停送交直流電源對(duì)繼電保護(hù)設(shè)備設(shè)計(jì)的影響分析
楊奇
(京能集團(tuán)山西漳山發(fā)電有限責(zé)任公司,山西 長(zhǎng)治 046021)
摘 要:基于斷開直流分屏電源導(dǎo)致開關(guān)誤分合及電壓互感器二次空開送電導(dǎo)致低電壓保護(hù)誤動(dòng)的兩起事故案例,分析了含有電容、電感等儲(chǔ)能元器件回路的電壓變化過程。提出了電源監(jiān)視繼電器、中間繼電器、分合閘線圈設(shè)計(jì)選型,并給出了保護(hù)動(dòng)作邏輯判據(jù)在電壓變化過程中的注意事項(xiàng),為避免類似事故的發(fā)生提供了參考。
關(guān)鍵詞:誤分閘;直流電源;零輸入響應(yīng);電壓變化
中圖分類號(hào):TM77 文獻(xiàn)標(biāo)識(shí)碼:A 文章編號(hào):1007-3175(2018)04-0028-04
Analysis of Cutoff AC / DC Power Supply Influence on Design of Relay Protection Equipment
YANG Qi
(BEIH Shanxi Zhangshan Electric Power Co., Ltd, Changzhi 046021, China)
Abstract: By two cases that the cutoff direct current split-screen power supply leads to switch false tripping and voltage transformer secondary air switch power transmission leads to low voltage protection malfunction, this paper analyzed the voltage variation process with the energy storage circuits of capacitors and inductors. This paper raised power monitoring relay, intermediate relay, design and typeselection of making and breaking coil. This paper gave the matters needed attention of logic criterion of protection action in the process of voltage variation, to provide references for avoiding similar accidents.
Key words: false tripping; direct current power supply; zero input response; voltage variation
參考文獻(xiàn)
[1] DL/T 478—2010 繼電保護(hù)和安全自動(dòng)裝置通用技術(shù)條件[S].
[2] JB/T 3777—2002 保持中間繼電器[S].
[3] JB/T 3780—2002 普通中間繼電器[S].
[4] 韓祥虎.110 V直流電源中斷引起開關(guān)跳閘原因分析[J]. 華電技術(shù),2013(9):1-3.
[5] DL/T 596—1996 電力設(shè)備預(yù)防試驗(yàn)規(guī)程[S].
[6] 于洪乾,閆祥申,趙小偉. 一起高壓電機(jī)保護(hù)誤動(dòng)作分析[J]. 電氣技術(shù),2017,18(7):86-88.