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Full-Text Articles in Physical Sciences and Mathematics
Three-Dimensional Simulations Of Inorganic Aerosol Distributions In East Asia During Spring 2001, Youhua Tang, Gregory R. Carmichael, John H. Seinfeld, Donald Dabdub, Rodney J. Weber, B J. Huebert, A D. Clarke, Sergio A. Guazzotti, David A. Sodeman, Kimberly A. Prather, Itsushi Uno, Jung -Hun Woo, James J. Yienger, David G. Streets, Patricia K. Quinn, James E. Johnson, Chul-Han Song, Vicki H. Grassian, Adrian Sandu, R. Talbot, Jack E. Dibb
Three-Dimensional Simulations Of Inorganic Aerosol Distributions In East Asia During Spring 2001, Youhua Tang, Gregory R. Carmichael, John H. Seinfeld, Donald Dabdub, Rodney J. Weber, B J. Huebert, A D. Clarke, Sergio A. Guazzotti, David A. Sodeman, Kimberly A. Prather, Itsushi Uno, Jung -Hun Woo, James J. Yienger, David G. Streets, Patricia K. Quinn, James E. Johnson, Chul-Han Song, Vicki H. Grassian, Adrian Sandu, R. Talbot, Jack E. Dibb
Earth Sciences
In this paper, aerosol composition and size distributions in east Asia are simulated using a comprehensive chemical transport model. Three-dimensional aerosol simulations for the TRACE-P and ACE-Asia periods are performed and used to help interpret actual observations. The regional chemical transport model, STEM-2K3, which includes the on-line gas-aerosol thermodynamic module SCAPE II, and explicitly considers chemical aging of dust, is used in the analysis. The model is found to represent many of the important observed features. The Asian outflow during March and April of 2001 is heavily polluted with high aerosol loadings. Under conditions of low dust loading, SO2 …