||Parametric methodologies of cloud vertical transport for acid deposition models /
Vukovich, Fred M. ;
Vukovich, F. M. ;
Haws, R. C.
||Research Triangle Inst., Research Triangle Park, NC.;Environmental Protection Agency, Research Triangle Park, NC. Atmospheric Sciences Research Lab.
|| U.S. Environmental Protection Agency, Atmospheric Sciences Research Laboratory,
Cloud physics--Mathematical models ;
Acid deposition--United States--Mathematical models
Cumulus clouds ;
Mathematical models ;
Boundary layer ;
Air masses ;
Meteorological data ;
Parametric equations ;
Atmospheric temperature ;
Computer programming ;
Seasonal variations ;
Heat flux ;
Acid precipitation ;
VENTEX Field Program ;
Computer applications ;
||Research Triangle Park Library/RTP, NC
||Some EPA libraries have a fiche copy filed under the call number shown.
||xiv, 306 p. : ill., charts ; 28 cm.
A CUmulus VENTing (CUVENT) cloud module has been developed that calculates the vertical flux of mass from the boundary layer to the cloud layer by an ensemble of nonprecipitating subgrid-scale air mass clouds. This model will be integrated into the Regional Acid Deposition Model (RADM) and will serve to establish the effect of cloud venting for the RADM. In the initial phase of this research project, the basic cloud venting algorithm was established. CUVENT used the cloud model that was established by Ritter and Stedman (1985) to calculate the vertical transport of mass due to the ensemble of nonprecipitating air mass convective clouds. The major effort of the first phase of this research project was to design an optimal parameterization scheme for the cloud model so that it may be incorporated in the RADM. This parameterization scheme used basic meteorological data such as pressure, temperature, humidity, surface heat flux, etc., to predict the convective cloud amount at cloud base and cloud distribution parameters. The various models that made up this scheme were developed using data obtained during the VENTEX field program.
"Project report"--Cover. Project Officer: Jason K.S. Ching. "January 1988"--Cover. Contract #