Study on the effectiveness of an air treatment tool that combines filtration and photocatalysis

Simone Pescarolo, Dario Russignaga, Luca Maria D’apuzzo, Matteo Nazzario, Irene Borgini, Sara Beneventi, Giorgio Gilli
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Abstract

The microbiological quality of air in working environments is a very current topic. This study aims to evaluate the effectiveness of a machine equipped with EPA filters and photocatalytic activity. This type of treatment combines a physical action with a chemical activity. The latter occurs thanks to the production of reactive oxygen species (ROS), responsible for a marked bactericidal activity. The search for new sanitization techniques pushes companies to invest to improve the quality of work of their employees. Many tools are sold on the market, but it is important to check their actual effectiveness. Monitoring the activity of air treatments is always very complex, due to the variability and heterogeneity of airborne microorganisms. This study was conducted in a typical working environment, to better simulate normal conditions of use. To avoid potentially pathogenic contamination, microorganisms typically recountable in the air matrix were not used, but the species of bacteria Lactococcus lactis was used. These microorganisms are also naturally present in the outdoor environment and represent a population of bacteria that could potentially cause indoor air pollution. The results confirm the effectiveness of this type of treatment. It was not possible to determine the impact of the catalytic feature installed.
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过滤与光催化相结合的空气处理工具的有效性研究
工作环境中空气的微生物质量是一个非常热门的话题。本研究旨在评估配备EPA过滤器的机器的有效性和光催化活性。这种处理方法结合了物理作用和化学作用。后者的发生要归功于活性氧(ROS)的产生,活性氧具有显著的杀菌活性。寻找新的消毒技术促使公司投资提高员工的工作质量。市场上有很多工具出售,但检查它们的实际效果很重要。由于空气中微生物的可变性和异质性,监测空气处理的活动总是非常复杂的。本研究是在典型的工作环境中进行的,以更好地模拟正常的使用条件。为了避免潜在的致病性污染,没有使用空气基质中通常可计数的微生物,而是使用乳酸乳球菌细菌。这些微生物也自然存在于室外环境中,代表了一群可能导致室内空气污染的细菌。结果证实了这种治疗方法的有效性。不可能确定所安装的催化功能的影响。
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