Abstract
The pollutants emission during the process of municipal solid waste management (MSWM) is of great concern due to its hazardous effect on the environment and living organisms. An assessment of the air quality of MSWM sites was made after having 16 repetitive visits at solid waste disposal sites and transfer stations of Lahore during wet and dry seasons. Pollution parameters such as fine particulate matter (PM2.5) and greenhouse gases (GHG) were measured along with meteorological parameters. PM2.5 measurement was made by using particle counter Dylos and TSI’s Dust Trak. Both of these instruments were positioned simultaneously at the source site and downwind (50 m). CH4 and meteorological parameters were measured by Aeroqual 500 series, while the Extech CO220 monitor was used to measure CO2 concentration. An assessment of air quality showed the levels of their mean values as CH4 and CO2 ranged between 1.5–13.7 ppm and 443.4–515.7 ppm, respectively. The PM2.5 ranged between 127.1 and 307.1 µg/m3 at sources and 172.3 and 403.8 µg/m3 downwind (50 m). GHG showed lower levels than the proposed limit value, which could not cause any health issues, while PM2.5 was 6–10 times higher than the Pak-EPA established standards. Higher pollutant concentration was recorded in the dry season than the wet season. Regression analysis was performed to predict correlation of PM2.5 with GHG and meteorological parameters. GHG as well as meteorological parameters also exhibited a correlation with PM2.5. It was estimated that the ambient air of such sites is not safe for public health. So, it is necessary to use safe practices for MSWM and its emission control to prevent nearby communities and the environment.
Highlights
Solid waste management (SWM) has come to be a major challenging issue in urban areas of developing countries due to urbanization and industrialization
The current study provides a better understanding of the increased levels of PM2.5 than Pak-EPA established standards at municipal solid waste management (MSWM) sites
Meteorological conditions showed an impact on the concentration of PM and greenhouse gases (GHG), but no particular trend was noticed at MSWM sites
Summary
Solid waste management (SWM) has come to be a major challenging issue in urban areas of developing countries due to urbanization and industrialization. 2.6 million tons per day of municipal solid waste is produced globally, and the amount may reach up to 4.5 million tons per day by 2050, according to the international solid waste association (ISWA) [2]. Improper and inadequate SWM activities can impair the air, soil and water quality since maximum biotas are added through the food chain or enter into the body via nasal cavity [3]. The management of solid waste is in association with the control of its production, collection and storage and is transferred to disposal sites by following the best principles of health, finances, aesthetics and ecological aspects [4,5]. The life-cycle assessment for MSWM related to resources and emissions has been studied in detail [6]
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