Characteristics of Ozone Production by Using Atmospheric Surface Glow Barrier Discharge
Keywords:
Ozone, atmospheric surface glow barrier discharge, oxidizer, sterilization of water, wastewater treatmentAbstract
Ozone is a strong oxidizer that can kill bacteria and other micro-organisms very effectively. In the recent years, ozone has become very important for sterilization of water used in shrimp farming and treatment of wastewater from food industry. However, ozonisers available in the markets are very expensive and have low energy-efficiency. In this work, a highly-efficient and low-cost system that can produce high-concentrations of ozone gas and dissolved ozone in water has been developed. The system consists of a dried air unit, high-voltage rf power supply, ozoniser tubes and venturi injector. The tubes are designed and configured to convert oxygen gas to ozone gas by atmospheric surface glow barrier discharge.
Downloads
Metrics
References
MV Selma, A Allende, F Lopez-Galvez, MA Conesa and MI Gil. Disinfection potential of ozone, ultraviolet-C and their combination in wash water for the fresh-cut vegetable industry. Food Microbiol. 2008; 25, 809-14.
MBH Najafi and MHH Khodaparast. Efficacy of ozone to reduce microbial populations in date fruits. Food Control 2009; 20, 27-30.
MAT Alsheyaba and AH Muñozb. Optimisation of ozone production for water and wastewater treatment. Desalination 2007; 217, 1-7.
Z Fang, Y Qiu, Y Sun, H Wang and K Edmund. Experimental study on discharge characteristics and ozone generation of dielectric barrier discharge in a cylinder-cylinder reactor and a wire-cylinder reactor. J. Electrostat. 2008; 66, 421-6.
K Takaki, Y Hatanaka, K Arima, S Mukaigawa and T Fujiwara. Influence of electrode configuration on ozone synthesis and microdischarge property in dielectric barrier discharge reactor. Vacuum 2009; 83, 128-32.
X Lei, Z Rui, L Peng, D Li-Li and Z Ru-Juan. Sterilization of E. coli bacterium with an atmospheric pressure surface barrier discharge. Chin. Phys. 2004; 13, 913-7.
P Baroch, N Saito and O Takai. Special type of plasma dielectric barrier discharge reactor for direct ozonization of water and degradation of organic pollution. J. Phys. D: Appl. Phys. 2008; 41, 1-6.
JD Fortner, DI Kim, AM Boyd, JC Falkner, S Moran, VL Colvin, JB Hughes and JH Kim. Reaction of water-stable C60 aggregates with ozone. Environ. Sci. Technol. 2007; 41, 7497-502.
M Nisoa, D Srinoum and P Kerdthongmee. Development of high voltage high frequency resonant inverter power supply for surface glow barrier discharges. Solid State Phenom. 2005; 107, 81-6.
R Ono and T Oda. Dynamics of ozone and OH radicals generated by pulsed corona discharge in humid-air flow reactor measured by laser spectroscopy. Appl. Phys. 2003; 93, 5876-82.
AA Garamoon, FF Elakshar, AM Nossair and EF Kotp. Experimental study of ozone synthesis. Plasma Sci. Technol. 2002; 11, 254-9.
EE Kunhardt. Generation of large-volume atmospheric-pressure nonequilibrium plasmas. IEEE T. Plasma Sci. 2000; 28, 189-200.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2011 Walailak University
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.