What is the relief of radon?
Radon is a naturally occurring radioactive gas that has no color, odor or taste. It is produced by the disintegration of uranium, which is commonly found in water, rock and soil. Radon removal that has been infiltrated and imprisoned in residential or other structures is called radon alleviation. Since the inhalation of radones and ingestion is serious health risks, the radon may relieve the help of protecting the health of the inhabitants of the building, which is endangered by radon contamination. When the radon gas is filtered with the soil, it can enter the building with cracks in the foundation, gaps in the building joints, spaces in the walls and other spaces, and trapped inside the building. The inhabitants are then threatened by the inhalation of this dangerous substance.
Another way Radon can enter the building is the water supply. Radon gas can be naturally dissolved in water, especially groundwater, which can be Transporn into the building using a well for supplying water water supply. Ingestion of melted radon in contaminated waterIt is one of the risk, but the use of contaminated water can pull out the radon gas from the solution to the air and also pose an inhalation risk.
Inhalation is a primary health risk related to radon. As a radioactive substance, Radon disintegrates over time and releases energy. Such energy can damage the fragile tissue - such as lung cells - inhaling, increasing the risk of lung cancer. The secondary risk is related to radon consumption, for example in contaminated water related to the increased risk of stomach cancer.
Radon alleviation may include removal of radon from the air and water of the building. Prevention of radon infiltration into the air building usually includes a process known as active soil depression. This process uses the fan to actively vent radon gas from the soil and enforce outside the building through the venting pipe. It gets rid of the radon before it is trapped inside BUdova.
Radon removal from water is most often performed by one of two techniques. The aeration treatment can be used to agitate radon gas from the solution with water and into the air, where it can be solved by normal radon alleviation procedures to remove it from the air. Alternatively, the radon can be removed by filtering a contaminated or suspect water using a granulated activated carbon that connects to the radon. This connection then Radon sequestrian from the water supply, which makes it available for the use of filtered water.
If filtration is used to reduce radon, the filter device at the water supply point point is usually recommended on devices at points of use. This helps to ensure that the entire water supply is subject to radon alleviation and such a flow of such alleviation occurs before the water entering the building, preventing the transfer of radon gas to the breathable air of the building.