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THE EMISSION PROCESSING SYSTEM FOR THE ETA/CMAQ AIR QUALITY FORECAST SYSTEM
Citation:
Pouliot, G. THE EMISSION PROCESSING SYSTEM FOR THE ETA/CMAQ AIR QUALITY FORECAST SYSTEM. Presented at 85th American Meteorological Society Annual Meeting, San Diego, CA, January 09 - 13, 2005.
Impact/Purpose:
The objectives of this task are to continuously develop and improve EPA's mesoscale (regional through urban scale) air quality simulation models, such as the Community Multiscale Air Quality (CMAQ) model, as air quality management and NAAQS implementation tools. CMAQ is a multiscale and multi-pollutant chemistry-transport model (CTM) that includes the necessary critical science process modules for atmospheric transport, deposition, cloud mixing, emissions, gas- and aqueous-phase chemical transformation processes, and aerosol dynamics and chemistry. To achieve the advances in CMAQ, research will be conducted to develop and test appropriate chemical and physical mechanisms, improve the accuracy of emissions and dry deposition algorithms, and to develop and improve state-of-the-science meteorology models and contributing process parameterizations.
Description:
NOAA and EPA have created an Air Quality Forecast (AQF) system. This AQF system links an adaptation of the EPA's Community Multiscale Air Quality Model with the 12 kilometer ETA model running operationally at NOAA's National Center for Environmental Predication (NCEP). One of the major components of the linkage between these two models is the new pre-processor to CMAQ (PREMAQ). PREMAQ combines the functionality of the Meteorology-Chemistry Interface Processor (MCIP) and portions of the Sparse Matrix Operator Kernel Emissions (SMOKE) processing system. This paper explains the emissions processing required for the AQF system, which is a major component of PREMAQ.
Ideally, real-time emissions data would be used in the real-time AQF system. However, EPA's National Emissions Inventory (NEI) is compiled on a 3-year basis and is not available until several years after the year of interest. For the 2004 ozone season, the most recently available NEI was 2001, and was based largely on the 1999 NEI with some growth and year specific 2001 information included. The 2001 NEI was used as the basis for developing the inventory used in the AQF system.
For the 2004 AQF system, we divided the emissions processing into two components: calculations that can be done a priori (independent of meteorological fields) and calculations that are done in real-time (dependent on meteorological fields). Of the four emission inventory components - area sources, point sources, mobile sources and biogenic sources - only area source calculations are completed a priori and were done outside of the AQF system and simply "merged" in real-time. Point Source and Mobile source emission processing are partially dependent on meteorological fields but also have components that are independent of meteorological fields. Emissions from point source were assumed to have a pre-determined temporal variability (similar to area sources) but the plume rise algorithm depends on wind speed and temperature and thus requires real-time meteorological fields. For point sources, only the plume rise algorithm and the "merging" of other information needed for point sources were included in PREMAQ.
For Mobile source emissions, which are a function of temperature, vehicle activity, and vehicle fleet information, there is a highly detailed emissions model for on-road sources (MOBILE6). However, it is too expensive and inefficient to use in the AQF system in real time. An efficient method for estimating mobile source emissions using the SMOKE/MOBILE 6 implementation was devised for the AQF system.
For Biogenic emissions, the Biogenic Emissions Inventory System (BEIS) was directly integrated into PREMAQ because it is very fast and is highly dependent on meteorological conditions.
The research presented here was performed under the Memorandum of Understanding between the U.S. Environmental Protection Agency (EPA) and the U.S. Department of Commerce's National Oceanic and Atmospheric Administration (NOAA) and under agreement number DW13921548. Although it has been reviewed by EPA and NOAA and approved for publication, it does not necessarily reflect their policies or views.
This product is a conference presentation that was presented at the 85th American Meteorological Society Annual Meeting in San Diego, CA, January 9-13, 2005.
CITATION: Pouliot, G. The Emission Processing System for the ETA/CMAQ Air Quality Forecast System. Presented at 85th American Meteorological Society Annual Meeting, San Diego, CA, January 9-13, 2005.