A Comprehensive review of protection coordination methods in power distribution systems in the presence of DG

• Autorzy: Zayandehroodi H. , Mohamed A. , Shareef H. , Mohammadjafari M.

Warianty tytułu

PL

Przegląd zabezpieczeń prądowych w sieci z generatorami rozproszonymi

• Języki publikacji: EN

Abstrakty

EN

This paper presents an overview of solutions proposed in the literature for the overcurrent relay coordination problem in the presence of distributed generators (DGs). Furthermore, several protection issues are identified to study the requirements for protection in the presence of DGs, and possible innovative solutions for resolving the operational conflicts between distribution networks and DGs are also discussed.

PL

W artykule zaprezentowano przegląd metod zabezpieczeń przed przekroczeniem prądów dopuszczalnych w sieci z rozproszonymi generatorami. Szereg rozwiązań przeanalizowano pod kątem możliwych konfliktów między siecią dystrybucyjną i generatorami.

Słowa kluczowe

EN

Protection Coordination Methods; Distribution Networks; distributed generation; DG; Protection Issues

PL

zabezpieczenia sieci; sieci dystrybucyjne; generatory rozproszone

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Przegląd Elektrotechniczny
• Rocznik: 2011
• Tom: R. 87, nr 8
• Strony: 142--148
• Opis fizyczny: Bibliogr. 52 poz., rys., tab., wykr.

Twórcy

autor

Zayandehroodi H.

autor

Mohamed A.

autor

Shareef H.

autor

Mohammadjafari M.

• Department of Electrical Engineering, Anar Branch, Islamic Azad University, Anar, Iran,

