OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

电工技术学报 2010

基于电气剖分方法的TCSC成本费用分摊

, PP. 137-143

吴英俊,汤奕,李扬

Keywords: 阻塞管理,可控串补（TCSC）,成本费用分摊,电气剖分

Full-Text Cite this paper Add to My Lib

Abstract:

FACTS装置能有效消除或缓解电力网络阻塞现象,合理有效的成本回收机制的制定能够保证和激励FACTS装置的安装使用。本文基于“论责”原则,提出了一种新的按照源流各方造成阻塞的定量责任大小进行FACTS成本分摊的方法。利用电气剖分方法定量分析输电线路阻塞的成因,并给出相关源流承担阻塞责任的份额关系。在此基础上,将FACTS成本费用根据交易参与者的定量阻塞责任大小进行分摊。最后用改进的IEEE30节点算例对该方法进行了验证,算例结果表明,所提方法能够合理有效地回收FACTS装置的成本。

References

[1]	Verma K S, Sigh S N, Gupta H O. Location of unified power flow controller for congestion management[J]. Electric Power Systems Research, 2001, 58 (7): 89-96.
[2]	Singh S N, David A K. Congestion management by optimizing FACTS device allocation[C]. Proc. of International Conference on Electric Utility Deregu- lation & Restructuring and Power Technologies, London, UK, 2000: 23-28.
[3]	于继来, 柳焯. 电力系统潮流计算中广义潮流控制器(GPFC) 的统一分析[J]. 电力系统自动化, 1994, 18(12): 12-18.
[4]	Gerbex S, Cherkaoui R, Germond J. Optimal location of multi-type FACTS devices in a power system by means of genetic algorithms[J]. IEEE Transactions on Power Systems, 2001, 16(3): 537-544.
[5]	Galiana G D, Almeida K, Toussaint M, et al. Assessment and control of the impact of FACTS devices on power system performance[J]. IEEE Trans. on Power Systems, 1996, 11(4):1931-1936.
[6]	Renz B A, Mehraban A S, Schauder C, et al. AEP unified power flow controller performance[J]. IEEE Trans. on Power Delivery, 1999, 14(4): 1374-1381.
[7]	于继来, 汤奕. 交流支路和节点的联合电气剖分[J]. 中国电机工程学报, 2007, 27(16): 37-42.
[8]	Tang Y, Yu J L, Liu X L. An electrical dissecting method of AC branch with FACTS for ancillary service assessment[C]. International Conference of Power Con., Singapore, 2004(1): 317-321.
[9]	Tang Y, Yu J L. A new dissecting method for AC power system[C]. International Conference of Future Power System, 2005(16-18):1-6.
[10]	Srivastava S C, Kumar P. Optimal power dispatch in deregulated market considering congestion management[C]. Proceedings of the 2000 International Conference on Electric Utility Deregulation and Restructuring and Power Technologies, London, UK, 2000: 53-59.
[11]	Singh S N, David A K. Optimal location of FACTS device for congestion[J]. Electric Power System Research, 2001, 58(7): 71-80.
[12]	Mithulananthan N, Acharya N. A proposal for investment recovery of FACTS devices in deregulated electricity markets[J]. Science Direct, Electric Power Research, 2007, 77: 695-703.
[13]	Lie T T, Hui H. Optimal dispatch in pool market with FACTS device[C]. IEEE Power Engineering Society General Meeting, Denver, Colorado, 2004: 135-140.
[14]	Habur K, O’Leans D. FACTS-flexible alternating current transmission system: for cost effective and reliable transmission of electrical energy, available[OL]. http://www.worldbank. org/html/fpd/em/transmission/ facts_ siemens. pdf.
[15]	Cai L J, Erlich I, Stamtsis G. Optimal choice and allocation of FACTS devices using genetic algorithms[C]. Power Systems Conference and Exposition, 2004(1):201-207.
[16]	汤奕, 万秋兰, 于继来. 基于电气剖分方法的阻塞分析与调控[J]. 电工技术学报, 2007, 22(11): 146-153.
[17]	汤奕, 于继来, 周苏荃. 电力网络源流路径电气剖分算法[J]. 电力系统自动化, 2006, 30(22): 28-33.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133