A. Clouvas, S. Xanthos and M. Antonopoulos-Domis
Year:
1999
Bibliographic info:
Radon in the Living Environment, 1999, Athens, Greece

Radon progeny concentration is measured with a total alpha counting system in 185 dwellings in thetown of Thessaloniki. The Equilibrium Equivalent radon Concentration (EEC 222Rn) follows a lognormaldistribution with an arithmetic and geometric mean value of 28 Bq/m3 and 16 Bq/m3 respectively. Simultaneous in situ alpha and gamma spectroscopy measurements were performed in 60 schools of Thessaloniki. The mean equilibrium Equivalent Concentration of radon and thoron is 22 Bq/m3 and 0.9 Bq/m3 respectively. The minimum, maximum and mean total absorbed dose rate in air due to gamma radiation is 13 nGy/h, 88 nGy/h and 47 nGy/h respectively. The contribution of the different radionuclides to the total gamma dose rate in air is 39% due to 40K, 33.5% due to thorium series, 27 % due to uranium series and about 0.5% due to 137Cs from the Chernobyl accident. For schools that were under construction or constructed the first years after the Chernobyl accident, 137Csact also as an indoor source term, however with small contribution to the total dose rate. The meanannual effective dose equivalent due to gamma radiation is 0.29 mSv, comparable to the 0.2 mSv dueto thoron progeny and about five times smaller than the value of 1.36 mSv due to radon progeny. Themean annual effective dose equivalent due to thoron progeny is about 13% of the total effective doseequivalent due to radon progeny and thoron progeny. No correlation was found between radon andthoron progeny and the absorbed gamma dose rates in air due to uranium and thorium seriesrespectively. Radon and thoron progeny was measured every 4 hours in the Nuclear TechnologyLaboratory of the Aristotle University of Thessaloniki for more than a year. The mean EEC 222Rn on aweekly basis varies from 16 Bq/m3 up to 155 Bq/m3. The time dependence variation of EEC thoronprogeny is smaller than the radon progeny. The mean annual effective dose equivalent due to radonand thoron progeny is 3.8 mSv and 1 mSv respectively. The mean annual effective equivalent dose dueto thoron progeny is about 21% of the total effective dose equivalent due to radon progeny and thoronprogeny. The effective dose equivalent due to thoron progeny is sometimes comparable to theeffective dose equivalent due to radon progeny.