ANALYSIS OF WIND TURBINE GROUNDING SYSTEMS IN TERMS OF TOUCH AND STEP VOLTAGES

被引:0
作者
Koksal, Cagri [1 ]
Gul, Omer [1 ]
机构
[1] Istanbul Tech Univ, Elect Elect Fac, TR-34469 Maslak, Turkey
来源
ISTANBUL UNIVERSITY-JOURNAL OF ELECTRICAL AND ELECTRONICS ENGINEERING | 2015年 / 15卷 / 01期
关键词
Touch voltage; step voltage; wind turbine; grounding;
D O I
暂无
中图分类号
P75 [海洋工程];
学科分类号
0814 ; 081505 ; 0824 ; 082401 ;
摘要
Power generation from renewable resources is increasingly growing. The numbers of wind turbines and wind farms are increasing as well. Wind turbines and wind farms require grounding systems in order to protect the living creatures and turbine components from fault current and lightning current. This study uses grounding systems consisting of conductors and electrodes with different and asymmetric depths of embedment as well as a non-homogenous two-layer soil model. By employing this model, it examines the effect of the reinforcement of the grounding system of a wind turbine on the step and touch voltages. Then, it examines the grounding system of a wind farm consisting of several wind turbines.
引用
收藏
页码:1867 / 1872
页数:6
相关论文
共 50 条
[41]   The analysis of complex grounding systems by FEM [J].
Trlep, M ;
Hamler, A ;
Hribernik, B .
IEEE TRANSACTIONS ON MAGNETICS, 1998, 34 (05) :2521-2524
[42]   Analysis of grounding systems for electric traction [J].
Natarajan, R ;
Imece, AF ;
Popoff, J ;
Agarwal, K ;
Meliopoulos, PS .
IEEE TRANSACTIONS ON POWER DELIVERY, 2001, 16 (03) :389-393
[43]   Robust fault detection for wind turbine systems [J].
Liu, Yusheng ;
Yu, Ding-Li .
PROCEEDINGS OF THE 2014 20TH INTERNATIONAL CONFERENCE ON AUTOMATION AND COMPUTING (ICAC'14), 2014, :38-42
[44]   Lightning risk on wind turbine generator systems [J].
Shindo, Takatoshi ;
Suda, Tomotaka .
IEEJ Transactions on Power and Energy, 2009, 129 (10) :1219-1224
[45]   Material wear and fatigue in wind turbine Systems [J].
Greco, A. ;
Sheng, S. ;
Keller, J. ;
Erdemir, A. .
WEAR, 2013, 302 (1-2) :1583-1591
[46]   Wind turbine nacelle cooling systems: A review [J].
Fuskele, Veeresh ;
Baredar, Prashant ;
Sarviya, Rishindra Mohan ;
Lal, Shiv ;
Awasthi, Shubham .
WILEY INTERDISCIPLINARY REVIEWS-ENERGY AND ENVIRONMENT, 2022, 11 (06)
[47]   An overview of control techniques for wind turbine systems [J].
Apata, O. ;
Oyedokun, D. T. O. .
SCIENTIFIC AFRICAN, 2020, 10
[48]   Genetic Algorithm Systems for Wind Turbine Management [J].
Odofin, Sarah ;
Sowale, Ayodeji .
LEADERSHIP, INNOVATION AND ENTREPRENEURSHIP AS DRIVING FORCES OF THE GLOBAL ECONOMY, 2017, :141-147
[49]   FAULT RIDE-THROUGH CAPABILITY OF WIND TURBINE CONNECTED TO THE GRID IN THE CASE OF UNBALANCED VOLTAGES [J].
Ivanovic, Zoran R. ;
Vekic, Marko S. ;
Grabic, Stevan U. ;
Todorovic, Ivan M. .
THERMAL SCIENCE, 2016, 20 :S495-S512
[50]   A NEURAL ADAPTATIVE STEP SIZE METHOD FOR MAXIMUM POWER POINT TRACKING IN LOW POWER WIND TURBINE SYSTEMS [J].
Wattes, Jorge L. ;
Praca, Paulo P. ;
Braga, Arthur P. S. ;
Dias, Antonio J. S., Jr. ;
Barbosa, Allan U. .
2015 IEEE 13TH BRAZILIAN POWER ELECTRONICS CONFERENCE AND 1ST SOUTHERN POWER ELECTRONICS CONFERENCE (COBEP/SPEC), 2015,
12345