Applied Radiation and Isotopes 68(1):155-163, 2010
Passive, integrated measurement of radon using 5A synthetic zeolite and blue silica gel
Synthetic zeolite of 0.5 nm pore size (5A) and blue silica gel were
tested to determine their capability to be used as radon
collectors. Tests conducted in a radon chamber under controlled
conditions of temperature and relative humidity indicate that simple,
inexpensive and maintenance-free passive devices containing about 250
g of synthetic zeolite or about 270 g of blue silica gel in open face
metal canisters that can measure radon conveniently and adequately,
the latter though being suitable only for dryβmedium dry atmosphere
with quite high radon concentrations. Both materials can be recycled
for reuse, in a way similar to the recycle and reuse of active
carbon. The amount of radon adsorbed in such collectors is determined
by counting the gamma rays from the radon decay products. The lower
limit of detection (LLD) is estimated to 45 Bqmβ3 for the synthetic
zeolite and to 350 Bqm-3 for the blue silica gel, for an exposure of
48 h at a relative humidity of about 50%. In comparison, the
corresponding LLD for active carbon is estimated to 10 Bqm-3. At
relative humidity in the range between 10% and 50%, radon chamber
experiments indicate that the measured radon in the canisters is
proportional to the mean concentration of radon during the period of
exposure. It is estimated that calibration uncertainty lies within
Β±20% for both materials, thus suggesting that at least detectors
based on the 5A synthetic zeolite presenting a reasonably low LLD, are
a feasible and of similar cost alternative to activated carbon for
indoors radon concentration measurements in practical situations.