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Journal of Electrical Power & Energy Systems

ISSN Print: 2576-0521 Downloads: 19401 Total View: 258324
Frequency: semi-annually ISSN Online: 2576-053X CODEN: JEPEEG
Email: jepes@hillpublisher.com

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Article http://dx.doi.org/10.26855/jepes.2023.12.006

Novel Single Tuned Harmonic Filter not Affecting Fundamental Power Factor

Gukryol Ji, Sunghyok Kim*, Yongsan Kim, Guisong An

Department of Electrical Engineering, Kim Chaek University of Technology, Pyongyang, Democratic People's Republic of Korea.

*Corresponding author: Sunghyok Kim

Published: January 23,2024

Abstract

In this paper, a novel single-tuned harmonic filter has been proposed, which can remove harmonics with the fundamental power factor unchanged. It can be applied to filter the harmonics made by a load whose fundamental power factor is 1 or capacitive. An example of such loads is a single-phase rectifier with a capacitor. The novel single-tuned harmonic filter has an LC branch whose resonance frequency is the same as the fundamental frequency, thus it does not pass the fundamental current and does not change the fundamental power factor. It has been discussed how to obtain the optimal filtering effect while considering the variation of parameters of the filter elements. Through simulations on the single-phase rectifier with a capacitor, it has been proved that the filter proposed in this paper does not affect the fundamental power factor and decreases the transmission loss by 0.53 times compared to the conventional one while providing the same filtering effect.

References

[1] Ehsan Kazemi-Robati. “Passive Harmonic Filter Planning Considering Daily Load Variations and Distribution System Reconfiguration.” Electric Power Systems Research, 166, 125-135, 2019.

[2] A.A.A. El-Ela, S. Allam, & H. El-Arwash. “An Optimal Design of Single Tuned Filter in Distribution Systems.” Electric Power Systems Research,78, 967-974, 2008.

[3] Gary W. Chang. “A New Method of Passive Harmonic Filter Planning for Controlling Voltage Distortion in a Power System.” IEEE Transactions on Power Delivery, vol. 21, no. 1, pp. 305-312, 2006.

[4] Julio Barros & Enrique Pérez. “An Adaptive Method for Determining the Reference Compensating Current in Single-Phase Shunt Active Power Filters.” IEEE Transactions on Power Delivery, vol. 18, no. 4, pp. 1578-1580, 2003.

[5] Babak Badrzadeh, Kenneth S. Smith, & Roddy C. Wilson. “Designing Passive Harmonic Filters for an Aluminum Smelting Plant.” IEEE Transactions on Industry Applications, vol. 47, no. 2, pp. 973-983, 2011.

[6] Hooman E. Mazin & Wilsun Xu. “Determining the Harmonic Impacts of Multiple Harmonic-Producing Loads.” IEEE Transactions on Power Delivery, vol. 26, no. 2, pp. 1187-1195, 2011.

[7] Zhong Chen & Yingpeng Luo. “Low-Harmonic-Input Three-Phase Rectifier with Passive Auxiliary Circuit: Comparison and Design Consideration.” IEEE Transactions on Industrial Electronics, vol. 58, no. 6, pp. 2265-2273, 2011.

[8] Mohammad Rasol Jannesara, Alireza Sedighi, Mehdi Savaghebi, Amjad Anvari-Moghaddam, & Josep M. Guerrero. “Optimal Probabilistic Planning of Passive Harmonic Filters in Distribution Networks with High Penetration of Photovoltaic Generation.” International Journal of Electrical Power & Energy Systems, 110, 332-348, 2019.

[9] Nor H.B. Abdul Kahar & Ahmed F. Zobaa. “Application of Mixed Integer Distributed and Colony Optimization to the Design of Undamped Single-Tuned Passive Filters Based Harmonics Mitigation.” Swarm and Evolutionary Computation, 44, 187-199, 2019.

How to cite this paper

Novel Single Tuned Harmonic Filter not Affecting Fundamental Power Factor

How to cite this paper: Gukryol Ji, Sunghyok Kim, Yongsan Kim, Guisong An. (2023) Novel Single Tuned Harmonic Filter not Affecting Fundamental Power Factor. Journal of Electrical Power & Energy Systems7(2), 92-101.

DOI: https://dx.doi.org/10.26855/jepes.2023.12.006