电机组接地设计中电极长度选择的指导原则。

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2018 International Conference and Utility Exhibition on Green Energy for Sustainable Development (ICUE)

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