High repetitive switching of parallel micro-plasma spark gaps

Lee, B-J; Rahaman, Habibur; Frank, K.; Nam, Sang Hoon

doi:10.1109/ppc.2013.6627572

Cited by 3 publications

(2 citation statements)

References 7 publications

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“…The switches of the PPG in water treatment often have gas switches, semiconductor switches, and magnetic switches. The gas switch is usually spark gap switch that is not only suitable for high power pulses, but also triggered more accurately [30][31][32]. However, it has the disadvantages of complicated design, high cost and short service life.…”

Section: B Switchmentioning

confidence: 99%

Power Electronic Pulse Generators for Water Treatment Application: A Review

Guo

Zheng

Blaabjerg

2020

IEEE Trans. Power Electron.

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Water treatment is one of the most important issues for all walks of life around the world. Different from the conventional water treatment technology, the advanced power electronic pulse technology has unique features and advantages for the modern water treatment. Unfortunately, there is no literature reported to describe them in a comprehensive and systematic way. To fill this gap, an overview of modern power electronic pulse generators (PPGs) for water treatment is presented. This paper, for the first time, classifies the different types of PPGs from the viewpoint of pulse formation. Each of them is discussed, and the advantages and disadvantages are compared and summarized. Aside from that, this paper presents the development and trend of the pulse generators suitable for the specified water treatment processes such as electrolysis, sterilization, and discharge degradation. Finally, a list of more than 100 relevant technical papers is also appended for a quick reference.

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Section: B Switchmentioning

confidence: 99%

Power Electronic Pulse Generators for Water Treatment Application: A Review

Guo

Zheng

Blaabjerg

2020

IEEE Trans. Power Electron.

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“…Currently manufactured spark gaps can operate at voltages up to 150 kV and conduct currents up to 100 kA with an operating frequency of up to 1 kHz. Devices that work with frequencies up to 1 MHz are tested, however, these models operate at much lower values of conducted current, within 1 kA [31].…”

Section: Spark Gapmentioning

confidence: 99%

Opto-Electronics Review

Piwowarski

2020

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Currently, work is underway to manufacture and find potential applications for a photoconductive semiconductor switch made of a semi-insulating material. The article analyzes the literature in terms of parameters and possibilities of using PCSS switches, as well as currently used switches in power and pulse power electronic system. The results of laboratory tests for the prototype model of the GaP-based switch were presented and compared with the PCSS switch parameters from the literature. The operating principle, parameters and application of IGBT transistor, thyristor, opto-thyristor, spark gap and power switch were presented and discussed. An analysis of the possibilities of replacing selected elements by the PCSS switch was carried out, taking into account the pros and cons of the compared devices. The possibility of using the currently made PCSS switch from gallium phosphide was also discussed.

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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

Sun,

Zhang,

et al. 2024

Environmental Research

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High repetitive switching of parallel micro-plasma spark gaps

Cited by 3 publications

References 7 publications

Power Electronic Pulse Generators for Water Treatment Application: A Review

Power Electronic Pulse Generators for Water Treatment Application: A Review

Opto-Electronics Review

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

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