Lagrangian particle simulation of tracer dispersion in the lee of a schematic two-dimensional hill

G. Tinarelli; D. Anfossi; G. Brusasca; E. Ferrero; U. Giostra; M. G. Morsellia; J. Moussafir; F. Trombetti; F. Tampieri

doi:10.1175/1520-0450(1994)033<0744:LPSOTD>2.0.CO;2

Lagrangian particle simulation of tracer dispersion in the lee of a schematic two-dimensional hill

G. Tinarelli
, D. Anfossi
, G. Brusasca
, E. Ferrero
, U. Giostra
, M. G. Morsellia
, J. Moussafir
, F. Trombetti
, F. Tampieri

Research output: Contribution to journal › Article › peer-review

Abstract

Spray, a 3D Lagrangian particle model for the simulation of complex flow dispersion, is presented. Based on the measured values of the first two moments of the turbulent flow velocity, the mean fields are computed over a regular grid using a mass-consistent model, whereas the turbulence structure is simply interpolated. From these fields, trajectories of tracer particles are computed using a linear formulation of the Langevin equation, with a correlated, skewed forcing. The computed concentration field turns out to be in good agreement with the observed one. In detail, ground-level profiles and vertical cross sections of concentration are compared, showing the important effects resulting from the topographic influence on the flow structure. -from Authors

Original language	English
Pages (from-to)	744-756
Number of pages	13
Journal	Journal of Applied Meteorology
Volume	33
Issue number	6
DOIs	https://doi.org/10.1175/1520-0450(1994)033<0744:LPSOTD>2.0.CO;2
Publication status	Published - 1994
Externally published	Yes

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10.1175/1520-0450(1994)033<0744:LPSOTD>2.0.CO;2

Cite this

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title = "Lagrangian particle simulation of tracer dispersion in the lee of a schematic two-dimensional hill",

abstract = "Spray, a 3D Lagrangian particle model for the simulation of complex flow dispersion, is presented. Based on the measured values of the first two moments of the turbulent flow velocity, the mean fields are computed over a regular grid using a mass-consistent model, whereas the turbulence structure is simply interpolated. From these fields, trajectories of tracer particles are computed using a linear formulation of the Langevin equation, with a correlated, skewed forcing. The computed concentration field turns out to be in good agreement with the observed one. In detail, ground-level profiles and vertical cross sections of concentration are compared, showing the important effects resulting from the topographic influence on the flow structure. -from Authors",

author = "G. Tinarelli and D. Anfossi and G. Brusasca and E. Ferrero and U. Giostra and Morsellia, \{M. G.\} and J. Moussafir and F. Trombetti and F. Tampieri",

year = "1994",

doi = "10.1175/1520-0450(1994)033<0744:LPSOTD>2.0.CO;2",

language = "English",

volume = "33",

pages = "744--756",

journal = "Journal of Applied Meteorology",

issn = "0894-8763",

publisher = "American Meteorological Society",

number = "6",

}

TY - JOUR

T1 - Lagrangian particle simulation of tracer dispersion in the lee of a schematic two-dimensional hill

AU - Tinarelli, G.

AU - Anfossi, D.

AU - Brusasca, G.

AU - Ferrero, E.

AU - Giostra, U.

AU - Morsellia, M. G.

AU - Moussafir, J.

AU - Trombetti, F.

AU - Tampieri, F.

PY - 1994

Y1 - 1994

N2 - Spray, a 3D Lagrangian particle model for the simulation of complex flow dispersion, is presented. Based on the measured values of the first two moments of the turbulent flow velocity, the mean fields are computed over a regular grid using a mass-consistent model, whereas the turbulence structure is simply interpolated. From these fields, trajectories of tracer particles are computed using a linear formulation of the Langevin equation, with a correlated, skewed forcing. The computed concentration field turns out to be in good agreement with the observed one. In detail, ground-level profiles and vertical cross sections of concentration are compared, showing the important effects resulting from the topographic influence on the flow structure. -from Authors

AB - Spray, a 3D Lagrangian particle model for the simulation of complex flow dispersion, is presented. Based on the measured values of the first two moments of the turbulent flow velocity, the mean fields are computed over a regular grid using a mass-consistent model, whereas the turbulence structure is simply interpolated. From these fields, trajectories of tracer particles are computed using a linear formulation of the Langevin equation, with a correlated, skewed forcing. The computed concentration field turns out to be in good agreement with the observed one. In detail, ground-level profiles and vertical cross sections of concentration are compared, showing the important effects resulting from the topographic influence on the flow structure. -from Authors

UR - https://www.scopus.com/pages/publications/0028668923

U2 - 10.1175/1520-0450(1994)033<0744:LPSOTD>2.0.CO;2

DO - 10.1175/1520-0450(1994)033<0744:LPSOTD>2.0.CO;2

M3 - Article

SN - 0894-8763

VL - 33

SP - 744

EP - 756

JO - Journal of Applied Meteorology

JF - Journal of Applied Meteorology

IS - 6

ER -

Lagrangian particle simulation of tracer dispersion in the lee of a schematic two-dimensional hill

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