Abstract: Free Access References Jian Liu, Jian Liu Shaanxi Electric Power Research Institute, ChinaSearch for more papers by this authorXinzhou Dong, Xinzhou Dong Tsinghua University, ChinaSearch for more papers by this authorXingying Chen, Xingying Chen Hohai University, ChinaSearch for more papers by this authorXiangqian Tong, Xiangqian Tong Xi'an University of Technology, ChinaSearch for more papers by this authorXiaoqing Zhang, Xiaoqing Zhang Shaanxi Electric Power Research Institute, ChinaSearch for more papers by this authorShiming Xu, Shiming Xu NARI Technology Development Limited Company, ChinaSearch for more papers by this author Book Author(s):Jian Liu, Jian Liu Shaanxi Electric Power Research Institute, ChinaSearch for more papers by this authorXinzhou Dong, Xinzhou Dong Tsinghua University, ChinaSearch for more papers by this authorXingying Chen, Xingying Chen Hohai University, ChinaSearch for more papers by this authorXiangqian Tong, Xiangqian Tong Xi'an University of Technology, ChinaSearch for more papers by this authorXiaoqing Zhang, Xiaoqing Zhang Shaanxi Electric Power Research Institute, ChinaSearch for more papers by this authorShiming Xu, Shiming Xu NARI Technology Development Limited Company, ChinaSearch for more papers by this author First published: 01 April 2016 https://doi.org/10.1002/9781118950289.refs AboutPDFPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShareShare a linkShare onFacebookTwitterLinked InRedditWechat References Yubo, Y., Yuping, L., Cheng, L., et al. (2006) An adaptive second harmonic restrained method using phase angle and amplitude for inrush detection [J]. Proceedings of the CSEE. 26(18): 19– 24. In Chinese. Dejun, S., Xianggen, Y., Zhe, Z. et al. (2006) Improved second harmonic restrained method for energizing inrush current [J]. Power System Technology. 30(24): 84– 88. In Chinese. Kumpulainen, L. K. and K. T. Kauhaniemi (2004) Analysis of the impact of distributed generation on automatic reclosing [C]. Power Systems Conference and Exposition, IEEE PES, vol. 1, pp. 603– 608. Jian, L., Xiangqian, T., Xiaoqing, Z. et al. (2014) Relay Protection and Fault Processing for Distribution Systems. China Electric Power Press. Beijing. In Chinese. Jian, L., Zhihua, Z., Xiaoqing, Z. et al. (2011) Relay protection and distribution automation based fault allocation and restoration for distribution systems [J]. Power System Protection and Control. 39(16): 53– 57. In Chinese. Jian, L., Xinzhou, D., Xingying, C. et al. (2013) Fault Location and Service Restoration for Distribution Systems. China Electric Power Press. Beijing. In Chinese. Jinyi, Y., Jian, L., Li, X. et al. (2014) Distribution grids of high reliability for core areas of large cities. Automation of Electric Power Systems. 38(20): 74– 80. In Chinese. Zhangqi, W., Nihong, G. (1995) Switches in Electric Distribution Systems. China Water and Electric Power Press. Beijing. In Chinese. Yong, C., Tao, H. (1999) FA based on recloser and voltage-delay type sectionalizers. Electric Power Technology. 23(7): 31– 33. In Chinese. Jian, L., Rong, D., Wenxue, D. et al. (2002) Construction and Refination of Distribution Grids for Urban and Rural Areas. China Water Power Press. Beijing. In Chinese. Jian, L., Jianli, N. (2003) New Technologies of Distribution Automation. China Water Power Press. Beijing. In Chinese. Jian, L., Wei, Z., Hongli, C. (2006) The parameter setting of feeder automation system based on mutual coordination of recloser with voltage–time type of sectionalizers. Power System Technology. 30(16): 45– 49. In Chinese. Jian, L., Jianzhong, C., Haiyong, G. (2005) A novel feeder automation scheme for rural distribution systems. Automation of Electric Power Systems, 29(11): 82– 86. In Chinese. Hongli, C., Wei, Z.,Jian, L. (2006) Improvements of recloser and instantaneous protection based feeder automation and its setting approach. Automation of Electric Power Systems. 