Exposure of particulate matter 2.5 (PM2.5) on lung function performance of construction workers

Siti Sarah Abdul Rahman, Siti Rohana Mohd Yatim, A. Abdullah, N. A. Zainuddin, M. A. Samah
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引用次数: 8

Abstract

Construction-related environmental pollution has been increasing due to the massive number of ongoing urban development. The growth of construction and its impacts on environmental and human health are critical. The aim of this study is to measure the concentration of PM2.5 emitted from construction activities such as masonry, plastering, and mixing of concrete and to assess the lung function performance of the exposed construction workers. The concentration of PM2.5 was measured using Dust Track II Aerosol Monitor. The sampling period is 8 hours per day for 6 days for each activity. Meanwhile, the peak expiratory flow rate (PEFR) test was conducted by using peak flow meter. A total of 80 exposed construction workers were selected to participate in the PEFR test. Each activity exhibited a different pattern for different level of PM2.5 concentration. Masonry activity recorded the highest mean concentration of PM 2.5 which was 79.98 µg/m3, followed by concrete mixing and plastering activity each recorded 78.42 µg/m3 and 72.57 µg/m3 respectively. Participants from plastering activity has the highest mean of PEFR which is 343.65 L/min. Masonry and mixing of concrete activity had a lower mean of PEFR which was 329.26 L/min and 298.62 L/min respectively. As conclusion, the findings provided significant knowledge about the concentration of PM2.5 from various activities and the need of safety precaution among workers.
PM2.5暴露对建筑工人肺功能的影响
由于大量正在进行的城市开发,与建筑有关的环境污染一直在增加。建筑的增长及其对环境和人类健康的影响至关重要。本研究的目的是测量建筑活动(如砌筑、抹灰和混凝土搅拌)排放的PM2.5浓度,并评估暴露的建筑工人的肺功能表现。PM2.5浓度采用尘轨II气溶胶监测仪测量。每项活动的采样周期为6天,每天8小时。同时,采用峰值流量仪进行呼气峰流量(PEFR)测定。共有80名受辐射的建筑工人被选中参加PEFR测试。PM2.5浓度不同,各活动表现出不同的模式。砌筑活动的PM 2.5平均浓度最高,为79.98µg/m3,其次是混凝土搅拌和抹灰活动,分别为78.42µg/m3和72.57µg/m3。参与抹灰活动的参与者PEFR平均值最高,为343.65 L/min。砌体和混凝土搅拌活性的PEFR平均值较低,分别为329.26 L/min和298.62 L/min。综上所述,这些发现提供了有关各种活动产生的PM2.5浓度以及工人安全预防需求的重要知识。
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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