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飞机、火车和汽车:利用二氧化碳监测评估旅行期间的通气情况。

Planes, Trains, and Automobiles: Use of Carbon Dioxide Monitoring to Assess Ventilation During Travel.

作者信息

Cadnum Jennifer L, Alhmidi Heba, Donskey Curtis J

机构信息

Research Service, Louis Stokes Cleveland VA Medical Center, Cleveland, Ohio.

Geriatric Research, Education, and Clinical Center, Louis Stokes Cleveland VA Medical Center, Cleveland, Ohio.

出版信息

Pathog Immun. 2022 Feb 25;7(1):31-40. doi: 10.20411/pai.v7i1.495. eCollection 2022.

DOI:10.20411/pai.v7i1.495
PMID:35316971
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8932639/
Abstract

BACKGROUND

Travel poses a risk for transmission of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and other respiratory viruses. Poorly ventilated indoor settings pose a particularly high risk for transmission.

METHODS

We used carbon dioxide measurements to assess adequacy of ventilation during 5 trips that included air travel. During selected parts of each trip that involved indoor settings, we monitored carbon dioxide levels every 1 minute and recorded peak levels and the number of people present. Carbon dioxide readings above 800 parts per million (ppm) were considered an indicator of suboptimal ventilation.

RESULTS

Carbon dioxide levels remained below 800 ppm during train rides to and from the airport and inside airports except in a crowded boarding area with ~300 people present. Carbon dioxide levels exceeded 800 ppm inside the airplanes, but the air was filtered with high efficiency particulate air filters. Carbon dioxide levels remained below 800 ppm in common areas of a hotel but exceeded 800 ppm in a hotel room with 2 to 3 occupants and in a fitness center with 3 people exercising. In restaurants, carbon dioxide levels increased above 800 ppm during crowded conditions with 24 or more people present and 75% or more seat occupancy.

CONCLUSION

Our results suggest that ventilation may be sufficient to minimize the risk for airborne transmission in many situations during travel. However, ventilation may be suboptimal in some areas or under certain conditions such as in hotel rooms or when restaurants, fitness centers, or airplane boarding areas are crowded. There is a need for larger scale studies to assess the quality of ventilation in a wide range of community settings.

摘要

背景

旅行会带来严重急性呼吸综合征冠状病毒2(SARS-CoV-2)及其他呼吸道病毒传播的风险。通风不良的室内环境传播风险尤其高。

方法

我们通过测量二氧化碳来评估包括航空旅行在内的5次旅行期间的通风情况。在每次旅行涉及室内环境的特定时段,我们每分钟监测二氧化碳水平,并记录峰值水平和在场人数。二氧化碳读数超过百万分之800(ppm)被视为通风欠佳的指标。

结果

往返机场的火车行程中以及机场内,除了一个有大约300人的拥挤登机区域外,二氧化碳水平均保持在800 ppm以下。飞机内二氧化碳水平超过800 ppm,但空气通过高效空气过滤器进行过滤。酒店公共区域的二氧化碳水平保持在800 ppm以下,但在有2至3名住客的酒店房间和有3人锻炼的健身中心,二氧化碳水平超过了800 ppm。在餐厅,当有24人或更多人在场且座位占用率达到75%或更高的拥挤情况下,二氧化碳水平会升至800 ppm以上。

结论

我们的结果表明,在旅行期间的许多情况下,通风可能足以将空气传播风险降至最低。然而,在某些区域或特定条件下,如酒店房间内或餐厅、健身中心或飞机登机区域拥挤时,通风可能欠佳。需要进行更大规模的研究来评估广泛社区环境中的通风质量。

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