Hans R. Pruppacher
Affiliations: | Meteorology | University of California, Los Angeles, Los Angeles, CA |
Area:
cloud physics, cloud chemistryGoogle:
"Hans R. Pruppacher"Bio:
https://www.researchgate.net/profile/Pao_Wang/publication/248344856_On_the_fundamental_role_of_Hans_Pruppacher_for_cloud_physics_and_cloud_chemistry/links/54ff40330cf2741b69f5ce3d.pdf
DOI:10.1016/j.atmosres.2010.06.003
http://adsabs.harvard.edu/abs/1963PhDT........10P
http://adsabs.harvard.edu/abs/1963JAtS...20..376P
Mean distance: (not calculated yet) | S | N | B | C | P |
Cross-listing: Meteorology Tree
Parents
Sign in to add mentorMorris Neiburger | grad student | 1962 | UCLA | |
(The effect of electrolytes and an external electric field on the supercooling of water drops.) |
Children
Sign in to add traineeRichard Leon Pitter | grad student | 1973 | UCLA (Meteorology Tree) |
Pao-Kuan Wang | grad student | 1978 | UCLA (Meteorology Tree) |
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Publications
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Diehl K, Mitra SK, Szakáll M, et al. (2011) The mainz vertical wind tunnel facility- a review of 25 years of laboratory experiments on cloud physics and chemistry Wind Tunnels: Aerodynamics, Models and Experiments. 69-92 |
Vohl O, Mitra SK, Diehl K, et al. (2001) A wind tunnel study of turbulence effects on the scavenging of aerosol particles by water drops Journal of the Atmospheric Sciences. 58: 3064-3072 |
Diehl K, Vohl O, Mitra SK, et al. (2000) A laboratory and theoretical study on the uptake of sulfur dioxide gas by small water drops containing hydrogen peroxide under laminar and turbulent conditions Atmospheric Environment. 34: 2865-2871 |
Diehl K, Mitra SK, Pruppacher HR. (1998) A laboratory study on the uptake of HCl, HNO3 and SO2 gas by ice crystals and the effect of these gases on the evaporation rate of the crystals Atmospheric Research. 47: 235-244 |
Pruppacher HR. (1995) A new look at homogeneous ice nucleation in supercooled water drops Journal of the Atmospheric Sciences. 52: 1924-1933 |
Respondek PS, Flossmann AI, Alheit RR, et al. (1995) A theoretical study of the wet removal of atmospheric pollutants. Part V: the uptake, redistribution, and deposition of (NH4)2 SO4 by a convective cloud containing ice Journal of the Atmospheric Sciences. 52: 2121-2132 |
Diehl K, Mitra SK, Pruppacher HR. (1995) A laboratory study of the uptake of HNO3 and HCl vapor by snow crystals and ice spheres at temperatures between 0 and -40°C Atmospheric Environment. 29: 975-981 |
Wurzler S, Respondek P, Flossmann AI, et al. (1994) Simulation of the dynamics, microstructure and cloud chemistry of a precipitating and a non-precipitating cloud by means of a detailed 2- D cloud model Contributions to Atmospheric Physics. 67: 313-319 |
Mitra SK, Brinkmann J, Pruppacher HR. (1992) A wind tunnel study on the drop-to-particle conversion Journal of Aerosol Science. 23: 245-256 |
Mitra SK, Barth U, Pruppacher HR. (1990) A laboratory study of the efficiency with which aerosol particles are scavenged by snow flakes Atmospheric Environment Part a, General Topics. 24: 1247-1254 |