The Magnitude of Diesel Particulate Matter in Underground Mine Workings: Advances in Real-Time Monitoring

Abstract

A real-time Diesel Particulate Matter (DPM) monitor has been developed on the basis of the successful National Institute of Occupational Health and Safety (NIOSH) designed Personal Dust Monitor (PDM) unit. the objectives of a recently completed Australian Coal Association Research Program (ACARP) study were to modify the PDM to measure the submicron fraction of the aerosol in a real-time monitoring underground instrument. Mine testing focused on use of the monitor in engineering evaluations to determine how conditions can be improved. Studies, including a selection during Longwall (LW) moves as described in this paper, demonstrated how DPM concentrations from vehicles fluctuate under varying ventilation and operational conditions. Correlation between the current SKC DPM measurement system and real-time DPM monitors were conducted and results from six mines show a correlation between elemental carbon (EC) and the new monitor DPM mass ranging from .51 to .81 with R² >.90. These differences are suspected to be due to variations from mine to mine in aspects such as mine atmospheric contamination, vehicle fleet variations, fuel type, engine maintenance, engine combustion efficiency, engine behaviour or interference from other submicron aerosol. Real-time monitoring readily reflects the movement of individual diesel vehicles and allows pin-pointing of high exposure zones such as those encountered where various vehicles work in areas of constrained or difficult ventilation. DPM monitoring approaches that have been available for some time based on shift average monitoring do not readily allow successful engineering evaluation exercises to determine acceptability of pollution levels. Identification of high DPM concentration zones allows efficient modification of mine ventilation, operator positioning and other work practices to reduce miners' exposures without waiting for laboratory analysis results.

Department(s)

Mining Engineering

Sponsor(s)

Australian Coal Association Research Program
National Institute for Occupational Safety and Health

Keywords and Phrases

Real-Time DPM; Total and Elemental Carbon; Underground Mine Atmosphere Pollutants

Document Type

Article - Journal

Document Version

Citation

File Type

text

Language(s)

English

Publication Date

01 Jan 2010

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