Difference between revisions of "Nitrogen oxide"
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| − | {{#badges: CoalSwarm}} Nitrogen is the most common part of the air we breathe: about 80% of the air is nitrogen. When air is heated, like in coal boilers, nitrogen atoms break apart and join with oxygen, forming '''nitrogen oxides''' (NOx) (rhymes with "socks"). NOx can also be formed from the atoms of nitrogen that are trapped inside coal.<ref>[http://fossil.energy.gov/education/energylessons/coal/coal_cct3.html "Knocking the NOx Out of Coal"] DOE, accessed September 2010.</ref> | + | {{#badges: CoalSwarm}} Nitrogen is the most common part of the air we breathe: about 80% of the air is nitrogen. When air is heated, like in coal boilers, nitrogen atoms break apart and join with oxygen, forming '''nitrogen oxides''' (NOx) (rhymes with "socks"). NOx can also be formed from the atoms of nitrogen that are trapped inside coal. Coal combustion release oxides of nitrogen, which react with volatile organic compounds in the presence of sunlight to produce ground-level '''ozone''', the primary ingredient in '''smog'''.<ref>[http://fossil.energy.gov/education/energylessons/coal/coal_cct3.html "Knocking the NOx Out of Coal"] DOE, accessed September 2010.</ref> |
In atmospheric chemistry and air pollution and related fields, nitrogen oxides refers specifically to NO<sub>x</sub> (NO and NO<sub>2</sub>).<ref>United States [[Clean Air Act]]</ref> | In atmospheric chemistry and air pollution and related fields, nitrogen oxides refers specifically to NO<sub>x</sub> (NO and NO<sub>2</sub>).<ref>United States [[Clean Air Act]]</ref> | ||
==Health effects== | ==Health effects== | ||
| − | In the air, NOx is a pollutant. Coal combustion release oxides of nitrogen, which react with volatile organic compounds in the presence of sunlight to produce ground-level | + | In the air, NOx is a pollutant. Coal combustion release oxides of nitrogen, which react with volatile organic compounds in the presence of sunlight to produce ground-level ozone, the primary ingredient in smog. Asthma exacerbations have been linked specifically to exposure to ozone. Nitrogen oxide also contributes to fine [[particulate matter]] (PM), found in [[soot]], which is also linked to a host of serious health effects.<ref name="psr">Alan Lockwood, Kristen Welker-Hood, Molly Rauch, Barbara Gottlieb,[http://www.psr.org/resources/coals-assault-on-human-health.html "Coal's Assault on Human Health"] Physicians for Social Responsibility Report, November 2009</ref> |
Exposures to ozone and PM are both correlated with the development of and mortality from lung cancer. Recent research suggests that nitrogen oxides and PM2.5, along with other pollutants, are associated with hospital admissions for potentially fatal cardiac rhythm disturbances. Cities with high nitrogen dioxide (NO<sub>2</sub>) concentrations have death rates four times higher than those with low NO<sub>2</sub> concentrations, suggesting a potential correlation.<ref name="psr"/> | Exposures to ozone and PM are both correlated with the development of and mortality from lung cancer. Recent research suggests that nitrogen oxides and PM2.5, along with other pollutants, are associated with hospital admissions for potentially fatal cardiac rhythm disturbances. Cities with high nitrogen dioxide (NO<sub>2</sub>) concentrations have death rates four times higher than those with low NO<sub>2</sub> concentrations, suggesting a potential correlation.<ref name="psr"/> | ||
Revision as of 14:43, 2 October 2010
{{#badges: CoalSwarm}} Nitrogen is the most common part of the air we breathe: about 80% of the air is nitrogen. When air is heated, like in coal boilers, nitrogen atoms break apart and join with oxygen, forming nitrogen oxides (NOx) (rhymes with "socks"). NOx can also be formed from the atoms of nitrogen that are trapped inside coal. Coal combustion release oxides of nitrogen, which react with volatile organic compounds in the presence of sunlight to produce ground-level ozone, the primary ingredient in smog.[1]
In atmospheric chemistry and air pollution and related fields, nitrogen oxides refers specifically to NOx (NO and NO2).[2]
Contents
Health effects
In the air, NOx is a pollutant. Coal combustion release oxides of nitrogen, which react with volatile organic compounds in the presence of sunlight to produce ground-level ozone, the primary ingredient in smog. Asthma exacerbations have been linked specifically to exposure to ozone. Nitrogen oxide also contributes to fine particulate matter (PM), found in soot, which is also linked to a host of serious health effects.[3]
Exposures to ozone and PM are both correlated with the development of and mortality from lung cancer. Recent research suggests that nitrogen oxides and PM2.5, along with other pollutants, are associated with hospital admissions for potentially fatal cardiac rhythm disturbances. Cities with high nitrogen dioxide (NO2) concentrations have death rates four times higher than those with low NO2 concentrations, suggesting a potential correlation.[3]
NOx also harms the environment, contributing to acidification of lakes and streams (acid rain).[4]
Aging coal plants "grandfathered" in after passage of the Clean Air Act have been particularly linked to large quantities of harmful emissions.[5][6]
Resources
References
- ↑ "Knocking the NOx Out of Coal" DOE, accessed September 2010.
- ↑ United States Clean Air Act
- ↑ Jump up to: 3.0 3.1 Alan Lockwood, Kristen Welker-Hood, Molly Rauch, Barbara Gottlieb,"Coal's Assault on Human Health" Physicians for Social Responsibility Report, November 2009
- ↑ "The Health Risks of Burning Coal for Energy" The Environmental Defense Fund, September 5, 2006
- ↑ "Deadly Power Plants? Study Fuels Debate" MSNBC.com, June 9, 2004
- ↑ "America's Biggest Polluters: Carbon Dioxide Emissions from Power Plants in 2007" Environment America, November 24, 2009
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