天花板对房间上部杀菌紫外线（UR-GUV）空气消毒性能的影响。

Ceiling impact on air disinfection performance of Upper-Room Germicidal Ultraviolet (UR-GUV).

作者信息

Zhu Shengwei, Lin Tong, Wang Lingzhe, Nardell Edward A, Vincent Richard L, Srebric Jelena

机构信息

Department of Mechanical Engineering, University of Maryland, College Park, MD, USA.

Departments of Environmental Health and Immunology and Infectious Diseases, Harvard T.H. Chan School of Public Health, Boston, MA, USA.

出版信息

Build Environ. 2022 Oct;224:109530. doi: 10.1016/j.buildenv.2022.109530. Epub 2022 Aug 31.

DOI:10.1016/j.buildenv.2022.109530

PMID:36065253

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9429126/

Abstract

This study used Computational Fluid Dynamics (CFD) to investigate air disinfection for SARS-CoV-2 by the Upper-Room Germicidal Ultraviolet (UR-GUV), with focus on ceiling impact. The study includes three indoor settings, i.e., low (airport bus), medium (classroom) and high (rehearsal room) ceilings, which were ventilated with 100% clean air (CA case), 80% air-recirculation with a low filtration (LF case), and 80% air-recirculation with a high filtration (HF case). According to the results, using UR-GUV can offset the increased infection risk caused by air recirculation, with viral concentrations in near field (NF) and far field (FF) in the LF case similar to those in the CA case. In the CA case, fraction remaining () was 0.48-0.73 with 25% occupancy rate (OR) and 0.49-0.91 with 45% OR in the bus, 0.41 in NF and 0.11 in FF in the classroom, and 0.18 in NF and 0.09 in FF in the rehearsal room. Obviously, UR-GUV performance in NF can be improved in a room with a high ceiling where has a power relationship with UV zone height. As using UR-GUV can only extend the exposure time to get infection risk of 1% ( ) to 8 min in NF in the classroom, and 47 min in NF in the rehearsal room, it is necessary to abide by social distancing in the two rooms. In addition, in FF was calculated to be 18.3 min with 25% OR and 21.4% with 45% OR in the airport bus, showing the necessity to further wear a mask.

摘要

本研究采用计算流体动力学（CFD）来研究上部房间杀菌紫外线（UR-GUV）对严重急性呼吸综合征冠状病毒2（SARS-CoV-2）的空气消毒效果，重点关注对天花板的影响。该研究包括三种室内环境，即低天花板（机场巴士）、中天花板（教室）和高天花板（排练室），通风情况分别为100%清洁空气（清洁空气情况）、80%空气再循环且低过滤（低过滤情况）以及80%空气再循环且高过滤（高过滤情况）。根据结果，使用UR-GUV可以抵消空气再循环导致的感染风险增加，低过滤情况下近场（NF）和远场（FF）中的病毒浓度与清洁空气情况下相似。在清洁空气情况下，巴士中25%占用率（OR）时剩余分数（）为0.48 - 0.73，45% OR时为0.49 - 0.91；教室中NF为0.41，FF为0.11；排练室中NF为0.18，FF为0.09。显然，在高天花板房间中，UR-GUV在NF中的性能可以得到改善，其中与紫外线区域高度呈幂函数关系。由于使用UR-GUV只能将教室NF中感染风险达到1%（）的暴露时间延长至8分钟，排练室NF中延长至47分钟，因此这两个房间有必要遵守社交距离。此外，机场巴士中FF的在25% OR时计算为18.3分钟，45% OR时为21.4%，这表明进一步佩戴口罩的必要性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b44d/9429126/7d30127d938d/gr1_lrg.jpg

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天花板对房间上部杀菌紫外线（UR-GUV）空气消毒性能的影响。

Ceiling impact on air disinfection performance of Upper-Room Germicidal Ultraviolet (UR-GUV).

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