Radiation Protection Dosimetry Advance Access originally published online on April 13, 2005
Radiation Protection Dosimetry 2005 113(3):342-351; doi:10.1093/rpd/nch465
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Scientific Note
Fraction of the positive 218Po and 214Pb clusters in indoor air
1 Institute of Physical Chemistry, Georg-August-University Göttingen, Tammannstrasse 6, D-37077 Göttingen, Germany
2 Am Hirtenberg 8, D-37136 Waake, Germany
* Corresponding author: mgruend2{at}gwdg.de
Received December 7, 2004, amended January 10, 2005, accepted January 30, 2005
The fraction of the positively charged unattached radon decay products, 218Po and 214Pb in indoor air was determined by model calculations. The results of the calculations were confirmed by measurements in a test chamber (volume: 8 m3). The fraction of both radionuclides depends on the attachment parameter (S1) and the neutralisation rate (
) in room air. The total removal parameter 
considers the attachment rate to aerosol particles (X), plate-out rate to room surfaces (qf) and the ventilation rate () (
1: decay constant of 218Po). The S1-value of room can be determined by measurement of the concentration of the unattached 218Po clusters (
) and radon (C0). The neutralisation rate () in environmental air depends mainly on the ion production rate. The influence of the relative humidity in the range 30–95% (temperature: 20°C) is negligible. In addition, equal neutralisation rates for 218Po and 214Pb could be derived. In room air with ion production rates between 5 and 500 nC kg–1 h–1 mainly generated by the alpha emitters of radon, thoron and their short-lived decay products, the fractions for positive 218Po clusters vary between 55 and 17% and for 214Pb clusters between 53 and 14%. For a typical average concentration of radon (50 Bq m–3) and thoron (10 Bq m–3) in homes, 48% of 218Po clusters and 45% of 214Pb clusters are positively charged.