Abstract
We use a 1-D cloud model with explicit microphysics
and a binned representation of the aerosol size distribution
to investigate the influence of entrainment of cloud
condensation nuclei (CCN) on the microphysical development
of warm cumulus clouds. For a more realistic representation
of cloud drop spectral width, the model separates
droplets that grow on aerosol that is initially present in the
cloud from droplets growing on entrained aerosol. Model results
are compared with observations of trade wind cumulus
microphysics from the Rain in Cumulus over the Ocean experiment
(RICO, 2004–2005). The results indicate that CCN
are entrained throughout the entire cloud depth, and inside
the cloud part of these may be activated. Compared to a simulation
where entrainment of ambient CCN is neglected this
leads to higher cloud droplet number concentrations (CDNC)
and a continuous presence of droplets in the range smaller
than 5μm that is consistent with the observations. Cloud
dynamics are sensitive to the entrainment parameter as well
as to the applied initial vertical velocity, as expressed by the
liquid water content and cloud top height. However, simulated
cloud drop spectra remain relatively unaffected for the
specific conditions during RICO.
Original language | Undefined/Unknown |
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Pages (from-to) | 6005-6015 |
Number of pages | 11 |
Journal | Atmospheric chemistry and physics |
Volume | 9 |
Issue number | 16 |
Publication status | Published - 2009 |