Understanding the origin of radon indoors—Building a predictive capability: Fid-Bau Portal

Understanding the origin of radon indoors—Building a predictive capability

Sextro, Richard G.

Abstract Indoor radon concentrations one to two orders of magnitude higher than the U.S. average of $$ ̃$ 60 Bq m⁻³ ( $$ ̃$ 1.5 pCiℓ⁻¹) are not uncommon, and concentrations greater than 4000 Bq m ⁻³ have been observed in houses in areas with no known artificially-enhanced radon sources. In general, source categories for indoor radon are well known: soil, domestic water, building materials, outdoor air and natural gas. Soil is thought to be a major source of indoor radon, either through molecular diffusion (usually a minor component) or convective flow of soil gas. While soil gas flow into residences has been demonstrated, no detailed understanding of the important factors affecting the source strength of radon from soil has yet emerged. Preliminary work in this area has identified a number of likely issues, including the concentration of radium in the soil, the emanating fraction, soil type, soil moisture content, and other factors that would influence soil permeability and soil gas transport. Because a significant number of dwellings are expected to have indoor radon concentrations above guideline levels, a predictive capability is needed that would help identify geographical areas having the potential for high indoor concentrations. This paper reviews the preliminary work that has been done to identify important soil and building characteristics that influence the migration of radon and outlines the areas of further research necessary for development of a predictive method.