The Oklahoma Dispersion Model: Using the Gaussian Plume Model as an Operational Management Tool for Determining Near-Surface Dispersion Conditions across Oklahoma

The Oklahoma Dispersion Model (ODM) represents a current innovative application of the classic Gaussian plume model in an operational setting. Utilizing a statewide mesoscale automated weather station network (the Oklahoma Mesonet) for current weather conditions and 60-h gridded Nested Grid Model (N...

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Bibliographic Details
Published in:Journal of applied meteorology (1988) 2008-02, Vol.47 (2), p.462-474
Main Authors: Carlson, J. D., Arndt, Derek S.
Format: Article
Language:English
Subjects:
Agriculture
Analysis methods
Applied sciences
Atmospheric models
Atmospheric pollution
Climatology
Coal-fired power plants
Dispersions
Emissions
Environmental protection
Exact sciences and technology
Forecasting models
Gaussian
Integers
Mathematical models
Metal oxide semiconductors
Meteorology
Natural resources
Pesticide application
Pesticides
Plumes
Pollution
Pollution dispersion
SPECIAL Impacts of Land Use Change on the Atmosphere COLLECTION
Standard deviation
Weather
Weather conditions
Weather forecasting
Wind velocity
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Summary:The Oklahoma Dispersion Model (ODM) represents a current innovative application of the classic Gaussian plume model in an operational setting. Utilizing a statewide mesoscale automated weather station network (the Oklahoma Mesonet) for current weather conditions and 60-h gridded Nested Grid Model (NGM) model output statistics (MOS) forecasts for future conditions, the ODM is an Internet-based management tool that can be used to qualitatively assess current and future atmospheric dispersion conditions across Oklahoma for near-surface releases of gases and small particulates. The ODM is designed to qualitatively assess concentrations at ground level near the plume centerline at downwind distances of up to 4000 m. The Gaussian plume model is used in conjunction with rural Briggs sigma-yand sigma-zcoefficients to estimate horizontal and vertical dispersion. Pasquill stability class is calculated in two ways: for current conditions, Oklahoma Mesonet weather data are used in conjunction with algorithms recommended by the Environmental Protection Agency; for forecast conditions, the Turner method is used. A method is employed that breaks the atmosphere into six dispersion categories, ranging from excellent to very poor. The ODM generates both graphical and text output. Statewide colored maps showing current conditions for dispersion (dilution of plume) and transport (direction of plume movement) are generated every 15 and 5 min, respectively. Similar maps for future conditions are generated every 12 h using gridded 60-h NGM MOS forecasts. In addition to graphical output, tabular output for future conditions at specific MOS locations is available. The ODM has been used as a management tool in the agriculture and natural resources arenas in conjunction with prescribed burning (smoke), pesticide application, and odors associated with animal agriculture.
ISSN:1558-8424
0894-8763
1558-8432
1520-0450
DOI:10.1175/2007JAMC1418.1