Impact of FACTS devices on exercising market power in deregulated electricity market

doi:10.1007/s11708-013-0262-x

Frontiers in Energy

2013, Vol. 7

Issue (4): 448-455 https://doi.org/10.1007/s11708-013-0262-x

RESEARCH ARTICLE

本期目录

Impact of FACTS devices on exercising market power in deregulated electricity market

Shanmugam PRABHAKAR KARTHIKEYAN¹(

), I. JACOB RAGLEND², D. P. KOTHARI³

1. School of Electrical Engineering, VIT University, Vellore 632014, India; 2. School of Electrical Sciences, Noorul Islam University, Thakkalai, Nagercoil 629180, India; 3. Raisoni Group of Institutions, Nagpur 440001, India

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Abstract：

In power system studies, congestion in transmission lines and utilization of flexible alternating current transmission system (FACTS) devices are closely associated. These devices are very important due to their role in power delivery system enhancement. It is to be noted that the generation companies can exercise their market power which depends on the line flows, line constraints, generators’ location and its share to the individual loads. This issue cannot be overlooked as it creates monopoliness which is against the deregulated market policy. The objective of this paper is to study the impact of market power when FACTS devices like thyristor controlled switching capacitor (TCSC) and thyristor controlled phase angle regulator (TCPAR) are used under steady state operation. The market power is determined using nodal must-run share (NMRS) index for the standard IEEE 14-bus system with and without the above FACTS devices and the results obtained are compared. All the above simulations are conducted in a MATLAB 7.9-R2009b environment.

Key words： flexible alternating current transmission system (FACTS) thyristor controlled switching capacitor (TCSC) thyristor controlled phase angle regulator (TCPAR) market power must-run generation (MRG) nodal must-run share (NMRS)

收稿日期: 2012-11-19 出版日期: 2013-12-05

Corresponding Author(s): PRABHAKAR KARTHIKEYAN Shanmugam,Email:spk25in@yahoo.co.in

引用本文:

. Impact of FACTS devices on exercising market power in deregulated electricity market[J]. Frontiers in Energy, 2013, 7(4): 448-455.
Shanmugam PRABHAKAR KARTHIKEYAN, I. JACOB RAGLEND, D. P. KOTHARI. Impact of FACTS devices on exercising market power in deregulated electricity market. Front Energ, 2013, 7(4): 448-455.

链接本文:

https://academic.hep.com.cn/fie/CN/10.1007/s11708-013-0262-x
https://academic.hep.com.cn/fie/CN/Y2013/V7/I4/448

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1	Hingorani N G, Gyugyi L. Understanding FACTS: Concepts and Technology of Flexible AC Transmission Systems. Wiley-IEEE Press , 1999
2	Singh S N, David A K. Optimal location of FACTS devices for congestion management. Electric Power Systems Research , 2001, 58(2): 71-79
3	Ejebe G C, Wollenberg B F. Automatic contingency selection. IEEE Transactions on Power Apparatus and Systems , 1979, PAS-98(1): 97-109
4	Preedavichit P, Srivastava S C. Optimal reactive power dispatch considering FACTS devices. Electric Power Systems Research , 1998, 46(3): 251-257
5	Wu G, Yokoyama A, He J, Yu Y. Allocation and control of FACTS devices for steady-state stability enhancement of large scale power system. In: Proceedings of IEEE International Conference on Power System Technology . Beijing, China, 1998, 357-361
6	Martins N, Lima L T G. Determination of suitable locations for power system stabilizers and static var compensators for damping electromechanical oscillations in large scale power systems. IEEE Transactions on Power Systems , 1990, 5(4): 1455-1469
7	Okamoto H, Kurita A, Sekine Y. A method for identification of effective locations of variable impedance apparatus on enhancement of steady-state stability in large scale power systems. IEEE Transactions on Power Systems , 1995, 10(3): 1401-1407
8	Rajarman R, Alvarado F, Maniaci A, Camfield R, Jalali S. Determination of location and amount of series compensation to increase power transfer capability. IEEE Transactions on Power Systems , 1998, 13(2): 294-300
9	Paterni P, Vitet S, Bena M, Yokoyama A. Optimal location of phase shifters in the French network by genetic algorithm. IEEE Transactions on Power Systems , 1999, 14(1): 37-42
10	Lie T, Deng W. Optimal flexible AC transmission systems (FACTS) devices allocation. International Journal of Electrical Power & Energy Systems , 1997, 19(2): 125-134
11	De Oliveira E J, Lima J W M. Allocation of FACTS devices in a competitive environment. In: Proceedings of the 13th Power Systems Computation Conference . Trondheim, Norway, 1999, 1184 -1190
12	Kothari D P, Nagrath I J. Modern Power System Analysis. 3rd ed. New Delhi: Tata McGraw-Hill Education, 2003
13	Shahidehpour M, Alomoush M. Restructured Electrical Power Systems: Operation, Trading and Volatility. New York: Marcel Dekker Inc, 2001
14	Lai L L. Power System Restructuring and Deregulation: Trading, Performance and Information Technology. John Wiley & Sons, Ltd, 2001
15	Singh S N, David A K. Placement of FACTS Devices in open power market. In: Proceedings of the 5th International Conference on Advances in Power System Control, Operation and Management . Hong Kong, 2000, 173-177
16	WangP, XiaoY, DingY. Nodal market power assessment in electricity markets. IEEE Transactions on Power Systems , 2004, 19(3)

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