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J Air Waste Manag Assoc


Title:"Projected changes in particulate matter concentrations in the South Coast Air Basin due to basin-wide reductions in nitrogen oxides, volatile organic compounds, and ammonia emissions"
Author(s):Stewart DR; Saunders E; Perea R; Fitzgerald R; Campbell DE; Stockwell WR;
Address:"a Department of Chemistry , Sacramento City College , Sacramento , CA , USA. b Global Modeling and Assimilation Office , NASA Goddard Space Flight Center , Greenbelt , MD , USA. c Department of Information Technology , University of Texas El Paso , El Paso , TX , USA. d Department of Physics , University of Texas El Paso , El Paso , TX , USA. e Division of Atmospheric Sciences , Desert Research Institute, Nevada System of Higher Education , Reno , NV , USA"
Journal Title:J Air Waste Manag Assoc
Year:2019
Volume:20181206
Issue:2
Page Number:192 - 208
DOI: 10.1080/10962247.2018.1531795
ISSN/ISBN:2162-2906 (Electronic) 1096-2247 (Linking)
Abstract:"An ozone abatement strategy for the South Coast Air Basin (SoCAB) has been proposed by the South Coast Air Quality Management District (SCAQMD) and the California Air Resources Board (ARB). The proposed emissions reduction strategy is focused on the reduction of nitrogen oxide (NO(x)) emissions by the year 2030. Two high PM(2.5) concentration episodes with high ammonium nitrate compositions occurring during September and November 2008 were simulated with the Community Multi-scale Air Quality model (CMAQ). All simulations were made with same meteorological files provided by the SCAQMD to allow them to be more directly compared with their previous modeling studies. Although there was an overall under-prediction bias, the CMAQ simulations were within an overall normalized mean error of 50%; a range that is considered acceptable performance for PM modeling. A range of simulations of these episodes were made to evaluate sensitivity to NO(x) and ammonia emissions inputs for the future year 2030. It was found that the current ozone control strategy will reduce daily average PM(2.5) concentrations. However, the targeted NO(x) reductions for ozone were not found to be optimal for reducing PM(2.5) concentrations. Ammonia emission reductions reduced PM(2.5) and this might be considered as part of a PM(2.5) control strategy. Implications: The SCAQMD and the ARB have proposed an ozone abatement strategy for the SoCAB that focuses on NO(x) emission reductions. Their strategy will affect both ozone and PM(2.5). Two episodes that occurred during September and November 2008 with high PM(2.5) concentrations and high ammonium nitrate composition were selected for simulation with different levels of nitrogen oxide and ammonia emissions for the future year 2030. It was found that the ozone control strategy will reduce maximum daily average PM(2.5) concentrations but its effect on PM(2.5) concentrations is not optimal"
Keywords:"Air Pollutants/analysis *Air Pollution/adverse effects/analysis/prevention & control Ammonia/*analysis California/epidemiology *Environmental Monitoring/methods/standards Environmental Restoration and Remediation/methods Forecasting/methods Humans Models, ;"
Notes:"MedlineStewart, Devoun R Saunders, Emily Perea, Roberto Fitzgerald, Rosa Campbell, David E Stockwell, William R eng Research Support, Non-U.S. Gov't Research Support, U.S. Gov't, Non-P.H.S. 2018/10/09 J Air Waste Manag Assoc. 2019 Feb; 69(2):192-208. doi: 10.1080/10962247.2018.1531795. Epub 2018 Dec 6"

 
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