Dispatch and bidding strategy of active distribution network in energy and ancillary services market
详细信息 查看全文
- 作者:Yao JIN ; Zhengyu WANG ; Chuanwen JIANG…
- 关键词:Active distribution network (ADN) ; Energy market ; Ancillary services market ; Optimal dispatch ; Bidding Strategy
- 刊名:Journal of Modern Power Systems and Clean Energy
- 出版年:2015
- 出版时间:December 2015
- 年:2015
- 卷:3
- 期:4
- 页码:565-572
- 全文大小:1,142 KB
- 参考文献:[1]D’Adamo C, Jupe S, Abbey C (2009) Global survey on planning and operation of active distribution networks—update of CIGRE C6.11 Working Group activities. In: Proceedings of the 20th International conference and exhibition on electricity distribution (CIRED-9): Part 1. IET, Prague, Czech, 8-1 June 2009, pp 1-
[2]Fan MT, Zhang ZP, Su AX et al (2013) Enabling technologies for active distribution systems. Proc CSEE 33(22):12-8 (in Chinese)
[3]McDonald J (2008) Adaptive intelligent power systems: active distribution networks. Energy Policy 36(12):4346-351CrossRef
[4]Esau Z, Jayaweera D (2014) Reliability assessment in active distribution networks with detailed effects of PV systems. J Mod Power Syst Clean Energy 2(1):59-8CrossRef
[5]Peikherfeh M, Seifi H, Sheikh-El-Eslami MK (2011) Active management of distribution networks in presence of distributed generations. In: Proceedings of the 2011 International conference on clean electrical power (ICCEP-1). IEEE, Ischia, Italy, 14-6 June 2011, pp 725-29
[6]Borghetti A, Bosetti M, Grillo S et al (2010) Short-term scheduling and control of active distribution systems with high penetration of renewable resources. IEEE Syst J 4(3):313-22CrossRef
[7]Gill S, Kockar I, Ault GW (2014) Dynamic optimal power flow for active distribution networks. IEEE Trans Power Syst 29(1):121-31CrossRef
[8]You Y, Liu D, Zhong Q et al (2014) Research on optimal schedule strategy for active distribution network. Autom Electr Power Syst 38(9):177-83 (in Chinese)
[9]Kargarian A, Fu Y (2014) System of systems based security-constrained unit commitment incorporating active distribution grids. IEEE Trans Power Syst 29(5):2489-498CrossRef
[10]Zhang JT, Cheng HZ, Wang C (2009) Technical and economic impacts of active management on distribution network. Int J Electr Power Energy Syst 31(2/3):130-38MathSciNet CrossRef
[11]Jain AK, Srivastava SC, Singh SN et al (2011) Demand responsive bidding strategy of a buyer in uniform price electricity market. In: Proceedings of the 2011 IEEE PES international conference on innovative smart grid technologies-India (ISGT India-1). IEEE, Kollam, India, 1- Dec 2011, pp 268-73
[12]Huang H, Li FX (2015) Bidding strategy for wind generation considering conventional generation and transmission constraints. J Mod Power Syst Clean Energy 3(1):51-2CrossRef
[13]Gonzalez Vaya M, Andersson G (2013) Optimal bidding strategy of a plug-in electric vehicle aggregator in day-ahead electricity markets. In: Proceedings of the 10th international conference on European energy market (EEM-3). IEEE, Stockholm, Sweden, 27-1 May 2013, pp 1-
[14]Venkatesan N, Solanki J, Solanki SK (2011) Market optimization for microgrid with demand response model. In: Proceedings of the North American power symposium (NAPS-1). IEEE, Boston, MA, USA, 4- Aug 2011, pp 1-
[15]Palizban O, Kauhaniemi K, Guerrero JM (2014) Microgrids in active network management—Part I: hierarchical control, energy storage, virtual power plants, and market participation. Renew Sustain Energy Rev 36:428-39CrossRef
[16]Mashhour E, Moghaddas-Tafreshi SM (2011) Bidding strategy of virtual power plant for participating in energy and spinning reserve markets—Part I: problem formulation. IEEE Trans Power Syst 26(2):949-56CrossRef
[17]Foster JM, Caramanis MC (2010) Energy reserves and clearing in stochastic power markets: the case of plug-in-hybrid electric vehicle battery charging. In: Proceedings of the 49th IEEE conference on decision and control (CDC-0). IEEE, Atlanta, GA, USA, 15-7 Dec 2010, pp 1037-044
[18]Zhang SQ, Mishra Y, Ledwich G et al (2013) The operating schedule for battery energy storage companies in electricity market. J Mod Power Syst Clean Energy 1(3):275-84CrossRef
[19]Wang JX, Wang XF, Wu Y (2005) Operating reserve model in the power market. IEEE Trans Power Syst 20(1):223-29CrossRef
[20]Yu CW, Zhao XS, Wen FS et al (2005) Pricing and procurement of operating reserves in competitive pool-based electricity markets. Electr Power Syst Res 73(1):37-3CrossRef
[21]Ma L, Wen FS, Ni YX et al (2003) Optimal bidding strategies for generation companies in electricity markets with transmission capacity constraints taken into account. In: Proceedings of the 2003 IEEE Power Engineering Society general meeting, vol 4. IEEE, Toronto, Canada, 13-7 July 2003, p 4 - 作者单位:Yao JIN (1)
Zhengyu WANG (1)
Chuanwen JIANG (1)
Yu ZHANG (2)
1. School of Electronic Information and Electrical Engineering, Shanghai Jiao Tong University, Shanghai, 200240, China
2. Guizhou Power Grid Corporation Power Grid Planning & Research Center, Guiyang, 550002, China - 刊物主题:Energy Systems; Renewable and Green Energy; Power Electronics, Electrical Machines and Networks;
- 出版者:Springer Berlin Heidelberg
- ISSN:2196-5420
文摘
The active distribution network (ADN) is able to manage distributed generators (DGs), active loads and storage facilities actively. It is also capable of purchasing electricity from main grid and providing ancillary services through a flexible dispatching mode. A competitive market environment is beneficial for the exploration of ADN’s activeness in optimizing dispatch and bidding strategy. In a bilateral electricity market, the decision variables such as bid volume and price can influence the market clearing price (MCP). The MCP can also have impacts on the dispatch strategy of ADN at the same time. This paper proposes a bi-level coordinate dispatch model with fully consideration of the information interaction between main grid and ADN. Simulation results on a typical ADN validate the feasibility of the proposed method. A balanced proportion between energy market and ancillary services market can be achieved. Keywords Active distribution network (ADN) Energy market Ancillary services market Optimal dispatch Bidding Strategy