A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Ozone precursor levels and responses to emissions reductions: Analysis of regional oxidant model results
Abstract An analysis of results from the Regional Oxidant Modeling for Northeast Transport (ROMNET) study (, EPA-450/4-91-002a) has investigated the chemical conditions under which air quality was predicted to improve with reductions in ROG and/or NOξ emissions, or with changes in the composition of ROG emissions. The ROMNET simulations used emissions projected to the year 2005, with meteorological conditions from July 1988. Predicted concentrations of PAN, HNO3, H2O2 and HCHO are shown along with O3 for the 2005 base case, allowing limited comparisons to be made with field observations and results from other modeling studies. Predicted secondary pollutant concentrations indicate an unusual degree of photochemical activity over much of the model domain, directionally consistent with the extreme nature of the July 1988 episode. Reducing NOξ emissions was predicted to reduce O3 in grid cells in which reactive nitrogen (NOy) concentrations were below about 25 ppb, but to be counterproductive for some cells with higher NOy. The New York City area where NOξ control was predicted to be counterproductive was characterized by very high NOξ to NOy ratios. Ozone was relatively insensitive to ROG controls in grid cells with NOy concentrations below 5–10 ppb. Comparison of unweighted ROG concentrations with concentrations weighted by HO rate constants (i.e. reactivity) showed that the latter varied less across locations. Predicted spatial gradients of NOy were generally sharper than those of reactivity-weighted ROG, supporting a dominant role for variations in NOy in controlling the sensitivity of ozone to its precursors. Reductions in reactivity-weighted ROG achieved with composition changes were similar to reductions achieved with ROG emissions cuts, explaining the similar response of ozone to these two control strategies.
Ozone precursor levels and responses to emissions reductions: Analysis of regional oxidant model results
Abstract An analysis of results from the Regional Oxidant Modeling for Northeast Transport (ROMNET) study (, EPA-450/4-91-002a) has investigated the chemical conditions under which air quality was predicted to improve with reductions in ROG and/or NOξ emissions, or with changes in the composition of ROG emissions. The ROMNET simulations used emissions projected to the year 2005, with meteorological conditions from July 1988. Predicted concentrations of PAN, HNO3, H2O2 and HCHO are shown along with O3 for the 2005 base case, allowing limited comparisons to be made with field observations and results from other modeling studies. Predicted secondary pollutant concentrations indicate an unusual degree of photochemical activity over much of the model domain, directionally consistent with the extreme nature of the July 1988 episode. Reducing NOξ emissions was predicted to reduce O3 in grid cells in which reactive nitrogen (NOy) concentrations were below about 25 ppb, but to be counterproductive for some cells with higher NOy. The New York City area where NOξ control was predicted to be counterproductive was characterized by very high NOξ to NOy ratios. Ozone was relatively insensitive to ROG controls in grid cells with NOy concentrations below 5–10 ppb. Comparison of unweighted ROG concentrations with concentrations weighted by HO rate constants (i.e. reactivity) showed that the latter varied less across locations. Predicted spatial gradients of NOy were generally sharper than those of reactivity-weighted ROG, supporting a dominant role for variations in NOy in controlling the sensitivity of ozone to its precursors. Reductions in reactivity-weighted ROG achieved with composition changes were similar to reductions achieved with ROG emissions cuts, explaining the similar response of ozone to these two control strategies.
Ozone precursor levels and responses to emissions reductions: Analysis of regional oxidant model results
Milford, Jana B. (author) / Gao, Dongfen (author) / Zafirakou, Antigoni (author) / Pierce, Thomas E. (author)
1993-12-16
12 pages
Article (Journal)
Electronic Resource
English
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