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Rocky Mountain Acid Deposition Model Assessment: Acid Rain Mountain Mesoscale Model (ARM3).

PB89124408

Publication Date	1988
Personal Author	Morris, R. E.; Kessler, R. C.; Douglas, S. G.; Styles, K. R.; Moore, G. E.
Page Count	322
Abstract	The Acid Rain Mountain Mesoscale Model (ARM3) is a mesoscale acid deposition/air quality model that was developed for calculating incremental acid deposition (sulfur and nitrogen species) and pollutant concentration impacts in complex terrain. The model was set up for operation within the Rocky Mountain region. The model contains many simplications that were necessary to meet operational requirements. New research studies to provide information on mesoscale flow over complex terrain and atmospheric chemistry in the western region would be necessary to help resolve questions concerning the validity of the model simplifications. The ARM3 consists of six components. Of them, the mesoscale meteorological model contains a new diagnostic wind model that accounts for the kinematic, deflection, and thermal effects that alter the flow fields due to complex terrain. The Lagrangian acid deposition/air quality model has the following attributes: two options for calculating plume height above ground; three options for determining dispersion rates, including one that accounts for terrain roughness; a dry deposition algorithm based on the resistance approach; a wet deposition algorithm based on the scavenging approach; and two options for calculating chemical transformation.
Keywords	Meteorology Atmospheric models Air pollution Terrain Nitrogen oxides Sulfur Contaminants Atmospheric composition Acid rain Rocky Mountain region(United States) Environmental transport Complex terrain Air quality
Source Agency	Environmental Protection Agency Office of Research and Development
NTIS Subject Category	55B - Dynamic Meteorology
Corporate Authors	Systems Applications, Inc., San Rafael, CA.; Environmental Protection Agency, Research Triangle Park, NC. Atmospheric
Supplemental Notes	See also PB87-180584. Sponsored by Environmental Protection Agency, Research Triangle Park, NC. Atmospheric Sciences Research Lab.
Document Type	Technical Report
Title Note	Final rept.,
NTIS Issue Number	198905
Contract Number	EPA-68-02-4187

Rocky Mountain Acid Deposition Model Assessment: Acid Rain Mountain Mesoscale Model (ARM3).

Rocky Mountain Acid Deposition Model Assessment: Acid Rain Mountain Mesoscale Model (ARM3).
PB89124408

Publication Date	1988
Personal Author	Morris, R. E.; Kessler, R. C.; Douglas, S. G.; Styles, K. R.; Moore, G. E.
Page Count	322
Abstract	The Acid Rain Mountain Mesoscale Model (ARM3) is a mesoscale acid deposition/air quality model that was developed for calculating incremental acid deposition (sulfur and nitrogen species) and pollutant concentration impacts in complex terrain. The model was set up for operation within the Rocky Mountain region. The model contains many simplications that were necessary to meet operational requirements. New research studies to provide information on mesoscale flow over complex terrain and atmospheric chemistry in the western region would be necessary to help resolve questions concerning the validity of the model simplifications. The ARM3 consists of six components. Of them, the mesoscale meteorological model contains a new diagnostic wind model that accounts for the kinematic, deflection, and thermal effects that alter the flow fields due to complex terrain. The Lagrangian acid deposition/air quality model has the following attributes: two options for calculating plume height above ground; three options for determining dispersion rates, including one that accounts for terrain roughness; a dry deposition algorithm based on the resistance approach; a wet deposition algorithm based on the scavenging approach; and two options for calculating chemical transformation.
Keywords	Meteorology Atmospheric models Air pollution Terrain Nitrogen oxides Sulfur Contaminants Atmospheric composition Acid rain Rocky Mountain region(United States) Environmental transport Complex terrain Air quality
Source Agency	Environmental Protection Agency Office of Research and Development
NTIS Subject Category	55B - Dynamic Meteorology
Corporate Authors	Systems Applications, Inc., San Rafael, CA.; Environmental Protection Agency, Research Triangle Park, NC. Atmospheric
Supplemental Notes	See also PB87-180584. Sponsored by Environmental Protection Agency, Research Triangle Park, NC. Atmospheric Sciences Research Lab.
Document Type	Technical Report
Title Note	Final rept.,
NTIS Issue Number	198905
Contract Number	EPA-68-02-4187