Abstract
Abstract. The role of surface tension (σ) in cloud droplet activation has long
been ambiguous. Recent studies have reported observations attributed to the
effects of an evolving surface tension in the activation process. However,
the adoption of a surface-mediated activation mechanism has been slow and
many studies continue to neglect the composition dependence of
aerosol–droplet surface tension, using instead a value equal to the surface
tension of pure water (σw). In this technical note, we
clearly describe the fundamental role of surface tension in the activation of
multicomponent aerosol particles into cloud droplets. It is demonstrated that
the effects of surface tension in the activation process depend primarily on
the evolution of surface tension with droplet size, typically varying in the
range 0.5σw≲σ≤σw due to
the partitioning of organic species with a high surface affinity. We go on to
report some recent laboratory observations that exhibit behavior that may be
associated with surface tension effects and propose a measurement coordinate
that will allow surface tension effects to be better identified using
standard atmospheric measurement techniques. Unfortunately, interpreting
observations using theory based on surface film and liquid–liquid phase
separation models remains a challenge. Our findings highlight the need for
experimental measurements that better reveal the role of
composition-dependent surface tensions, critical for advancing predictive
theories and parameterizations of cloud droplet activation.
Funder
Basic Energy Sciences
Natural Sciences and Engineering Research Council of Canada
Cited by
34 articles.
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