AAAR 33rd Annual Conference
October 20 - October 24, 2014
Rosen Shingle Creek
Orlando, Florida, USA
Abstract View
Exposure of Workers to Mixed Aerosols
EMANUELE CAUDA, Luca Stabile, Giorgio Buonanno, Teresa Barone, NIOSH
Abstract Number: 269 Working Group: Health Related Aerosols
Abstract The exposure to airborne aerosols in any occupational environment can lead over time to debilitating respiratory diseases that can affect the health of workers. In several environments, the workers are exposed not to a single aerosol but to a combination of particulate substances of different composition and size. Miners in countries where diesel-powered equipment are employed, are exposed to elevated concentration of respirable mine dust and ultrafine diesel-generated particles. It is common scientific practice to characterize and investigate the exposure to a single aerosol. Few studies have been conducted on the characterization of the exposure to a mixture of aerosols. This study investigated the characteristic of the exposure to mine dust and Diesel Particulate Matter (DPM) simultaneously present in a calm air exposure chamber. Different levels and types of dust and DPM were introduced in the chamber in controlled conditions for steady state and decay testing: the conditions simulated the mass concentration levels for dust and DPM typically present in underground mines. Real time monitors were used to assess the characteristics of the mixed aerosol during each experiment. The data from each test were then processed for the determination of exposure in terms of lung deposited mass, surface, and number of the particles for each condition. Specific attention was given to accurately convert the data into activity median thermodynamic diameter that is used in the lung deposited models. The potential interaction of the two aerosols was also investigated. Electron microscope analysis of collected particles indicated a substantial presence of DPM particles aggregates on the surface of respirable mine dust. This indicates phenomena of absorption and deposition between micrometric dust particles and sub-micrometric diesel aggregates and the formation of a new hybrid type of particle.
This work was submitted to the AAAR2013 conference but not presented because of government shutdown.