Disinfecting Slush Machines by an Innovative Near Ultraviolet Light Emitting Diode (UV LED) Technological System.

IF 1.5 Q3 HEALTH CARE SCIENCES & SERVICES Annali di igiene : medicina preventiva e di comunita Pub Date : 2023-07-01 DOI:10.7416/ai.2022.2550
C Salini, D Amodeo, G Cevenini, N Nante, I De Palma, G Messina
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Abstract

Background: Microbial contamination of food and beverages is a topic of great interest. The most innovative technologies take advantage from UV light. This study aimed to evaluate a possible configuration of a nUV LED device at a wavelength of 405 nm installed on slush machines in order to reduce the microbial contamination.

Study design and methods: Study Design and Methods. The study was conducted in the Department of Molecular and Developmental Medicine, University of Siena, Italy. A nUV LED device with 408 nm wavelength was installed and used on the slush machines. The inner walls of the machine tanks were fouled with contaminated slush, to evaluate the effectiveness of nUV radiation in reducing microbial contamination over time.

Results: Experiment results on the slush machine showed a statistically significant logarithmic microbial reduction, in relation with the distance from the nUV LED light source. It has also been shown that the reduction of microbes is possible with a proper management of some parameters: the exposure time, the power and wavelength of the light source, the distance and the obstacles between the light source and the target to be irradiated.

Conclusion: To reduce the incidence of foodborne diseases it is necessary to take all necessary precautionary measures, and the use of nUV technology has proved to be a crucial element in achieving this goal.

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采用创新的近紫外发光二极管(UV LED)技术系统消毒雪泥机。
背景:食品和饮料的微生物污染是一个备受关注的话题。最具创新性的技术是利用紫外线。本研究旨在评估安装在污泥机上的波长为405 nm的紫外LED器件的可能配置,以减少微生物污染。研究设计与方法:研究设计与方法。这项研究是在意大利锡耶纳大学分子与发育医学系进行的。在熔浆机上安装了408 nm波长的nUV LED器件。机器水箱的内壁被污染的泥浆污染,以评估紫外线辐射在减少微生物污染方面的有效性。结果:在泥机上的实验结果显示,与nUV LED光源的距离有关,微生物数量减少具有统计学意义的对数关系。研究还表明,如果适当地控制一些参数,如曝光时间、光源的功率和波长、光源与被照射目标之间的距离和障碍物,微生物的减少是可能的。结论:为了减少食源性疾病的发生,必须采取一切必要的预防措施,而超低紫外线技术的应用已被证明是实现这一目标的关键因素。
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来源期刊
Annali di igiene : medicina preventiva e di comunita
Annali di igiene : medicina preventiva e di comunita HEALTH CARE SCIENCES & SERVICES-
CiteScore
3.40
自引率
0.00%
发文量
69
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