Measuring students' exposure to temperature and relative humidity in various indoor environments and across seasons using personal air monitors

Hygiene and environmental health advances Pub Date : 2022-12-01 DOI:10.1016/j.heha.2022.100029

Ian Ryan , Xinlei Deng , George Thurston , Haider Khwaja , Xiaobo Romeiko , Wangjian Zhang , Tia Marks , Fangqun Yu , Shao Lin

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引用次数: 1

Abstract

Background: Thermal comfort is essential for human well-being. Consistent exposure to uncomfortable thermal conditions indoors leads to reduced academic performance and adverse health outcomes in schoolchildren. In addition, children are more sensitive to thermal conditions due to physiological differences, yet their exposure to thermal conditions has not been adequately measured.

Methods: This cross-sectional study evaluated students' exposure to temperature and relative humidity (RH) using personal air monitors. In this study, we recruited 90 students from 13 classrooms – 60 from 11 NYS primary school classrooms and 30 from two State University of New York at Albany classrooms. Each participant wore an AirBeam air monitor for 48 hours, and their data was transmitted to a cell phone provided by the researchers.

Results: Primary school students were routinely exposed to temperatures exceeding ASHRAE standards (winter: 75⁰F, summer: 80.5⁰F), particularly in school in the spring (max=102⁰F, median=82⁰F). At home, temperatures exceeded standards in the evening around dinnertime. However, primary students were routinely exposed to RH below recommended standards in classrooms during all seasons (median=29%). However, the RH was significantly lower in the winter than in any other season (median=17%). Finally, university students were exposed to slightly higher temperatures and significantly lower RH than primary schoolchildren in the spring.

Conclusion: These results suggest that students are exposed to uncomfortable thermal conditions, particularly in classrooms when attending class. Teachers should therefore be given more control over classroom ventilation and thermal conditions, while indoor temperature standards should be adjusted for school children.

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使用个人空气监测仪测量学生在不同室内环境和季节中的温度和相对湿度

背景:热舒适对人类健康至关重要。长期暴露在不舒适的室内热环境中会导致学龄儿童学习成绩下降和健康状况不良。此外，由于生理上的差异，儿童对热环境更敏感，但他们对热环境的暴露程度尚未得到充分的测量。方法:本横断面研究评估学生暴露于温度和相对湿度(RH)使用个人空气监测仪。在这项研究中，我们招募了来自13个教室的90名学生，其中60名来自11个纽约州小学教室，30名来自纽约州立大学奥尔巴尼分校的两个教室。每位参与者佩戴AirBeam空气监测仪48小时，他们的数据被传输到研究人员提供的手机上。结果:小学生经常暴露在超过ASHRAE标准的温度下(冬季:75华氏度，夏季:80.5华氏度)，特别是在春季的学校(最大102华氏度，中位数82华氏度)。在家里，晚餐时间前后的气温超过了标准。然而，小学生在所有季节都经常暴露在低于推荐标准的教室中(中位数=29%)。然而，相对湿度在冬季明显低于其他季节(中位数=17%)。最后，与小学生相比，大学生在春季暴露在略高的温度和明显较低的相对湿度下。结论:这些结果表明，学生暴露在不舒服的热环境中，特别是在教室上课时。因此，教师应该更多地控制教室的通风和热条件，而室内温度标准应该为学生调整。

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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