A single parameter representation of hygroscopic growth and cloud condensation nucleus activity – Part 2: Including solubility
نویسنده
چکیده
The ability of a particle to serve as a cloud condensation nucleus in the atmosphere is determined by its size, hygroscopicity and its solubility in water. Usually size and hygroscopicity alone are sufficient to predict CCN activity. Single parameter representations for hygroscopicity have been shown to successfully model complex, multicomponent particles types. Under the assumption of either complete solubility, or complete insolubility of a component, it is not necessary to explicitly include that component’s solubility into the single parameter framework. This is not the case if sparingly soluble materials are present. In this work we explicitly account for solubility by modifying the single parameter equations. We demonstrate that sensitivity to the actual value of solubility emerges only in the regime of 2×10−1–5×10−4, where the solubility values are expressed as volume of solute per unit volume of water present in a saturated solution. Compounds that do not fall inside this sparingly soluble envelope can be adequately modeled assuming they are either infinitely soluble in water or completely insoluble.
منابع مشابه
Interactive comment on “A single parameter representation of hygroscopic growth and cloud condensation nucleus activity – Part 2: Including solubility” by M. D. Petters and S. M. Kreidenweis
We thank Ari Laaksonen and the two anonymous reviewers of this manuscript for their comments. In the following we provide individual replies to each review. Reviewer 1 This manuscript provides an extension of the kappa formalism introduced by the same authors in ACP in 2007 (PK07) to account for compounds with limited solubility. An algorithm to calculate critical supersaturations is provided. ...
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