What is radon? And why are they saying all those bad things about it?
The decay of radon-222 with emission of an alpha particle is followed within about an hour by a series of four further decays, two of them accompanied by emission of alpha particles and the other two accompanied by other types of radiation. The short-lived atoms into which a radon atom decays are actually isotopes of polonium, lead, and bismuth, but they are referred to collectively as radon daughters, or, by those sensitive to questions of gender, as radon progeny. The radon daughter atoms float around in the air during their few minutes of existence, often becoming attached to dust particles. In summary, a radon atom in the air decays within a few days into its short-half-life radon daughters, which decay within about an hour; with these decays, three alpha particles are emitted, one by radon and two by its daughters.
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Index Reference Cohen | |||
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Where does Radon come from?Radon is a naturally occurring radioisotope. Radioactivity is, and always has been a part of the earth. Radon-222 is one of the elements in the long radioactive decay chain from uranium-238, and the less common isotope radon-220 is part of the decay series from thorium-232. The elements above radon in the chain are relatively long-lived and of less concern for radiation exposure, but radon and the elements immediately following it in the chain are short-lived and therefore more hazardous. Whereas the predecessors to radon in the chain are solids and will not migrate far from their place in the soil, radon is a gas and can migrate through a few feet of earth. Cohen says that on the average, about six atoms of radon emerge form every square inch of soil every second. Radon in outside air is diluted rapidly, but if it enters through a basement floor and is trapped in a tight house, it can reach high concentrations. From Lutgens & Tarbuck there is an estimate that the top 6 feet of soil from an average acre of land contains about 50 lbs of uranium. This corresponds to about 2 to 3 parts per million.
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Index Reference Cohen Lutgens & Tarbuck Ch 18 | |
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At what level is Radon dangerous?It is generally assumed that no level of ionizing radiation is completely safe, but one must try to set a threshold of reasonably tolerable risk. The EPA suggests an "action level" of 4 picocuries per liter in air. Lutgens & Tarbuck suggest that this level corresponds ot about 8 to 9 atoms of radon decaying every minute in every liter of air. According to Cohen, the mean radon level in houses throughout the western world is about 1 pCi/l. Cohen has expressed the risks of radiation in terms of "loss of life expectancy". He places the loss of life expectancy of 1 millirem of radiation at 1.2 minutes, and the loss of life expectancy of 20 hours for a years exposure to 1 pCi/l in your home. By this admittedly over-simplified model, you can project the equivalent exposure of 4 pCi/l for a full year as equivalent to 4000 millirem or 4 rem. The maximum permissible occupational exposure for persons working in radiation related occupations is 5 rem per year. Other sources estimate the dose equivalent of 4 pCi/l to be as high as 14 rem, but I'm not clear on the rationale for that high figure.
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Index Reference Cohen Lutgens & Tarbuck Ch 18 | |
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Radon in the AirOne would think that radon was the least of our radiation problems since it is an inert gas. That would be so except that when we breathe, we are constantly passing air into our lungs and out of them. In this process, the radon gas simply goes in and out, doing little damage, but the radon daughters, being basically solid materials, and sometimes being electrically charged, can stick to the surfaces of our bronchial tubes. This puts them right where they can do the most harm, for the cells lining our bronchial tubes are among the cells of our body most sensitive to radiation-induced cancer. The alpha particles emitted in the decay of radon daughters, in spite of their poor penetrating power, can reach these very sensitive cells because they are deposited so close to them. To make matters very much worse, alpha particles are much more efficient than other types of radiation for inducing cancer. The very fact that they are not penetrating means that they dump a lot of their energy into each of the biological cells they pass through, and this large release of energy into a single cell is just what is needed to initiate a cancer. As a result an alpha particle is a hundred times more likely to cause cancer than other types of radiation, if it can reach the target cells. Our breathing processes allows the alpha particles from radon daughters to reach these cells. Radon is believed to be an important cause of lung cancer, killing about 10,000 Americans each year. Only cigarette smoking causes more lung cancer deaths per year. And in perhaps one out of a thousand American homes, radon levels are so high they pose a greater lung cancer risk than smoking a pack of cigarettes per day.
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Index Reference Cohen | |
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More about the Watras homeA new nuclear power plant was preparing to start up near Pottstown, Pennsylvania, and its management began requiring workers to pass through a radiation monitoring portal to check whether any radioactive contamination was being carried out as they left the plant. Curiously, one of the workers, Stanley Watras, set off the alarm on entering the plant. The problem was traced to radon in his home. In fact, to this day his house still holds the world record, 2,700 pCi/l! The Watras house is on the Reading Prong, a granite formation that extends from near Reading in southeastern Pennsylvania, through a wide band of northern New Jersey State (e.g., Morris County), a narrow band in New York State (e.g., Putnam County), and into Connecticut. This whole formation is known to have high uranium content and hence was expected to have radon problems. However, measurements now make it clear that the radon problems are largely confined to the Pennsylvania section plus extreme western New Jersey.
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Index Reference Cohen | |
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Radon compared to other radiation sourcesThe "action level" recommended by the Environmental Protection Agency for radon in the air is 4 picocuries/liter of air. It is difficult to convert air concentrations to actual exposures in rems or sieverts, but estimates are in the range of 4 to 14 rem per year at that concentration. That makes it greater that all the other routine environmental exposures combined.
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