Modern Control of a Power Supply Based on a Matrix Converter for Water Disinfection by UVC Radiation

Aissa Bokhtachte Aıcha; Latroche Maamar; Toualbia Asma; Djafer Lemya; Benallou Maamar

doi:10.55549/epstem.1412513

Conference Paper

Modern Control of a Power Supply Based on a Matrix Converter for Water Disinfection by UVC Radiation

Year 2023, Volume: 26, 733 - 740, 30.12.2023

Aissa Bokhtachte Aıcha Latroche Maamar Toualbia Asma Djafer Lemya Benallou Maamar

https://doi.org/10.55549/epstem.1412513

Abstract

Water, an essential resource, has been facing gradual deterioration in quality over an extended period. Water treatment has emerged as a critical concern, with a long-standing acknowledgment of the importance of preserving and appreciating this precious resource. UV-C technology has proven to be an ideal solution that effectively addresses these twin needs. The core principle of UV bactericidal treatment revolves around generating ultraviolet rays within a treatment chamber filled with water. Consequently, ensuring a dependable power source for low-pressure mercury-argon discharge lamps has become imperative to guarantee the efficiency of UV-C disinfection.The primary goal of this study is to supply our discharge lamp with a current source that produces a sinusoidal current at its output, featuring a frequency of 50 kHz and an effective value of 0.65 A. Electronic ballasts enable lamps to enhance radiation quality by operating at high frequencies, and the selection of a power supply is a response to this specific challenge.The aim of this research centers on the utilization of a single-phase matrix converter. The bidirectional switching cells within this converter offer frequency-related advantages. To achieve the desired magnitude and frequency, we employed a PWM control strategy. Subsequently, we implemented a linear current adjustment approach using two controllers: a Proportional-Integral (PI) controller and a Generalized Predictive Control (GPC) in the RST polynomial form. This was done to ensure a high-quality current source with the desired waveform and low Total Harmonic Distortion (THD).The research outcomes have led to environmental simulations conducted using Matlab/Simpower system and Matlab/Simulink.

Keywords

Disinfection, UV-C Lamp, Electronic ballast, Matrix converter, Predictive control (GPC)

References

Abrous, A. (2008). Modélisation, commande et réalisation d’un convertisseur matriciel. (Master’sThesis). ENP.
Aissa Bokhtache, A., Zegaoui, A., Kellal, M., Boucherit, M.S., Belmadani, B., & Aillerie, M. (2016). Optimization based on fuzzy logic control of discharge lamp-electronic ballast system for water purification. Electric Power Components and Systems, 44, 1981–1990.
Aissa Bokhtache, A., Zegaoui, A., Belmadani, B., & Bouchrit, M.S. (2015). Water purification by a lamp discharge-electronic ballast system using a full bridge inverter. Energy Procedia, 74, 446–452.

There are 3 citations in total.

Details

Primary Language	English
Subjects	Water Treatment Processes
Journal Section	Articles
Authors	Aissa Bokhtachte Aıcha Latroche Maamar Toualbia Asma Djafer Lemya Benallou Maamar
Early Pub Date	December 31, 2023
Publication Date	December 30, 2023
Published in Issue	Year 2023Volume: 26

Cite

APA	Aıcha, A. B., Maamar, L., Asma, T., Lemya, D., et al. (2023). Modern Control of a Power Supply Based on a Matrix Converter for Water Disinfection by UVC Radiation. The Eurasia Proceedings of Science Technology Engineering and Mathematics, 26, 733-740. https://doi.org/10.55549/epstem.1412513