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From

Determining the Source of Fugitive Dust in Lattimer, Pennsylvania

L. Dickson, P. Griffith, M. Maresch, D. Molinaro, J. Penrose, J. Calabrese

American Journal of Environmental Protection. 2017, 5(3), 73-77 doi:10.12691/env-5-3-2
  • Figure 1. Satellite image of the village of Lattimer (center) and the rock quarry located to the north of Lattimer. Fugitive dust sampling locations at four residential properties are indicated with white circles and rock sampling locations are indicated with white squares
  • Figure 2. Lattimer building stone façade with thick accumulation of black dust
  • Figure 3. Scanning electron microscope image showing irregular-shaped, angular fugitive dust particles that range in size from 20 to 150 µm
  • Figure 4. Chemical analyses for wt.% Al in fugitive dust particles (red circles), shale rock samples (white diamonds), and carbonaceous shale (white star) plotted against wt.% Si
  • Figure 5. Chemical analyses for wt.% Ti in fugitive dust particles (red circles) and shale samples (white diamonds) plotted against wt.% Si
  • Figure 6. Chemical analyses for wt.% Fe in fugitive dust particles (red circles) and shale samples (white diamonds) plotted against wt.% Si
  • Figure 7. Chemical analyses for wt.% Mg in fugitive dust particles (red circles) and shale samples (white diamonds) plotted against wt.% Si
  • Figure 8. Chemical analyses for wt.% Na in fugitive dust particles (red circles) and shale samples (white diamonds) plotted against wt.% Si
  • Figure 9. Chemical analyses for wt.% K in fugitive dust particles (red circles) and shale samples (white diamonds) plotted against wt.% Si
  • Figure 10. Chemical analyses for wt.% C in fugitive dust particles (red circles), shale rock samples (white diamonds), and carbonaceous shale (white star) plotted against wt.% Si
  • Figure 11. Chemical analyses for wt.% S in fugitive dust particles (red circles), shale rock samples (white diamonds), and carbonaceous shale (white star) plotted against wt.% Si