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Porównanie zdecentralizowanych metod kontroli napięcia w kontroli skoków napięcia w aktywnych sieciach elektroenergetycznych
Języki publikacji
Abstrakty
Integration of distributed generations (DGs) to distribution systems has posed several technical challenges for network operators. One of the main problems that has received widespread attention is the voltage rise issue. This issue has led researchers worldwide to find ways to control voltage so that an acceptable limit is maintained and delivered to consumers. In networks with DGs, the methods of voltage control have been identified as coordinated or centralized control and decentralized control. This paper presents the results and comparisons of a simulation that used these decentralized voltage control methods in managing voltage rise issues in distribution systems with DGs.
W artykule przedstawiono porównanie metod sterowania zdecentralizowanego, wykorzystywanego do kontroli dopuszczalnej amplitudy napięcia w sieci, zawierającej rozproszone generatory energii elektrycznej. W tego rodzaju sieci możliwe są nieoczekiwane, skoki napięcia, co przekłada się na jakość energii, dostarczanej do użytkowników i działanie odbiorników.
Wydawca
Czasopismo
Rocznik
Tom
Strony
214--218
Opis fizyczny
Bibliogr. 29 poz., wykr.
Twórcy
autor
- Department of Electrical, Electronic and Systems Engineering, Universiti Kebangsaan Malaysia, 43600 Bangi, Selangor, Malaysia
autor
- Department of Electrical, Electronic and Systems Engineering, Universiti Kebangsaan Malaysia, 43600 Bangi, Selangor, Malaysia
autor
- Department of Electrical, Electronic and Systems Engineering, Universiti Kebangsaan Malaysia, 43600 Bangi, Selangor, Malaysia
Bibliografia
- [1] D'Adamo, Jupe, and Abbey, Global survey on planning and operation of active distribution networks - Update of CIGRE C6.11 working group activities, in Electricity Distribution - Part 1, 2009. CIRED 2009. 20th International Conference and Exhibition on, 2009, 1-4.
- [2]Hidalgo, Abbey, Joo, A review of active distribution networks enabling technologies, in Power and Energy Society General Meeting, 2010 IEEE, 2010, 1-9.
- [3]Nick Jenkins, Embedded Generation: The Institution of Electrical Engineers, London, 2000.
- [4]Sansawatt, Ochoa, and Harrison, Integrating distributed generation using decentralised voltage regulation, in Power and Energy Society General Meeting, 2010 IEEE, 2010, 1-6.
- [5]Masters, Voltage rise: the big issue when connecting embedded generation to long 11 kV overhead lines. Power Engineering Journal, (2002) No.16, 5-12.
- [6]Sansawatt, O'Donnell, Ochoa, and Harrison, Decentralised voltage control for active Distribution Networks, in Universities Power Engineering Conference (UPEC), 2009 Proceedings of the 44th International, 2009, 1-5.
- [7]T.Xu, Voltage Control Techniques for Electrical Distribution Networks including Distributed Generation, in 17th World Congress The International Federation of Automatic Control Seoul, Korea, 2008.
- [8]O'Gorman and Redfern, Voltage control problems on modern distribution systems, in Power Engineering Society General Meeting, 2004. IEEE, 2004, 662-667 Vol.1.
- [9]Mutale, Benefits of Active Management of Distribution Networks with Distributed Generation, in Power Systems Conference and Exposition, 2006. PSCE '06. 2006 IEEE PES, 2006, 601-606.
- [10]Thipnatee Sansawatt, "Decentralised Voltage and Thermal Management to enable more Distributed Generation Connection " presented at the CIRED Workshop, Lyon, 2010.
- [11]Freitas, Vieira, Morelato, and Xu, Influence of excitation system control modes on the allowable penetration level of distributed synchronous generators. Energy Conversion, IEEE Transactions on, (2005) No.20, 474-480.
- [12]Viawan, Sannino, and Daalder, Voltage control with on-load tap changers in medium voltage feeders in presence of distributed generation. Electric Power Systems Research, (2007) No.77, 1314-1322.
- [13]Fila, Taylor, Irving, Hiscock, Lang, and Aston, Systematic modelling and analysis of TAPP voltage control schemes, in Universities Power Engineering Conference, 2007. UPEC 2007. 42nd International, 2007, 349-356.
- [14]Fila, Taylor, Hiscock, Irving, and Lang, Flexible voltage control to support Distributed Generation in distribution networks, in Universities Power Engineering Conference, 2008. UPEC 2008. 43rd International, 2008, 1-5.
- [15]Ochoa, Keane, Dent, and Harrison, Applying active network management schemes to an Irish distribution network for wind power maximisation, in Electricity Distribution - Part 1, 2009. CIRED 2009. 20th International Conference and Exhibition on, 2009, 1-4.
- [16]Tonkoski, Lopes, and Turcotte, Active power curtailment of PV inverters in diesel hybrid mini-grids, in Electrical Power & Energy Conference (EPEC), 2009 IEEE, 2009, 1-6.
- [17]Tonkoski, Lopes, and El-Fouly, Droop-based active power curtailment for overvoltage prevention in grid connected PV inverters, in Industrial Electronics (ISIE), 2010 IEEE International Symposium on, 2010, 2388-2393.
- [18]Tonkoski, Lopes, and El-Fouly, Coordinated Active Power Curtailment of Grid Connected PV Inverters for Overvoltage Prevention. Sustainable Energy, IEEE Transactions on, (2011) No.2, 139-147.
- [19]Ugranli, Ersavas, and Karatepe, Neural network based distributed generation allocation for minimizing voltage fluctuation due to uncertainty of the output power, in Innovations in Intelligent Systems and Applications (INISTA), 2011 International Symposium on, 2011, 415-419.
- [20]Shalwala and Bleijs, Voltage control scheme using Fuzzy Logic for residential area networks with PV generators in Saudi Arabia, in Innovative Smart Grid Technologies (ISGT), 2011 IEEE PES, 2011, 1-6.
- [21]Technical Guidebook for the Connection of Generation to the Distribution Network: TNB Research Sdn Bhd in collaboration with APS Sdn Bhd Malaysia and RWE Npower PLC, UK, 2005.
- [22]Irish Distribution Code: ESB Networks Std v 1.2, 2002.
- [23]Kiprakis and Wallace, Maximising energy capture from distributed generators in weak networks. Generation, Transmission and Distribution, IEE Proceedings-, (2004) No.151, 611-618.
- [24]Lianxiang Tang, Determination of Distibuted Generation Capacity from a Voltage Regulation Perspective, in IEEE Transaction on Power Delivery, Orlando Florida, 2012.
- [25]Distribution Planning Guidelines: Planning and Asset Development Dept, Distribution Division,Tenaga Nasional Berhad, 2008.
- [26]Leibe, "Integration of Wind Power in Medium Voltage Networks – Voltage Control and Losses," PHD in Electrical Engineering, Dept. of Measurement Technology and Industrial Electrical Engineering, Lund University, 2011.
- [27]Viawan and Karlsson, Coordinated voltage and reactive power control in the presence of distributed generation, in Power and Energy Society General Meeting - Conversion and Delivery of Electrical Energy in the 21st Century, 2008 IEEE, 2008, 1-6.
- [28]Currie, Ault, Fordyce, MacLeman, Smith, and McDonald, Actively Managing Wind Farm Power Output. Power Systems, IEEE Transactions on, (2008) No.23, 1523-1524.
- [29]S. Fink, "Wind Energy Curtailment Case Studies- May 2008-May 2009," Exeter Associates Inc, Columbia, Maryland 2008-2009.
Typ dokumentu
Bibliografia
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