虚拟电厂优化调度综述
Summary on Optimal Dispatch of Virtual Power Plant
DOI: 10.12677/JEE.2014.22005, PDF, HTML,  被引量 下载: 3,463  浏览: 14,692 
作者: 冯其芝, 喻洁, 时 斌:东南大学电气工程学院,南京
关键词: 虚拟电厂分布式电源优化调度Virtual Power Plant Distributed Generations Optimal Dispatch
摘要:

虚拟电厂将多个分布式电源、储能装置和负荷等分布式单元通过先进的通信技术和控制策略有效集成为可控的独立发电厂,以规模化的手段有效解决分布式电源并网的控制调度问题。本文分别从信息交互架构、运行管理架构、辅助服务、优化调度等方面对虚拟电厂进行了全面综述并深入探究了虚拟电厂能量管理优化调度问题。对虚拟电厂优化调度问题主要从优化模型中的优化目标、调度周期以及虚拟电厂内不确定性因素的处理3个方面进行了详细分析。文章最后还指出对虚拟电厂组织构成、调度管理、运行控制等各方面的研究仍待深入探索,形成可实用化的理论框架。

Abstract: Virtual Power Plant integrated large numbers of distributed generations, energy storage devices and loads into a controllable independent power plant by advanced communication technolo- gies and control strategies. It can solve the control and dispatch problems of distributed generations connecting to network effectively by a series of large-scale means. In this paper, we made a comprehensive review on virtual power plant from the aspects of information exchange architectures, operation and management structures, ancillary services and optimal scheduling respectively as well as explored the energy management optimization scheduling problems of virtual power plant deeply. For the optimal scheduling problems, we analyzed in detail mainly from three aspects of optimization goals, scheduling periods and the uncertainties in virtual power plant. Finally, some suggestions are given for further studies of virtual power plant on organizational structure, scheduling management, operational control and so on, so as to form a practical theoretical framework.
文章引用:冯其芝, 喻洁, 时斌. 虚拟电厂优化调度综述[J]. 电气工程, 2014, 2(2): 31-37. http://dx.doi.org/10.12677/JEE.2014.22005

参考文献

[1] Pudjianto, D., Ramsay, C. and Strbac, G. (2007) Virtual power plant and system integration of distributed energy resources. IET Renewable Power Generation, 1, 10-16.
[2] Bignucolo, F., Caldon, R. and Prandoni, V. (2006) The voltage control on MV distribution networks with aggregated DG Units (VPP). Proceedings of the 41st International Universities Power Engineering Conference (UPEC), 1, 187192.
[3] Morais, H., Cardoso, M., Castanheira, L., Vale, Z. and Praca, I. (2005) A decision-support simulation tool for virtual power producers. IEEE International Conference on Future Power Systems, Amsterdam, 1-6.
[4] Saboori, H., Mohammadi, M. and Taghe, R. (2011) Virtual Power Plant (VPP), definition, concept, components and types. Power and Energy Engineering Conference (APPEEC), Asia-Pacific, March 2011, 1-4.
[5] 卫志农, 余爽, 孙国强, 孙永辉, 袁阳, 王丹 (2013) 虚拟电厂的概念与发展. 电力系统自动化, 37, 1-9.
[6] Asmus, P. (2010) Microgrids, virtual power plants and our distributed energy future. The Electricity Journal, 23, 7282.
[7] 陈春武, 李娜, 钟朋园, 曾鸣 (2013) 虚拟电厂发展的国际经验及启示. 电网技术, 37, 2258-2263.
[8] Adriaan, W., Christos, K., Jaap, J., et al. (2012) Financial and socio-economic impacts of embracing the FENIX concept. http://www.fenix-project.org/
[9] Roossien, B., Warmer, J.C. and Kamphuis, G.I. (2006) The power match: Multiagent control of electricity demand and supply. IEEE Intelligent Systems, 21, 89-90.
[10] Zeng, J., Liu, J.F., Wu, J., et al. (2011) A multi-agent solution to energy management in hybrid renewable energy generation system. Renewable Energy, 26, 1352-1363.
[11] Sucic, S., Dragicevc, T., Capuder, T. and Delimar, M. (2011) Economic dispatch of virtual power plants in an eventdriven service-oriented framework using standards-based communications. Electric Power Systems Research, 21082119.
[12] Lukovic, S., Kaitovic, I., Mura, M. and Bondi, U. (2010) Virtual power plant as a bridge between distributed energy resources and smart grid. Proceedings of the 43rd Hawaii International Conference on System Sciences, Honolulu, 1-8.
[13] Jansen, B., Binding, C., Sundstrom, O. and Gantenbein, D. (2010) Architecture and communication of an electric vehicle virtual power plant. 2010 First IEEE International Conference on Smart Grid Communications, 149-154.
