Home Radon Testing In Dayton Ohio

Three zone map of Radon Testing Dayton OhioWhat Is Radon? And Why Should I Care?

Radon testing Dayton Ohio is recommended because Radon is an odorless, invisible gas known to be a human lung carcinogen. Millions of homes and buildings contain high levels of radon gas. The EPA’s efforts are directed at locating homes with high levels and encouraging mitigation.

As a means of prevention, the EPA and the Office of the Surgeon General recommend that all homes below the third floor be tested for radon. Because radon is invisible, a simple test is the only way to determine if a home has high radon levels. The EPA recommends mitigating homes with high radon levels and there are straight-forward reduction techniques that will work in most any home.

Most homes will not have a radon problem, but there is a simple radon testing to find out if you do or don’t have high radon levels in your home.- The US Environmental Protection Agency’s position on Radon.

More on radon testing Dayton Ohio

Radon is a colorless, odorless radioactive gas which comes from the natural breakdown (radioactive decay) of radium, which is a decay product of uranium. Uranium and radium are both common elements in the soil. The A home in need of Radon Testing Dayton OhioSurgeon General has warned that radon is the second leading cause of lung cancer in the U.S. today. Only smoking causes more lung cancer deaths. If you smoke and your home has high radon, your risk of lung cancer is especially high.

Where is radon found?

The major source of high levels of radon in homes is soil surrounding and under the house, particularly soil containing uranium. Radon is found all over the U.S. and the world. Some areas have more radon problems than others because of varying concentrations of radon-producing minerals in the soil, variation of soil types from one place to another, and different characteristics found in individual homes. Radon problems have been identified in every state. EPA estimates that as many as 1 in 15 homes have elevated annual radon levels.

What are the health risks?

Almost all scientists agree that radon is a health hazard to humans and that it causes lung cancer. Risk calculation and the action level usually raise debate. The EPA has declared radon to be a “Class A Carcinogen,” which means that it has been shown to cause cancer in humans.

Radon gas decays into radioactive solid particles that can get trapped in your lungs when you breathe. As the particles break down further, they release small bursts of energy that can damage lung tissue and lead to lung cancer. Not everyone exposed to elevated levels of radon will develop lung cancer. The amount of time between exposure and the onset of disease may be many years. Smoking combined with radon exposure is an especially serious health risk. You can reduce your risk of lung cancer by stopping smoking and lowering the radon level in your home.

What levels are too high?

Periodic Table Element Radon Testing Dayton OhioRadon is measured in picoCuries per liter (pCi/L) of air. A picoCurie is a measure of the amount of radioactivity of a particular substance. A liter is about equal to a quart. The level of radon in outdoor air is about 0.4 pCi/L. The average indoor radon level is about 1.3 pCi/L. EPA has established 4.0 pCi/L as the action level for radon in homes, schools and workplaces. This is a technology-based number, not a health-based level. Current mitigation technology can generally reduce radon levels to 3.9 pCi/L or less. Since radon is a carcinogen, no level is completely risk-free. However, since it is a natural part of the environment there is no such thing as a “0” level.

What is a PicoCurie?

Radioactivity is commonly measured in picocuries (pCi). This unit of measure is named for the French physicist Madam Marie Curie, who was a pioneer in the research of radioactive elements and their decay. One pCi is equal to the decay of about two radioactive atoms per minute. Because the level of radioactivity is directly related to the number and type of radioactive atoms present, radon and all other radioactive elements are measured in pCi. For instance, a house having 4 pCi of radon per liter of air has about 8 or 9 atoms of radon decaying every minute in every liter of air inside the house. A 1,000 square foot house with 4 pCi/L of radon has nearly 2 million radon atoms decaying in it every minute.

How does radon get into homes?

Radon is a soil gas that typically moves up through the ground to the air above. Air pressure inside a home is usually lower than pressure in the soil around the home’s foundation. Because of the difference in pressure, a house acts like a vacuum, drawing radon in through dirt floors, hollow-block walls, cracks in the foundation floor and walls, and openings around floor drains, pipes and sump pumps.

