探索CaviPlasma中活性氧的动力学及其消毒和降解潜力——以蓝藻和蓝藻毒素为例。

Exploring the dynamics of reactive oxygen species from CaviPlasma and their disinfection and degradation potential - the case of cyanobacteria and cyanotoxins.

作者信息

Odehnalová Klára, Čech Jan, Maršálková Eliška, Sťahel Pavel, Mayer Barbora, Santana Vinicius Tadeu, Rudolf Pavel, Maršálek Blahoslav

机构信息

Department of Experimental Phycology and Ecotoxicology, Institute of Botany, Czech Academy of Sciences, Lidická 25/27, 602 00, Brno, Czech Republic.

Department of Plasma Physics and Technology, Faculty of Science, Masaryk University, Kotlářská 267/2, 611 37, Brno, Czech Republic.

出版信息

Environ Sci Pollut Res Int. 2025 Jan;32(2):849-863. doi: 10.1007/s11356-024-35803-4. Epub 2024 Dec 20.

DOI:10.1007/s11356-024-35803-4

PMID:39702873

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11732865/

Abstract

We investigated the production of highly reactive oxygen species (ROS) in solutions undergoing treatment using CaviPlasma (CP) technology. This technology combines plasma discharge with hydrodynamic cavitation. This study focused on factors such as pH, conductivity, presence of salts and organic matter affecting ROS formation and their stability in solutions. Depending on the used matrix, CP produces 450-580 µg L s of hydrogen peroxide and 1.9 µg L s of hydroxyl radicals dissolved in liquid. Using cyanobacteria and cyanotoxins as example, we proved that CP technology is a highly efficient method for destroying microorganisms and persistent toxins. The biocidal effect of the CP treatment was confirmed on two species of cyanobacteria, Synechococcus elongatus and Merismopedia minutissima. The effectiveness of the technology in degrading microcystins was also demonstrated. The potential of this technology is based on its high energy efficiency, G(HO) ≈ 10 g kWh and G(O) ≈ 0.03 g kWh (in deionised water), realistic applicability with throughput rates (> 1 m h), and comparatively easy scalability system.

摘要

我们研究了在使用CaviPlasma（CP）技术进行处理的溶液中高活性氧物种（ROS）的产生情况。该技术将等离子体放电与水力空化相结合。本研究聚焦于诸如pH值、电导率、盐和有机物的存在等影响ROS形成及其在溶液中稳定性的因素。根据所使用的基质，CP会产生溶解于液体中的450 - 580微克/升·秒的过氧化氢和1.9微克/升·秒的羟基自由基。以蓝细菌和蓝藻毒素为例，我们证明了CP技术是一种高效的破坏微生物和持久性毒素的方法。CP处理对两种蓝细菌，即细长聚球藻和微小色球藻的杀菌效果得到了证实。该技术在降解微囊藻毒素方面的有效性也得到了证明。这项技术的潜力基于其高能效，G(HO) ≈ 10克/千瓦时，G(O) ≈ 0.03克/千瓦时（在去离子水中），具有实际适用性（通量率> 1米/小时），以及相对容易扩展的系统。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e4af/11732865/913e8a36cb45/11356_2024_35803_Fig1_HTML.jpg

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探索CaviPlasma中活性氧的动力学及其消毒和降解潜力——以蓝藻和蓝藻毒素为例。

Exploring the dynamics of reactive oxygen species from CaviPlasma and their disinfection and degradation potential - the case of cyanobacteria and cyanotoxins.

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