Radon Mitigation: Radon Gas Detection and How to Get It out of Your Home

If your home tests positive for radon gas, radon mitigation is critical to removing the radon gas and protecting the health of your family. Radon gas is a natural phenomenon and common around the country, but it can cause lung cancer if it remains trapped in a living space. Radon mitigation is the process needed to vent radon gas from the home, before the radon has a chance to build up to harmful levels.

Home construction techniques of the last 20 years have led to tighter, more energy-efficient homes.  Unfortunately, these tighter homes also have the ability to hold more radon gas indoors.  Therefore,  it’s important to find out if radon in your home through radon detection. If so, then install a radon mitigation system to have it safely removed. 

What is Radon?
Radon Mitigation: Radon Gas Detection and How to Get it Out of Your HomeRadon is a colorless, odorless gas that occurs naturally when radium decays in the soil. From there, the gas can move up through the ground and into your home via cracks and holes in its foundation, collecting in enclosed spaces like basements or ground-floor living areas. Without radon testing and proper radon mitigation, radon exposure is extremely dangerous, and according to EPA estimates radon gas is the number-one cause of lung cancer among non-smokers and second leading cause of lung cancer overall. 
 
The good news is that radon testing and radon mitigation are possible to accomplish without a lot of expense.  A properly designed and installed radon mitigation system can bring down very high levels of radon gas just as soon as the radon mitigation system is turned on for the very first time.  .
 
Radon Testing
There are simple, affordable radon detection methods available for your home that will determine whether radon mitigation is necessary. Basic radon testing involves a charcoal adsorption canister, which is placed in the basement or lowest living area of your home for two to seven days. This canister adsorbs the radon gas and is sent to a radon lab for processing, with the results mailed back to you. A do-it-yourself radon test kit costs around $15 or you can have the radon test performed by a pro for about $100. Either way, plan on doing the radon test at a time when your whole home will remain closed except for standard exits and entries, as air circulation and escape will impact the accuracy of your radon test results.
 
Once the radon testing period is over and the adsorption canister sent to a lab for evaluation, the lab’s report will dictate the actual radon gas level found in your home. The results are reported in picoCuries per liter of air (pCi/L), and if your result is 4 pCi/L or above, you’ll need to have a radon mitigation system installed.
 
Radon Mitigation Systems
A soil suction radon mitigation system is the most common solution.  This type of radon mitigation system involves installation of a vent pipe under the lowest level floor (typically a concrete basement floor).  Then, a specially designed radon mitigation fan works to pull the radon gas from the soil beneath the house and vent it safely to the outside, usually above the roof where it can’t reenter the structure. Sealing cracks in your home’s foundation will make the system even more efficient.  For best results, radon mitigation should be done only by a certified radon mitigation contractor who is insured and licensed, where required, by your county or state health department.
 
Most importantly, after the radon mitigation system is installed, it's very important to get a second radon gas test done.  Only by testing after the radon mitigation system is installed, can you be sure the radon mitigation system was properly designed and installed.
 
For more information on radon mitigation and radon detection, as well as the health threats associated with radon gas, visit www.epa.gov/radon.  For images of a radon mitigation systems, see radon mitigation page at the University of Illinois Extension web site on radon mitigation.

Post new comment

The content of this field is kept private and will not be shown publicly.
Type the characters you see in this picture. (verify using audio)
Type the characters you see in the picture above; if you can't read them, submit the form and a new image will be generated. Not case sensitive.

Comments

Radon

The "level of concern" for radon at 4 pico-curies per liter is too low, primarily to benefit mitigation and testing contractors. The level in Canada has been 20, but they have been coerced into lowering it. A value of 10 would be more appropriate. The test should be done in the lowest regularly occupied area, not just the lowest. The test should be over a longer period, since the level is inversely proportional to the barometric pressure. I had a recording tester, and the level was exactly the inverse to barometric pressure, which makes sense. A high pressure keeps the gas in the soil and a low pressure system lets it out. I was a nuclear courier in the Air Force. Radon suddenly became a problem when a worker at a nuclear power plant set off an alarm when he came to work rather than when he left. There are areas such as in the "Reading Prong" of Pennsylvania and New Jersey where the level is often at 300 pc/l, and one area on the Minnesota/North Dakota border where it is 400. Obviously, mitigation in those areas is essential.