Utah Radon Professionals

Precision Radon Services: Your Trusted Experts in Radon Mitigation

What is Radon Gas and What Causes it?

Radon gas is a colorless, odorless, and tasteless gas that is naturally present in the environment. It is a byproduct of the decay of uranium, which is found in rocks and soil. It is considered a health hazard because prolonged exposure to elevated levels of radon gas can cause significant health issues.

Why Choose Precision Radon Services?

Serving the Wasatch front in Utah, at Precision Radon Systems, we provide free radon tests as well as free estimates for treatment.

Radon Levels in homes can be lowered by hiring a certified Radon Professional

Precision Radon Services

Utah’s Radon Professionals - Serving the Wasatch Front

 

Radon levels can be lowered by hiring a certified Radon professional.

“It was easy and seamless from time of contact to reading results. It feels good to know our family is safe from radon!”

Amber Lowder

“Great people and fantastic professionals. They resolved all our concerns related to Radon and clearly explained the whole process.”

Ron Goode

“After Rob and his crew installed one system, our radon levels throughout our basement dropped to below 1.0. The estimate that we received was the least expensive among other competitors.”

Don Payne

Why Should I Test My Home For Radon?

Our Standard System Includes

  • Upgraded Noise-reduction

    Proprietary upgraded noise-reduction couplers for a quieter and more efficient system.

  • Color-Matched Downspouts

    We professionally color-match to ensure our downspout matches existing gutter downspouts.

  • Upgraded 4" Pipe

    Upgraded 4” schedule 40 thick-walled pipe for increased air flow and noise reduction

  • Manometers

    High-quality system air flow monitoring manometers to indicate proper system functionality

What is Radon Gas and what causes it?
Radon gas is a colorless, odorless, and tasteless gas that is naturally present in the environment. It is a byproduct of the decay of uranium, which is found in rocks and soil. Radon can seep into buildings, particularly homes, through cracks in the foundation, walls, and floors. It is considered a health hazard because prolonged exposure to elevated levels of radon gas can increase the risk of health problems, especially for those who smoke. Testing for radon and taking measures to mitigate its presence are important steps to ensure a safe indoor environment.

How does radon gas enter homes?

Radon gas enters homes primarily through the soil and rock beneath the building. Here's how it typically happens:

  •  Soil and Rock Sources: Radon is naturally produced as uranium in soil and rock. Uranium is present in varying amounts in different types of soil and rocks.

  • Diffusion: Radon gas is created underground and can move through the soil as a result of pressure differences between the soil and the indoor air. It moves from areas of higher pressure (soil) to areas of lower pressure (inside the home).

  • Cracks and Openings: Homes often have openings and cracks in the foundation, walls, and floors. Radon gas can seep through these openings and cracks, especially if the pressure underneath the home is greater than the pressure indoors.

  • Suction Effect: Differences in indoor and outdoor air pressure, as well as temperature variations, can create a "stack effect." This can cause air to be drawn in from the soil, bringing radon gas with it.

  • Well Water: In some cases, radon can enter homes through well water. When water containing radon is used in the home, the gas can be released into the indoor air.

To mitigate radon gas entry, homes can be designed with proper sealing and ventilation systems. Additionally, radon testing and mitigation techniques, such as installing a radon mitigation system with a fan, can help reduce indoor radon levels and minimize health risks.

What is considered a dangerous level of radon gas?

The Environmental Protection Agency (EPA) in the United States has established guidelines for radon gas levels that are considered safe and dangerous. The unit of measurement used for radon levels is picocuries per liter (pCi/L). The EPA recommends taking action if radon levels in a home exceed 4.0 pCi/L.

Radon levels below 4.0 pCi/L are generally considered acceptable. However, it's important to note that there is no completely "safe" level of radon exposure. The risk of health problems can increase with higher levels of radon exposure. The higher the radon levels, the greater the potential risk, especially for long-term exposure.

If a radon test in your home reveals levels at or above 4.0 pCi/L, it's recommended to take steps to mitigate radon gas to reduce exposure and lower the risk of health issues. Mitigation techniques should be employed to lower radon levels to as low as reasonably achievable. If you are unsure about the appropriate actions to take, consider consulting with a radon mitigation professional for guidance.

Is Radon dangerous for Homeowners? 

Yes, radon gas can be dangerous for homeowners if it is present at elevated levels in the indoor air. Prolonged exposure to high levels of radon gas can increase the risk of health problems, especially for individuals who smoke. Non-smokers can also be at risk, although the risk is higher for smokers.

According to the U.S. EPA, Radon is the second leading cause of health problems. Since radon is odorless, colorless, and tasteless, it cannot be detected without proper testing. This makes it crucial for homeowners to test their homes for radon and take appropriate measures to mitigate its presence if levels are found to be elevated.

Taking steps to reduce radon levels in your home, such as through proper ventilation and radon mitigation systems, can help minimize the health risks associated with radon exposure. If you are concerned about radon gas in your home, it's advisable to conduct a radon test and, if necessary, consult with a radon mitigation professional to ensure a safe indoor environment.

What are the health risks of radon gas?

Radon gas is a naturally occurring gas that can seep into buildings from the ground. Prolonged exposure to elevated levels of radon can increase the risk of health problems, particularly in individuals who smoke. It's important to test for radon levels in homes and take appropriate measures to mitigate its presence if necessary.

How common is Radon gas in residential homes?

The prevalence of radon gas in residential homes can vary widely depending on geographic location, geology, construction type, and other factors. In some regions, radon levels are relatively low and may not pose a significant health risk. However, in certain areas, including along Utah’s Wasatch Front, radon concentrations can be elevated, leading to potential health concerns. The United States Environmental Protection Agency (EPA) and other health organizations recommend testing for radon in homes, especially in areas known to have higher radon potential. In Utah, roughly 35% of homes tested indicate radon levels higher than the EPA’s recommended threshold for mitigation.

It's important to note that radon is colorless, odorless, and tasteless, so testing is the only way to determine its presence. If elevated radon levels are found, mitigation measures can be taken to reduce exposure and lower the risk to residents.

If you are concerned about radon gas in your home, contact us today for a free radon test to determine your radon levels and recommendations for testing and mitigation.

How do you test for radon gas in homes?

Testing for radon gas in homes is an important step to ensure the safety of indoor air quality. Here's how you can test for radon gas:

If you're unsure about the testing process or need assistance interpreting the results, it's a good idea to consult with a professional radon testing and mitigation service. Remember that regular testing is recommended, as radon levels can vary over time.

 How to reduce radon levels in homes

Reducing radon levels in homes is essential to maintain a safe indoor environment. Here are steps you can take to mitigate radon gas: