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基于自适应墙体的附着式通风:在负压空气传播感染隔离病房中其有效性的对比研究

Adaptive Wall-Based Attachment Ventilation: A Comparative Study on Its Effectiveness in Airborne Infection Isolation Rooms with Negative Pressure.

作者信息

Zhang Ying, Han Ou, Li Angui, Hou Li'an, Olofsson Thomas, Zhang Linhua, Lei Wenjun

机构信息

School of Building Services Science and Engineering, Xi'an University of Architecture and Technology, Xi'an 710055, China.

Department of Applied Physics and Electronics, Umeå University, Umeå SE 90187, Sweden.

出版信息

Engineering (Beijing). 2022 Jan;8:130-137. doi: 10.1016/j.eng.2020.10.020. Epub 2021 Jan 23.

DOI:10.1016/j.eng.2020.10.020
PMID:33520328
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7825860/
Abstract

The transmission of coronavirus disease 2019 (COVID-19) has presented challenges for the control of the indoor environment of isolation wards. Scientific air distribution design and operation management are crucial to ensure the environmental safety of medical staff. This paper proposes the application of adaptive wall-based attachment ventilation and evaluates this air supply mode based on contaminants dispersion, removal efficiency, thermal comfort, and operating expense. Adaptive wall-based attachment ventilation provides a direct supply of fresh air to the occupied zone. In comparison with a ceiling air supply or upper sidewall air supply, adaptive wall-based attachment ventilation results in a 15%-47% lower average concentration of contaminants, for a continual release of contaminants at the same air changes per hour (ACH; 10 h). The contaminant removal efficiency of complete mixing ventilation cannot exceed 1. For adaptive wall-based attachment ventilation, the contaminant removal efficiency is an exponential function of the ACH. Compared with the ceiling air supply mode or upper sidewall air supply mode, adaptive wall-based attachment ventilation achieves a similar thermal comfort level (predicted mean vote (PMV) of -0.1-0.4; draught rate of 2.5%-6.7%) and a similar performance in removing contaminants, but has a lower ACH and uses less energy.

摘要

2019冠状病毒病(COVID-19)的传播给隔离病房室内环境的控制带来了挑战。科学的气流分布设计和运行管理对于确保医务人员的环境安全至关重要。本文提出了基于自适应墙面贴附通风的应用,并基于污染物扩散、去除效率、热舒适性和运行费用对这种送风模式进行了评估。基于自适应墙面贴附通风可直接向人员活动区供应新鲜空气。与天花板送风或上侧墙送风相比,在相同的每小时换气次数(ACH;10次/h)下持续释放污染物时,基于自适应墙面贴附通风的污染物平均浓度降低15%-47%。全混合通风的污染物去除效率不会超过1。对于基于自适应墙面贴附通风,污染物去除效率是ACH的指数函数。与天花板送风模式或上侧墙送风模式相比,基于自适应墙面贴附通风实现了相似的热舒适水平(预测平均评价(PMV)为-0.1-0.4;吹风率为2.5%-6.7%)和相似的污染物去除性能,但ACH较低且能耗较少。

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