山區(qū)風電場風機接地設計探討
張彥昌,吳之奎��,柳羽森���,郭群龍��,石巍���,袁晨
(中南電力設計院,湖北 武漢 430071)
摘 要:風機接地裝置作為雷電流泄放主要通道���,同時兼工作接地��、保護接地���,其設計非常重要。但由于山區(qū)風電場高土壤電阻率���、風機吊裝平臺面積有限���、國內外標準差異等特殊條件,使得山區(qū)風電場接地設計較為困難,風機接地網(wǎng)的造價也較高��?�;陲L機接地網(wǎng)的功能���,結合現(xiàn)有國內外規(guī)范���,給出了山區(qū)風電場設計的主要原則及思路��,供相關人員參考��。
關鍵詞:山區(qū)風電場��;高土壤電阻率��;風機接地網(wǎng)
中圖分類號:TM614 文獻標識碼:A 文章編號:1007-3175(2018)05-0067-06
Discussion on Grounding System Design of Mountain Wind Farm
ZHANG Yan-chang, WU Zhi-kui, LIU Yu-sen, GUO Qun-long, SHI Wei, YUAN Chen
(Central Southern Electric Power Design Institute of China, Wuhan 430071, China)
Abstract: As the main channel of lightning flow, the wind turbine grounding device also has the functions of working grounding and safety grounding, so its design is very important. However, due to the special conditions such as high soil resistivity, limited area of wind turbine hoisting platform and the design standard difference at home and abroad, the design of wind farm grounding device in mountainous area was more difficult, and the cost of it was also higher. Based on the function of the wind turbine grounding device and combining with the existing domestic and foreign norms, this paper gave the main principles and ideas of wind turbine grounding device design in mountain areas to provide the references for the related personnel.
Key words: mountain wind farm; high soil resistivity; wind turbine grounding grid
參考文獻
[1] GB 51096—2015 風力發(fā)電場設計規(guī)范[S].
[2] 中國船級社. 風力發(fā)電機組規(guī)范[S].
[3] IEC 61400-24:2010 Wind turbines-Part24: Lightning protection[S].
[4] IEC 62305:2010 Protection against lightning part1 ~ 4[S].
[5] GB/T 21714—2015 雷電防護[S].
[6] GB/Z 25427—2010 風力發(fā)電機組 雷電防護[S].
[7] GB 50169—2016 電氣裝置安裝工程接地裝置施工及驗收規(guī)范[S].
[8] GB/T 50065—2011 交流電氣裝置的接地設計規(guī)范[S].
[9] GB/T 50064—2014 交流電氣裝置的過電壓保護和絕緣配合設計規(guī)范[S].
[10] 張彥昌���,夏曉東��,周才洋��,等. 風機與箱變間等電位電纜研究[C]// 中國電力規(guī)劃設計協(xié)會送變電專委會年會論文集���,2017.
[11] DL/T 475—2017 接地裝置特性參數(shù)測量[S].
