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BUOYANT PLUME DISPERSAL IN THE CONVECTIVE BOUNDARY LAYER: ANALYSIS OF EXPERIMENTAL DATA AND LAGRANGIAN MODELING
Description:
The aim of this research program is to improve our knowledge and predictive capability of buoyant plume dispersion in the convective boundary layer (CBL) with emphasis on the mean (C) and root-mean-square (?c) concentration fields. The CBL turbulence leads to large random fluctuations in concentration over short time periods. Thus, concentration estimates should be made on a statistical basis using a probability distribution, which requires predictions of C and ?c. There are three key objectives of our research: 1) to increase our understanding of highly buoyant plumes that loft near the CBL top, 2) to further develop a hybrid Lagrangian dispersion model for buoyant plumes, and 3) to improve an analytical probability density function (p.d.f.) dispersion model and extend its range of applicability.
Record Details:
Record Type:PROJECT(
ABSTRACT
)
Start Date:02/03/1998
Completion Date:02/02/2001
Record ID:
53002
Keywords:
ATMOSPHERIC DISPERSION, LAGRANGIAN STOCHASTIC MODELING, MEAN AND FLUCTUATING CONCENTRATIONS, PEAK CONCENTRATION ESTIMATES, BUOYANT PLUME MODELING,
Related Organizations:
Role
:OWNER
Organization Name
:UNIVERSITY OF COLORADO
Mailing Address
:Campus Box 17
Citation
:Boulder
State
:CO
Zip Code
:80309
Project Information:
Approach
:The first objective will be pursued by a) analysis of recent data on buoyant plume dispersion in a laboratory convection tank, and b) developing a gravity current model to describe the enhanced lateral spread of the lofting plume. The hybrid Lagrangian model couples a stochastic model for the plume meander due to the large CBL eddies with an entrainment model for the plume rise and growth. This model will be extended by improving the treatment of dispersion near the CBL top and including the new lofting model. The p.d.f. model also will be extended by coupling it with the lofting model. The extended models will be compared with laboratory and field data and modified as necessary.
Cost
:$244,000.00
Research Component
:Engineering and Environmental Chemistry
Project IDs:
ID Code
:R826160
Project type
:EPA Grant