Any home may have a radon problem. This includes new, old, well-sealed or drafty homes, and homes with or without basements. adon is generally more concentrated at lower levels, like basements, ground floors and first floors.

My neighbor got a low reading, so I should not have a problem … should I get a radon test?

Radon test results from other homes in the neighborhood should not be used to estimate the radon level in a particular home. Homes which are next to each other can have different indoor radon levels. In fact, one of the highest levels ever found in a home (>3,000 pCi/L) was across the street from a home which measured less than 4 pCi/L. Testing is the only way to know.

Should every home be tested for radon?

YES. Testing is the only way to know if you and your family are at risk from radon. The Environmental Protection Agency (EPA) and the Surgeon General recommend testing all homes.

Testing is inexpensive and easy – it should only take a few minutes of your time. Millions of Americans have tested their homes for radon.

Can you test your home yourself?

Dayton Home Inspection Radon testingTesting is easy and it should only take a few minutes to place a test kit. There are several kinds of low-cost “do it yourself” radon test kits available through the mail and at hardware stores and other retail outlets. The directions should be followed carefully, as the length of time the kits can remain open varies depending on the lab.

The most common commercially available passive test kits are charcoal canisters, e-perm, alpha track detectors, and charcoal liquid scintillation devices. A test kit is placed in the basement or lowest lived-in level of a home, and after a specified amount of time the kit is mailed to the manufacturer to be analyzed.

Short-term versus long-term testing

The EPA action level of 4 pCi/L actually represents an annual average. Because radon levels tend to vary from day-to-day, and season-to-season, a short-term test (days) is less likely than a long-term test (months) to provide the year-round average radon level. However, when results are needed quickly, a short-term test followed by a second short-term test, or two short-term tests placed side by side, and the results averaged, can be used. For either approach the test should last at least 48 hours.

Should I hire a contractor to do radon testing?

A trained contractor can be hired to do the test. Make certain the person hired is NEHA- or NRSB-certified. NEHA stands for National Environmental Health Association and has been contracted by the U.S. EPA to certify radon testers. NRSB stands for the National Radon Safety Board.

When is the best time for radon testing?

Anytime that windows and doors are normally kept closed is a good time to test. This is generally in the winter or summer months, when heating or cooling systems are running. For short-term tests, the house should be closed up for 12 hours before the test begins and throughout the test.

If a house has been unoccupied and closed up for several months, the result may more closely approximate what the radon levels would be with people living in the house if the temperature in the house is allowed to return to the normal living range.

What are the testing protocols?

EPA has issued “protocols” or guidelines for radon testing in the home as well as for testing associated with real estate transactions.

The testing procedures or protocols that are used when a house is being tested in connection with a real estate sale, are listed in the “Home Buyer’s and Seller’s Guide to Radon” (EPA 402-K-00-008, July 2000).

The standard protocols are provided in “A Citizen’s Guide to Radon” (EPA 402-K92-001, May 1992) This guide provides protocols for both short and long-term radon testing.

Are the tests accurate / reliable?

If a NEHA-certified tester is not used, homeowners should either place two test kits side-by-side or conduct a retest after the first test is conducted to verify results. It is recommended to retest every year or so as conditions in a home can change over time.

In addition to certifying testers and contractors, NEHA certifies the companies that make and analyze test kits. To ensure that you get reliable results, look for a test kit from a company that has successfully completed the this certification process. Contact your state radon program office or follow the NEHA website link below for a list of certified manufacturers and laboratories.

How long does it take to get the results?

The length of time it takes to get results varies with the manufacturer or laboratory, but generally results can be expected within a couple of weeks. Some NEHA-certified laboratories will fast-track the results when real estate transactions are involved.

How should the house be prepared for a radon test?

Providing “closed house conditions” during short-term tests means that all windows are kept closed, and doors are kept closed except for normal entry and exit. Heating and air conditioning units can be operated as long as they do not introduce outside air. Exhaust or attic fans should not be used. These conditions should be maintained for twelve hours prior to initiation of the test, then throughout the remainder of the test.

