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Power Quality Improvement using Ant Colony Optimized Pi Controller for Shunt Active Power Filter

B. Chiranjeev Rao*, Vishnu Sahu**, Rishi Kant Garg***

*-*** Department of Electrical Engineering, Shri Shankaracharya Technical Campus, Bhilai, Chhattisgarh, India.

Periodicity:August - October'2021
DOI : https://doi.org/10.26634/jps.9.3.16916

Abstract

Currently, electrical loads used by various consumers are non-linear in nature such as industrial, residential and commercial loads. All these nonlinear loads require harmonic current for their operation and the power quality of the electrical system decreases due to variation or distortion in the harmonic components of the load current. Efficiency of the power system network also gets reduced due to same harmonic component of line current. Basically, an active power shunt filter produces a harmonic current that is the same as a non-linear load, but in opposite phase. Proposed work is focused on the reduction of Total Harmonic Distortion (THD). In this work, simulation of Shunt Active Power Filter (SAPF) is done under different load conditions. Proportional Integral (PI) controller is the main block of the whole model. In order to determine the gain values of the PI block, optimization algorithm such as Ant Colony Optimization (ACO) algorithm and Genetic Algorithm (GA) are used. In this paper, comparative study for obtaining the Kp and Ki values of PI controller is explained using ACO and GA optimization. This work shows the effectiveness of the ACO algorithm to obtain the best values of Kp and Ki that leads to the minimum possible total harmonic distortion. This paper demonstrates the application of the proposed method for harmonic elimination under different load conditions simulated using MATLAB.

Keywords

Shunt Active Power Filter (SAPF), PI Controller, Power Quality, Ant Colony Algorithm (ACO), Genetic Algorithm (GA).

How to Cite this Article?

Rao, B. C., Sahu, V., and Garg, R. K. (2021). Power Quality Improvement using Ant Colony Optimized Pi Controller for Shunt Active Power Filter. i-manager’s Journal on Power Systems Engineering, 9(3), 12-19. https://doi.org/10.26634/jps.9.3.16916

References

[1]. Ali, I., Sharma, V., & Chhawchharia, P. (2016). Control techniques for active power filter for harmonic elimination & power quality improvement. International Journal of Electrical, Electronics and Data Communication, 4(10), 2320-2064.

[2]. Lada, M. Y., Mohamad, S. S., Gani, J. A. M., Nawawi, M. R. M., & Kim, G. C. (2016, November). Reduction of harmonic using single phase shunt active power filter based on instantaneous power theory for cascaded multilevel inverter. In 2016, IEEE International Conference on Power and Energy (PECon) (pp. 702-706). IEEE. https:// doi.org/10.1109/PECON.2016.7951650

[3]. Mukherjee, S., Saxena, N., & Sharma, A. K. (2014). Power System Harmonic Reduction using Shunt Active Filter. International Journal of Research in Engineering and Technology, 3(4), 935-939. https://doi.org/10.15623/ijret. 2014.0304166

[4]. Najiya, C. K., Krishnakumari, T., & George, S. (2017). Shunt Active Power Filter based on SRF Theory and Hysterisis band current controller under different load conditions. IOSR Journal of Electrical and Electronics Engineering (IOSR-JEEE), 20-26.

[5]. Panchbhai, A., Parmar, S., & Prajapati, N. (2017, March). Shunt active filter for harmonic and reactive power compensation using pq theory. In 2017, International Conference on Power and Embedded Drive Control (ICPEDC) (pp. 260-264). IEEE. https://doi.org/10.1109/ICPE DC.2017.8081097

[6]. Priyanka, A. S., & Satheesh, A. (2014). Harmonic Compensation and Reactive Power Support Using Ultracapacitor with Shunt Active Filter in Distribution system. IOSR Journal of Electrical and Electronics Engineering, 9(5), 60-65. https://doi.org/10.9790/1676-09536065

[7]. Samal, S., Hota, P. K., & Barik, P. K. (2016, October). Harmonics mitigation by using shunt active power filter under different load condition. In 2016, International Conference on Signal Processing, Communication, Power and Embedded System (SCOPES) (pp. 94-98). IEEE. https://doi.org/10.1109/SCOPES.2016.7955598

[8]. Sebasthirani, K., & Mahalingam, G. (2018). Design of shunt active power filter with fuzzy logic control for mitigating harmonics. Bonfring International Journal of Industrial Engineering and Management Science, 8(2), 26-30.

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Power Quality Improvement using Ant Colony Optimized Pi Controller for Shunt Active Power Filter

Abstract

Keywords

How to Cite this Article?

References

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