Airborne infection risk in classrooms based on environment and occupant behavior measurement under COVID-19 epidemic

IF 3.7 3区工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY Building Research and Information Pub Date : 2023-03-12 DOI:10.1080/09613218.2023.2185584

Lai Wei, Gang Liu, W. Liu, Weifeng Li, Ye Yuan

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引用次数: 2

Abstract

ABSTRACT The changes of indoor environment and occupant behavior (OB) are two main causes for the gap between predicted and actual airborne infection risk. To improve the accuracy of COVID-19 airborne infection risk assessment, the environment (CO2 concentration) and OBs (occupant area per person (OA) and activity level (AL)) in three typical classrooms of a primary school in Tianjin, China was selected to conduct the on-site measurement. Based on the measured data, a modified Wells-Riley model was proposed to predict the infection risk, and a risk-controlled ventilation strategy was developed to calculate the ventilation demand. Results indicated that classrooms in the breaking time (B-T) showed a lower indoor CO2 concentration (C in), larger OA, and higher AL than in the teaching time (T-T). The variation tendency of the calculated infection risk increment in T-T was consistent with C in while in B-T was significantly affected by OA and AL, and the maximum fluctuation extent in B-T was two times of that in T-T. Moreover, to avoid the risk spreading in classrooms, a feasible solution of dynamic ventilation control based on the real-time infection risk was proposed, thus facilitating to provide a healthy and sustainable environment for students in classrooms.

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新冠肺炎疫情下基于环境和占用者行为测量的教室空气传播感染风险

室内环境和居住者行为的变化是导致空气传播感染风险预测值与实际值之间存在差距的两个主要原因。为了提高新冠肺炎空气传播感染风险评估的准确性，选择天津市某小学三个典型教室的环境（CO2浓度）和OBs（每人占用面积（OA）和活动水平（AL））进行现场测量。基于测量数据，提出了一种改进的Wells-Riley模型来预测感染风险，并开发了一种风险控制的通风策略来计算通风需求。结果表明，课间休息时间（B-T）的教室表现出比教学时间（T-T）更低的室内CO2浓度（C-in）、更大的OA和更高的AL。T-T计算的感染风险增量的变化趋势与年的C一致，而B-T受OA和AL的显著影响，B-T的最大波动幅度是T-T的两倍。此外，为了避免风险在课堂上传播，提出了一种基于实时感染风险的动态通风控制的可行解决方案，从而有助于为学生在课堂上提供一个健康、可持续的环境。

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来源期刊

Building Research and Information 工程技术-结构与建筑技术

CiteScore

8.60

自引率

7.70%

发文量

审稿时长

>12 weeks

期刊介绍： BUILDING RESEARCH & INFORMATION (BRI) is a leading international refereed journal focussed on buildings and their supporting systems. Unique to BRI is a focus on a holistic, transdisciplinary approach to buildings and the complexity of issues involving the built environment with other systems over the course of their life: planning, briefing, design, construction, occupation and use, property exchange and evaluation, maintenance, alteration and end of life. Published articles provide conceptual and evidence-based approaches which reflect the complexity and linkages between cultural, environmental, economic, social, organisational, quality of life, health, well-being, design and engineering of the built environment.