The research and the development of the wide area relaying protection based on fault element identification

The urgent problem of the relaying protection in the modern AC/DC hybrid connected grid and the development of the wide area communication, the information process and the intelligent technology powerfully promotes the development of the technology of the wide area relaying protection (WARP), which has become a research hotspot that attracts extensive attention. Originated from the basic concept of the wide area relaying protection, this paper analyses the advantages, the effects and the functions of the wide area relaying protection. The two main approaches to realize the wide area protection, which are on-line adaptive setting (OAS) principle and fault element identification (FEI), are introduced in this paper. Aimed at improving the performance of the backup protection, the research content and the technology demand of the wide area protection are proposed, meanwhile, the basic principle and the algorithm of the fault element identification are introduced. At last, the scheme of the limited wide area relaying protection based on the existing pilot channel of the main protection is discussed.

[1]  Zhang Xin-ping,et al.  A Wide Area Protective Relaying System Based on Current Differential Protection Principle , 2006 .

[2]  Zhang Boming,et al.  Online Relay Setting Check Based on Computer Cluster , 2007 .

[3]  J. L. Reding,et al.  BPA's Probability Based Clearance Buffers, Part I: General Development , 2002, IEEE Power Engineering Review.

[4]  Wang Zengping,et al.  Overview of research on protection reliability , 2010 .

[5]  Zhou Xiaoxin,et al.  A Survey on Power System Wide-Area Protection and Control , 2006 .

[6]  He Zhiqing,et al.  Zone Division and Implementation on Limited Wide Area Protection System , 2010 .

[7]  Li Cheng,et al.  Analysis on functionality and feasible structure of wide area protection system , 2009 .

[8]  Wang Lei,et al.  CURRENT STATUS AND PROSPECT OF WIDE-AREA PROTECTION (DYNAMIC STABILITY CONTROL) TECHNOLOGIES , 2004 .

[9]  Damir Novosel,et al.  Wide-Area Protection and Emergency Control , 2004, Proceedings of the IEEE.

[10]  D. Novosel,et al.  IEEE PSRC Report on Performance of Relaying During Wide-Area Stressed Conditions , 2010, IEEE Transactions on Power Delivery.

[11]  Ma Rui,et al.  Study on Wide Area Measurement System Based Control Strategy to Prevent Cascading Trips , 2007 .

[12]  Wang Chunyi,et al.  Development and Application of Online Verification and Early-warning System for Protective Relay , 2015 .

[13]  Yang Jian,et al.  Study of a fault diagnosis approach for power grid with information fusion based on multi-data resources , 2011 .

[14]  Chen Guoyan,et al.  A Wide Area Back-up Protection Algorithm Based on Fault Voltage Distribution , 2011 .

[15]  Zhe Zhang,et al.  Wide-Area Backup Protection Algorithm Based on Fault Component Voltage Distribution , 2011, IEEE Transactions on Power Delivery.

[16]  Wang Yuxue,et al.  Study on System Architecture and Fault Identification of Zone-division Wide Area Protection , 2011 .

[17]  E. Handschin,et al.  Algorithmic-knowledge-based adaptive coordination in transmission protection , 2002 .

[18]  Peter Crossley,et al.  System Protection Schemes in Power Networks , 2001 .

[19]  Kang Xiaoning,et al.  Novel Transmission Line Pilot Protection Based on Integrated Impedance , 2008 .

[20]  Qin Songta,et al.  Development of the On-Line Verification System for Guangxi Power Grid Relay Settings , 2013 .

[21]  Duan Xianzhong,et al.  Performance Analysis of Relay Settings Determined According to Off-line Calculation and On-line Calculation , 2005 .

[22]  He Xiaofei,et al.  An Agent Organization Theory and Its Application to Wide Area Backup Protection , 2010 .

[23]  Ding Lei,et al.  Research on design of digital integrated protection and control system , 2009 .

[24]  Yao Bin,et al.  Research and implementation of network protection system based on integrated and wide area information , 2009 .

[25]  Cao Guo-chen,et al.  PROBLEMS AND SOLUTIONS IN RELAY SETTING AND COORDINATION , 2003 .

[26]  Zhang Zhe,et al.  Zone-division and Tripping Strategy for Limited Wide Area Protection Adapting to Smart Grid , 2010 .

[27]  Seung-Jae Lee,et al.  Blocking of Zone 3 Relays to Prevent Cascaded Events , 2008, IEEE Transactions on Power Systems.

[28]  Xiangning Lin,et al.  Principles and Implementations of Hierarchical Region Defensive Systems of Power Grid , 2009, IEEE Transactions on Power Delivery.

[29]  Mladen Kezunovic,et al.  Mathematical models for current, voltage, and coupling capacitor voltage transformers , 2000 .

[30]  Duan Xianzhong,et al.  An On-line Verification of Relay Settings and Early Warning System of Protective Relaying Based on MAS , 2007 .

[31]  J. R. Linders,et al.  Adaptive transmission relaying concepts for improved performance , 1988 .

[32]  Yoshizumi Serizawa,et al.  Wide-area current differential backup protection employing broadband communications and time transfer systems , 1998 .

[33]  Duan Xian-zhong,et al.  Wide-area Protection System Based on Direction Comparison Principle , 2008 .