Size dependent effectiveness of engineering and administrative control strategies for both short- and long-range airborne transmission control†

IF 2.8 Q3 ENVIRONMENTAL SCIENCES Environmental science: atmospheres Pub Date : 2023-12-05 DOI:10.1039/D3EA00115F
Xiaowei Lyu, Zhiwen Luo and Li Shao
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Abstract

Ventilation is recognized as an effective mitigation strategy for long-range airborne transmission. However, a recent study by Li et al. revealed its potential impact on short-range airborne transmission as well. Our study extends their work by developing size-dependent transmission models for both short- and long-range airborne transmission and evaluates the impact of various control strategies, including ventilation. By adopting a recently determined mode-dependent viral load, we first analyzed the role of different sizes of droplets in airborne transmission. In contrast to models with a constant viral load where large droplets contain more viruses, our findings demonstrated that droplets ranging from ∼2–4 μm are more critical for short-range airborne transmission. Meanwhile, droplets in the ∼1–2 μm range play a significant role in long-range airborne transmission. Furthermore, our study indicates that implementing a size-dependent filtration/mask strategy considerably affects the rate of change (ROC) of virus concentration in relation to both distancing and ventilation. This underscores the importance of factoring in droplet size during risk assessment. Engineering controls, like ventilation and filtration, as well as administrative controls, such as distancing and masks, have different effectiveness in reducing virus concentration. Our findings indicate that high-efficiency masks can drastically reduce virus concentrations, potentially diminishing the impacts of other strategies. Given the size-dependent efficiency of filtration, ventilation has a more important role in reducing virus concentration than filtration, especially for long-range airborne transmission. For short-range airborne transmission, maintaining distance is far more effective than ventilation, and its effectiveness is largely unaffected by ventilation. However, the influence of ventilation on virus concentration and its variation with the distance mainly depend on the specific transmission model utilized. In sum, this research delineates the differential roles of droplet sizes and control strategies in both short- and long-range airborne transmission, offering valuable insights for future size-dependent airborne transmission control measures.

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针对短程和远程空中传输控制的工程和行政控制策略的有效性取决于规模†。
通风被认为是一种有效的长程空气传播缓解策略。然而,Li 等人最近的一项研究揭示了通风对短程空气传播的潜在影响。我们的研究扩展了他们的工作,为短程和长程空气传播建立了与大小相关的传播模型,并评估了包括通风在内的各种控制策略的影响。通过采用最近确定的取决于模式的病毒载量,我们首先分析了不同大小的飞沫在空气传播中的作用。在病毒载量恒定的模型中,大液滴含有更多病毒,与此不同,我们的研究结果表明,2∼4 μm 的液滴对短距离空气传播更为关键。同时,1-2 μm 范围内的微滴在远距离空气传播中发挥着重要作用。此外,我们的研究还表明,实施与大小相关的过滤/口罩策略会大大影响病毒浓度的变化率(ROC),这与距离和通风都有关系。这强调了在风险评估过程中考虑液滴大小的重要性。通风和过滤等工程控制措施以及拉开距离和戴口罩等行政控制措施在降低病毒浓度方面具有不同的效果。我们的研究结果表明,高效口罩可大幅降低病毒浓度,从而有可能削弱其他策略的影响。考虑到过滤效率与病毒大小有关,通风比过滤在降低病毒浓度方面发挥着更重要的作用,尤其是在远距离空气传播方面。对于短距离空气传播,保持距离比通风有效得多,而且其效果基本不受通风的影响。然而,通风对病毒浓度的影响及其随距离的变化主要取决于所使用的具体传播模式。总之,这项研究阐明了液滴大小和控制策略在短距离和长距离空气传播中的不同作用,为今后采取与液滴大小相关的空气传播控制措施提供了宝贵的启示。
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