电力系统保护与控制
電力繫統保護與控製
전력계통보호여공제
POWER SYSTM PROTECTION AND CONTROL
2013年
11期
67-73
,共7页
武骁%何正友%彭少博%李小鹏%杨健维
武驍%何正友%彭少博%李小鵬%楊健維
무효%하정우%팽소박%리소붕%양건유
行波固有频率%特高压直流输电%纵联保护%MUSIC%PSCAD/EMTDC
行波固有頻率%特高壓直流輸電%縱聯保護%MUSIC%PSCAD/EMTDC
행파고유빈솔%특고압직류수전%종련보호%MUSIC%PSCAD/EMTDC
natural frequencies of travelling wave%HVDC%pilot protection%MUSIC%PSCAD/EMTDC
故障后行波在故障点与线路终端间来回反射,形成的固有频率与故障距离有明确的数学关系.特高压直流(Ultra High Voltage Direct Current, UHVDC)输电线路的边界由平波电抗器和直流滤波器构成,与交流线路相比,线路故障后形成的行波固有频率更加清晰.基于此,提出了一种利用线路两端固有频率主成分特征的特高压直流输电线路纵联保护方案.根据电流变化率构造故障启动判据;用MUSIC方法对故障后的暂态电流数据进行频谱分析,利用区内外故障时线路两端固有频率特征差异构造保护判据;利用原始行波信号和解耦后行波信号提取的固有频率主成分构造选极判据,形成完整的基于行波固有频率的特高压直流输电线路纵联保护方案.在PSCAD/EMTDC中建立特高压直流输电系统模型,并在不同故障工况下对该保护方案的适应性进行仿真.大量仿真结果表明,该保护方法在不同故障工况下均能可靠、快速动作,具有较好的适应性和实用价值.
故障後行波在故障點與線路終耑間來迴反射,形成的固有頻率與故障距離有明確的數學關繫.特高壓直流(Ultra High Voltage Direct Current, UHVDC)輸電線路的邊界由平波電抗器和直流濾波器構成,與交流線路相比,線路故障後形成的行波固有頻率更加清晰.基于此,提齣瞭一種利用線路兩耑固有頻率主成分特徵的特高壓直流輸電線路縱聯保護方案.根據電流變化率構造故障啟動判據;用MUSIC方法對故障後的暫態電流數據進行頻譜分析,利用區內外故障時線路兩耑固有頻率特徵差異構造保護判據;利用原始行波信號和解耦後行波信號提取的固有頻率主成分構造選極判據,形成完整的基于行波固有頻率的特高壓直流輸電線路縱聯保護方案.在PSCAD/EMTDC中建立特高壓直流輸電繫統模型,併在不同故障工況下對該保護方案的適應性進行倣真.大量倣真結果錶明,該保護方法在不同故障工況下均能可靠、快速動作,具有較好的適應性和實用價值.
고장후행파재고장점여선로종단간래회반사,형성적고유빈솔여고장거리유명학적수학관계.특고압직류(Ultra High Voltage Direct Current, UHVDC)수전선로적변계유평파전항기화직류려파기구성,여교류선로상비,선로고장후형성적행파고유빈솔경가청석.기우차,제출료일충이용선로량단고유빈솔주성분특정적특고압직류수전선로종련보호방안.근거전류변화솔구조고장계동판거;용MUSIC방법대고장후적잠태전류수거진행빈보분석,이용구내외고장시선로량단고유빈솔특정차이구조보호판거;이용원시행파신호화해우후행파신호제취적고유빈솔주성분구조선겁판거,형성완정적기우행파고유빈솔적특고압직류수전선로종련보호방안.재PSCAD/EMTDC중건립특고압직류수전계통모형,병재불동고장공황하대해보호방안적괄응성진행방진.대량방진결과표명,해보호방법재불동고장공황하균능가고、쾌속동작,구유교호적괄응성화실용개치.
Traveling wave travels between fault point and the end of line for a lot, forming natural frequencies which have mathematical relationship with fault distance. Smoothing reactor and DC filter constitute the boundary of UHVDC, making the natural frequencies more clear. Based on these, a UHVDC transmission line pilot protection method based on features of dominant components of natural frequencies is put forward. Changing ratio is used to form fault start principle; MUSIC method is used to conduct a spectral analysis of the transient current after fault, and the difference between dominant components of natural frequencies of internal fault and external fault is used to form protection principle; the dominant components extracted by formal signals and modal signals are used to form fault line principle, forming the whole protection scheme. UHVDC model is established in PSCAD/EMTDC and lots of simulations on different fault conditions are done on this model. Lots of simulations show that this method can work precisely and quickly under different fault conditions, and has good adaptability and practical values. This work is supported by National High-tech R&D Program of China (863 Program) (No. 2012AA050208).
