Radon mitigation refers to any process that is involved in the reduction of the concentration of radon gas in buildings occupied by people. The gas may also exist in water as a solution. Thus, activities entailed in reducing the amount of the gas in water are also classified under radon mitigation. This gas needs to be mitigated because it is a major contributor to environmental radioactivity. When in search of Radon Gas Testing Upper MI should be given priority.
Installing better ventilation equipment in an area that is affected is one way of reducing the levels of the gas. Ventilation may be installed in places like under the ground, under the film, or the slab. Changing air in the space after every one hour can also help to keep levels of the gas low. A number of techniques such as using activated charcoal or ventilation are in wide use.
Several procedures are involved in mitigation. The first procedure is testing. It is performed to establish the quality of domestic water and indoor air. No level of concentration can be considered as safe for human beings. Also, complete eradication of radon is impossible. Therefore, different action levels on when accumulations are high enough for elimination have been set by governments across the globe.
The concentration level of 2.7 pCi/1 or more should call for rapid action according to the WHO. This level of concentration addresses air levels of the gas. Radon that exists in gaseous form is much more dangerous than one that exists a solution in water. Thus, it is not very relevant to test water unless levels in the air are way too high. This is a recommendation of the EPA agency in the US.
Concentration levels usually vary from one place to another. For instance, in the state of Maine, concentration level of this gas is usually very high than the national average. As such, it is mandatory to have all wells drilled in the state tested. At the moment, there is no action level for the gas in water in the United States.
Usually, there are variations in the quantity of radon gas in the air. These variations occur with time of day and the season. For example, some seasons experience very high concentrations compared to others. Also, similar variations occur daily. This renders short term tests not accurate assessments of average levels of this gas in the building. Change in transient weather and barometric pressure normally affects short term concentrations a lot.
Using fans and proper ventilation are also techniques of reducing levels of concentration in the air. The devices used for the testing process are classified as active or passive and they are installed in a building in order to test the air for a given period. While some systems have to be sent to a lab for analysis of data collected, others are capable of on-site analysis and generation of result.
A water sample must be taken for testing to be done. This sample is taken to the laboratory to allow calculation process to be done. Retests of water or air are normally recommended to make sure that the concentration levels are accurate. Implementation of mitigation strategy can then begin once retesting has been done and results confirmed.
Installing better ventilation equipment in an area that is affected is one way of reducing the levels of the gas. Ventilation may be installed in places like under the ground, under the film, or the slab. Changing air in the space after every one hour can also help to keep levels of the gas low. A number of techniques such as using activated charcoal or ventilation are in wide use.
Several procedures are involved in mitigation. The first procedure is testing. It is performed to establish the quality of domestic water and indoor air. No level of concentration can be considered as safe for human beings. Also, complete eradication of radon is impossible. Therefore, different action levels on when accumulations are high enough for elimination have been set by governments across the globe.
The concentration level of 2.7 pCi/1 or more should call for rapid action according to the WHO. This level of concentration addresses air levels of the gas. Radon that exists in gaseous form is much more dangerous than one that exists a solution in water. Thus, it is not very relevant to test water unless levels in the air are way too high. This is a recommendation of the EPA agency in the US.
Concentration levels usually vary from one place to another. For instance, in the state of Maine, concentration level of this gas is usually very high than the national average. As such, it is mandatory to have all wells drilled in the state tested. At the moment, there is no action level for the gas in water in the United States.
Usually, there are variations in the quantity of radon gas in the air. These variations occur with time of day and the season. For example, some seasons experience very high concentrations compared to others. Also, similar variations occur daily. This renders short term tests not accurate assessments of average levels of this gas in the building. Change in transient weather and barometric pressure normally affects short term concentrations a lot.
Using fans and proper ventilation are also techniques of reducing levels of concentration in the air. The devices used for the testing process are classified as active or passive and they are installed in a building in order to test the air for a given period. While some systems have to be sent to a lab for analysis of data collected, others are capable of on-site analysis and generation of result.
A water sample must be taken for testing to be done. This sample is taken to the laboratory to allow calculation process to be done. Retests of water or air are normally recommended to make sure that the concentration levels are accurate. Implementation of mitigation strategy can then begin once retesting has been done and results confirmed.
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