Table 3.
Comparing effectiveness of different construction solutions to avoid indoor radon in new houses.
| Systems | Methods | Effectiveness |
|---|---|---|
| Barrier Membrane | ||
| Barrier membrane installed in 64 new houses during construction in Northamptonshire, UK (Groves-Kirkby et al., 2006) with barrier membrane. Compared the results with a study of post-construction remediation (Denman et al., 2002). | Radon levels measured in the main bedroom and living areas for three month using track-etch detectors. | The mean annual radon level went below the action level (200 Bq/m3) in 40% of the new houses. Whereas the post-construction remediation found over 75% of houses below the action level. |
| With or Without Barrier Membrane and additional Block and Beam Protection | ||
| Construction solutions for three different group of houses were: a) Protected floor with barrier membrane and walls with cavity tray and compared with b) unprotected floor (no membrane) and c) protected with additional block and beam floor (Scivyer, 2001) | Radon levels measured in a) 131 protected houses and compared with b) 245 unprotected ones' and c) another 89 protected with additional block and beam constructed from 1990 to 1994. | a) 96% protected houses found below the action level compared to b) 80% unprotected houses c) almost all houses protected with added block and beam floor remained below the action level. This supported previous UK study conducted by Woolliscroft et al. (1994). |
| Radon piping installed under the floor slab of new houses | ||
| Finland requires radon preventive measures as a condition of construction permit (Valmari et al., 2014). | Radon piping installed under the floor slab that can later be activated if radon level goes over action level (400 Bq/m3) | Maximum 45% effectiveness noted in in new houses compared to 24% in old houses after activation of the radon piping. |