30(15): 35– 39. In Chinese. Jian, L., Hongli, C., Qirui, L. (2003) Feeder automation based on recloser and voltage-current mode pole-mounted switches. Automation of Electric Power Systems. 27(22): 68– 71. In Chinese. Jian, L., Baoji, Y., Qi, C. et al. (2010) A distributed intelligent based feeder automation system with fast self-healing performance. Automation of Electric Power Systems. 34(10): 82– 86. In Chinese. Jian, L., Shuren, Z., Baoji, Y. et al. (2011) Fast self-healing technology in distributed intelligent feeder automation systems and its reliability enhancement. Automation of Electric Power Systems. 35(17): 67– 71. In Chinese. Zhenyou, J., Shaohua, J., Wanshun, L. (2002) Theory and analysis of distribution feeder system protection. Power System Technology. 26(12): 75– 78. In Chinese. Qi, Z. (2002) Disposing fault of distribution system with the elements based on surface protection. Zhejiang Electric Power. ( 2): 14– 17. In Chinese. Jian, L., Jianli, N., Yu,D. (1999) A unified matrix algorithm for fault section detection and isolation in distribution systems. Automation of Electric Power Systems. 23(1): 31– 33. In Chinese. Faguo, Z., Desheng, S., Yu-bin, Y. et al. (2000) Optimized matrix arithmetic of line fault location based on field terminal unit. Automation of Electric Power Systems. 24(15): 42– 44. In Chinese. Jian, L., Hong-li, C., Hai-Peng, D. et al. (2000) Fault section identification and load balancing of distribution network. Automation of Electric Power Systems, 26(22): 34– 38. In Chinese. Jian, L., Pengxiang, B., Wenyu, Y. et al. (2007) Theory and Application for Electric Distribution Grids. China Water Power Press. Beijing, In Chinese. Jingdong, L., Changxiu, C., Bangli, Z. (2002) Optimized algorithm of fault section diagnosis for distribution networks based on hierarchical model. Relay. 30(8): 6– 9. In Chinese. Jun, F., Yuanda, S. 2000, Study of automatic fault location system in the distribution network. Proceedings of the CSEE. 20(9): 32– 34. In Chinese. Ciric, R. M., Popovic, D. S.(2000) Multi-objective distribution network restoration using heuristic approach and mix integer programming method. International Journal of Electrical Power & Energy Systems, Oct. ( 22): 497– 505 Baxevanos, I. S., Labridis, D. P. (2007) Implementing multi-agent systems technology for power distribution network control and protection management. IEEE Transactions on Power Delivery, 22(1): 433– 443. Zhi-Nong, W., Hua, H. E., Yu-Ning, Z. (2002) A refined genetic algorithm for the fault sections location. Proceedings of the CSEE, 22(4): 127– 130. In Chinese. Si-Qing, S., Zhi-Rui, L., Wen-Qin, Z. et al. (2001) Fault restoration of distribution network based on genetic algorithm. automation of electric power systems, 25(8): 53– 55. In Chinese. Ya-Ming, S., Zhi-Wei, L. (2003) Assessment of data mining model based on the different combination rough set with neural network for fault section diagnosis of distribution networks. Automation of Electric Power Systems, 27(6): 31– 35. In Chinese. Trovato, M., Delvechio, G., Bualoti, R. (1999) A fuzzy reasoning approach for distribution automation. Power Technology, Budapest 1999, IEEE, ( 1): 249. Hsu, Y.-Y., Kuo, H.-C. (1994) A heuristic based fuzzy reasoning approach for distribution system service restoration. IEEE Trans. On Power Delivery, 9(2): 948– 953. Ying-Ying, W., Yi, L., Guang-Yu, T. (2005) Fault location based on Bayes probability likelihood ratio for distribution networks. Automation of Electric Power Systems, 29(19): 54– 57. In Chinese. Jian-Xin, C., Jian, L. (2003) An uncertainty reasoning system based on trouble call information for location faults on distribution network. Proceedings of the CSEE, 23(4): 57– 61. In Chinese. Jian, L., Qian, Z., Hongli, C. et al. (2010) Robust fault diagnosis and restoration for distribution grids. Automation of Electric Power Systems. 