Radon suppression

Adhesive bonding and miscellaneous chemical manufacture – Methods – Surface bonding and/or assembly therefor

Reexamination Certificate

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Details

C052S169500, C052S169140, C052S408000, C052S409000, C428S542800

Reexamination Certificate

active

06676780

ABSTRACT:

FIELD OF THE INVENTION
This invention relates to the suppression of the flow of radon into buildings.
BACKGROUND OF THE INVENTION
Radon is a gaseous element having the atomic number 86, i.e., an atom of radon has 86 protons in its nucleus and 86 electrons. Radon exists in the form of eighteen different isotopes. Isotopes are atoms of an element which contain different numbers of neutrons in their nuclei. All the radon isotopes are radioactive. Radioactivity is a process in which atoms undergo spontaneous nuclear transformations or decay by emitting atomic particles and electromagnetic energy. Radon undergoes alpha particle radiation in which the nuclei emit alpha particles consisting of two protons and two neutrons. The rate of radioactivity of a particular isotope is measured by its half-life. A half-life is the time for one-half of the atoms to undergo radioactive transformation. Seventeen of the radon isotopes have very short half-lives, ranging from a few seconds or less. Radon-222, the radon isotope containing 136 neutrons, is the most stable of the isotopes. It has a half-life of 3.8 days. Radon is known to cause many harmful effects on humans, including lung cancer.
Radon is constantly being formed by the radioactive decay of subterranean elements. Uranium (atomic number 92) decays into thorium (atomic number 90), thorium decays into radium (atomic number 88), and radium decays into radon. As a result, radon gas is constantly seeping upward through rock and soil toward the surface of the earth. It poses no risk when it reaches the atmosphere because its concentration is so small. However, radon can enter buildings and concentrate to dangerous levels, particularly in basements and first floors of buildings without basements. Radon levels vary considerably at different sites, and over time at any given site. Many factors cause these variations. For example, low pressure atmospheric conditions which often occur during storms are believed to draw higher levels of radon from the ground.
The health risks posed by radon have become more widely recognized in the past decade. The United States Environmental Protection Agency has recommended that homeowners take corrective action if the level of radon in their homes exceeds 4 picocuries per liter. There are two basic ways to lower radon levels in a building. The first is to remove the radon that is already there and the second is to suppress the flow of radon into the building.
The most common technique for removing existing radon from a building is to increase ventilation. Simply opening doors and windows can lower radon levels. Ventilation can be improved by the use of an air-to-air heat exchanger commonly known as a heat recovery ventilator. However, ventilation is difficult in basements with few, if any, windows or doors. Ventilation also results in the loss of conditioned air, discomfort, security problems, and increased costs of conditioning outside air.
The second basic way of lowering radon levels inside a building is to suppress the flow of radon into the building. The most common technique for suppressing the flow of radon into a building is to seal cracks and other openings in the building foundation. Sealing also reduces the loss of conditioned air, thereby making other radon suppression techniques more efficient. However, it is very difficult to identify and permanently seal every opening. Furthermore, normal settling of buildings creates new openings and reopens old ones.
Another common technique for suppressing the flow of radon into a building is to pressurize the inside of the building. Building pressurization typically uses a fan to blow air into the basement or living area from either upstairs or outdoors. The effectiveness of this technique depends on the building construction, climate, other appliances in the building, and occupant lifestyle. A major disadvantage of this method is that doors and windows must be left closed.
Another way of suppressing the flow of radon into a building is to suction the soil under the building. In buildings having a basement or a slab-on-grade foundation, suction pipes are inserted into the crushed rock or soil underneath. A fan is connected to the suction pipes which draws the gas from under the building to the atmosphere. Drain pipes that carry groundwater are sometimes used as the suction pipes.
A further way of suppressing the flow of radon into a building is to place a sheet of plastic film between the soil and the building. The sheet is typically placed over the soil beneath the building. Commonly used plastic films, including polyethylene and polypropylene, do not provide an effective barrier to radon. Furthermore, the plastic sheeting must be laid during building construction and it is difficult to completely cover the ground under the foundation. Plastic sheeting is also incorporated into the floor of the building. The use of radon barriers is disclosed in Doyle et al., U.S. Pat. No. 5,137,764, issued Aug. 11, 1992; and Schwilling et al., U.S. Pat. No. 5,174,800, issued Dec. 29, 1992.
Accordingly, a demand exists for an improved method of suppressing the flow of radon into buildings.
SUMMARY OF THE INVENTION
The general object of this invention is to provide an improved method of suppressing the flow of radon into buildings.
I have invented a method of suppressing the flow of radon from the ground into a building. The method comprises: (a) obtaining a sheet of plastic film having an oxygen diffusivity of less than about 10 cubic centimeters per day; and (b) placing the plastic film on or under the lowest floor of the building.
The method dramatically reduces the flow of radon into a building when the plastic film completely covers the floor. The method is relatively inexpensive and completely safe. It has no effect on the occupant and there are no operating costs.


REFERENCES:
patent: 5137764 (1992-08-01), Doyle et al.
patent: 2002/0061982 (2002-05-01), Donald et al.
patent: 2 236 127 (1991-03-01), None

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