MORPHOLOGICAL AND CHEMICAL COMPOSITION OF PM2.5 EMISIONS FROM A CONCRETE FACTORY IN TOLUCA, MEXICO.
MORPHOLOGICAL AND CHEMICAL COMPOSITION OF PM2.5 EMISIONS FROM A CONCRETE FACTORY IN TOLUCA, MEXICO.
-
DOI: https://doi.org/10.22533/at.ed.3174152421056
-
Palavras-chave: -
-
Keywords: PM2.5, Concrete industry, Air quality, SEM/EDS, Environmental monitoring.
-
Abstract:
The concrete industry is known to produce PM2.5 emissions in various production stages. This study analyzes PM2.5 emissions originating from a ready-mix concrete factory situated in the Toluca Valley Metropolitan Zone (MZTV) in central Mexico. Samples were collected over different seasons – warm dry, rainy, and cold dry – using a low-volume particle analyzer. The samples were subsequently analyzed to determine, the morphology by Scanning Electron Microscopy (SEM), elemental chemical composition by Energy Dispersion (EDS). The analysis revealed that the concentration of PM2.5 emissions exceeded permissible limits, posing significant health risks. The chemical composition of the PM2.5 emissions were analyzed, revealing that they mainly comprised O, C, Si, Fe, Ca, Al, K, and Na, which are consistent with Portland cement. The study emphasizes the need for strict environmental controls and tailored management strategies to mitigate the impact of emissions on human health. It also highlights the significant influence of meteorological conditions, which affect particulate dispersion. Finally, in this contribution, the authors aim to better understand the effects of PM2.5 emissions originating from the concrete industry providing insight into the need for stringent environmental regulations.
- Yanet Santiago Cruz
- Juan Carlos Sánchez Meza
- Araceli Amaya Chávez
- Xochitl Cruz Núñez
- Violeta Mugica Álvarez