Does it matter if the house has been closed up for several months?

It does not matter if a house has been closed up for months when you test it. In fact, for short-term tests (2-3 days) the house should be closed up for 12 hours before the test begins, as well as throughout the testing period. However, to more closely approximate what the radon levels would be when occupied, the temperature could be allowed to return to some “normal” level prior to testing.

What if a radon testing was done in a basement which has an open crawl space area?

Radon tests should only be done in areas which can be used as living space. A basement connected to an open crawl space should not be used as living space without major remodeling. Hence it is an inappropriate test site.

Protocols for Commercial Buildings

EPA has not developed radon testing protocols for commercial buildings. However, EPA has developed radon testing protocols for schools. These protocols call for initial short-term measurements to be taken simultaneously in all frequently-occupied rooms in contact with the ground. Follow-up tests should be performed for every room that initially tests 4 pCi/L or greater. For follow-up tests, use a short-term test if results are needed quickly; use a long-term test to better understand the average radon level for a school year. See the publication “Radon Measurement in Schools; Revised Edition” EPA 402-R-92-014.

Soil Radon Testing?

EPA does not recommend soil testing for radon prior to construction of new buildings. The reason is that the radon concentrations in soil can be much different from one point on a lot to another. Testing enough locations at enough depths on a site would be very expensive. A much cheaper and more reliable approach is to use radon resistant techniques when the building is built. These techniques are very inexpensive, help protect the home from radon, and also help solve other problems like moisture in the home. Many of the techniques are already used by good builders. See EPA publications “Radon-resistant Construction Techniques for New Residential Construction” (EPA/625/2-91/032) and “Radon Prevention in the Design and Construction of Schools and Other Large Buildings” (EPA/625/R-92/016) for more information.

Radon in water

In municipal water systems most of the radon will escape to the air during processing. It tends to be the smaller rural water systems and well water which may have elevated radon in water levels.

Radon can reach concentrations of many thousands of picoCuries per liter in water. The major health threat is not associated with drinking the water, but rather from breathing the radon that escapes the water and enters the air. An example of this is breathing the air while taking a shower. There is a very rough 10,000 to 1 conversion factor from radon in water to radon in air. For example, 10,000 pCi/L of radon in water would give about 1 pCi/L in air. Similarly, 25,000 pCi/L in water gives about 2.5 pCi/L in air.

Individual water supplies can be treated by aeration or installation of granular activated carbon (GAC) absorbers. A GAC system is less expensive than aeration but would still cost approximately $1,000 to install, plus additional costs to maintain. Depending on the initial radon levels, disposal of the carbon can become a problem over time. If a home has both elevated indoor radon levels and elevated levels in the water, an NEHA-certified contractor should be consulted to determine what strategy will be the most cost effective in reducing the radon exposure.

There are currently no drinking water standards for radon in water, although standards have been proposed. The final number (in pCi/L) won’t be determined until additional studies and analyses have been completed.

Radon testing and selling your home

EPA has developed specific testing protocols for use during real estate transactions. They can be found in the “Home Buyer’s and Seller’s Guide to Radon” (EPA 402-K-00-008, July 2000). For passive tests the recommendation is: “Take an initial short-term test for at least 48 hours. After the first test has been completed, take a follow-up short-term test for at least 48 hours.” or “Take two short-term tests at the same time in the same location for at least 48 hours.” For either approach, “Fix the home if the average of two tests is 4 pCi/L or more.” For an active test, “Test the home with a continuous monitor for at least 48 hours. Fix the home if the average radon level is 4 pCi/L or more.”

If your home has radon, can it be fixed?

There are simple ways to fix a radon problem that aren’t too costly. Even high levels can be reduced to acceptable levels in most cases.

For new homes, consider Radon-Resistant Construction systems which allow for control measures to be installed cheaply and without major renovation to your home.

How to reduce (mitigate) radon testing levels in existing homes?

There are two approaches to radon mitigation or reduction. One is to prevent the radon from entering the structure and the other is to remove the radon after it enters the structure. Generally, the best approach is to prevent the radon from entering.

