AI Article Synopsis
- The study confirms that tropospheric ozone formation from coal-fired power plants is nonlinearly related to the concentration of nitrogen oxides (NO(x)), which depend on emission rates and how pollutants disperse in the atmosphere.
- It also highlights that reactive volatile organic compounds, mainly from natural sources like biogenic isoprene, play a significant role in influencing ozone production in these emissions plumes.
- The findings indicate that variations in ozone formation rates, influenced by NO(x) and volatile organic compound levels, could improve the effectiveness of ozone control strategies if power plant emissions and locations are carefully considered.
Article Abstract
Data taken in aircraft transects of emissions plumes from rural U.S. coal-fired power plants were used to confirm and quantify the nonlinear dependence of tropospheric ozone formation on plume NO(x) (NO plus NO(2)) concentration, which is determined by plant NO(x) emission rate and atmospheric dispersion. The ambient availability of reactive volatile organic compounds, principally biogenic isoprene, was also found to modulate ozone production rate and yield in these rural plumes. Differences of a factor of 2 or greater in plume ozone formation rates and yields as a function of NO(x) and volatile organic compound concentrations were consistently observed. These large differences suggest that consideration of power plant NO(x) emission rates and geographic locations in current and future U.S. ozone control strategies could substantially enhance the efficacy of NO(x) reductions from these sources.
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| http://dx.doi.org/10.1126/science.1058113 | DOI Listing |
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