Eo. Knutson et al., THE GRADED SCREEN TECHNIQUE FOR MEASURING THE DIFFUSION-COEFFICIENT OF RADON DECAY PRODUCTS, Aerosol science and technology, 27(5), 1997, pp. 604-624
The main focus of this paper is the graded screen array (GSA) sampler,
a specialized diffusion battery developed modified at our Laboratory
to measure the size distribution of unattached Po-218, a naturally occ
urring ''atomic aerosol,'' implicated in causing lung cancer. The GSA,
as used in this study, consists of four stainless steel wire screens
with increasing mesh count, each positioned on a circular mount. For s
ampling, the four mounted screens are stacked into a holder and air is
drawn through them in the direction of increasing mesh count. A backu
p filter is placed behind the fourth screen. After sampling, the alpha
radioactivity on each screen, and on the backup filter, is measured b
y standard methods. Size distributions are retrieved from these data u
sing both the Nelder-Mead downhill simplex method and the expectation-
maximization algorithm. To illustrate the usefulness of the GSA sample
r, size distributions from Po-218 samples taken from the radon chamber
at Clarkson University, Potsdam, NY, are discussed in detail. It was
found that 96% or more of the radioactivity was associated with a size
mode centered at diffusion coefficient = 0.06 cm(2) s(-1). In contras
t, Pb-212 samples taken at the Inhalation Toxicology Research Institut
e, Albuquerque, MM, yielded size distributions that were clearly bimod
al (three of six cases) or possibly bimodal (two of six cases). All sa
mples had one mode at about 0.044 cm(2) s(-1). The location of the oth
er mode averaged 0.0054 cm(2) s(-1), but varied with test conditions.
Additionally, data from our earlier publications have been reexamined
in light of our added experience with the GSA sampler. (C) 1997 Americ
an Association for Aerosol Research.