【 摘 要 】

The primary purposes of this project were to (1) improve and validate the LLNL/IMPACT atmospheric chemistry and aerosol transport model, (2) experimentally analyze size- and time-resolved aerosol measurements taken during spring 2001 in Northern California, and (3) understand the origin of dust impacting Northern California. Under this project, we (1) more than doubled the resolution of the LLNL-IMPACT global atmospheric chemistry and aerosol model (to 1 x 1 degree), (2) added an interactive dust emission algorithm to the IMPACT model in order to simulate observed events, (3) added detailed microphysics to the IMPACT model to calculate the size-distribution of aerosols in terms of mass, (4) analyzed the aerosol mass and elemental composition of the size- and time-resolved aerosol measurements made by our UC Davis collaborators, and (5) determined that the majority of the observed soil dust is from intercontinental transport across the Pacific. A detailed report on this project is in the attached document ''Impact of Long-Range Dust Transport on Northern California in Spring 2002'' (UCRL-TR-209597), except for the addition of aerosol microphysics, which is covered in the attached document ''Implementation of the Missing Aerosol Physics into LLNL IMPACT'' (UCRL-TR-209568). In addition to the technical results, this project has (1) produced a journal article presenting our results that will be submitted shortly, (2) enabled collaborations with UC Davis and the California Air Resources Board, (3) generated a direct DOE request and large computer allocation to simulate the radiative impact of sulfate aerosols at high-resolution over the last 50 years, and (4) contributed to successful LLNL responses to requests for proposals from (a) the DOE Atmospheric Science Program ($780k), (b) the DOE Atmospheric Radiation Measurement Program ($720k), and (c) the NASA Global Modeling and Analysis Program ($525k). The journal article will be based on the report listed above (''Impact of Long-Range Dust Transport on Northern California in Spring 2002''), and will be submitted to the Journal of Geophysical Research in the near future.

【 预 览 】

附件列表

Files	Size	Format	View
15014661.pdf	147KB	PDF	download