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W1897365949 abstract "Abstract The Weather Research Forecast (WRF) mesoscale model coupled with a detailed bin microphysics scheme is used to investigate the impact of aerosol particles serving as cloud condensation nuclei and ice nuclei on orographic clouds and precipitation. A mixed‐phase orographic cloud developed under two scenarios of aerosol (a typical continental background and a relatively polluted urban condition) and ice nuclei over an idealized mountain is simulated. The results show that, when the initial aerosol condition is changed from the relatively clean case to the polluted scenario, more droplets are activated, leading to a delay in precipitation, but the precipitation amount over the terrain is increased by about 10%. A detailed analysis of the microphysical processes indicates that ice‐phase particles play an important role in cloud development, and their contribution to precipitation becomes more important with increasing aerosol particle concentrations. The growth of ice‐phase particles through riming and Wegener‐Bergeron‐Findeisen regime is more effective under more polluted conditions, mainly due to the increased number of droplets with a diameter of 10–30 µm. Sensitivity tests also show that a tenfold increase in the concentration of ice crystals formed from ice nucleation leads to about 7% increase in precipitation, and the sensitivity of the precipitation to changes in the concentration and size distribution of aerosol particles is becoming less pronounced when the concentration of ice crystals is also increased." @default.
W1897365949 created "2016-06-24" @default.
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W1897365949 date "2015-08-18" @default.
W1897365949 modified "2023-10-08" @default.
W1897365949 title "Simulation of the effects of aerosol on mixed‐phase orographic clouds using the WRF model with a detailed bin microphysics scheme" @default.
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W1897365949 doi "https://doi.org/10.1002/2014jd022988" @default.
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