How They
Work

Remove Radon Before
it Enters the Building

To remove radon, reduce radon, or get rid of radon is called radon mitigation or radon remediation. By far the most common radon mitigation technique is called sub-slab depressurization. The process involves suctioning the soil and radon gas from under the floor of the lowest level of a building. A fan sits outside the living area and is connected to a hole in the floor by PVC piping. The fan discharges radon gas above the roof edge. Sizable openings in the floor, such as cracks and sump pits, are sealed to ensure adequate suction.

Radon mitigation systems are permanent to the building and runs 24/7. Typically, the goal is to reduce radon levels to below 4.0 picocuries per liter of air. The systems can vary in price from $900-$5,000 each, with most systems in the $1,000-$2,500 range.

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Details

How to Get Rid of Radon

Get a free, no obligation mitigation system design


Below, you'll see a variety of radon mitigation system design options. Most companies use a small number of these options while DuPage Radon Contractors uses any which may best fit your situation. Regardless of the company, the radon mitigation system process needs to be custom-designed to each situation based on building layout, regulations, and aesthetic considerations. Passive systems without a fan are an option for new construction - read about them here.


Fan Options

The fan sits outside the inhabited space, usually on an outside wall or in an attic. It can be covered, exposed, or low-profile. Fan life is typically between 5 and 25 years, with most lasting 7 to 12 years. DuPage Radon Contractors offers all four fan options.

Electrical

Electrical for the fan is tapped off of existing circuits or a new circuit is run. The fan pulls about 70 watts of electricity, so it is typically not a taxing load onto an existing circuit. The fan electrical usage operating costs are about $30-$60 a year.

Suction
Points

From the fan, piping is run to the areas needing suction. The end of the pipe is called a suction point. The pipe might pierce the concrete floor of a basement, crawlspace, or slab main floor, or it may suction from under a membrane that is placed over a gravel-floored crawlspace or through a foundation wall to access the gravel layer under an adjacent concrete floor. The pipe is made of Schedule 40 gauge, DWV, PVC piping, which is the same piping commonly used for plumbing drains.

Multiple
Suction Points

Buildings with multiple foundation types, such as basements, crawlspaces, and slab-on-grades require radon mitigation methods that incorporate multiple suction points with pipes connecting them to the fan. Usually, one fan is sufficient for a home.

Gravel & Dirt
Crawlspaces

Crawlspaces with gravel or dirt floors need a membrane to contain the suction. This membrane is usually 6 mill polyethylene sheet plastic spread over the entire crawlspace floor and sealed at the edges. The suction point then ends between the plastic and the gravel or dirt.

Discharge
Options

The pipe above the fan is called the discharge, and can be made of PVC pipe or oversized aluminum downspout. Depending on the location of the fan, it may be mounted on the outside wall discharging above the roof or it may pierce the roof and discharge there. DuPage Radon Contractors can utilize any of these options.

Open Topped
Discharge

The tops of all discharges are open to the sky. In the Chicagoland area, any grills or debris covers or tilting of the top has proven to increase ice build-up in the winter. The wind of the exhaust keeps most leaves and debris out. Any entering water is funneled back under the concrete slab floor and usually thereon to the sump pump. Occasionally, large debris or squirrels may need to be removed.

Sealing Floor
Cracks

For the optimal radon mitigation system design, major floor cracks that are easily accessible are caulked to reduce air leakage into the system. There is generally no need to remove carpet or move washer/dryer for small cracks.

Sealing Sump
Pits

Since the storm drainage system and sump pit are open to the gravel layer below the floor, the sump pit needs to be sealed. A special cover is installed, or an existing cover can be modified to meet newer regulations. The cover can be removed for access to the pump, but the space must be caulked upon re-installation.

U-tube
and Alarms

The gauge that is typically installed to indicate if suction is occurring, is called a u-tube. It is recommended that you check this u-tube weekly. To avoid the need for regular checks, an airflow alarm can be added to the system to alert you of any issues with suction. Neither device, however, measures radon.

Tough
Cases

Most radon mitigation systems are relatively easy to design and install for professional mitigatiors. However, several situations can make for real challenges that increase the price and the need for a truly experienced mitigator. Read more about what defines a "Tough Case" here.

Did you Know...?

  • Our Customer

    A story about one of our customers. Click Here

  • Common Approach

    The radon mitigation system design described on this page is called a sub-slab depressurization system. While there are other types of radon mitigation systems that remove airborne radon, this system has proven itself to be the most durable, efficient, and economical to use in the Chicago area. All local mitigation use this system as their primary radon removal method.

  • Low Maintenance

    Radon mitigation systems require very little maintenance. There is nothing to oil or adjust – just check the gauge weekly or purchase an alarm to ensure proper suction. Mitigation fans can last 5-25 years, and replacement is usually fairly easy.

  • Substrate Important

    The porosity of the material under the floor slab (substrate) is very important to a system’s efficiency. It may be gravel or soil. Since it is not visible, a designer must make assumptions. For this reason, the number of suction points planned may change after the first hole is cored. DuPage Radon Contractors usually adds the suction points for free and reduces your price if fewer are used.

  • Reduces Humidity!

    An extra benefit of radon mitigation systems is that they remove a large amount of humidity along with the radon gas. For more details on humidity control, click here.

  • Price

    Radon mitigation systems can range in price from $900 to over $5,000, depending on the complexity of the required radon mitigation design. Each system is custom for that location. Most residential systems cost between $1,000 and $2500. Click here to have us price a system for your building.

  • Caulk is Not to Stop Radon

    Once a system is installed, the radon follows the suction and does not tend to push through the floor cracks. Floor cracks are caulked to reduce leakage of the system’s suction and to prevent removal of heated or cooled air from the building.

  • Tax on Every System

    The Illinois state radon regulatory agency (IEMA) requires each radon system be registered with the state and a $50 sticker purchased for and applied to that system. DuPage Radon Contractors will do the paperwork and obtain and attach the sticker.

  • No Sump Pit Suction

    Installing the system’s main suction point into the sump pit is a practice that used to be employed but is no longer permitted by new regulations, in most situations. Only a secondary pipe can enter the sump pit.

  • Other Soil Gasses

    Radon systems not only remove radon, they also remove other soil gases. Some of these soil gases, such as methane, are not particularly healthy.