Bibliografia

• [1] S. S. Venkata, et al., "What future distribution engineers needto learn," Power Systems, IEEE Transactions on, vol. 19, pp.17-23, 2004.
• [2] S. M. Brahma and A. A. Girgis, "Development of adaptiveprotection scheme for distribution systems with highpenetration of distributed generation," IEEE Transactions onPower Delivery, vol. 19, pp. 56-63, 2004.
• [3] M. T. Doyle, "Reviewing the impacts of distributed generationon distribution system protection," in Power EngineeringSociety Summer Meeting, 2002 IEEE, 2002, pp. 103-105 vol.1.
• [4] L. K. Kumpulainen and K. T. Kauhaniemi, "Analysis of theimpact of distributed generation on automatic reclosing," inPower Systems Conference and Exposition, 2004. IEEE PES,2004, pp. 603-608 vol.1.
• [5] J. J. Burke, Power distribution engineering: fundamentals andapplications: CRC, 1994.
• [6] P. P. Barker and R. W. De Mello, "Determining the impact ofdistributed generation on power systems. I. Radial distributionsystems," in Power Engineering Society Summer Meeting,2000. IEEE, 2000, pp. 1645-1656 vol. 3.
• [7] N. Jenkins, "Embedded generation," Power EngineeringJournal, vol. 9, pp. 145-150, 1995.
• [8] T. Ackermann, et al., "Distributed generation: a definition,"Electric Power Systems Research, vol. 57, pp. 195-204, 2001.
• [9] V. Calderaro, et al., "The impact of distributed synchronousgenerators on quality of electricity supply and transient stabilityof real distribution network," Electric Power Systems Research,vol. 79, pp. 134-143, Jan 2009.
• [10] S. P. Chowdhury, et al., "Islanding protection of activedistribution networks with renewable distributed generators: Acomprehensive survey," Electric Power Systems Research, vol.79, pp. 984-992, 2009.
• [11] M. K. Donnelly, et al., "Impacts of the distributed utility ontransmission system stability," Power Systems, IEEETransactions on, vol. 11, pp. 741-746, 1996.
• [12] K. Kauhaniemi and L. Kumpulainen, "Impact of distributedgeneration on the protection of distribution networks," inDevelopments in Power System Protection, 2004. Eighth IEEInternational Conference on, 2004, pp. 315-318 Vol.1.
• [13] G. Pepermans, et al., "Distributed generation: definition,benefits and issues," Energy Policy, vol. 33, pp. 787-798, 2005.
• [14] A. M. Massoud, et al., "Inverter-based versus synchronousbaseddistributed generation; fault current limitation andprotection issues," in Energy Conversion Congress andExposition (ECCE), 2010 IEEE, 2010, pp. 58-63.
• [15] A. Fazanehrafat, et al., "Maintaining The Recloser-FuseCoordination in Distribution Systems in Presence of DG byDetermining DG's Size," in Developments in Power SystemProtection, 2008. DPSP 2008. IET 9th International Conferenceon, 2008, pp. 132-137.
• [16] M. Khederzadeh, et al., "Source type impact of distributedgeneration (DG) on the distribution protection," inDevelopments in Power System Protection (DPSP 2010).Managing the Change, 10th IET International Conf. 2010, 1-5.
• [17] H. Zayandehroodi, et al., "Automated Fault Location in a PowerSystem with Distributed Generations Using Radial BasisFunction Neural Networks," International Journal of AppliedSciences, vol. 10, pp. 3032-3041, 2010.
• [18] H. Zayandehroodi, et al., "Performance Comparison of MLPand RBF Neural Networks for Fault Location in DistributionNetworks with DGs," in IEEE International Conference onPower and Energy (PECon 2010), Kuala Lumpur, Malaysia,2010, pp. 341-345.
• [19] B. Hussain, et al., "Impact studies of distributed generation onpower quality and protection setup of an existing distributionnetwork," in Power Electronics Electrical Drives Automationand Motion (SPEEDAM), 2010 International Symposium on,2010, pp. 1243-1246.
• [20] X. Chunlin, et al., "Optimal coordination of protection relaysusing new hybrid evolutionary algorithm," in EvolutionaryComputation, 2008. CEC 2008. (IEEE World Congress onComputational Intelligence). IEEE Congress on, 2008, pp. 823-828.
• [21] Dinesh Birla, et al., "Time-Overcurrent Relay Coordination: AReview," International Journal of Emerging Electric PowerSystems Research, vol. 2 p. 1039, 2005.
• [22] A. J. Urdaneta, et al., "Optimal coordination of directionalovercurrent relays in interconnected power systems," IEEETrans. Power Del., vol. 3, pp. 903-911, 1988.
• [23] A. S. Braga and J. Tome Saraiva, "Coordination of overcurrentdirectional relays in meshed networks using the Simplexmethod," in Electrotechnical Conference, 1996. MELECON'96., 8th Mediterranean, 1996, pp. 1535-1538 vol.3.
• [24] B. Chattopadhyay, et al., "An on-line relay coordinationalgorithm for adaptive protection using linear programmingtechnique," Power Delivery, IEEE Transactions on, vol. 11, pp.165-173, 1996.
• [25] H. A. Abyane, et al., "A new method for overcurrent relay (O/C)using neural network and fuzzy logic," in TENCON '97. IEEERegion 10 Annual Conference. Speech and ImageTechnologies for Computing and Telecommunications.,Proceedings of IEEE, 1997, pp. 407-410 vol.1.
• [26] H. A. Abyaneh, et al., "A new optimal approach for coordinationof overcurrent relays in interconnected power systems," PowerDelivery, IEEE Transactions on, vol. 18, pp. 430-435, 2003.
• [27] A. Y. Abdelaziz, et al., "An adaptive protection scheme foroptimal coordination of overcurrent relays," Electric PowerSystems Research, vol. 61, pp. 1-9, 2002.
