Xuezhu Long scite author profile

Abstract. This article presents the theoretical motivation, implementation approach, and example validation results for a computationally efficient plume simulation model, designed to replicate both the short-term time signature and long-term exposure statistics of a chemical plume evolving in a turbulent flow. Within the resulting plume, the odor concentration is intermittent with rapidly changing spatial gradient. The model includes a wind field defined over the region of interest that is continuous, but which varies with location and time in both magnitude and direction.The plume shape takes a time varying sinuous form that is determined by the integrated effect of the wind field.Simulated and field data are compared. The motivation for the development of such a simulation model was the desire to evaluate various strategies for tracing odor plumes to their source, under identical conditions. The performance of such strategies depends in part on the instantaneous response of target receptors; therefore, the sequence of events is of considerable consequence and individual exemplar plume realizations are required. Due to the high number of required simulations, computational efficiency was critically important.

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Farrell

Murlis

Long

et al. 2002

234

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A continuous, high resolution record of urban airborne particulates suitable for retrospective microscopical analysis

Battarbee¹,

Rose²,

Long³

1997

Atmospheric Environment

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Measurements of airborne carbonaceous fly-ash particles during two pollution episodes in central London

Long

1996

Journal of Aerosol Science

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Xuezhu Long

Filament-Based Atmospheric Dispersion Model to Achieve Short Time-Scale Structure of Odor Plumes

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A continuous, high resolution record of urban airborne particulates suitable for retrospective microscopical analysis

Measurements of airborne carbonaceous fly-ash particles during two pollution episodes in central London

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