在通风条件不同的学校内达到微粒含量标准,为弱势群体带来健康益处。

IF 2.2 4区 医学 Q3 ENVIRONMENTAL SCIENCES
Shubham Rathi, Anubha Goel, Supreme Jain, Rushyendranath Sreeramoju
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引用次数: 0

摘要

我们在印度坎普尔的四所学校的校舍内同时进行了颗粒物实时测量,其中两所为自然通风(NV)学校,两所为机械通风(MV)学校。通过使用空气过滤器将教室内的颗粒物水平模拟到可接受的最低水平(ISHRAE C 级:PM10 ≤ 100 µg/m3 和 PM2.5 ≤ 25 µg/m3),对学童的健康状况进行了检测。颗粒物的肺沉积被用作健康影响的替代物,并使用 MPPD 模型进行计算。所有教室的颗粒物水平都高于基线,其中 NV 教室的颗粒物质量高于 MV 教室:PM1 为 72.16%,PM2.5 为 74.66%,PM10 为 85.17%。我们的计算显示,在 NV 教室,沉积在肺部的颗粒物大幅减少(PM10 减少了 1512%,PM2.5 减少了 1485%)。结果凸显了教室内不健康的空气,并建议采取紧急干预措施,如简单的过滤技术,以达到学校内可接受的颗粒物水平。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Health benefits to vulnerable populations by meeting particle-level guidelines inside schools with different ventilation conditions.

We conducted simultaneous real-time measurements for particles on the premises of four schools, two of which were naturally ventilated (NV) and two mechanically ventilated (MV) in Kanpur, India. Health to school children from reduced particle levels inside classrooms simulated to the lowest acceptable levels (ISHRAE Class C: PM10 ≤ 100 µg/m3 & PM2.5 ≤ 25 µg/m3) using air filters were examined. Lung deposition of particles was used as a proxy for health impacts and calculated using the MPPD model. The particle levels in all classrooms were above the baseline, with NV classrooms having higher particle masses than MV classrooms: 72.16% for PM1, 74.66% for PM2.5, and 85.17% for PM10. Our calculation reveals a whooping reduction in particles deposited in the lungs (1512% for PM10 and 1485% for PM2.5) in the case of the NV classrooms. Results highlight unhealthy air inside classrooms and suggest urgent interventions, such as simple filtration techniques, to achieve acceptable levels of particles inside schools.

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来源期刊
International Journal of Environmental Health Research
International Journal of Environmental Health Research 医学-公共卫生、环境卫生与职业卫生
CiteScore
6.70
自引率
3.10%
发文量
134
审稿时长
>12 weeks
期刊介绍: International Journal of Environmental Health Research ( IJEHR ) is devoted to the rapid publication of research in environmental health, acting as a link between the diverse research communities and practitioners in environmental health. Published articles encompass original research papers, technical notes and review articles. IJEHR publishes articles on all aspects of the interaction between the environment and human health. This interaction can broadly be divided into three areas: the natural environment and health – health implications and monitoring of air, water and soil pollutants and pollution and health improvements and air, water and soil quality standards; the built environment and health – occupational health and safety, exposure limits, monitoring and control of pollutants in the workplace, and standards of health; and communicable diseases – disease spread, control and prevention, food hygiene and control, and health aspects of rodents and insects. IJEHR is published in association with the International Federation of Environmental Health and includes news from the Federation of international meetings, courses and environmental health issues.
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