西南交通大学学报
西南交通大學學報
서남교통대학학보
JOURNAL OF SOUTHWEST JIAOTONG UNIVERSITY
2015年
2期
226-232
,共7页
高速铁路%全并联供电%供电臂%短路阻抗%距离保护
高速鐵路%全併聯供電%供電臂%短路阻抗%距離保護
고속철로%전병련공전%공전비%단로조항%거리보호
high-speed railway%cross-coupling power supply%feeding section%short-circuit impedance%distance protection
为了快速有选择性的实现高速铁路全并联AT供电牵引网的保护,提出了一种基于阻抗特征的联跳保护方案。应用回路电压方程和基尔霍夫电流定律推导了发生故障时变电所、AT所、分区所处的短路阻抗表达式,分析了各处阻抗与故障位置的关系,在变电所、AT所、分区所配置距离Ⅰ段保护,并用联跳命令将同一供电臂的保护构成一个整体的保护方案。当任一供电臂的保护检出故障时,跳开对应的所内断路器,并向同一供电臂的其它保护发送联跳命令,实现供电臂的快速保护。仿真结果表明,所提方案能在故障后100 ms内隔离故障供电臂,同时不中断并联供电臂的供电,实现了保护的选择性和速动性。
為瞭快速有選擇性的實現高速鐵路全併聯AT供電牽引網的保護,提齣瞭一種基于阻抗特徵的聯跳保護方案。應用迴路電壓方程和基爾霍伕電流定律推導瞭髮生故障時變電所、AT所、分區所處的短路阻抗錶達式,分析瞭各處阻抗與故障位置的關繫,在變電所、AT所、分區所配置距離Ⅰ段保護,併用聯跳命令將同一供電臂的保護構成一箇整體的保護方案。噹任一供電臂的保護檢齣故障時,跳開對應的所內斷路器,併嚮同一供電臂的其它保護髮送聯跳命令,實現供電臂的快速保護。倣真結果錶明,所提方案能在故障後100 ms內隔離故障供電臂,同時不中斷併聯供電臂的供電,實現瞭保護的選擇性和速動性。
위료쾌속유선택성적실현고속철로전병련AT공전견인망적보호,제출료일충기우조항특정적련도보호방안。응용회로전압방정화기이곽부전류정률추도료발생고장시변전소、AT소、분구소처적단로조항표체식,분석료각처조항여고장위치적관계,재변전소、AT소、분구소배치거리Ⅰ단보호,병용련도명령장동일공전비적보호구성일개정체적보호방안。당임일공전비적보호검출고장시,도개대응적소내단로기,병향동일공전비적기타보호발송련도명령,실현공전비적쾌속보호。방진결과표명,소제방안능재고장후100 ms내격리고장공전비,동시불중단병련공전비적공전,실현료보호적선택성화속동성。
In order to achieve a rapid and selective protection of cross-coupling AT feeding systems for high-speed railways,an inter-tripping protection scheme for feeding system based on impedance features was proposed. According to loop voltage equations and Kirchhoff's current law,the short-circuit impedance in substation,AT station,and section station was derived;and the relation between short-circuit impedances and fault position was analyzed. In the novel protection scheme,protection elements of distance zone Ⅰ are respectively installed in substation,AT station,and section station, and integrated via inter-tripping signals. When any protection element detects a fault,it will trip the related circuit breaker in the station and send an inter-tripping signal to the other protection elements for the same feeding section to complete fast fault isolation. Simulation results show that the proposed scheme can isolate the fault feeding section within 100 ms after fault,while at the same time not interrupting the power supply of the parallel feeding section. Therefore,the requirement of selectivity and speediness for protection are both satisfied.