34(7): 50– 56. In Chinese. Jian, L., Xinzhou, D., Xining, C. et al. (2012) Robust fault isolation and restoration for distribution systems. Power System Technology, 36(1): 253– 257. In Chinese. Zhaoqiang, G., Guoqing, T., Lei, W. (2000) Integrated intelligent service restoration system for distribution network– An auto-learning fuzzy expert system combined with service restoration algorithm set. Automation of Electric Power Systems, 24(2): 17– 21. In Chinese. Jingliao, S., Yongli, L., Shengwei, L. et al. (2009) A protection scheme for distribution system with distributed generations. Automation of Electric Power Systems, 33(1): 81– 84. In Chinese. Wei, H., Jinyong, L., Xiang, X. et al. (2008) Influence of distributed generation on phase-to-phase short circuit protection in distribution network. Automation of Electric Power Systems, 32(1): 93– 97. In Chinese Morren, J., de Haan, S. W. H. (2007) Short-circuit current of wind turbines with doubly fed induction generator. IEEE Transactions on Energy Conversion, 22(1): 174– 180. Aoyang, H., Zhe, Z., Xianggen, Y. (2009) The simulation research on the characteristic of fault current of doubly-fed induction generator. Journal of Huazhong University of Science and Technology, 37(9): 105– 108. In Chinese. Jinxin, O., Xiaofu, X. (2010) Characteristics of short-circuit current of wind turbine driven DFIG and its impacts on grid-connected distribution network. Automation of Electric Power Systems, 34(23): 106– 110. In Chinese. Jian, L., Shuren, Z., Xiaoqing, Z. et al. (2013) Fault allocation for distribution systems with distributed generations. Automation of Electric Power Systems, 37(2): 36– 42, 48. In Chinese. Jian, L., Tao, L., Long, L., et al. (2014) Adaptability of distribution automation systems to photovoltaic installation. Protection and Control of Electric Power Systems, 42(20): 7– 12. In Chinese. Ciric, R. M., Popovic, D. S. (2000) Multi-objective distribution network restoration using heuristic approach and mix integer programming method. International Journal of Electrical Power & Energy Systems,Oct. 2000(22): 497– 505. Perez-Guerrero, R., Heydt, G. T., Jack, N. J., et al. (2008) Optimal restoration of distribution systems using dynamic programming. IEEE Transactions on Power Delivery, 23(3): 1589– 1596. Miu, K. N., Chiang, H.-D., Yuan, B. (1998) Fast Service restoration for large-scale distribution system with priority customers and constraint. IEEE Transactions on Power Systems, 13(3): 789– 795. Kleinberg, M. R., Miu, K., Chiang, H. D. (2011) Improving service restoration of power distribution systems through load curtailment of in-service customers. IEEE Transactions on Power Systems, 26(3): 1110– 1117. Jian, L., Xiaoqing, Z., Zhihua, Z. et al. (2013) Location and restoration of the short-circuit with two phase grounded to the earth in distribution systems. Automation of Electric Power Systems, 37(5): 105– 110. In Chinese. Chiang, H.-D., Nan Miu, K. (1996) Parallel genetic algorithm for service restoration in electric power distribution systems. Electrical Power & Energy Systems, 18(2): 111– 119. Kumar, V., Kumar, H. C. R., Gupta, I., et al., (2010) DG Integrated approach for service restoration under cold load pickup., IEEE Transactions on Power Delivery, 25(1): 398– 406. Santos, A. C., Delbem, A. C. B., London, J. B. A., et al., (2010) Node-depth encoding and multi-objective evolutionary algorithm applied to large-scale distribution system reconfiguration. IEEE Transactions on Power Systems, 25(3): 1254– 1265. Augugliaro, A., Dusonchet, L., Sansevvrino, E. R. (2000) Multi-objective service restoration in distribution networks using an evolutionary approach and fuzzy sets. Electric Power and Energy Systems. 