An experimental study of the role of surfactant materials on warm cloud formation in laboratory

References

  1. Dinar, E. and Taraniuk, I., 2006, Cloud Condensation Nuclei properties of model and atmospheric HULIS, Atmos. Chem. Phys., 6, 2465– 2481.
  2. Facchini, M., Decesari, S., Mircea, M., Fuzzi, S., and Loglio, G., 2000, Surface Tension of Atmospheric Wet Aerosol and Cloud/Fog Droplets in Relation to their Organic Carbon Content and Chemical Composition, Atmos. Environ., 34, 4853–4857.
  3. Facchini, M., Decesari, S., Mircea, M., Fuzzi, S., and Loglio, G., 2000, Surface Tension of Atmospheric Wet Aerosol and Cloud/Fog Droplets in Relation to their Organic Carbon Content and Chemical Composition, Atmos. Environ., 34, 4853–4857.
  4. Facchini, M., Mircea, M., Fuzzi, S., and Charlson, R., 1999, Cloud Albedo Enhancement by Surface-Active Organic Solutes in Growing Droplets, Nature, 401, 257–259.
  5. Gill, P. S., Graedel, T. E., and Weschler, C. J., 1983, Organic Films on Atmospheric Aerosol-Particles, Fog Droplets, Cloud Droplets, Raindrops, and Snowflakes, Rev. Geophys., 21, 903–920.
  6. Gill, P. S., T. E. Graedel and C. J. Weschler, 1983, Organic Films on Atmospheric Aerosol-Particles, Fog Droplets, Cloud Droplets, Raindrops, and Snowflakes, Reviews of Geophysics, 21(4), 903-920.
  7. Hobbs, P. V., L. F. Radke, and S. E. Shumway, 1970, Cloud condensation nuclei from industrial sources and their apparent influence on precipitation in Washington State, Journal of the Atmospheric Sciences, 27 (1), 81–89.
  8. Houghton, J. T., Y. Ding, D. J. Griggs, M. Noguer, P. J. V. der Linden, X. Dai, K. Maskell, and C. A. Johnson (2001), IPCC, 2001: Climate Change 2001: The Scientific Basis. Contribution of Working Group I to the Third Assessment Report of the Intergovernmental Panel on Climate Change, Cambridge, United Kingdom, New York, USA, Cambridge University Press, 881, 9.
  9. Kiss, G., Tomb´acz, E., and Hansson, H.-C., 2005, Surface Tension Effects of Humic-Like Substances in the Aqueous Extract of Tropospheric Fine Aerosol, J. Atmos. Chem., 50, 279–294.
  10. Koren, I., Y. Kaufman, D. Rosenfeld, L. Remer, and Y. Rudich, 2005, Aerosol invigoration and restructuring of Atlantic convective clouds, Geophysical Research Letters, 32 (14).
  11. Lin, J. C., T. Matsui, R. A. P. Sr, and C. Kummerow, 2006, Effects of biomass burning-derived aerosols on precipitation and clouds in the Amazon Basin: a satellite-based empirical study, Journal of Geophysical Research – Atmospheres, 111, D19.
  12. Lohmann, U. and Feichter, J., 2005, Global indirect aerosol effects: a review, Atmos. Chem. Phys., 5, 715–737.
  13. Mochida, M., Y. Kitamori, K. Kawamura, Y. Nojiri and K. Suzuki, 2002, Fatty acids in the marine atmosphere: Factors governing their concentrations and evaluation of organic films on sea-salt particles, Journal of Geophysical Research-Atmospheres, 107(D17), 4325-4334.
  14. Murphy, D. M., Cziczo, D. J., Froyd, K. D., Hudson, P. K., Matthew, B. M., Middlebrook, M., Peltier, R. E., Sullivan, A., Thomson, D. S., and Weber, R. J.,2006, Single-particle mass spectrometry of tropospheric aerosol particles, J. Geophys. Res., 111, D23S32.
  15. Oros, D. and Simoneit, B., 2000, Identification and emission rates of molecular tracers in coal smoke particulate matter, Fuel, 79, 515– 536.
  16. Sareena, N., Schwiera, A. N., lathem, T. l., Nenesb, A., and Mcneilla, V. F., 2012, Surfactants from the gas phase may promote cloud droplet formation, Proceedings of the National Academy of Sciences, 110(8), 2723–2728.
  17. Shoushtari, M. H., Naji, F., and Aliakbari-Bidokhti, A. A. (2013). A laboratory study of the role of ions in warm cloud formation. Journal of the earth and space physics, 39 (4), 123-134.
  18. Wallace, J. M., & Hobbs, P. V. (2006). Atmospheric science: an introductory survey (Vol. 92). Academic press.

 

 

 

 

Journal of Climate Research
Volume 1394, Issue 23 - Serial Number 23
Vol. 6 No. 23&24, Autumn 2015 & Winter 2016
November 2015
Pages 69-78

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