高电压技术
高電壓技術
고전압기술
HIGH VOLTAGE ENGINEERING
2012年
2期
316-321
,共6页
韩永霞%李立浧%陈辉祥%张劲松%卢毓欣
韓永霞%李立浧%陳輝祥%張勁鬆%盧毓訢
한영하%리립영%진휘상%장경송%로육흔
特高压直流%±800kV换流站%直流暂态过电压%绝缘配合%直流保护策略%PSCAD/EMTDC
特高壓直流%±800kV換流站%直流暫態過電壓%絕緣配閤%直流保護策略%PSCAD/EMTDC
특고압직류%±800kV환류참%직류잠태과전압%절연배합%직류보호책략%PSCAD/EMTDC
UHVDC%±800 kV converter station%DC transient overvoltage%insulation co-ordination%DC protection%PSCAD/EMTDC
特高压直流换流站作为特高压直流输电工程的枢纽,其绝缘配合方案对工程的技术经济性能影响较大。为研究特高压直流换流站绝缘配合研究中出现的直流系统保护策略对换流站过电压与避雷器配置的影响,基于PSCAD/EMTDC电磁暂态仿真程序建立了糯扎渡电站送电广东±800kV直流输电工程的直流暂态过电压仿真模型,仿真分析了高端换流变YY阀侧接地和接地极线或金属回线接地故障下直流保护策略对直流暂态过电压和避雷器应力的影响。研究结果表明,直流系统保护策略对换流站绝缘配合有较大影响,糯扎渡电站送电广东±800kV直流输电工程换流站中性母线避雷器配置方式或直流保护策略需要在云南至广东±800kV特高压直流输电工程基础上进行改进。工程中若不能减小换流器直流差动保护和中性母线过电压保护的延迟时间,则建议增加中性母线避雷器E1H和E2H的并联台数以满足设计要求。
特高壓直流換流站作為特高壓直流輸電工程的樞紐,其絕緣配閤方案對工程的技術經濟性能影響較大。為研究特高壓直流換流站絕緣配閤研究中齣現的直流繫統保護策略對換流站過電壓與避雷器配置的影響,基于PSCAD/EMTDC電磁暫態倣真程序建立瞭糯扎渡電站送電廣東±800kV直流輸電工程的直流暫態過電壓倣真模型,倣真分析瞭高耑換流變YY閥側接地和接地極線或金屬迴線接地故障下直流保護策略對直流暫態過電壓和避雷器應力的影響。研究結果錶明,直流繫統保護策略對換流站絕緣配閤有較大影響,糯扎渡電站送電廣東±800kV直流輸電工程換流站中性母線避雷器配置方式或直流保護策略需要在雲南至廣東±800kV特高壓直流輸電工程基礎上進行改進。工程中若不能減小換流器直流差動保護和中性母線過電壓保護的延遲時間,則建議增加中性母線避雷器E1H和E2H的併聯檯數以滿足設計要求。
특고압직류환류참작위특고압직류수전공정적추뉴,기절연배합방안대공정적기술경제성능영향교대。위연구특고압직류환류참절연배합연구중출현적직류계통보호책략대환류참과전압여피뢰기배치적영향,기우PSCAD/EMTDC전자잠태방진정서건립료나찰도전참송전엄동±800kV직류수전공정적직류잠태과전압방진모형,방진분석료고단환류변YY벌측접지화접지겁선혹금속회선접지고장하직류보호책략대직류잠태과전압화피뢰기응력적영향。연구결과표명,직류계통보호책략대환류참절연배합유교대영향,나찰도전참송전엄동±800kV직류수전공정환류참중성모선피뢰기배치방식혹직류보호책략수요재운남지엄동±800kV특고압직류수전공정기출상진행개진。공정중약불능감소환류기직류차동보호화중성모선과전압보호적연지시간,칙건의증가중성모선피뢰기E1H화E2H적병련태수이만족설계요구。
The insulation co-ordination of the converter station is important for the security and economy of the ultra-high voltage DC(UHVDC) transmission system.We studied the influence of two kinds of DC protection on DC transient overvoltage and insulation coordination of a ±800 kV converter station,such as converter DC differential protection and electrode open circuit protection.Moreover,we established a simulation model of the DC transient overvoltage of Nuozhadu power plant to Guangdong ±800 kV UHVDC power transmission project based on PSCAD/EMTDC program so as to analyze the influence of these two kinds of DC protection on the insulation coordination.The simulation results show that the influence of these two kinds of DC protection on the insulation coordination is remarkable,and the DC protection and insulation coordination scheme of the converter station in Nuozhadu power plant to Guangdong ±800 kV UHVDC power transmission project should be improved based on the Yunnan to Guangdong ±800 kV UHVDC power transmission project.The numbers of E1H and E2H arresters should be increased if time delay in the converter DC differential protection and neutral bus overvoltage protection cannot be decreased.
