基于ATP-EMTP的330 kV空載線路合閘過電壓仿真分析
王國林
(國網(wǎng)四川省電力公司德陽供電公司,四川 德陽 618000)
摘 要:利用ATP-EMTP軟件,建模、計算和分析了不同合閘電阻、合閘電阻接入時間、合閘相位和殘余電荷對三相同期合330 kV空載線路過電壓的影響,得出合閘電阻、合閘電阻接入時間、合閘相位、殘余電荷對三相同期合空載線路的操作過電壓都有不同程度的影響。指出在電力系統(tǒng)輸配電送電操作中,盡量避免對空載線路進(jìn)行合閘,有條件的可采用零起升壓對空載線路充電;在不清楚線路是否空載合閘時,為降低合空載線路引起的過電壓,應(yīng)將空載線路上的殘余電荷釋放,合閘開關(guān)并聯(lián)接入適當(dāng)?shù)暮祥l電阻,合閘電阻調(diào)整到合理的接入時間,合閘相位控制在90°左右。
關(guān)鍵詞:空載線路;合閘過電壓;ATP-EMTP;合閘電阻;殘余電荷
中圖分類號:TM726.3 文獻(xiàn)標(biāo)識碼:A 文章編號:1007-3175(2019)11-0034-04
Simulated Analysis of 330 kV No-Load Line Switch-On Overvoltage Based on ATP-EMTP
WANG Guo-lin
(Deyang Power Supply Company of State Grid Sichuan Electric Power Company, Deyang 618000, China)
Abstract: This paper used the software ATP-EMT to model, calculate and analyze the influences on the overvoltage of 330 kV no-load line under different closing resistances, closing times, closing phases and residual charges. It is concluded that the switching resistance, the switching time, the switching phase and the residual charge all have different effects on the operating overvoltage of no-load lines. It is pointed out that in the power system transmission and distribution operation, the operator should try to avoid closing the no-load lines and to use the zero booster to charge the no-load line when conditions permitted; when it is not clear whether the circuit is closed without load, in order to reduce the overvoltage caused by the closing no-load circuit, the residual charge on the no-load circuit should be released; the closing switch should be connected with appropriate closing resistance in parallel; the closing resistance should be adjusted to a reasonable access time; the closing phase should be controlled at about 90°.
Key words: no-load line; closing overvoltage; ATP-EMTP; closing resistor; residual charge
參考文獻(xiàn)
[1] 王振宇,蘇詠梅,易善明. 輸電線路不同操作過電壓限制技術(shù)研究[J]. 電瓷避雷器,2017(6):38-43.
[2] 楊麗娟,牛天承. 基于ATP-EMTP的750 kV斷路器合閘過電壓的仿真計算[J]. 智能電網(wǎng),2016,4(4):416-420.
[3] 劉振亞. 特高壓交流輸電系統(tǒng)過電壓與絕緣配合[M]. 北京:中國電力出版社,2008.
[4] 王劍,朱小紅,李召兄,等.330 kV同塔雙回線路過電壓計算及分析[J]. 高電壓技術(shù),2011,37(10):2450-2457.
[5] 計榮榮,周浩,易強(qiáng),等. 特高壓交流系統(tǒng)合閘過電壓特點(diǎn)研究[J]. 電力系統(tǒng)保護(hù)與控制,2011,39(14):86-93.
[6] 邵昱,拜姝羽,董銳,等. 基于EMTP的空載線路合閘過電壓研究[J]. 河南科技,2018(9):139-141.
[7] 梁夢可,藤歡,李雪松,等. 最優(yōu)合閘相位對空載線路合閘過電壓的影響[J]. 科學(xué)技術(shù)與工程,2017,17(31):245-251.
[8] 吳文輝,曹祥麟. 電力系統(tǒng)電磁暫態(tài)計算與EMTP應(yīng)用[M]. 北京:水利水電出版社,2012.