Climatology Research Group, School of Geo- and Spatial Science, Unit for Environmental Science and Management, North-West University, Potchefstroom 2520, South Africa.
Climatology Research Group, School of Geo- and Spatial Science, Unit for Environmental Science and Management, North-West University, Potchefstroom 2520, South Africa.
Sci Total Environ. 2020 Jan 10;699:134403. doi: 10.1016/j.scitotenv.2019.134403. Epub 2019 Sep 10.
One of the key challenges noted in the sustainable development goals for good health and wellbeing (SDGs 3) is both ambient and household air pollution. Household solid fuel combustion represents one of the biggest threat to human health in South Africa. This study helps to understand the impact of solid fuel burning in an indoor and ambient environment. Continuous monitoring of particulate matter (PM) was carried out in two houses, one used coal as a primary source of energy, while the other did not. For solid fuel burning (SFB) house the winter PM average 24-h concentration ranges between 60.9 μg m and 207.5 μg m while at non-solid fuel burning (NSFB) house it ranges between 15.3 μg m and 84.2 μg m. In both houses, the national ambient air quality standard (NAAQS) for PM2.5 (40 μg m) were exceeded during winter. The summer PM levels ranged between 17.4 μg m and 36.6 μg m in the solid fuel burning house and between 14.2 μg m and 39.9 μg m at the non-solid fuel-burning house. During mornings and evenings, indoor concentrations were higher than the outdoor; these periods coincide with the fuel-burning pattern in this community. In the mid-afternoon, the outdoor PM levels sometimes went higher than the indoor levels, perhaps as a result of the pollution from the power plants in the neighbourhood. Using the linear regression model, there were no significant correlations between indoor/outdoor PM concentrations during the winter, but there were good correlations for both houses during the summer. There was an observed difference in the thermal comfort at the SFB and NSFB. The temperature at SFB went below the World Health Organisation standard in winter and above during the summer while at NSFB, the temperature was managed within the standard in both seasons.
在良好健康和福祉的可持续发展目标(SDG3)中,注意到的一个关键挑战是环境和家庭空气污染。家庭固体燃料燃烧是南非对人类健康最大的威胁之一。本研究有助于了解室内和环境中固体燃料燃烧的影响。在两户人家中进行了颗粒物(PM)的连续监测,一户使用煤炭作为主要能源,另一户则没有。对于使用固体燃料燃烧(SFB)的房屋,冬季 PM24 小时平均浓度范围在 60.9μg/m 和 207.5μg/m 之间,而在不使用固体燃料燃烧(NSFB)的房屋中,PM24 小时平均浓度范围在 15.3μg/m 和 84.2μg/m 之间。在这两个房屋中,冬季的 PM2.5 国家环境空气质量标准(NAAQS)(40μg/m)都超标。夏季 PM 浓度在固体燃料燃烧房屋中范围在 17.4μg/m 和 36.6μg/m 之间,在非固体燃料燃烧房屋中范围在 14.2μg/m 和 39.9μg/m 之间。早晚室内浓度高于室外,这些时间段与该社区的燃料燃烧模式相吻合。在午后,室外 PM 水平有时高于室内水平,这可能是由于附近电厂的污染造成的。使用线性回归模型,冬季室内/外 PM 浓度之间没有显著相关性,但在夏季两户人家都有很好的相关性。在 SFB 和 NSFB 中观察到热舒适度存在差异。SFB 冬季的温度低于世界卫生组织标准,夏季则高于该标准,而 NSFB 在两个季节的温度都在标准范围内。
