AI Article Synopsis
- The study involved sampling three different areas in a foundry plant—molding, demolding, and bead blasting—using three types of aerosol samplers to analyze respirable dust.
- Results showed that the uniformity of dust deposition was highest with the 25-mm aluminum cyclone, followed by nylon cyclone and IOSH cyclone.
- The DOF XRD method estimated free silica concentrations significantly higher (1.15-2.89 times) than the standardized NIOSH 7500 XRD method, suggesting a need for improved sampling methods and conversion factors for accurate measurements in the foundry industry.
Article Abstract
In this study, field samplings were conducted in three workplaces of a foundry plant, including the molding, demolding, and bead blasting, respectively. Three respirable aerosol samplers (including a 25-mm aluminum cyclone, nylon cyclone, and IOSH cyclone) were used side-by-side to collect samples from each selected workplace. For each collected sample, the uniformity of the deposition of respirable dusts on the filter was measured and its free silica content was determined by both the DOF XRD method and NIOSH 7500 XRD method (i.e., the reference method). A same trend in measured uniformities can be found in all selected workplaces: 25-mm aluminum cyclone>nylon cyclone>IOSH cyclone. Even for samples collected by the sampler with the highest uniformity (i.e., 25-mm aluminum cyclone), the use of the DOF XRD method would lead to the measured free silica concentrations 1.15-2.89 times in magnitude higher than that of the reference method. A new filter holder should be developed with the minimum uniformity comparable to that of NIOSH 7500 XRD method (=0.78) in the future. The use of conversion factors for correcting quartz concentrations obtained from the DOF XRD method based on the measured uniformities could be suitable for the foundry industry at this stage.
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| http://dx.doi.org/10.1016/j.jhazmat.2009.11.042 | DOI Listing |
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