Covid 19 and beyond: a procedure for HVAC systems to address infectious aerosol illness transmission

IF 2.2 Q2 CONSTRUCTION & BUILDING TECHNOLOGY
D. Walkinshaw, R. Horstman
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引用次数: 0

Abstract

From pandemic to seasonal, the COVID-19 pandemic experience suggests many common respiratory infections rather than likely having a fomite etiology as previously thought, are primarily caused by the inhalation of infectious aerosols shed by ill persons during coughing and normal breathing and talking. Given this new understanding, the good news is that, unlike indoor-sourced noxious and irritating gases that can only be mitigated practically by diluting them with outdoor air ventilation, the indoor infectious aerosol illness transmission route can be addressed by circulating already conditioned air through commonplace commercial filters. Given that infectious aerosols released from the breath of occupants were practically an unknown vector of respiratory disease in the healthcare community for many decades, understandably HVAC regulations have not addressed this issue yet. However, this is about to change. To further this new end, this paper develops the formulae needed to set conditioned air recirculation rates through such filters for design infectious aerosol emission and inhalation rates, HID values, exposure times and occupancies, and target significantly lower than currently normal airborne infection reproduction rates. The analysis extends the equations previously developed for group inhalation of infectious aerosols to develop equations predicting the number of infections likely to occur from this inhalation and the rate of disease spread (reproduction). The governing equations provided and exemplified use group exposures since the number of infections (reproduction number) is group based. Examples using the equations provided are given for many different settings and two case study findings are compared with their predictions. Some settings such as the typical office are shown to already have a relatively low infection reproduction rate. Alternatively, others such as a typical school classroom or a longer commercial air flight require increased filtered ventilation air flows to yield a similarly low reproduction rate. The formulae and their application will be of interest to government and industry health and HVAC standard setting bodies.
2019冠状病毒病及以后:暖通空调系统应对传染性气溶胶疾病传播的程序
从大流行到季节性,新冠肺炎大流行的经验表明,许多常见的呼吸道感染,而不是像以前认为的那样可能具有病原体,主要是由病人在咳嗽、正常呼吸和说话时吸入传染性气溶胶引起的。鉴于这一新的认识,好消息是,与室内来源的有毒和刺激性气体不同,室内来源的有害和刺激性空气只能通过室外空气通风稀释才能得到缓解,室内传染性气溶胶疾病的传播途径可以通过普通的商业过滤器循环已经调节过的空气来解决。考虑到几十年来,居住者呼吸中释放的传染性气溶胶实际上是医疗界呼吸系统疾病的未知媒介,可以理解的是,暖通空调法规尚未解决这一问题。然而,这种情况即将改变。为了进一步实现这一新目标,本文开发了通过此类过滤器设置调节空气再循环率所需的公式,用于设计传染性气溶胶排放和吸入率、HID值、暴露时间和占用率,并以显著低于当前正常空气传播感染繁殖率为目标。该分析扩展了以前为集体吸入传染性气溶胶而开发的方程,以开发预测这种吸入可能发生的感染数量和疾病传播(繁殖)率的方程。所提供和举例说明的控制方程使用群体暴露,因为感染数量(繁殖数量)是基于群体的。针对许多不同的设置,给出了使用所提供方程的示例,并将两个案例研究结果与它们的预测进行了比较。一些环境,如典型的办公室,已经显示出相对较低的感染繁殖率。或者,其他情况,如典型的学校教室或更长的商业航班,需要增加过滤通风气流,以产生类似的低繁殖率。这些公式及其应用将引起政府、行业卫生和暖通空调标准制定机构的兴趣。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Frontiers in Built Environment
Frontiers in Built Environment Social Sciences-Urban Studies
CiteScore
4.80
自引率
6.70%
发文量
266
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