[14] Vandoorn, T.L., Zwaenepoel, B., De Kooning, J., et al. (2011) Smart Microgrids and virtual power plants in a hierarchical control structure. 2011 2nd IEEE PES International Conference and Exhibition on Innovative Smart Grid Technologies (ISGT Europe), Manchester, 1-7.
[15] El Bakari, K. and Kling, W.L. (2011) Development and operation of virtual power plant system. 2011 2nd IEEE PES International Conference and Exhibition on Innovative Smart Grid Technologies (ISGT, Europe), Manchester, 1-5.
[16] Braun, M. (2007) Technological control capabilities of DER to provide future ancillary services. International Journal of Distributed Energy Resources, 3, 191-206.
[17] Ruthe, S., Rehtanz, C. and Lehnhoff, S. (2012) Towards frequency control with large scale Virtual Power Plants. 2012 3rd IEEE PES International Conference and Exhibition on Innovative Smart Grid Technologies (ISGT Europe), Berlin, 14-17 October 2012, 1-6.
[18] Oyarzabal, J., Marti, J., Ilo, A., Sebastian, M., Alvira, D. and Johansen, K. (2009) Integration of DER into power system operation through Virtual Power Plant concept applied for voltage regulation. Integration of Wide-Scale Renewable Resources into the Power Delivery System, 2009 CIGRE/IEEE PES Joint Symposium, Calgary, 29-31 July 2009, 17.
[19] Unger, D., Spitalny, L. and Myrzik, J.M.A. (2012) Voltage control by small hydro power plants integrated into a virtual power plant., 2012 IEEE on Energytech, Cleveland, 29-31 May 2012, 1-6.
[20] Khan, H.A., Lu, H.H.C. and Sreeram, V. (2011) Active and reactive power control of the electronically interfaced DG sources for the realization of a Virtual Power Plant. IECON 2011-37th Annual Conference on IEEE Industrial Electronics Society, Melbourne, 7-10 November 2011, 808-813.
[21] Khan, H., Dasouki, S., Sreeram, V., Iu, H.H. and Mishra, Y. (2013) Universal active and reactive power control of electronically interfaced distributed generation sources in virtual power plants operating in grid-connected and islanding modes. IET Generation, Transmission & Distribution, 7, 885-897.
[22] Gong, J., Xie, D., Jiang, C. and Zhang, Y. (2011) Multiple Objective Compromised Method for Power Management in Virtual Power Plants. Energies, 4, 700-716.
[23] Morais, H., Kadar, P., Cardoso, M., Vale, Z.A. and Khodr, H. (2008) Operating in the Isolated Grid. Power and Energy Society General Meeting, Conversion and Delivery of Electrical Energy in the 21st Century, Pittsburgh, 20-24 July 2008, 1-6.
[24] Aloini, D., Crisostomi, E., Raugi, M. and Rizzo, R. (2011) Optimal power scheduling in a Virtual Power Plant., 2011 2nd IEEE PES International Conference and Exhibition on Innovative Smart Grid Technologies (ISGT Europe), Manchester, 5-7 December 2011, 1-7.
[25] Nezamabadi, H., Nezamabadi, P., Setayeshnazar, M. and Gharehpetian, G.B. (2011) Participation of virtual power plants in energy market with optimal bidding based on Nash-SFE Equilibrium Strategy and considering interruptible load. 2011 Proceedings of the 3rd Conference on Thermal Power Plants (CTPP), Tehran, 18-19 October 2011, 1-6.
[26] Soltani, M., Raoofat, M. and Rostami, M.A. (2012) Optimal reliable strategy of virtual power plant in energy and frequency control markets. 2012 Proceedings of 17th Conference on Electrical Power Distribution Networks (EPDC) IEEE, Tehran, 2-3 May 2012, 1-6.
[27] Sousa, T., Morais, H., Soares, J. and Vale, Z. (2012) Day-ahead resource scheduling in smart grids considering vehicle-to-grid and network constraints. Applied Energy, 96, 183-193.
[28] 刘家星 (1988) 关于电力边际成本与电价的探讨. 电力技术, 10, 63-67.
[29] Toma, L., Otomega, B. and Tristiu, I. (2012) Market strategy of distributed generation through the virtual power plant concept. 2012 13th International Conference on Optimization of Electrical and Electronic Equipment (OPTIM), Brasov, 24-26 May 2012, 81-88.
[30] Toma, L., Otomega, B., Bulac, C. and Tristiu, I. (2012) Coordination of distributed generators through the virtual power plant concept. 2012 3rd IEEE PES International Conference and Exhibition on Innovative Smart Grid Technologies (ISGT Europe), Berlin, 14-17 October 2012, 1-6.
[31] Mashhour, E. and Moghaddas-Tafreshi, S.M. (2011) Bidding strategy of virtual power plant for participating in energy and spinning reserve markets—Part I: Problem formulation. IEEE Transactions on Power Systems, 26, 949-956.
