Publication | Open Access
Turbulent Diffusion of Heavy Particles in the Atmosphere
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0
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1963
Year
Turbulent DiffusionEngineeringAerosol TransportAtmospheric InteractionAtmospheric ScienceMicrometeorologyTurbulenceAir QualityAtmospheric TransportParticle-laden FlowAtmospheric ProcessAir PollutionParticulate MatterFixed Point InstrumentsEarth ScienceAir Pollution DispersionHeavy Particles
The study examines how heavy particles diffuse differently from gases in the atmosphere, highlighting two key effects—crossing trajectories and continuity—that, due to rapid particle travel across eddies, can significantly reduce dispersion rates. The authors estimate the magnitudes of the crossing‑trajectory and continuity effects. The study finds that the inertia effect is negligible for heavy particles in the atmosphere.
This paper discusses the likely differences between the diffusion of gaseous and particulate matter in the atmosphere, as would be observed by fixed point instruments (“absolute” diffusion). The potential complicating factor of an “inertia effect” (which would cause a heavy particle not to participate in the higher-frequency oscillations of its fluid-particle neighborhood) is shown to be negligible in the atmosphere. Two interrelated effects termed here the “effect of crossing trajectories” and the “continuity effect,” could be, on the other hand, of great practical importance. Both are caused by the relatively rapid travel of heavy particles across the atmospheric eddies and both could result in an appreciable reduction of dispersion rates. Some estimates of the likely magnitude of these effects are given in the paper.