Add to ORKGThe formation of advection fog is closely associated with the characteristics of the aerosol particles, including the chemical composition, mass of the nuclei, particle size, and concentration. Both macrophysical and microphysical processes are considered. In the macrophysical model, the evolution of wind components, water vapor content, liquid water content and potential temperature under the influences of vertical turbulent diffusion, turbulent momentum, and turbulent energy transfers are taken into account. In the microphysical model, the supersaturation effect is incorporated with the surface tension and hygroscopic material solution
The transfer of gas phase species to aerosols depends critically on the condensation (or sticking) c...
The source-oriented Weather Research and Forecasting chemistry model (SOWC) was modified to include...
International audienceThe role of convection in introducing aerosols and promoting the formation of ...
A field investigation of the microphysical and micrometeorological features of fogs occurring near L...
This study addresses the modeling of the denebulization (i.e., the removal of droplets) of warm fogs...
Fog forms, strengthen, and disperses due to complex interactions among diverse local, microphysical...
Coalescence of warm fog droplets with ionic surfactants, effects of monomolecular layers on droplet ...
A numerical model has been developed to simulate the growth of cloud droplets by condensation upon a...
A state-of-the-art survey is given of warm fog research which has been performed up to, and includin...
Forecasting and modelling fog formation, development, and dissipation is a significant challenge. Fo...
Hygroscopic, large nuclei seeding to prevent dense radiation fog formation and increase visibilit
The purpose of the study is the modeling of the denebulization of fogs by micronic hygroscopic parti...
A two-dimensional numerical model was used to investigate the formation of marine advection fog. The...
The growth of hygroscopic particles due to steam condensation has been studied.Sophisticated and sim...
Theoretical modeling of fog modification by seeding with hygroscopic nuclei, climatic survey of fog ...
The transfer of gas phase species to aerosols depends critically on the condensation (or sticking) c...
The source-oriented Weather Research and Forecasting chemistry model (SOWC) was modified to include...
International audienceThe role of convection in introducing aerosols and promoting the formation of ...
A field investigation of the microphysical and micrometeorological features of fogs occurring near L...
This study addresses the modeling of the denebulization (i.e., the removal of droplets) of warm fogs...
Fog forms, strengthen, and disperses due to complex interactions among diverse local, microphysical...
Coalescence of warm fog droplets with ionic surfactants, effects of monomolecular layers on droplet ...
A numerical model has been developed to simulate the growth of cloud droplets by condensation upon a...
A state-of-the-art survey is given of warm fog research which has been performed up to, and includin...
Forecasting and modelling fog formation, development, and dissipation is a significant challenge. Fo...
Hygroscopic, large nuclei seeding to prevent dense radiation fog formation and increase visibilit
The purpose of the study is the modeling of the denebulization of fogs by micronic hygroscopic parti...
A two-dimensional numerical model was used to investigate the formation of marine advection fog. The...
The growth of hygroscopic particles due to steam condensation has been studied.Sophisticated and sim...
Theoretical modeling of fog modification by seeding with hygroscopic nuclei, climatic survey of fog ...
The transfer of gas phase species to aerosols depends critically on the condensation (or sticking) c...
The source-oriented Weather Research and Forecasting chemistry model (SOWC) was modified to include...
International audienceThe role of convection in introducing aerosols and promoting the formation of ...