Suzhou Electric Appliance Research Institute
期刊號: CN32-1800/TM| ISSN1007-3175

Article retrieval

文章檢索

首頁 >> 文章檢索 >> 往年索引

電氣設備抗震設防水準研究

來源:電工電氣發(fā)布時間:2016-04-05 16:05 瀏覽次數(shù):808

電氣設備抗震設防水準研究 

鐘珉,房正剛 
中國電力科學研究院,北京 100055 
 

摘 要:考慮到電氣設備在電網(wǎng)系統(tǒng)中的重要作用,現(xiàn)行的抗震設防水準已不足以保證其安全性,電氣設備的抗震設防水準有待進一步提高。通過對比國內(nèi)不同工程抗震規(guī)范和國內(nèi)外電氣設備抗震規(guī)范的規(guī)定,明確目前電氣設備抗震設防的不足,建議電氣設備的抗震設防水準取為50 年超越概率2%。結合不同設防烈度區(qū)數(shù)十個典型地區(qū)地震危險性分析,提出了建議的抗震設防水準對應的峰值加速度取值,并通過對比不同電氣設備抗震規(guī)范中加速度取值對應的超越概率水平,驗證了該取值的合理性。
關鍵詞:電氣設備;抗震設防;抗震規(guī)范;地震危險性分析
中圖分類號:TM08;TM63 文獻標識碼:A 文章編號:1007-3175(2013)10-0054-05


Study on Seismic Fortification Level of Electrical Equipment 

ZHONG Min, FANG Zheng-gang 
China Electric Power Research Institute, Beijing 100055, China 
 

Abstract: Considering that electrical equipment plays an important role in power distribution system, and that the current seismic fortificationlevel is not enough to guarantee their safety, this paper raised to further improve the seismic fortification level of electrical equipment. The comparison of different engineering seismic codes and electrical equipment seismic codes at home and abroad showed the lack of seismic fortificationof current electrical equipment. It is recommended that the seismic fortification level of electrical equipment is taken as exceeding probability of 2% in 50 years. Combined with seismic risk analysis of ten typical regions in different fortification intensity Districts, this paper proposed the peak acceleration values corresponding to suggestive seismic fortification level. The values are verified to be reasonable by contrasting the exceeding probability level corresponding to the peak acceleration values in different electrical equipment seismic codes.
         Key words: electrical equipment; seismic fortification; seismic codes; seismic risk analysis


參考文獻
[1] 胡聿賢.G B 18306—2001《中國地震動參數(shù)區(qū)劃圖》宣貫教材[M].北京:中國標準出版社,2001.
[2] GB 50223—2008 建筑工程抗震設防分類標準[S].
[3] GB 50260—96 電氣設備抗震設計規(guī)范[S].
[4] GB 50011—2010 建筑抗震設計規(guī)范[S].
[5] GB 50267—97 核電廠抗震設計規(guī)范[S].
[6] SL 203—97 水工建筑物抗震設計規(guī)范[S].
[7] GB 50111—2006 鐵路工程抗震設計規(guī)范[S].
[8] DG/TJ 08—2064—2009 地下鐵道建筑結構抗震設計規(guī)范[S].
[9] JTS 146—2012 水運工程抗震設計規(guī)范[S].
[10] GB 50470—2008 油氣輸送管道線路工程抗震技術規(guī)范[S].
[11] GB 50556—2010 工業(yè)企業(yè)電氣設備抗震設計規(guī)范[S].
[12] GB/T 13540—2009 高壓開關設備和控制設備的抗震要求[S].
[13] IEEE Std 693—2005 IEEE Recommended Practice for Seismic Design of Substations[S].
[14] GB 17741—2005 工程場地地震安全性評價[S].
[15] GB 18306—2001 中國地震動參數(shù)區(qū)劃圖[S].