Effective Removal of Airborne 222Rn Decay Products Inside Buildings

Abstract

Comparisons were made of the effectiveness of various indoor air treatment methods in reducing the lung dose to inhalation of 222Rn decay products. The comparisons were based upon measurements of the total steady-state concentrations of 218Po, 214Pb and 214Bi, and the concentrations of these nuclides not attached to the particles. These measurements, which were made inside a 78-m3 room before and after air treatment, were used along with a state-of-the art lung dose model to predict reductions in the dose to the radiosensitive bronchial tissues. Results suggest that flow-through air-cleaning methods, such as filtration and electrostatic precipitation, although effective in reducing total potential .alpha. energy concentration, cause a greater quantity of airborne potential .alpha. energy to be unattached to particles. This may result in a substantial increase in the dose to bronchial tissues. The form of air treatment appears to be a combination of nonuniform positive space charge generated by an ion greater and enhanced convection from a fan. This combination of air treatment gave reductions in the mean dose to the bronchial tissues of up to 87%.