Abstract
Designing of Single Switching DBD Ozone Generator. (Dept. E)
Highlights
RECENTLY, ozone (O3) is known as a strong oxidizer agents
Experimental studies regarding the construction of the ozone generator such as electrode arrangements[6,7,8,9,10], dielectric material [11], chamber geometry[12,13,14,15,16,17], power source construction [18,19,20], gas type [11], feed gas flow rate and operation pressure [21] have been extensively studied to obtain an optimal level discharge conditions for highthroughput ozone production
The internal cylinder is treated as copper positive electrode that is coated with teflon as a dielectric material
Summary
RECENTLY, ozone (O3) is known as a strong oxidizer agents. It is increasingly being used in home and industrial applications, including disinfection, deodorization, and food pretreatment, washing system, ground water treatment, bleaching from paper pulp, swimming pool water treatment [1,2,3]. In this figure, the internal cylinder is treated as copper positive electrode that is coated with teflon as a dielectric material. In this figure, the control circuit block is responsible for generating the pulse width modulation (PWM) signal. The entire equivalent circuit requires determination of both of the HVHF transformer and DBD ozone chamber parameters. All these parameters have been extracted and verified practically. This paper will be organized as follows: section 2 illustrates circuit diagram of PWM module and discusses HVHF and DBD ozone chamber parameter values.
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