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This publication is issued by the Department of Environmental Quality as authorized by Steven A. Thompson, Executive Director. Copies have been produced at a cost of $0.0535 each. Copies have been deposited with the Publications Clearinghouse of the Oklahoma Department of Libraries. (\fact sheets\air\Nitrogendioxide) 11/7/11 General Nitrogen dioxide (NO2) is a reddish-brown, highly reactive gas that is present in all urban air. NO2 is a strong oxidizing agent that reacts in the air to form corrosive nitric acid, as well as toxic organic nitrates. It also plays a major role in the atmospheric reactions that produce ground-level ozone (O3). The nitrogen oxides (NOx) normally found in the atmosphere include nitrous oxide (N2O), nitric oxide (NO), and nitrogen dioxide (NO2). N2O is a stable gas with anesthetic characteristics. The typical ambient concentration of N2O is much below the threshold concentration for a biological effect. NO is a colorless gas with a typical ambient concentration less than 0.5 ppm. At these concentrations its biological toxicity is not significant. However, NO is a precursor to the formation of NO2 and an active compound in O3 formation. Natural sources of NO2 include biological processes in soil and the atmospheric oxidation of ammonia. The man-made sources are of more importance, however, in the occurrence of NO2 and O3 air pollution because they are concentrated in the more populated areas and account for the greater share of the NO2 emissions in such areas. The major man-made source of NO2 emissions is high-temperature fuel combustion in motor vehicles and in industrial and utility boilers. These emissions are primarily in the form of NO which is oxidized in the atmosphere to NO2. The conversion rate depends on the ambient concentrations of NO and O3. If O3 is present, the conversion is very rapid. Ground-level emissions account for most of the NOx that are involved in urban O3 formation. Standards There are now two primary National Ambient Air Quality Standards (NAAQS) for NO2. A new1-hour NO2 standard at the level of 100 parts per billion( ppb) and the existing primary NAAQS of .053 ppm annual arithmetic mean. The form for the new 1-hour NO2 standard, is the 3-year average of the 98th percentile of the annual distribution of daily maximum 1-hour average concentrations shall not exceed 100 parts per billion. Nitrogen Dioxide November 2011 Effects NO2 is a pulmonary irritant affecting primarily the upper respiratory system. Individuals with asthma, respiratory disorders, and lung diseases are more sensitive to the effects of NO2. Healthy individuals exposed to concentrations of NO2 from 0.7 to 5.0 parts per million (ppm) for 10 to 15 minutes have developed abnormalities in pulmonary airway resistance. At typical ambient concentrations, NO2 has not been proven to be related to lung disease. At higher concentrations it can irritate the lungs, cause bronchitis and pneumonia, and lower resistance to respiratory infections. Continued or frequent exposure to high levels of NO2 can cause pulmonary edema. Inflammation of the lungs can occur 5 to 72 hours after exposure to elevated NO2 levels. Nitrogen oxides in the air are a potentially significant contributor to a number of environmental effects such as acid rain and eutrophication. Eutrophication occurs when a body of water suffers an increase in nutrients that reduce the amount of oxygen in the water, resulting in an environment that is destructive to fish and other animal life. Other effects of NOx include degradation of vegetation, materials, and visibility. NO2 and NO react with water vapor to form aerosol droplets which limit visibility. NO2 affects metals by forming salts that increase corrosion. It also fades fabric, degrades rubber, and harms vegetation. Plant damage includes bleaching or death of plant tissue, loss of leaves, and decreased growth rate.
