6533b829fe1ef96bd128a564
RESEARCH PRODUCT
On the influence of the physico-chemical properties of aerosols on the life cycle of radiation fogs
Andreas Bottsubject
Fluid Flow and Transfer ProcessesAtmospheric ScienceEnvironmental EngineeringMaterials scienceMeteorologyMicrophysicsTurbulencePlanetary boundary layerMechanical EngineeringMechanicsRadiationAtmospheric sciencesPollutionAerosolAtmosphereFogAtmospheric radiative transfer codesLiquid water contentRadiative transferEnvironmental scienceParticlePhysics::Atmospheric and Oceanic Physicsdescription
A one-dimensional model of radiation fog with detailed microphysics is presented. Aerosols and cloud droplets are treated in a joint two-dimensional size distribution. Radiative fluxes are calculated as functions of the radiative properties of the time-dependent particle spectra. The droplet growth equation is solved by considering radiative effects. Turbulence is treated by means of a higher order closure model. The interaction between the atmosphere and the earth's surface is explicitly simulated. Three numerical sensitivity studies are performed to investigate the impact of the different physico-chemical properties of urban, rural and maritime aerosols on fog formation. Numerical results elucidate that depending on the aerosol type used, the resulting fog events are completely different. This is particularly true for the times of fog formation and dissipation as well as for the liquid water content and supersaturations within the fogs. In the activated part of the particle spectra, the aerosol mass is very inhomogeneously distributed. The maxima of the curves do not coincide with the maxima of the corresponding liquid water distributions.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1991-07-01 | Boundary-Layer Meteorology |