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A solid-state pulse power sub-nanosecond SiC DSRD-based generator with high-voltage and high repetition frequency for pulse discharge water treatment.

Authors :
Sun, Lejia
Zhang, Yu
Zu, Yiyu
Guo, Jingkai
Yin, Haocheng
Song, Qingwen
Tang, Xiaoyan
Source :
Environmental Research. Jul2024:Part 3, Vol. 252, pN.PAG-N.PAG. 1p.
Publication Year :
2024

Abstract

Water treatment is one of the most important issues for all walks of life around the world. The unique advantages of the solid-state power electronic pulses in water treatment make it attractive and promising in practical applications. The output voltage, rising time, repetition rate, and peak power of output pulses have a significant impact on the effectiveness of water treatment. Especially in pulse electric field treatment and pulse discharge treatment, the pulse with fast rising time achieves the advantage of generating plasma without corona, which can avoid water heating effect and greatly improve the efficiency of the pulse generator. High repetition rate can significantly reduce the peak power requirement of the pulse in water treatment application, making the equipment smaller and improving the power density. Therefore, the study developed a high-voltage high frequency sub-nanosecond pulse power generator (PPG) system for wastewater treatment. It adopts SiC DSRD (Drift Step Recovery Diode) solid-state switches and realize modular design, which can achieve high performance and can be flexible expanded according to the requirements of water treatment capacity. Finally, an expandable high-voltage PPG for water treatment is built. The output parameters of the PPG include output pulse voltage range from 1 to 5.28 kV, rise time <600 ps (20%–90%), repetition up to 1 MHz. The experiment results of PPG application for pulse discharge water treatment is presented. The results indicate that the proposed generator achieves high-efficiency degradation of 4-Chlorophenol (4-CP), which is one of the most common chlorophenol compounds in wastewater. From experiment, the homemade system can degrade 450 mL waste water containing 500 mg/L 4-CP in 35 min, with a degradation rate of 98%. Thereby, the requirement for electric field intensity decreased. Through the further quantitative analysis, the impact of frequency, voltage, and electrode spacing on the degradation effect of 4-CP is confirmed. • The paper presents SiC DSRD-based PPG, with high-voltage and repetition frequency. • The modular design of the trigger stage makes PPG obtain a higher output voltage. • The proposed PPG achieves high-efficiency degradation of 4-Chlorophenol. • Confirm the impact of frequency, voltage, electrode spacing on degradation effect. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00139351
Volume :
252
Database :
Academic Search Index
Journal :
Environmental Research
Publication Type :
Academic Journal
Accession number :
177630677
Full Text :
https://doi.org/10.1016/j.envres.2024.119053