An improved criterion for new particle formation in diverse atmospheric environments

C. Kuang, I. Riipinen, S. L. Sihto, M. Kulmala, A. V. McCormick, P. H. McMurry

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A dimensionless theory for new particle formation (NPF) was developed, using an aerosol population balance model incorporating recent developments in nucleation rates and measured particle growth rates. Based on this theoretical analysis, it was shown that a dimensionless parameter L0, characterizing the ratio of the particle scavenging loss rate to the particle growth rate, exclusively determined whether or not NPF would occur on a particular day. This parameter determines the probability that a nucleated particle will grow to a detectable size before being lost by coagulation with the pre-existing aerosol. Cluster-cluster coagulation was shown to contribute negligibly to this survival probability under conditions pertinent to the atmosphere. Data acquired during intensive measurement campaigns in Tecamac (MILAGRO), Atlanta (ANARChE), Boulder, and Hyytïal̈a (QUEST II, QUEST IV, and EUCAARI) were used to test the validity of L0 as an NPF criterion. Measurements included aerosol size distributions down to 3 nm and gas-phase sulfuric acid concentrations. The model was applied to seventyseven NPF events and nineteen non-events (characterized by growth of pre-existing aerosol without NPF) measured in diverse environments with broad ranges in sulfuric acid concentrations, ultrafine number concentrations, aerosol surface areas, and particle growth rates (nearly two orders of magnitude). Across this diverse data set, a nominal value of L0=0.7 was found to determine the boundary for the occur-rence of NPF, with NPF occurring when L0=0.7 and being suppressed when L>0.7. Moreover, nearly 45% of measured L0 values associated with NPF fell in the relatively narrow range of 0.1<L<0.3.

Original languageEnglish (US)
Pages (from-to)8469-8480
Number of pages12
JournalAtmospheric Chemistry and Physics
Issue number17
StatePublished - 2010


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