Geoscience Reference
In-Depth Information
I demonstrated in detail how to use the flux-matching theory for deriving the
expressions for the efficiencies of condensation, particle charging, and heat transfer.
It is very likely that this approach is applicable to other aerosol microprocesses.
References
Aalto P, Hammeri K, Becker S, Weber R, Salm J, Makela JM, Hoell C, O'Dowd C, Karlsson H,
Hansson H-C, Vakeva M, Buzorius G, Kulmala M (2001) Physical characterization of aerosol
particles during nucleation events. Tellus 53B:344
Adachi M (1985) Unipolar and bipolar diffusion charging of ultrafine aerosol particles. J Aerosol
Sci 16:109-123
Ammann M, Poschl U (2007) Kinetic model framework for aerosol and cloud surface chemistry
and gas-particle interactions - part 2: exemplary practical applications and numerical simula-
tions. Atmos Chem Phys 7:6025-6045
Anttila T, Kerminen V-M, Kulmala M, Laaksonen A, O'Dowd C (2004) Modeling the formation
of organic particles in the atmosphere. Atmos Chem Phys 4:1071-1083
Arey J, Atkinson R, Aschmann SM (1990) Product study of gas-phase reactions of monoterpenes
with the OH radical in the presence of NO
x
. J Geophys Res 96:18539
Beig G, Brasseur GP (2000) Model of tropospheric ion composition: a first attempt. J Geophys Res
105:22671-22684
Bhatnagar PL, Gross EP, Krook M (1954) A model for collision processes in gases. I. Small
amplitude processes in charge and neutral one-component systems. Phys Rev 94:511-525
Boy M, Kulmala M (2002) Nucleation events on the continental boundary layer: influence of
physical and meteorological parameters. Atmos Chem Phys 2:1-16
Boy M, Rannik U, Lehtinen KE, Tarvainen V, Hakola H, Kulmala M (2003) Nucleation events in
the continental boundary layer: long-term statistical analysis of aerosol relevant characteristics.
J Geophys Res 108(D21):4667-4675
Brock JR (1970) Aerosol charging: the role of the image force. J Appl Phys 41:843-844
Burtcher H, Schmidt-Ott A (1985) Experiments on small particles in gas suspension. Surface Sci
156:735-740
Castelman AV (1982) Experimental studies of ion clustering relationship to aerosol formation
processes and some atmospheric implications. J Aerosol Sci 13:73-85
Cercignani C (1975) Theory and application of the Boltzmann equation. Scottish Academic Press,
Edinburgh/London
Charlson RJ, Heitzenberg RL (1995) Aerosol forcing of climate. Wiley, New York
Clement CF (2007) Mass transfer to aerosols. In: Colbeck I (ed) Environmental chemistry of
aerosols. Wiley Interscience, New York, pp 49-89
Clement CF, Kulmala M, Vesala T (1996) Theoretical consideration on sticking probabilities.
J Aerosol Sci 27:869-882
Dahnecke B (1983) Simple kinetic theory of Brownian diffusion in vapors and aerosols. In: Meyer
E (ed) Theory of dispersed multiphase flows. Academic, New York, pp 97-133
Dal Maso M, Kulmala M, Rippinen I, Hussein T, Wagner R, Aalto PP, Lehtinen KEJ (2005)
Formation and growth of fresh atmospheric aerosols: eight years of aerosol size distribution
data from SMEAR II, Hyytiala, Finland. Boreal Environ Res 10:3232-3336
Davidovits P, Jaine JT, Duan SX, Worsnop DR, Zahniser MS, Kolb CE (1991) Uptake of gas
molecules by liquids. A model. J Phys Chem 95:6337-6340
Davidovits P, Hu JH, Worsnop DR, Zahnister MS, Colb CE (1995) Entry of gas molecules into
liquids. Faraday Discuss 100:65-81
Davis EJ (1983) Transport phenomena with single aerosol particle. Aerosol Sci Technol 2:121