Some of the techniques used are soil depressurization, sealing cracks and joints, pressurizing the building, or a combination of these. Sealing foundation joints and cracks is rarely sufficient as a stand alone mitigation technique. Soil depressurization, the most common approach, involves running PVC pipe through the slab (or underneath a membrane in a crawl space), then routing it up and through the roof. A fan is attached in the attic area, and the radon is thus drawn from below the slab (or membrane) and vented above the roof where it is quickly diluted in outside air. Pressurization is fairly difficult to maintain, and is less commonly used as a mitigation approach.

EPA recommends that a qualified contractor be used to mitigate homes because of the specialized technical experience required. Without proper equipment or technical knowledge, one could actually increase the radon levels or create other potential hazards. NEHA (National Environmental Health Association) certifies radon mitigators that have taken a course and passed a test based upon the material taught. Contact your state radon program office or follow the NEHA link below to obtain a list.

What about new construction?

New homes can be built with radon-resistant features that minimize radon entry and allow easier fixing of radon roblems that could occur later. These features cost less if installed during construction than if added to an existing home. Materials and labor cost for the radon-resistant techniques cost less than $100, versus the cost of retrofitting an existing home at $800 to $2,500. In most new homes, use of radon-resistant features will keep radon levels to below 2 pCi/L.

In many cases, a passive system is all that is needed to effectively reduce indoor radon levels. Nevertheless, occupants of newly constructed homes should test their homes for radon. If the indoor radon levels measure 4 pCi/L or higher, a fan should be installed in the vent pipe to make the system active.

What is a passive radon resistant system?

A passive radon resistant system pulls radon from beneath the home, carries it up through the home in a pipe, and exhausts it above the roof. It differs from an active system in that the active system includes a fan in the pipe as it goes through the attic. The fan in an active system operates continuously, pulling radon-laden air from the soil beneath the lowest floor. In a passive system, the natural rising of warm air through the pipe continuously exhausts a low flow of air and radon from beneath the lowest floor of the house.

How do you install a passive radon resistant system?

First, there is a gas permeable material beneath the lowest floor. This is usually gravel, although other materials can be used. Plastic sheeting is placed above this, and the concrete floor on the sheeting. A 3 to 4 inch plastic pipe runs from the gravel through the sheeting and concrete, up through the house and through the roof. All the penetrations below ground level, such as the basement floor-wall joint, and plumbing and electrical penetrations, are caulked. This allows the natural convection of warm air moving up the pipe to create a slight vacuum in the gravel beneath the concrete. This vacuum pulls air and radon up the pipe and exhausts it above the roof. The caulking helps prevent air from the living space from being pulled below the floor, and improves the vacuum beneath the floor.

Can a radon testing mitigation system contribute to backdrafting?

Backdrafting is the condition that exists when the combustion products from a furnace or hot water heater are drawn back into the home rather than going up the chimney. This can happen when the air pressure in the house is so low that air is actually sucked down the chimney and into the home. A radon system pulls air from beneath the lowest floor. If cracks and penetrations in that floor and the floor wall joint are not properly caulked, the system could pull air from the lowest level of the house and thereby lower the air pressure in that level, possibly causing backdrafting.

If my radon testing level is only 4.2 pCi/L, will it help to seal cracks in the floor? If so, with what?

If your initial test result is 4.2 pCi/L based on a short term test, another test should be conducted as a follow-up. It is possible that the result of such a test would be below 4.0 pCi/L.

However, if your home’s actual radon concentration is 4.2 pCi/L, sealing cracks in the floor and wall joints is a good first step in solving the problem. A gun-grade polyurethane caulk should be used. This should be considered a first phase, to be followed by another short-term test, and possibly other solutions.

Accutech Home Inspections has been perfecting the art of Home Inspection since 2004. Our industry has continued to evolve since then, with new standards and more advanced technology to confirm the condition of your home. But one thing has remained consistent: our dedication to providing the best Home Inspection solutions. You’ve got questions, we’ve got answers! Learn more about radon testing with Dayton Home Inspection.

Be sure to read our article on IAQ Testing

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