Enhancement of Voltage Stability by Using SVC for 30-Bus Power System
https://doi.org/10.24017/science.2019.2.14
Abstract views: 1312 / PDF downloads: 785Abstract
Voltage stability refers to maintaining the value of the voltage in all busses of the electric network at a steady level (initial operating point) during any sudden disturbance. Voltage instability may happen due to an increase in the demand of the load or in case of any change in the reactive power, thus, the system will go into uncontrollable and unstoppable decline in the voltage level. The effect of Static Var Compensator (SVC) on voltage stability is discussed in the paper, as well as the improvement of the voltage profile. Usually, SVC and FACTS devices were used for enhancing the voltage level profile and so the stability. Choosing the optimal location for the FACTS devices is essential due to its expensive costs. This paper used sensitivity factor to helpful to determine the most correct placement of FACTS devices in the system. Simulations are performed on Kurdistan Region 30-bus Power System using MATLAB-PSAT tool. As a result, the voltage of all 30 buses calculated. Based on the “voltage sensitivity factor”, the nominated weak buses has been marked which are suitable for placing the FACTS devices in order to improve the limits of the voltage stability of the system. Moreover, depending on the obtained optimal locations, a full analysis of the voltage and powers for the system has applied in two cases, before and after placing SVC respectively which is result in notable stability improvement and losses reduction.
Keywords:
References
[2] I. Monirul, M. Nadarajah, H. Jahangir, S. Rakibuzzaman, "Dynamic voltage stability of unbalanced distribution system with high penetration of single-phase PV units", The Journal of Engineering. Vol. 2019, No.17, pp. 4074-4080, 2019.
https://doi.org/10.1049/joe.2018.8049
[3] M. Yao, D. K. Molzahn and J. L. Mathieu, "An Optimal Power-Flow Approach to Improve Power System Voltage Stability Using Demand Response," IEEE Transactions on Control of Network Systems, vol. 6, no. 3, pp. 1015-1025, Sept. 2019. doi: 10.1109/TCNS.2019.2910455
https://doi.org/10.1109/TCNS.2019.2910455
[4] N. K. Sharma, A. N. Tiwari, "Prevention of Voltage Instability by Using FACTS Controllers in Power Systems: A Literature Survey", International Journal of Engineering Science and Technology, Vol. 2(5), pp 980-992, 2010.
[5] N. Natasha, M. Sujata, "Voltage Collapse: Causes and Prevention", International Journal of Engineering Research & Technology (IJERT), Vol. 4, No. 2, 2016.
[6] B. Singh, "Applications of FACTs Controllers in Power Systems for Enhance the Power System Stability: A State-of-the-Art", International Journal of Reviews in Computing, Vol. 6, 2011.
[7] N. Mark Ndubuka, "Voltage Stability Improvement using Static Var Compensator in Power Systems", Leonardo Journal of Sciences, Issue 14, p. 167-172, January-June 2009.
[8] K. Naseeb, S. Sajida, "A Survey on Different types of Flexible AC Transmission Systems (FACTS) Controllers", IJEDR | Volume 5, Issue 4, 2017.
[9] K. Rajesh, G. Prashant, Y. Balram, " Survey Paper on IEEE 14-bus System with FACTS Technology", International Journal of Innovative Research in Computer and Communication Engineering, Vol. 5, Issue 10, October 2017.
[10] P. Manan, J. G. Jamnani, "Closed Loop Control and Harmonic Analysis of SVS for Maintaining Voltage Profile of Power System" International Journal of Engineering Research and Development (IJERD) Recent trends in Electrical and Electronics & Communication Engineering (RTEECE 17th - 18th April 2015).
[11] S. Sita, H. Jitendra, K. Ashutosh, "Application of SVC on IEEE 6 Bus System for Optimization of Voltage Stability", Indonesian Journal of Electrical Engineering and Informatics (IJEEI) Vol. 3, No. 1, March 2015.
https://doi.org/10.11591/ijeei.v3i1.127
[12] G. Vijay S., C. Dinesh M., "Power Quality Improvement By Svc Using PIC18F4", International Journal for Research in Applied Science & Engineering Technology (IJRASET), Vol. 5, No. VI, 2017.
[13] S. Reza, I. Khodakhast, H. B. Mohammad, A. M. Navid, "Enhancement of Power System Dynamic Performance using Coordinated Control of FACTS Devices", Indian Journal of Science and Technology, Vol.7, No.10, pp. 1513-1524, 2014.
https://doi.org/10.17485/ijst/2014/v7i10.28
[14] P. Kaibalya, S. Soumyakanta, R. Sreyasee, "Prototype design of power factor correction circuit for transmission lines using Thyristor switched capacitor scheme", World Journal of Modelling and Simulation, Vol. 13, No. 4, pp. 314-321, 2017.
[15] L. Abdelaziz, B. Mohamed, "Optimal Location of SVC for Voltage Security Enhancement using MOPSO", Third International Conference on Electrical Engineering-ICEE'09, 19-21 May, 2009.
[16] A. Pabla, Electric power distribution. New York: McGraw-Hill, 2005.
[17] A. Banga, S. S. Kaushik, "Modeling and Simulation of SVC Controller for Enhancement of Power System Stability," International Journal of Advances in Engineering and Technology, Vol. 1, pp.79-84, 2011.
[18] M. M. Biswas, K. D. Kamol, "Voltage Level Improving by Using Static VAR Compensator," Global Journal of Researches in Engineering, Vol.11, pp.12-18, 2011.
[19] M. Nwohu, "Voltage Stability Improvement using Static Var Compensator in Power Systems", Leonardo Journal of Sciences, Issue 14, pp. 167-17, 2009.
[20] A. J. Conejo, 2011, Load Flow Lecture, University of Castilla - La Mancha.
[21] B. Kessk-N Mehemet, "Continuation Power Flow and Voltage Stability in Power Systems", Master of Science Thesis, Middle East Technical University, September, 2007.
[22] A. Ramasamy, R. Verayiah, H. I. Zainal Abidin, I. Musirin, A. A. Rahim, "Performance of Fast Voltage Stability Index (FVSI) as an indicator for Under Voltage Load Shedding Scheme in a Bulk Power System Network", International Journal of Power, Energy and Artificial Intelligence, No.1, pp 157-165, 2009.
https://doi.org/10.1109/ICEENVIRON.2009.5398666
Downloads
How to Cite