Object Description
Okla State Agency |
Environmental Quality, Oklahoma Department of |
Okla Agency Code |
'292' |
Title | Nitrogen dioxide. |
Authors |
Oklahoma. Department of Environmental Quality. |
Publisher | Oklahoma Department of Environmental Quality |
Publication Date | 2011-11 |
Publication type |
Fact Sheet |
Subject | Nitrogen dioxide--Environmental aspects. |
Purpose | General Nitrogen dioxide (NO2) is a reddish-brown, highly reactive gas that is present in all urban air.; Effects NO2 is a pulmonary irritant affecting primarily the upper respiratory system. |
Notes | Air |
OkDocs Class# | E4850.1 N731d 2011 |
Digital Format | PDF, Adobe Reader required |
ODL electronic copy | Downloaded from agency website: www.deq.state.ok.us/factsheets/air/no2.pdf |
Rights and Permissions | This Oklahoma state government publication is provided for educational purposes under U.S. copyright law. Other usage requires permission of copyright holders. |
Language | English |
Date created | 2012-05-07 |
Date modified | 2012-05-07 |
OCLC number | 890218444 |
Description
Title | Nitrogen dioxide 1 |
Full text | This publication is issued by the Department of Environmental Quality as authorized by Steven A. Thompson, Executive Director. Copies have been produced at a cost of $0.0535 each. Copies have been deposited with the Publications Clearinghouse of the Oklahoma Department of Libraries. (\fact sheets\air\Nitrogendioxide) 11/7/11 General Nitrogen dioxide (NO2) is a reddish-brown, highly reactive gas that is present in all urban air. NO2 is a strong oxidizing agent that reacts in the air to form corrosive nitric acid, as well as toxic organic nitrates. It also plays a major role in the atmospheric reactions that produce ground-level ozone (O3). The nitrogen oxides (NOx) normally found in the atmosphere include nitrous oxide (N2O), nitric oxide (NO), and nitrogen dioxide (NO2). N2O is a stable gas with anesthetic characteristics. The typical ambient concentration of N2O is much below the threshold concentration for a biological effect. NO is a colorless gas with a typical ambient concentration less than 0.5 ppm. At these concentrations its biological toxicity is not significant. However, NO is a precursor to the formation of NO2 and an active compound in O3 formation. Natural sources of NO2 include biological processes in soil and the atmospheric oxidation of ammonia. The man-made sources are of more importance, however, in the occurrence of NO2 and O3 air pollution because they are concentrated in the more populated areas and account for the greater share of the NO2 emissions in such areas. The major man-made source of NO2 emissions is high-temperature fuel combustion in motor vehicles and in industrial and utility boilers. These emissions are primarily in the form of NO which is oxidized in the atmosphere to NO2. The conversion rate depends on the ambient concentrations of NO and O3. If O3 is present, the conversion is very rapid. Ground-level emissions account for most of the NOx that are involved in urban O3 formation. Standards There are now two primary National Ambient Air Quality Standards (NAAQS) for NO2. A new1-hour NO2 standard at the level of 100 parts per billion( ppb) and the existing primary NAAQS of .053 ppm annual arithmetic mean. The form for the new 1-hour NO2 standard, is the 3-year average of the 98th percentile of the annual distribution of daily maximum 1-hour average concentrations shall not exceed 100 parts per billion. Nitrogen Dioxide November 2011 Effects NO2 is a pulmonary irritant affecting primarily the upper respiratory system. Individuals with asthma, respiratory disorders, and lung diseases are more sensitive to the effects of NO2. Healthy individuals exposed to concentrations of NO2 from 0.7 to 5.0 parts per million (ppm) for 10 to 15 minutes have developed abnormalities in pulmonary airway resistance. At typical ambient concentrations, NO2 has not been proven to be related to lung disease. At higher concentrations it can irritate the lungs, cause bronchitis and pneumonia, and lower resistance to respiratory infections. Continued or frequent exposure to high levels of NO2 can cause pulmonary edema. Inflammation of the lungs can occur 5 to 72 hours after exposure to elevated NO2 levels. Nitrogen oxides in the air are a potentially significant contributor to a number of environmental effects such as acid rain and eutrophication. Eutrophication occurs when a body of water suffers an increase in nutrients that reduce the amount of oxygen in the water, resulting in an environment that is destructive to fish and other animal life. Other effects of NOx include degradation of vegetation, materials, and visibility. NO2 and NO react with water vapor to form aerosol droplets which limit visibility. NO2 affects metals by forming salts that increase corrosion. It also fades fabric, degrades rubber, and harms vegetation. Plant damage includes bleaching or death of plant tissue, loss of leaves, and decreased growth rate. |
Date created | 2012-05-07 |
Date modified | 2012-05-07 |