2000(22): 103– 110. Kumar, Y., Das, B., Sharma, J. (2008) Multiobjective, multiconstraint service restoration of electric power distribution system with priority customer. IEEE Transactions on Power Delivery, 23(1): 261– 270. Chen, C.-S., Lin, C.-H. (2002) A rule-based expert system with colored Petri net models for distribution system service restoration. IEEE Transactions on Power Systems, 17(4): 1073– 1080. Lin, W. M., Chin, H. C. (1997) Preventive and corrective switching for feeder contingencies in distribution system with fuzzy set algorithm. IEEE Trans on Power Delivery, 12(4): 1711– 1716. Zhigang, L.,Yuxiang, D. (2006) Distribution system restoration based on improved binary particle swarm optimization. Automation of Electric Power System, 30(24): 39– 43. In Chinese. Jian, L., Shuren, Z., Xiaoqing, Z. et al. (2011) Critical techniques of fault isolation and restoration for distribution systems. Automation of Electric Power Systems, 35(24): 74– 79. In Chinese. Jian, L., Zhihua, Z., Xiaoqing, Z. et al. (2011) Research of modeled fault isolation and restoration for distribution systems. Power System Technology, 35(11): 97– 102. In Chinese. Jian, L., Jingqiu, X., Hongli, C. (2004) Algorithms on fast restoration of large area breakdown of distribution systems under emergency states. Proceedings of the CSEE, 24(12): 132– 138. In Chinese. Genjun, C., Li, K. K., Guoqing, T. (2002) A tabu search approach to distribution network reconfiguration for loss reduction. Proceedings of the CSEE, 22(10): 28– 33. In Chinese. Jian, L., Xiao-Jun, S., Hong-li, C. et al. (2008) Restoration for large area blackout of distribution network and switching operation sequence management. Automation of Electric Power Systems, 32(2): 77– 83. In Chinese. Dong, L., Yunping, C., Guang, S. et al. (2006) CSP-based model and algorithm of service restoration for large area blackout of distribution system. Automation of Electric Power System, 30(10): 28– 32. In Chinese. Yu-qin, X., Li, Z., Zeng-Oing, W. (2009) Agent-environment-rules model based algorithm of service restoration for large-area blackout of distribution system. Power System Technology, 33(12): 66– 71. In Chinese. Jeerings, D. I., Lindersa, J. R. (1991) Protective relay for down-conductor faults. IEEE Transaction on Power Delivery, 62(2): 565– 574, April. PSERC Working Group D15, " High Impedance Fault Detection Technology", March 1, 1996. Aucoin, B. M., Jones, R. H. (1996) High impedance fault detection implementation issues. IEEE Transactions on Power Delivery, 11: 139– 148. Yushan, H., Yihan, Y., Yuanheng, R. (1994) Micro-Processor based single-phase-to-ground fault line selection based on amplitude and polarity comparison in the system with neutral non-effectively grounded. Information on Electric Power, 2: 15– 19. Dong, X., Shi, S. (2008) Identifying single-phase-to-ground fault feeder in neutral non-effectively grounded distribution system using wavelet transform,IEEE Transactions on Power Delivery, 23(4): 1829– 1837. Oct. Dong, X., Bi, J. (2005) Analysis of transient travelling wave and study on fault line selection for distribution lines, Proceedings of the CSEE, 4: 1– 6. Bi, J., Dong, X., Zhou, S. (2005) Fault line selection based on two-phase current traveling wave, Automation of Electric Power Systems, 50(3): 17– 20. Shi, S., Dong, X. Traveling waves based on-line insulation monitoring of power cable, National Invention Patent of China, ZL200910081348.7. Shi, S., Dong, X., Traveling waves based fault forecast in power system, National Invention Patent of China, ZL 200910081349.1. Shi, S., Dong, X. Single-phase-to-ground fault location method and its device, National Invention Patent of China, ZL 201010244606.1. Shi, S., Dong, X., Zhou, S. (2005) Analysis of single-phase-to-ground fault generated travelling waves, Automation of Electric Power Systems, 53(23): 29– 32. Fault Location and Service Restoration for Electrical Distribution Systems ReferencesRelatedInformation