Year : 2024 | Volume :01 | Issue : 02 | Page : 8-13

K. Durga Syam Prasad,

K. Sravanthi,

Associate Professor Department of Electrical and Electronics Engineering, Vignan’s Institute of Engineering for women, Viskhapatnam Andhra Pradesh India
Research Scholar Department of Electrical and Electronics Engineering, Vignan’s Institute of Engineering for women, Viskhapatnam Andhra Pradesh India

Abstract

This study presents the use of the sliding mode control approach for power systems load frequency regulation. A sliding mode load frequency controller is part of a two-area power system. Both reheat and non-reheat. These two regions each have a distribution of thermal turbines. Nonlinearities such as governor dead region and production rate limitations are included in the block diagram of a power plant model. Our control objective is to manage the power system’s load frequency inaccuracy when various load variations and parameter variations occur. The sliding mode controller (SMC) is modelled using a two-area integrated power system with nonlinearities. The sliding mode controller’s robustness is demonstrated by these simulation findings. Furthermore, it demonstrates how tie line power errors and frequency mistakes converge to zero. Sliding mode controller performance is contrasted with fuzzy, PID, and traditional PI controllers. These comparisons demonstrate that SMC outperforms the other controllers in terms of effectiveness and insensitivity to parameter changes.

Keywords: Load frequency control, sliding mode controller, Governor dead band, generation rate constant.

[This article belongs to International Journal of Advanced Control and System Engineering(ijacse)]

How to cite this article: K. Durga Syam Prasad, K. Sravanthi. Sliding Mode Controller-based Load Frequency Regulation for a Two-area Interrelated Power System. International Journal of Advanced Control and System Engineering. 2024; 01(02):8-13.

How to cite this URL: K. Durga Syam Prasad, K. Sravanthi. Sliding Mode Controller-based Load Frequency Regulation for a Two-area Interrelated Power System. International Journal of Advanced Control and System Engineering. 2024; 01(02):8-13. Available from: https://journals.stmjournals.com/ijacse/article=2024/view=157570

References

Kumar A, Anwar MN, Kumar S. Sliding mode controller design for frequency regulation in an interconnected power system. Protection and Control of Modern Power Systems. 2021 Jan;6(1): 1–2.
I. Utkin, “Variable structure systems with sliding modes”, IEEE Transactions on Automatic Control, vol. 22, pp. 212–222, 1977.
Huynh VV, Tran PT, Minh BL, Tran AT, Tuan DH, Nguyen TM, Vu PT. New second-order sliding mode control design for load frequency control of a power system. Energies. 2020 Dec 9;13(24):6509.
Stojkovic, An original approach for load-frequency control—the winning solution in the second UCTE synchronous zone, Electric Power Systems Research 69 (1) (2004) 59–68.
Kothari, and I. Nagrath, Power System Engineering, 2nd edition, New York: McGRAW-Hill, 2008.
Rebours, D. Kirschen, M. Trotignon, S. Rossignol, A survey of frequency and voltage control ancillary services—Part I: Technical features, IEEE Transactions on Power Systems 22 (1) (2007) 350–357.
Iracleous, A. Alexandridis, A multi-task automatic generation control for power regulation, Electric Power Systems Research 73 (3) (2005) 275–285.
Bevrani, T. Hiyama, Robust decentralised PI based LFC design for time delay power systems, Energy Conversion and Management 49 (2) (2008) 193–204.
Frunt, A. Jokic, W. Kling, J. Myrzik, P. van den Bosch, Provision of ancillary services for balance management in autonomous networks, in: Proceedings of the 5th International Conference on European Electricity Market, EEM 2008, 2008, pp. 1–6.
Cam, Application of fuzzy logic for load frequency control of hydro-electrical power plants, Energy Conversion and Management 48 (4) (2007) 1281–1288.
Lee, J. Park, Y. Joo, Robust load-frequency control for uncertain nonlinear power systems: a fuzzy logic approach, Information Sciences 176 (23) (2006) 3520–3537.
Atic, A. Feliachi, D. Rerkpreedapong, CPS1 and CPS2 compliant wedge-shaped model predictive load frequency control, in: Proceedings of the 2004 IEEE Power Engineering Society General Meeting, 2004, pp. 855–860.
Oysal, A.S. Yilmaz, E. Koklukaya, A dynamic wavelet network-based load frequency control in power systems, International Journal of Electrical Power & Energy Systems 27 (1) (2005) 21–29.

Regular Issue Subscription Original Research

International Journal of Advanced Control and System Engineering

Volume	01
Issue	02
Received	March 20, 2024
Accepted	April 17, 2024
Published	April 22, 2024

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