Increased airborne transmission of COVID-19 with new variants, implications for health policies [0.03%]
新的变异株导致新冠肺炎空气传播增加及其对卫生政策的启示
Bertrand R Rowe,André Canosa,Amina Meslem et al.
Bertrand R Rowe et al.
New COVID-19 variants, either of higher viral load such as delta or higher contagiousness like omicron, can lead to higher airborne transmission than historical strains. This paper highlights their implications for health policies, based on...
Exposure and respiratory infection risk via the short-range airborne route [0.03%]
近距离空气暴露与呼吸系统感染风险关系研究进展
Wei Jia,Jianjian Wei,Pan Cheng et al.
Wei Jia et al.
Leading health authorities have suggested short-range airborne transmission as a major route of severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2). However, there is no simple method to assess the short-range airborne infection ri...
Ventilation strategies and design impacts on indoor airborne transmission: A review [0.03%]
通风策略及设计对室内空气传播影响综述
Nima Izadyar,Wendy Miller
Nima Izadyar
The COVID-19 outbreak has brought the indoor airborne transmission issue to the forefront. Although ventilation systems provide clean air and dilute indoor contaminated air, there is strong evidence that airborne transmission is the main ro...
Assessing personal exposure to COVID-19 transmission in public indoor spaces based on fine-grained trajectory data: A simulation study [0.03%]
基于细粒度轨迹数据评估公共室内空间中COVID-19传播的个人暴露情况:一项模拟研究
Pengfei Chen,Dongchu Zhang,Jianxiao Liu et al.
Pengfei Chen et al.
The coronavirus disease 2019 (COVID-19) pandemic has posed substantial challenges to worldwide health systems in quick response to epidemics. The assessment of personal exposure to COVID-19 in enclosed spaces is critical to identifying pote...
Probable cross-corridor transmission of SARS-CoV-2 due to cross airflows and its control [0.03%]
可能的通过空气交叉传播的SARS-CoV-2及其控制措施
Pan Cheng,Wenzhao Chen,Shenglan Xiao et al.
Pan Cheng et al.
A COVID-19 outbreak occurred in May 2020 in a public housing building in Hong Kong - Luk Chuen House, located in Lek Yuen Estate. The horizontal cluster linked to the index case' flat (flat 812) remains to be explained. Computational fluid ...
An agent-based study on the airborne transmission risk of infectious disease in a fever clinic during COVID-19 pandemic [0.03%]
新冠肺炎疫情期间基于代理的发热门诊空气传播感染风险研究
Junjie Wang,Haida Tang,Jingwei Wang et al.
Junjie Wang et al.
Prevention of nosocomial infections is particularly important for the control of COVID-19 pandemic. We conducted a field study and performed extensive numerical simulations of infection transmission in a fever clinic during pandemic through...
Experimental study on the exposure level of surgical staff to SARS-CoV-2 in operating rooms with mixing ventilation under negative pressure [0.03%]
在负压混合通风手术室中进行手术的医务人员新冠病毒暴露量实验研究
Yang Bi,Amar Aganovic,Hans Martin Mathisen et al.
Yang Bi et al.
The purpose of this study was to reveal the exposure level of surgical staff to severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) from the patient's nose and wound during operations on COVID-19 patients. The tracer gas N2O is use...
Tempo-spatial infection risk assessment of airborne virus via CO2 concentration field monitoring in built environment [0.03%]
基于环境二氧化碳浓度场监测的空气传播病毒流行病学风险评估研究
Haida Tang,Zhenyu Pan,Chunying Li
Haida Tang
The aerosol transmission was academically recognized as a possible transmission route of Coronavirus disease 2019 (COVID-19). We established an approach to assess the indoor tempo-spatial airborne-disease infection risks through aerosol tra...
Adaptive school grounds design in response to COVID-19: Findings from six primary schools in South East England [0.03%]
英国东南部六所小学的新冠疫情适应性校园设计研究
Alison Quinn,Alessio Russo
Alison Quinn
The purpose of this research is to look at how primary schools in England have adapted their outdoor spaces in the context of COVID-19 rules and guidelines to meet the needs of students returning from school closures and national lockdown o...
Corrigendum to "Evaluation of different air distribution systems in a commercial airliner cabin in terms of comfort and COVID-19 infection risk" Build. Environ., Volume 208, January 2022, 108590 [0.03%]
关于“不同航空商用客舱空气分布系统舒适性和新冠肺炎感染风险评估”的勘误_BUILD_ENVIRON_卷_208_期_2022年_页_108590
Mingxin Liu,Junjie Liu,Qing Cao et al.
Mingxin Liu et al.
[This corrects the article DOI: 10.1016/j.buildenv.2021.108590.]. © 2021 Elsevier Ltd. All rights reserved.
Published Erratum
Building and environment. 2022 Apr 15:214:108939. DOI:10.1016/j.buildenv.2022.108939 2022