• [28] D. Vijayakumar and R. K. Nema, "Superiority of PSO RelayCoordination Algorithm over Non-Linear Programming: AComparison, Review and Verification," in Power SystemTechnology and IEEE Power India Conference, 2008.POWERCON 2008. Joint International Conference on, 2008,pp. 1-6.
• [29] P. P. Bedekar, et al., "Optimum coordination of overcurrentrelays in distribution system using genetic algorithm," in PowerSystems, 2009. ICPS '09. International Conference on, 2009,pp. 1-6.
• [30] N. Hadjsaid, et al., "Dispersed generation impact on distributionnetworks," Computer Applications in Power, IEEE, vol. 12, pp.22-28, 1999.
• [31] A. Girgis and S. Brahma, "Effect of distributed generation onprotective device coordination in distribution system," in PowerEngineering, 2001. LESCOPE '01. 2001 Large EngineeringSystems Conference on, 2001, pp. 115-119.
• [32] S. M. Brahma and A. A. Girgis, "Microprocessor-basedreclosing to coordinate fuse and recloser in a system with highpenetration of distributed generation," in Power EngineeringSociety Winter Meeting, 2002. IEEE, 2002, pp. 453-458 vol.1.
• [33] N. Rezaei and M. R. Haghifam, "Protection scheme for adistribution system with distributed generation using neuralnetworks," International Journal of Electrical Power & EnergySystems, vol. 30, pp. 235-241, 2008.
• [34] S. A. M. Javadian, et al., "A fault location and protectionscheme for distribution systems in presence of dg using MLPneural networks," in Power & Energy Society General Meeting,2009. PES '09. IEEE, 2009, pp. 1-8.
• [35] H. Zayandehroodi, et al., "A New Protection Scheme forDistribution Network with Distributed Generations Using RadialBasis Function Neural Network," International Journal ofEmerging Electric Power Systems, vol. 11, p. 3, 2010.
• [36] T. Tran-Quoc, et al., "Technical impacts of small distributedgeneration units on LV networks," in Power EngineeringSociety General Meeting, 2003, IEEE, 2003, p. 2464 Vol. 4.
• [37] J. Jager, et al., "New protection coordination methods in thepresence of distributed generation," in Developments in PowerSystem Protection, 2004. Eighth IEE International Conferenceon, 2004, pp. 319-322 Vol.1.
• [38] M. Baran and I. El-Markabi, "Adaptive over current protectionfor distribution feeders with distributed generators," in PowerSystems Conference and Exposition, 2004. IEEE PES, 2004,pp. 715-719 vol.2.
• [39] A. Zamani, et al., "A strategy for protection coordination inradial distribution networks with distributed generators," inPower and Energy Society General Meeting, 2010 IEEE, 2010,pp. 1-8.
• [40] N. Perera and A. D. Rajapakse, "Agent-based protectionscheme for distribution networks with distributed generators," inPower Engineering Society General Meeting, 2006. IEEE,2006, p. 6 pp.
• [41] W. Hui, et al., "An Adaptive Multiagent Approach to ProtectionRelay Coordination With Distributed Generators in IndustrialPower Distribution System," IEEE Transactions on IndustryApplications, vol. 46, pp. 2118-2124, 2010.
• [42] J. C. Tan, et al., "An expert system for the back-up protection ofa transmission network," Power Delivery, IEEE Transactionson, vol. 15, pp. 508-514, 2000.
• [43] K. Tuitemwong and S. Premrudeepreechacharn, "Expertsystem for protection coordination of distribution system withdistributed generators," International Journal of ElectricalPower & Energy Systems, vol. In Press, Corrected Proof, 2010.
• [44] G. Tang and M. Iravani, "Application of a fault current limiter tominimize distributed generation impact on coordinated relayprotection," in International Conference on Power SystemsTransients (IPST’05) Montreal, Canada, 2005.
• [45] W. El-Khattam and T. S. Sidhu, "Restoration of DirectionalOvercurrent Relay Coordination in Distributed GenerationSystems Utilizing Fault Current Limiter," Power Delivery, IEEETransactions on, vol. 23, pp. 576-585, 2008.
• [46] W. El-khattam and T. S. Sidhu, "Resolving the impact ofdistributed renewable generation on directional overcurrentrelay coordination: a case study," Renewable PowerGeneration, IET, vol. 3, pp. 415-425, 2009.
• [47] M. Khederzadeh, "Application of tcsc to restore directionalovercurrent relay coordination in systems with distributedgeneration," Prague, 2009.
• [48] S. Conti, "Analysis of distribution network protection issues inpresence of dispersed generation," Electric Power SystemsResearch, vol. 79, pp. 49-56, 2009.
• [49] H. Wan, et al., "Multi-agent application in protectioncoordination of power system with distributed generations," inPower and Energy Society General Meeting - Conversion andDelivery of Electrical Energy in the 21st Century, 2008 IEEE,2008, pp. 1-6.
• [50] H. Cheung, et al., "Network-based Adaptive ProtectionStrategy for Feeders with Distributed Generations," in ElectricalPower Conference, 2007. EPC 2007. IEEE Canada, 2007, pp.514-519.
• [51] Y. Baghzouz, "Voltage Regulation and Overcurrent ProtectionIssues in Distribution Feeders with Distributed Generation - ACase Study," in System Sciences, 2005. HICSS '05.Proceedings of the 38th Annual Hawaii InternationalConference on, 2005, pp. 66b-66b.
• [52] S. Conti and S. Nicotra, "Procedures for fault location andisolation to solve protection selectivity problems in MVdistribution networks with dispersed generation," Electric PowerSystems Research, vol. 79, pp. 57-64, 2009.