Dispersion of Particles Released into a Neutral Planetary Boundary Layer Using a Markov Chain–Monte Carlo Model

Author:

Avila R.1,Raza S. S.2

Affiliation:

1. Engineering Faculty, National Autonomous University of Mexico (UNAM), Mexico D. F., Mexico

2. Nuclear Engineering Division, Pakistan Institute of Nuclear Science and Technology, Islamabad, Pakistan

Abstract

Abstract The dispersion and concentration of particles (fluid elements) that are continuously released into a neutral planetary boundary layer is presented. The velocity fluctuations of the particles are generated using a Markov chain–Monte Carlo (MCMC) process at random time intervals with a one-step memory. The local mean concentration of the particles is calculated by using a fully Lagrangian method, which performs an efficient near-neighbor search and employs a smoothing kernel for eliminating the statistical noise. The predicted vertical and transversal root-mean-square of the particles’ deviation from their mean position [()1/2 and ()1/2] for an elevated continuous release source in a neutral atmosphere are compared with empirical parameters like the Pasquill–Gifford σz and σy. The numerical predictions of the particle concentration are compared with a Gaussian model and field measurement data on the ground concentration obtained during the Green Glow Program. The comparison between the numerical predictions and the field data shows that the MCMC model can successfully predict the particle dispersion and concentration in a neutral atmosphere.

Publisher

American Meteorological Society

Subject

Atmospheric Science

Reference44 articles.

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2. Avila, R. 1997. Simulación numérica de la dispersión de una nube de partículas sólidas liberada a la atmósfera. Ph.D. thesis, Facultad de Ingeniería, Universidad Nacional Autónoma de México, 190 pp.

3. Analysis of the heat transfer coefficient in a turbulent particle pipe flow.;Avila;Int. J. Heat Mass Transfer,1995

4. Barad, M L. and J J.Fuquay. 1962. The Green Glow Diffusion Program. Vol. II, Geophysical Research Paper No. 73, Geophysics Research Directorate, Air Force Cambridge Research Laboratory, Tech. Rep. HW-71400-Vol. II, 305 pp.

5. Marine stratocumulus layers. Part II: Turbulence budgets.;Brost;J. Atmos. Sci.,1982

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