Enhancement of Voltage Stability and Power Oscillation Damping Using Static Synchronous Series Compensator with SMES

 ABSTRACT:  

The power system network is becoming more complex nowadays and it is very difficult to maintain the stability of the power system. The main purpose of this paper proposes a 12-pulse based Static Synchronous Series Compensator (SSSC) with and without Superconducting Magnetic Energy Storage (SMES) for enhancing the voltage stability and power oscillation damping in multi area system.

MATLAB

Control scheme for the chopper circuit of SMES coil is designed. A three area system is taken as test system and the operation of SSSC with and without SMES is analysed for various transient disturbances in MATLAB / SIMULINK environment.

KEYWORDS

Static Synchronous Series Compensator (SSSC)

Superconducting Magnetic Energy Storage (SMES)

Multi area system

Transient disturbances

 SOFTWARE: MATLAB/SIMULINK

 SINGLE LINE DIAGRAM:

 Fig. 1 Single line diagram of the test system with SSSC with SMES

 EXPECTED SIMULATION RESULTS:

Fig. 2.Simulation result of test system

Fig. 3 Power output for Case (a) and (b)

                                                  (a) With fault

 

                                                          (b) Case (a)

                                   (c) Case (b)                     Time (sec)

Fig. 4 Simulation result of Voltage with fault

 Fig. 5 Simulation result for current with fault

Fig, 6 Simulation result for P & Q with fault

 CONCLUSION:

The dynamic performance of the SSSC with and without SMES for the test system are analysed with Matlab/simulink. In this paper SMES with two quadrant chopper control plays an important role in real power exchange.

SSSC

SSSC with and without has been developed to improve transient stability performance of the power system. It is inferred from the results that the SSSC with SMES is very efficient in transient stability enhancement and effective in damping power oscillations and to maintain power flow through transmission lines after the disturbances.

REFERENCES:

[1] S. S. Choi, F. Jiang and G. Shrestha, “Suppression of transmission system oscillations by thyristor controlled series compensation”, IEE Proc., Vol.GTD-143, No.1, 1996, pp 7-12.

[2] M.W. Tsang and D. Sutanto, “Power System Stabiliser using Energy Storage”, 0-7803-5935-6/00 2000, IEEE

[3] Hingorani, N.G., “Role of FACTS in a Deregulated Market,” Proc. IEEE Power Engineering Society Winter Meeting, Seattle, WA, USA, 2006, pp. 1-6.

[4] Molina, M.G. and P. E. Mercado, “Modeling of a Static Synchronous Compensator with Superconducting Magnetic Energy Storage for Applications on Frequency Control”, Proc. VIII SEPOPE, Brasilia, Brazil, 2002, pp. 17-22.

[5] Molina, M.G. and P. E. Mercado, “New Energy Storage Devices for Applications on Frequency Control of the Power System using FACTS Controllers,” Proc. X ERLAC, Iguazú, Argentina, 14.6, 2003, 1-6.

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