Record Display for the EPA National Library Catalog

RECORD NUMBER: 22 OF 33

Main Title SAI (Systems Applications, Incorporated) Urban Airshed Model.
Author Schere, K. L. ;
CORP Author Environmental Protection Agency, Research Triangle Park, NC. Div. of Meteorology.
Year Published 1985
Report Number EPA/600/8-85/077C; EPA/SW/MT-87/017;
Stock Number PB87-173217
Additional Subjects Models-simulation ; Air pollution ; Smog ; Urban areas ; Photochemical reactions ; Concentration(Composition) ; Mathematical models ; Input output routines ; Magnetic tapes ; Ozon ; Nitrogen oxide ; Nitrogen dioxide ; Organic compounds ; Air quality display model ; Air quality data ; SAI Urban Airshed Model ; Air pollution forecasts ; L = Fortran ; H = Univac-1110
Holdings
Library Call Number Additional Info Location Last
Modified
Checkout
Status
NTIS  PB87-173217 Some EPA libraries have a fiche copy filed under the call number shown. 07/26/2022
Collation 1p
Abstract
The magnetic tape contains the FORTRAN source code, sample input data, and sample output data for the SAI Urban Airshed Model (UAM). The UAM is a 3-dimensional gridded air quality simulation model that is well suited for predicting the spatial and temporal distribution of photochemical pollutant concentrations in an urban area. The model is based on the equations of conservation of mass for a set of reactive pollutants in a turbulent flow field. To solve these equations the UAM uses numerical techniques set in a 3-D finite difference grid array of cells, each about 1 to 10 kilometers wide and 10 to several hundred meters deep. As output, the model provides the calculated pollutant concentrations in each cell as a function of time. The chemical species of prime interest included in the UAM simulations are O3, NO, NO2 and several organic compounds and classes of compounds. The UAM system contains at its core the Airshed Simulation Program that accesses input data consisting of 10 to 14 files, depending on the program options chosen. Each file is created by a separate data preparation program. There are 17 programs in the entire UAM system. The services of a qualified dispersion meteorologist, a chemist, and a computer programmer will be necessary to implement and apply the UAM and to interpret the results. Software Description: The program is written in the FORTRAN programming language for implementation on a UNIVAC 1110 computer under the UNIVAC 110 0 operating system level 38R5A. Memory requirement is 80K.