Influence of the voltage waveform’s shape and on-time duration on the dissolved ozone produced by a DBD bubble reactor Paolo Seri Alexander R.P. Wright Alex Shaw Felipe Iza Hemaka Bandulasena Carlo A. Borghi Gabriele Neretti 2134/36783 https://repository.lboro.ac.uk/articles/journal_contribution/Influence_of_the_voltage_waveform_s_shape_and_on-time_duration_on_the_dissolved_ozone_produced_by_a_DBD_bubble_reactor/9546590 In this study we examine both the effect of changing the applied voltage waveform shape and the modulation on-time on the amount of ozone dissolved within a liquid in a DBD bubble reactor. In this device, the discharge forms at the gas liquid interface allowing for effective transfer of the plasma effluent into the liquid. To produce different voltage waveforms, a multilevel inverter power supply capable of generating arbitrary waveforms without switching-on and switching-off transients has been used. Of the four waveforms used in the study (sinusoidal, sawtooth, square and short-pulse), the square waveform was found to be the most efficient at producing the highest ozone concentration for a fixed peak voltage and average power. To determine the effect of the modulation on-time, the number of cycles during the on-time were increased from 1 up to 1000, adjusting the off-time accordingly to maintain the same duty cycle. Shorter on-time periods were found to be more efficient. Experimental and computational results indicate that the time between subsequent discharges is critical for increased ozone generation efficacy, as this needs to be long enough for ozone produced in one discharge event to diffuse away from the discharge region before the next discharge event occurs, thereby avoiding its partial destruction in the plasma. This insight provides a valuable criterion for the optimization of DBD reactors used in novel biomedical, agricultural and environmental applications. 2019-02-05 12:01:10 untagged Mechanical Engineering not elsewhere classified