电网技术
電網技術
전망기술
POWER SYSTEM TECHNOLOGY
2015年
1期
90-96
,共7页
李爱民%徐敏%蔡泽祥%孙奇珍
李愛民%徐敏%蔡澤祥%孫奇珍
리애민%서민%채택상%손기진
直流输电%行波保护%小步长采样%保护灵敏性
直流輸電%行波保護%小步長採樣%保護靈敏性
직류수전%행파보호%소보장채양%보호령민성
HVDC power transmission%traveling wave protection%small sampling interval%protection sensitivity
为解决目前直流线路保护速动性和灵敏性难以同时满足的问题,提出了一种基于小步长采样的新型直流线路保护方案。新型保护以主流的行波保护理念为基础,保证了保护的速动性和实用性,通过使用小步长采样提高了保护的灵敏性。新型行波保护方案以电压变化率判据作为主判据,用于快速、灵敏的故障检测;以电压比判据和电压差判据作为辅助判据,用于保证在雷击线路和极间耦合情况下保护不发生误动作。在PSCAD/EMTDC环境下对新型波保护进行了仿真测试与分析,相关结果表明新型保护同时具有良好的速动性和灵敏性,并且具有较强的抗干扰能力。
為解決目前直流線路保護速動性和靈敏性難以同時滿足的問題,提齣瞭一種基于小步長採樣的新型直流線路保護方案。新型保護以主流的行波保護理唸為基礎,保證瞭保護的速動性和實用性,通過使用小步長採樣提高瞭保護的靈敏性。新型行波保護方案以電壓變化率判據作為主判據,用于快速、靈敏的故障檢測;以電壓比判據和電壓差判據作為輔助判據,用于保證在雷擊線路和極間耦閤情況下保護不髮生誤動作。在PSCAD/EMTDC環境下對新型波保護進行瞭倣真測試與分析,相關結果錶明新型保護同時具有良好的速動性和靈敏性,併且具有較彊的抗榦擾能力。
위해결목전직류선로보호속동성화령민성난이동시만족적문제,제출료일충기우소보장채양적신형직류선로보호방안。신형보호이주류적행파보호이념위기출,보증료보호적속동성화실용성,통과사용소보장채양제고료보호적령민성。신형행파보호방안이전압변화솔판거작위주판거,용우쾌속、령민적고장검측;이전압비판거화전압차판거작위보조판거,용우보증재뢰격선로화겁간우합정황하보호불발생오동작。재PSCAD/EMTDC배경하대신형파보호진행료방진측시여분석,상관결과표명신형보호동시구유량호적속동성화령민성,병차구유교강적항간우능력。
At present, it is difficult for existing protective relaying for HVDC transmission lines to simultaneously meet both demands on protection sensitivity and protection quick action performance, for this reason, a small sampling interval based new protection scheme for HVDC transmission lines is proposed. Based on mainstream traveling wave protection, the proposed new protection can ensure both practicability and quick action performance and the small sampling interval of the protection can ensure its sensitivity. In the new traveling protection scheme there are one main criterion and two auxiliary criteria: the voltage variation rate is taken as the main criterion for fast and sensitive fault detection; the voltage ratio criterion and the voltage difference criterion are auxiliary criteria to ensure there is not malfunction of the protection during lightning stroke on transmission line and under electromagnetic coupling between DC lines. In PSCAD/EMTDC environment the simulation of new traveling wave protection is performed, and simulation results show that the proposed new type of traveling wave protection scheme possesses sensitivity and quick action performance simultaneously as well as stronger anti-interference ability.