DocumentCode
2766127
Title
Efficient ozone generator using full-bridge inverter and its performance evaluations
Author
Akbari, M. ; Zahedzadeh, V. ; Shirmohammadzadeh, S. ; Chitsaz, J. ; Chitsaz, M.
Author_Institution
Electrostatics Group, Tabriz Eng. Res. Center, Iran
Volume
2
fYear
2003
fDate
17-20 Nov. 2003
Firstpage
1182
Abstract
Ozone utilizing technologies and its applications are spreading very rapidly. This paper presents a switched mode power supply designed for such type of load. The voltage source that is a full bridge inverter developed for driving a silent discharge type high frequency ozone generation tube. Developed inverter type ozone generator system has high performance, such as power and frequency tuning, industrializes production and so on. The state-of-the art ozone generator using a voltage fed type high frequency inverter is investigated and its operating principle is considered for driving ozone-generating tube. The full bridge inverter uses MOSFET transistor switches that its frequency can be varied between 3 kHz and 30 kHz, and high voltage ferrite-core transformer, which is isolated by silicone oil and PTFE material, increases its magnitude. The power consumption and power factor of the ozone generation tube are measured on the low voltage side of the transformer that includes the transformer loss. The measured parameters can be used to achieve to the optimal production point, in the constant feed flow oxygen, cell length and cell pressure along with ozone production quantity. Developed scheme has proved high performance for ozone generation system by experiment and it is under implementation.
Keywords
ferrite devices; field effect transistor switches; invertors; ozone; polymers; potential transformers; power consumption; switched mode power supplies; transformer oil; 3 to 30 kHz; MOSFET transistor switches; PTFE material; cell length; cell pressure; constant feed flow oxygen; frequency tuning; full-bridge inverter; high voltage ferrite-core transformer; industrializes production; optimal production point; ozone generation tube; power consumption; power factor; power tuning; silent discharge; silicone oil; switched mode power supply; Bridge circuits; Electron tubes; Fault location; Frequency; Inverters; Oil insulation; Power generation; Production; Switched-mode power supply; Voltage;
fLanguage
English
Publisher
ieee
Conference_Titel
Power Electronics and Drive Systems, 2003. PEDS 2003. The Fifth International Conference on
Print_ISBN
0-7803-7885-7
Type
conf
DOI
10.1109/PEDS.2003.1283144
Filename
1283144
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