配备紫外线灯的机器人消毒活动的有效性研究

Dario Russignaga, Luca Maria D’apuzzo, Matteo Nazzario, Irene Borgini, Simone Pescarolo, Giorgio Gilli
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引用次数: 0

摘要

对个人健康的日益关注迫使人们大力加快研究和开发新技术,以减少微生物成分。新型冠状病毒(SARS-CoV-2)大流行为这一方向提供了更大动力。在大型和繁忙的环境中,必须实施现有的空气净化和表面清洁技术,以尽可能地减少微生物的浓度:为了减少空气中的细菌负荷,使用物理方法(例如,高效微粒过滤器),而对于表面,通常使用不同成分的化学品(洗涤剂和杀菌剂)。事实证明,使用紫外线辐射是一种非常可行的替代方法。紫外线灯与自动化系统的结合使用可以持续服务,以防止微生物种群的扩散。本文报道的研究旨在验证ARIS-K2机器人产生的杀菌作用的特征。该专用机器配备6个UV-C水银灯,发射波长值为253.7 nm的电磁辐射。紫外光根据波长分为三类:UV-A(315-400纳米)、UV-B(280-315纳米)和UV-C(100-280纳米)。紫外线- c辐射被证明具有最大的杀微生物效果。所进行的研究分析了分布在距离机器人不同距离和存在障碍物的表面上的细菌种群的存活率。考虑菌落所受的剂量-暴露时间关系,对结果进行了分析。
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Study on the effectiveness of the sanitization activity of a robot equipped with UV lamps
The increasing focus on the health of individuals has forced a strong acceleration on research and development of new technologies to abate the microbiological component. The pandemic generated by the spread of the SARS-CoV-2 virus has imparted an even greater impetus in this direction. In large and busy environments, it is essential to implement existing air purification and surface cleaning techniques, to reduce the concentrations of microorganisms present as much as possible: for the abatement of airborne bacterial loads, physical methods (e.g., HEPA filters) are used, while, for surfaces, chemicals of different compositions (detergents and bactericides) are often used. The use of ultraviolet radiation is proving to be a very viable alternative for this purpose. The use of UV lamps coupled with automated systems allow constant service to prevent the spread of microbiological populations. The study reported here aims to verify the features of the bactericidal action produced by the ARIS-K2 robot. This specific machine is equipped with 6 UV-C mercury lamps, which emit electromagnetic radiation at a wavelength value of 253.7 nm. Ultraviolet light is divided into three categories, depending on the wavelength: UV-A (315-400 nm), UV-B (280-315 nm) and UV-C (100-280 nm). UV-C radiation is demonstrated to have the greatest microbicidal effect. The conducted study analyzes the survival of bacterial populations distributed on surfaces at varying distances from the robot and in the presence of obstacles. The results were also analyzed considering the dose-exposure time relationship to which the colonies were subjected.
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