Particulate matter characteristics, dynamics and sources in an underground mine

Particulate matter (PM) from mining operations, engines and ore processing may have adverse effects on health and well-being of workers and population living nearby. In this study, the characteristics of PM in an underground chrome mine were investigated in Kemi, Northern Finland. The concentrations...

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Bibliographic Details
Main Authors: S. Saarikoski, K. Teinilä, H. Timonen, M. Aurela, T. Laaksovirta, F. Reyes, Y. Vásques, P. Oyola, P. Artaxo, A. S. Pennanen, S. Junttila, M. Linnainmaa, R. O. Salonen, R. Hillamo
Format: Text
Language:unknown
Published: Taylor & Francis 2017
Subjects:
Biophysics
Biochemistry
29999 Physical Sciences not elsewhere classified
FOS Physical sciences
Microbiology
FOS Biological sciences
59999 Environmental Sciences not elsewhere classified
FOS Earth and related environmental sciences
39999 Chemical Sciences not elsewhere classified
FOS Chemical sciences
Ecology
Northern Finland
Online Access:https://dx.doi.org/10.6084/m9.figshare.5472985.v1
https://tandf.figshare.com/articles/journal_contribution/Particulate_matter_characteristics_dynamics_and_sources_in_an_underground_mine/5472985/1
Description
Summary:Particulate matter (PM) from mining operations, engines and ore processing may have adverse effects on health and well-being of workers and population living nearby. In this study, the characteristics of PM in an underground chrome mine were investigated in Kemi, Northern Finland. The concentrations and chemical composition of PM in size ranges from 2.5 nm to 10 µm were explored in order to identify sources, formation mechanisms and post-emission processes of particles in the mine air. This was done by using several online instruments with high time-resolution and offline particulate sampling followed by elemental and ionic analyses. A majority of sub-micrometer particles (<1 µm in diameter, PM 1 ) originated from diesel engine emissions that were responsible for a rather stable composition of PM 1 in the mine air. Another sub-micrometer particle type originated from the combustion products of explosives (e.g. nitrate and ammonium). On average, PM 1 in the mine was composed of 62, 30 and 8% of organic matter, black carbon and major inorganic species, respectively. Regarding the analyzed elements (e.g. Al, Si, Fe, Ca), many of them peaked at >1 µm indicating mineral dust origin. The average particle number concentration in the mine was (2.3 ± 1.4)*10 4 #/cm 3 . The maximum of particle number size distribution was between 30 and 200 nm for most of the time but there was frequently a distinct mode <30 nm. The potential origin of nano-size particles remained as challenge for future studies.

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