[32] Mashhour, E. and Moghaddas-Tafreshi, S.M. (2011) Bidding strategy of virtual power plant for participating in energy and spinning reserve markets—Part II: Numerical Analysis. IEEE Transactions on Power Systems, 26, 957-964.
[33] Salmani, M.A., Tafreshi, S.M.M. and Salmani, H. (2009) Operation optimization for a virtual power plant. 2009 IEEE PES/IAS Conference on Sustainable Alternative Energy (SAE), Valencia, 28-30 September 2009, 1-6.
[34] Salmani, M.A., Anzalchi, A. and Salmani, S. (2010) Virtual power plant: New solution for managing distributed generations in decentralized power systems. 2010 International Conference on Management and Service Science (MASS), Wuhan, 24-26 August 2010, 1-6.
[35] Salmani, M.A., Tafreshi, S.M.M. and Bagherian, A. (2010) Virtual Power Plant: Concept and Operation Optimization Algorithm. International Review of Electrical Engineering, 5, 2271-2280.
[36] Peikherfeh, M., Seifi, H. and Sheikh-El-Eslami, M.K. (2010) Optimal decision making for virtual power plant operation. IPEC, 2010 Conference Proceedings, Singapore City, 27-29 October 2010, 625-629.
[37] Hropko, D., Ivanecky, J. and Turcek, J. (2012) Optimal dispatch of renewable energy sources included in Virtual power plant using Accelerated particle swarm optimization. 2012 ELEKTRO, Rajeck Teplice, 21-22 May 2012, 196-200.
[38] 易德鑫 (2013) 计及风电出力不确定性的虚拟电厂随机优化调度. 长沙理工大学.
[39] 许佳佳 (2013) 基于虚拟发电厂的分布式电源调度管理模式的研究. 华北电力大学.
[40] Ruiz, N., Cobelo, I. and Oyarzabal, J. (2009) A direct load control model for virtual power plant management. IEEE Transactions on Power Systems, 24, 959-966.
[41] Skarvelis-Kazakos, S., Papadopoulos, P., Grau, I., Gerber, A., Cipcigan, L.M., Jenkins, N. and Carradore, L. (2010) Carbon optimized virtual power plant with electric vehicles. 2010 45th International Universities Power Engineering Conference (UPEC), Cardiff, 31 August-3 September 2010, 1-6.
[42] Morais, H., Cardoso, M., Castartheira, L., Vale, Z.A. and Praça, I. (2007) VPPs information needs for effective operation in competitive electricity markets. 2007 5th IEEE International Conference on Industrial Informatics, Vol. 2, Vienna, 23-27 June 2007, 1183-1188.
[43] Vale, Z., Pinto, T., Morais, H., Praça, I. and Faria, P. (2011) VPP’s multi-level negotiation in smart grids and competitive electricity markets. Power and Energy Society General Meeting, 2011 IEEE, San Diego, 24-29 July 2011, 1-8.
[44] Morais, H., Pinto, T., Vale, Z. and Praca, I. (2012) Multilevel Negotiation in Smart Grids for VPP Management of Distributed Resources. IEEE Intelligent Sys-tems, 27, 8-16.
[45] Lombardi, P., Powalko, M. and Rudion, K. (2009) Optimal operation of a virtual power plant. Power & Energy Society General Meeting, Calgary, 26-30 July 2009, 1-6.
[46] Giuntoli, M. and Poli, D. (2013) Optimized Thermal and Electrical Scheduling of a Large Scale Virtual Power Plant in the Presence of Energy Storages. IEEE Transactions on Smart Grid, 4, 942-955.
[47] Kuzle, I., Zdrilic, M. and Pandzic, H. (2011) Virtual power plant dispatch optimization using linear programming. 2011 10th International Conference on Environment and Electrical Engineering (EEEIC), Rome, 8-11 May 2011, 1-4.
[48] Zdrilic, M., Pandzic, H. and Kuzle, I. (2011) The mixed-integer linear optimization model of virtual power plant operation. Energy Market (EEM), 2011 8th International Conference on the European, Zagreb, 25-27 May 2011, 467-471.
[49] Schafer, A. and Moser, A. (2012) Dispatch optimization and economic evaluation of distributed generation in a virtual power plant. 2012 IEEE Energytech, Cleveland, 29-31 May 2012, 1-6.
[50] Kok, K. (2009) Short-term economics of virtual power plants. 20th International Conference and Exhibition on Electricity Distribution (CIRED 2009), Prague, 8-11 June 2009, 1059-1059.
[51] Wille-Haussmann, B., Erge, T. and Wittwer, C. (2010) Decentralized optimization of cogeneration in virtual power plants. Solar Energy, 84, 604-611.
