Cold Non-Equilibrium Plasma As A Tool For Air Disinfection And Destruction Of Biological Objects

Current Biotechnology Pub Date : 2023-07-18 DOI:10.2174/2211550112666230718162643

A. Ponizovskiy, Alexander V. Plochov

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Abstract

The paper presents the results of experiments on the purification of air contaminated with S. aureus, as well as the destruction of yeast under the action of cold nonequilibrium plasma of a nanosecond streamer corona discharge. It is shown that plasma is an effective means for destroying both bacteria in the air and biological objects on the surface. The main parameters of the nanosecond streamer corona discharge and their relationship with the operating time of the active plasma components were determined. It was experimentally established that the inactivation time of 80% of S. aureus bacteria with a concentration of 2.1∙104 KOE m-3 was 0.4 s with a specific energy of 28 J∙l-1. The results of measurements of the dependence of the yeast destruction degree on the yeast size, the time of direct exposure to the nanosecond streamer corona discharge, active elements of cold nonequilibrium plasma, and third-party ultraviolet radiation are presented. A comparison of the results of air disinfection experiments with data on yeast destruction shows that the latter can be used for rapid analysis of the effects of low-temperature plasma on other biological objects.

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冷非平衡等离子体作为空气消毒和生物物体破坏的工具

本文介绍了纳秒流光电晕放电冷非平衡等离子体对金黄色葡萄球菌污染空气的净化和对酵母的破坏实验结果。结果表明，等离子体是一种既能杀灭空气中的细菌又能杀灭表面生物的有效手段。确定了纳秒流光电晕放电的主要参数及其与活性等离子体组分工作时间的关系。实验证实，80%的金黄色葡萄球菌在2.1∙104 KOE m-3浓度下失活时间为0.4 s，比能为28 J∙l-1。给出了酵母破坏程度与酵母大小、直接暴露于纳秒流光电晕放电时间、冷非平衡等离子体活性元素和第三方紫外线辐射的关系的测量结果。空气消毒实验结果与酵母破坏数据的比较表明，后者可用于低温等离子体对其他生物物体的影响的快速分析。

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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Current Biotechnology

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