About Radon, (source: WHO)
Radon is a chemically inert, naturally occurring radioactive gas. It has no smell, colour or taste. Radon is produced from the natural radioactive decay of uranium, which is found in rocks and soil. Radon can also be found in water.
Radon escapes easily from the ground into the air, where it
disintegrates through short-lived decay products called radon progeny. As radon progeny decay, they emit radioactive alpha particles and attach to aerosols, dust and other particles in the air. As we breathe, radon progeny are deposited on the cells lining the airways where the alpha particles can damage DNA and potentially cause lung cancer.
Outdoor radon levels are usually very low. The average outdoor radon level varies between 5 and 15 Bq/m3 [Radon radioactivity is measured in Becquerel (Bq). One Becquerel corresponds to the transformation (disintegration) of one atomic nucleus per second. Radon concentration in air is measured by the number of transformations per second in a cubic metre of air (Bq/m3)]. Indoors, radon levels are higher, with highest levels found in places such as mines, caves and water treatment facilities.
Exposure of radiation:
How Radon enters a house?
Radon enters homes through:
- cracks at concrete floor-wall junctions
- gaps in the floor
- small pores in hollow-block walls
- sumps and drains.
Radon levels in homes can be reduced by:
- improving the ventilation of the house
- avoiding the passage of radon from the basement into living rooms
- increasing under-floor ventilation
- installing a radon sump system in the basement
- sealing floors and walls
- installing a positive pressurization or ventilation system.
Risk Assessment (source)
Exposure to radon, no matter how much exposure, does not mean you will get lung cancer. The risks associated with contracting lung cancer are in relationship to the amount of time exposed and the average Radon concentration levels.
Most radiation protection specialists believe, (at a minimum), that if you are continuously exposed to levels at or above 4 pCi/L then you are at risk. The US EPA's action level for Radon is 4 pCi/L. The World Health Organization has recently suggested that the action level should be 2.7 pCi/L, 33% lower than the current EPA action level.
The EPA has identified radon exposure as the number one cause of lung cancer in non smokers, and second only to smoking overall. Smokers generally have about 10 times higher risk than non smokers. Risk assessments associated with elevated radon concentrations are considered to be linear, meaning higher levels and longer duration of exposure increase risk assessment accordingly to the increase in concentration and amount of time exposed.
EPA risk assessment data from radon exposure is based on a lifetime of exposure.
- Not everyone exposed to even high levels of radon will contract radon induced lung cancer.
- All radon levels can be lowered, which lowers the risk assessment.
read more about radon:
No comments:
Post a Comment