面向更換式檢修的產(chǎn)品設(shè)計及應(yīng)用
于士謙�,喬彥濤����,徐興豫�,蘇亞昕,陳森��,張文
(許繼電氣股份有限公司�����,河南 許昌 461000)
摘 要:為快速對繼電保護裝置、二次接線回路進行合理��、全面的檢修����,并使檢修對正常運行的其他設(shè)備產(chǎn)生的影響降到最低,提出了一種就地化保護裝置�,該保護裝置采用無主分布式設(shè)計,任一子機既可獨立運行���,又和環(huán)網(wǎng)中其他子機相互配合�����,集成過程層����、間隔層設(shè)備于一體��,接線方便��、配置簡單����。以220 kV典型變電站為例��,采用就地化保護裝置�,屏柜數(shù)量降幅達60%以上���,電纜����、光纜使用數(shù)量大幅減少�,建筑面積減少近50%,顯著提升了基建安裝的經(jīng)濟性���,且減少了現(xiàn)場調(diào)試及運維人員的工作量�。
關(guān)鍵詞:就地化保護����;檢修;環(huán)網(wǎng)��;二次回路
中圖分類號:TM762.1+4����;TM774 文獻標識碼:B 文章編號:1007-3175(2018)12-0050-05
Product Design and Application of Replacement-Oriented Overhaul
YU Shi-qian, QIAO Yan-tao, XU Xing-yu, SU Ya-xin, CHEN Sen, ZHANG Wen
(XJ Electric Co., Ltd, Xuchang 461000, China)
Abstract: In order to fast make a reasonable and comprehensive overhaul for the relay protection device and the secondary wiring circuit and to make the impacts of the overhaul on other equipments of normal operation drop to the minimum, this paper proposed a kind of local protection device, which adopted the dereliction distribution design. Any one of the sub-machines operated independently and cooperated with other sub-machines in the ring network. This design integrated the process layer and the interlayer into the equipment with easy wiring and simple configuration. Taking 220 kV typical transformer substation for example, the local protection device was adopted to make the number of screen cabinet reduce to more than 60%, the number of cable and optical cable usage reduce dramatically and the area of structure reduce nearly 50%, which obviously promotes the economy of capital construction installation and reduces the workload of onsite debugging
and operation and maintenance personnel.
Key words: local protection; overhaul; ring network; secondary circuit
參考文獻
[1] 陳福鋒,俞春林�,張堯,等. 變電站繼電保護就地化整體解決方案研究[J]. 電力自動化設(shè)備�����,2017����,37(10):204-210.
[2] 馮豆,李生虎���,崔芳. 繼電保護系統(tǒng)最優(yōu)檢修周期的優(yōu)化算法[J]. 電力系統(tǒng)保護與控制���,2011,39(21):60-64.
[3] 王增平����, 姜憲國, 張執(zhí)超�, 等. 智能電網(wǎng)環(huán)境下的繼電保護[J]. 電力系統(tǒng)保護與控制,2013���,41(2):13-18.
[4] 鄧茂軍��,樊占峰����,倪傳坤,等. 就地化分布式變壓器保護方案研究[J].電力系統(tǒng)保護與控制��,2017����,45(9):95-100.
[5] 卜強生,高磊��,閆志偉�,等. 智能變電站繼電保護軟壓板防誤操作策略及實現(xiàn)[J]. 電力自動化設(shè)備,2016�����,36(12):156-160.
[6] 吳通華��,蔣雷梅��,李友軍�����,等. 電力系統(tǒng)電氣量異常采樣值實時辨識方法[J]. 電力系統(tǒng)自動化�����,2011����,35(23):95-98.
[7] 程真何,劉桂林.110 kV線路零序電流保護誤動原因分析及對策[J]. 電測與儀表�����,2014��,51(23):120-122.
[8] 王士鑫�,任小花,繆志農(nóng).220 kV變電站接地網(wǎng)的安全性分析[J]. 電測與儀表��,2014�,51(4):96-100.
[9] 張雙梓,王錚��,孫世勇��,等. 變壓器差動保護二次諧波制動方案分析與改進[J]. 電測與儀表,2014�,51(23):123-128.
