P1.23
A comparative evaluation of the AIRPACT-2 air quality forecasting system running with the CALGRID and the CMAQ photochemical models separately for ozone, particulate matter (PM2.5), and selected air toxics in the Pacific Northwest
Abdullah Mahmud, Washington State University, Pullman, WA; and J. Vaughan, J. Avise, J. Chen, H. Westberg, and B. Lamb
The AIRPACT-2 is an enhanced web-based air-quality forecasting system based on the meso-scale meteorological model (MM5) coupled with a dynamic emissions processing system, and the CALMET/CALGRID or CMAQ photochemical grid models. The system forecasts hourly concentrations of ozone, particulate matter (PM2.5), and some selected air toxics species for a 24-hr period for the Pacific Northwest encompassing an area from Vancouver, BC in the north to Salem, OR in the south, and from the Pacific coast in the west to beyond the crest of the Cascade Mountain Range in the east. The forecasting system has been running with the CALGRID photochemical model since May 2001. However, the system will be converted to use the CMAQ model to take advantage of the secondary aerosol treatment provided by CMAQ.
This paper presents a comparative performance evaluation of the AIRPACT-2 modeling system running with the CALGRID and the CMAQ models separately. The predicted concentrations of ozone (O3), particulate matter (PM2.5), and some selected air toxics species, including formaldehyde, acetaldehyde, 1,3-butadiene, and benzene from both the models have been compared against the observed concentrations. The month of September 2003 was chosen for this study. It was the first month of operation after the original AIRPACT system was updated by incorporating air toxics, and expanding the domain to create AIRPACT-2. The model performances were analyzed in the form of statistical measures including mean bias, fractional bias, absolute mean error, and peak-to- mean ratio. The hourly-observed concentrations of ozone and particulate matter (PM2.5) were collected through a network of surface monitoring stations, and were provided by the Washington Department of Ecology, and the observed concentrations of selected air toxics species were obtained from the EPA Pilot Cities Program. The findings of this study address questions pertaining to the modeling system. An understanding of the factors such as meteorology and emission inventories influencing the results of the AIRPACT-2 system with two different models has also been discussed in this paper.
Poster Session 1, General Poster Session with Welcome Reception
Wednesday, 27 April 2005, 6:00 PM-6:00 PM, Mezzanine Level Lobby
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