DELUX: PFF2 / N95口罩抗COVID-19紫外线灭菌装置的研制

IF 0.4 Q4 ENGINEERING, MULTIDISCIPLINARY Ingenius-Revista de Ciencia y Tecnologia Pub Date : 2022-01-01 DOI:10.17163/ings.n27.2022.03

C. B. Lombello, N. Daghastanli, Hermann Windisch Neto, F. Fonseca, F. N. Ambrosio, Raquel Arbex, Isabella Kobb Fernando, Victor Allisson da Silva, Luisa Pataquini dos Santos, Patricia Aparecida da Ana

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引用次数: 0

摘要

由于新型冠状病毒的传播，世界卫生组织于2020年3月11日宣布进入公共卫生大流行状态。由SARS-CoV-2引起的COVID-19具有非常广泛的临床症状，主要是呼吸道症状。卫生专业人员在抗击大流行病方面的作用需要使用个人防护装备。PFF2 / N95口罩是适用于此目的的ppe。由于应对大流行对PFF2 / N95口罩的需求量很大，全球范围内出现了这种个人防护装备的短缺。这项工作旨在介绍一种名为DELUX的设备的特性，该设备用于PFF2 / N95口罩的UVC(紫外线C光谱)灭菌，并允许在紧急情况下延长安全使用这种PPE的时间。该设备的光度验证导致了设备中使用的灯的发射光谱的验证，以及光功率的测量，证明了UVC光照射的充分性，周期为15分钟，并且安全。生物验证结果表明，DELUX能够灭活PFF2 / N95口罩表面存在的SARS-CoV-2，对PFF2 / N95口罩具有良好的杀菌效果。消毒周期提供的安全性可以延长这些口罩的安全使用时间。©2022，巴黎理工大学。版权所有。

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Characterization of DELUX: Ultraviolet light sterilization device for PFF2 / N95 masks against COVID-19

The World Health Organization (WHO) has declared a public health pandemic state due to the trans-mission of the new coronavirus on March 11th, 2020. COVID-19, that is caused by SARS-CoV-2, has a very broad clinical spectrum, with predominantly respiratory symptoms developments. The role of the health professionals in fighting the pandemic requires the use of Personal Protective Equipment (PPE). PFF2 / N95 masks are suitable PPEs for this purpose. Due to the high demand for PFF2 / N95 masks to fight the pandemic, there was a shortage of this PPE world-wide. This work aims to present a characterization of the device called DELUX, utilized for UVC (ultra-violet C light spectra) sterilization of PFF2 / N95 masks, and allowing to extend the time of safe use of this PPE in emergency conditions. The photometric validation of the device resulted in the verification of the emission spectrum of the lamps used in the device, and the measurement of the optical power, demonstrating the adequacy of irradiation with UVC light, with a 15-minute cycle, and safely. Biological validation showed that DELUX is capable of inacti-vating SARS-CoV-2 present on the surface of PFF2 / N95 masks, thus being efficient for their sterilization. The safety offered by the sterilization cycle allows to extend the safe use of those masks. © 2022, Universidad Politecnica Salesiana. All rights reserved.

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