Fireworks are one of the most unusual sources of pollution in atmosphere; although transient, these pollution episodes are responsible for high concentrations of particles (especially metals and organic compounds) and gases. In this paper, results of a study on chemical-physical properties of airborne particles (elements, ions, organic and elemental carbon and particles size distributions) collected during a fireworks episode in Milan (Italy) are reported. Elements typically emitted during pyrotechnic displays increased in 1 h as follows: Sr (120 times), Mg (22 times), Ba (12 times), K (11 times), and Cu (6 times). In our case study, Sr was recognised as the best fireworks tracer because its concentration was very high during the event and lower than, or comparable with, minimum detection limits during other time intervals, suggesting that it was mainly due to pyrotechnic displays. In addition, particles number concentrations increased significantly during the episode (up to 6.7 times in 1h for the 0.5 < d < 1 mu m size bin). Contributions (e.g. Cu, elemental carbon and nitrogen oxides) to air pollution due to the large traffic volume registered during the same night were also singled out. The original application of Positive Matrix Factorisation and Multiple Linear Regression allowed, as far as we know, here for the first time, the quantification of the fireworks contribution to atmospheric particulate matter (PM) and the resolution of their chemical profile. The contribution of fireworks to the local environment in terms of PM10 mass, elements and chemical components was assessed with 4-h time resolution. PM10 mass apportioned by fireworks was up to 33.6 mu g m(-3) (about 50% of the total PM10 mass). Major contributors were elemental and organic carbon (2.8 and 8.1 mu g m(-3), respectively) as well as metals like Mg, K, Sr, Ba, and Cu (0.4, 0.7, 0.07, 0.1, and 0.1 mu g m(-3), respectively).

The impact of fireworks on airborne particles / R. Vecchi; V. Bernardoni ; D. Cricchio ; A. D'Alessandro; P. Fermo; F. Lucarelli; S. Nava; A. Piazzalunga; G. Valli. - In: ATMOSPHERIC ENVIRONMENT. - ISSN 1352-2310. - STAMPA. - 42:(2008), pp. 1121-1132. [10.1016/j.atmosenv.2007.10.047]

The impact of fireworks on airborne particles

LUCARELLI, FRANCO;NAVA, SILVIA;
2008

Abstract

Fireworks are one of the most unusual sources of pollution in atmosphere; although transient, these pollution episodes are responsible for high concentrations of particles (especially metals and organic compounds) and gases. In this paper, results of a study on chemical-physical properties of airborne particles (elements, ions, organic and elemental carbon and particles size distributions) collected during a fireworks episode in Milan (Italy) are reported. Elements typically emitted during pyrotechnic displays increased in 1 h as follows: Sr (120 times), Mg (22 times), Ba (12 times), K (11 times), and Cu (6 times). In our case study, Sr was recognised as the best fireworks tracer because its concentration was very high during the event and lower than, or comparable with, minimum detection limits during other time intervals, suggesting that it was mainly due to pyrotechnic displays. In addition, particles number concentrations increased significantly during the episode (up to 6.7 times in 1h for the 0.5 < d < 1 mu m size bin). Contributions (e.g. Cu, elemental carbon and nitrogen oxides) to air pollution due to the large traffic volume registered during the same night were also singled out. The original application of Positive Matrix Factorisation and Multiple Linear Regression allowed, as far as we know, here for the first time, the quantification of the fireworks contribution to atmospheric particulate matter (PM) and the resolution of their chemical profile. The contribution of fireworks to the local environment in terms of PM10 mass, elements and chemical components was assessed with 4-h time resolution. PM10 mass apportioned by fireworks was up to 33.6 mu g m(-3) (about 50% of the total PM10 mass). Major contributors were elemental and organic carbon (2.8 and 8.1 mu g m(-3), respectively) as well as metals like Mg, K, Sr, Ba, and Cu (0.4, 0.7, 0.07, 0.1, and 0.1 mu g m(-3), respectively).
2008
42
1121
1132
R. Vecchi; V. Bernardoni ; D. Cricchio ; A. D'Alessandro; P. Fermo; F. Lucarelli; S. Nava; A. Piazzalunga; G. Valli
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/326870
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