[52] Peik-Herfeh, M., Seifi, H. and Sheikh-El-Eslami, M.K. (2013) Decision making of a virtual power plant under uncertainties for bidding in a day-ahead market using point estimate method. International Journal of Electrical Power & Energy Systems, 44, 88-98.
[53] Taheri, H., Rahimi-Kian, A., Ghasemi, H. and Alizadeh, B. (2012) Optimal operation of a virtual power plant with risk management. 2012 IEEE PES Innovative Smart Grid Technologies (ISGT), Washington DC, 1-7.
[54] Taheri, H., Ghasemi, H., Rahimi-Kian, A. and Akbari, T. (2011) Modeling and optimized scheduling of Virtual Power Plant. 2011 19th Iranian Conference on Electrical Engineering (ICEE), Tehran, 17-19 May 2011, 1-6.
[55] Peikherfeh, M., Seifi, H. and Sheikh-El-Eslami, M.K. (2011) Optimal dispatch of distributed energy resources included in a virtual power plant for participating in a day-ahead market. 2011 International Conference on Clean Electrical Power (ICCEP), Ischia, 14-16 June 2011, 204-210.
[56] Shropshire, D., Purvins, A., Papaioannou, I. and Maschio, I. (2012) Benefits and cost implications from integrating small flexible nuclear reactors with off-shore wind farms in a virtual power plant. Energy Policy, 46, 558-573.
[57] Houwing, M., Papaefthymiou, G., Heijnen, P.W. and Ilić, M.D. (2009) Balancing wind power with virtual power plants of micro-CHPs. 2009 IEEE Bucharest PowerTech, Bucharest, 28 June-2 July 2009, 1-7.
[58] Pandžić, H., Kuzle, I. and Capuder, T. (2013) Virtual power plant mid-term dispatch optimization. Applied Energy, 101, 134-141.
[59] Vasirani, M., Kota, R., Cavalcante, R., Ossowski, S. and Jennings, N. (2013) An Agent-Based Approach to Virtual Power Plants of Wind Power Generators and Electric Vehicles. IEEE Transactions on Smart Grid, 4, 1314-1322.
[60] Musio, M., Lombardi, P. and Damiano, A. (2010) Vehicles to grid (V2G) concept applied to a virtual power plant structure. 2010 19th International Conference on Electrical Machines (ICEM), Rome, 6-8 September 2010, 1-6.
[61] Sousa, T., Morais, H., Vale, Z., Faria, P. and Soares, J. (2012) Intelligent energy resource management considering vehicle-to-grid: A simulated annealing approach. IEEE Transactions on Smart Grid, 3, 535-542.
[62] Musio, M. and Damiano, A. (2012) Virtual Power Plant Management Model Based on Electric Vehicle Charging Infrastructure Distribution. 2012 3rd IEEE PES International Conference and Exhibition on Innovative Smart Grid Technologies (ISGT Europe), Berlin, 14-17 October 2012, 1-7.
[63] Raab, A.F., Ferdowsi, M., Karfopoulos, E., Unda, I.G., Skarvelis-Kazakos, S., Papadopoulos, P., Abbasi, E., et al. (2011) Virtual Power Plant Control Concepts with Electric Vehicle. 2011 16th International Conference on Intelligent System Application to Power Systems (ISAP), Hersonissos, 25-28 September 2011, 1-6.
[64] Lombardi, P., Stotzer, M., Styczynski, Z. and Orths, A. (2011) Multi-criteria optimization of an energy storage system within a Virtual Power Plant architecture. 2011 IEEE Power and Energy Society General Meeting, 24-29 July 2011, San Diego, 1-6.
[65] Mohammadi, J., Rahimi-Kian, A. and Mohammad. S.G. (2011) Joint Operation of Wind Power and Flexible Load as Virtual Power Plant. 2011 10th International Conference on Environment and Electrical Engineering (EEEIC), Rome, 8-11 May 2011, 1-4.
[66] Foggia, G., et al. (2010) Optimization by stochastic programming for the aggregation of a commercial virtual power plant. 11th International Workshop on Optimization and Inverse Problems in Electromagnetism, Sofia, 14-18 September 2010.
[67] Pandžić, H., Morales, J.M., Conejo, A.J. and Kuzle, I. (2013) Offering model for a virtual power plant based on stochastic programming. Applied Energy, 105, 282-292.
[68] Handschin, E., Neise, F., Neumann, H. and Schultz, R. (2006) Optimal operation of dispersed generation under uncertainty using mathematical programming. International Journal of Electrical Power & Energy Systems, 28, 618-626.
[69] Moghaddam, I.G., Nick, M., Fallahi, F., Sanei, M. and Mortazavi, S. (2013) Risk-averse profit-based optimal operation strategy of a combined wind farmecascade hydro system in an electricity market. Renewable Energy, 55, 252-259.