Reactive oxygen and nitrogen species (RONS) solubility controlled activation of water by atmospheric pressure air spark discharge

Zhiguo Zhao, Guoqiang Liu, Guofeng Li, Weiyuan Ni, Dongping Liu
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Abstract

Abstract The activation of water by the atmospheric pressure air plasma is involved in the diffusion of reactive oxygen and nitrogen species (RONS) in air and water, their gas-phase and liquid-phase reactions, and their dissolution and evaporation. In this study, by generating the air spark discharge over the surface of water, we have evaluated the chemical and biological reactivities of direct–plasma treatment (DPT) and remote–plasma treatment (RPT) plasma-activated water (PAW) at different water temperatures. We have found that DPT-PAW is much more effective in increasing both the chemical and biological reactivities of PAW than RPT-PAW, and decreasing the water temperature from 40°C to 6°C leads to rapid activation of water. Our analysis shows that when the water temperature varies from 6°C to 40°C, the activation of water by the air discharge is RONS solubility controlled, and the gas-phase and liquid-phase RONS diffusion and chemical reactions are not the controlling steps during the activation of water. The direct plasma treatment of water at a relatively low temperature contributes to an obvious increase in the RONS solubility, thus a rapid activation of DPT-PAW.
活性氧和氮(RONS)溶解度通过大气压空气火花放电控制水的活化
常压空气等离子体对水的活化涉及活性氧和活性氮在空气和水中的扩散、气相和液相反应、溶解和蒸发。在本研究中,我们通过在水面产生空气火花放电,评估了直接等离子体处理(DPT)和远程等离子体处理(RPT)等离子体活化水(PAW)在不同水温下的化学和生物反应性。我们发现DPT-PAW在提高PAW的化学和生物活性方面比RPT-PAW更有效,并且将水温从40°C降低到6°C会导致水的快速活化。我们的分析表明,当水温在6℃~ 40℃范围内变化时,空气排放对水的活化是由RONS溶解度控制的,气相和液相的RONS扩散和化学反应不是水活化过程中的控制步骤。在相对较低的温度下直接等离子体处理水,可以明显提高RONS的溶解度,从而快速激活DPT-PAW。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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