SIZE-DEPENDENT STRATOSPHERIC DROPLET COMPOSITION IN LEE WAVE TEMPERATURE-FLUCTUATIONS AND THEIR POTENTIAL ROLE IN PSC FREEZING

Authors
MEILINGER SK KOOP T LUO BP HUTHWELKER T CARSLAW KS KRIEGER U CRUTZEN PJ PETER T
Citation
Sk. Meilinger et al., SIZE-DEPENDENT STRATOSPHERIC DROPLET COMPOSITION IN LEE WAVE TEMPERATURE-FLUCTUATIONS AND THEIR POTENTIAL ROLE IN PSC FREEZING, Geophysical research letters, 22(22), 1995, pp. 3031-3034
Citations number
12
Categorie Soggetti
Geosciences, Interdisciplinary
Journal title
Geophysical research lettersACNP
ISSN journal
00948276
Volume
22
Issue
22
Year of publication
1995
Pages
3031 - 3034
Database
ISI
SICI code
0094-8276(1995)22:22<3031:SSDCIL>2.0.ZU;2-U
Abstract
Rapid temperature fluctuations are shown to cause liquid H2SO4/HNO3/H2 O stratospheric aerosols to depart considerably from thermodynamic equ ilibrium. While HNO3 uptake by larger droplets is diffusively hindered , small droplets can approach the composition of a pure binary HNO3/H2 O solution with up to 52 wt% HNO3, 48 wt% H2O and very small amounts o f H2SO4. The stoichiometry of these droplets is close to that of nitri c acid trihydrate (NAT) and freezing experiments suggest that this cou ld be a suitable pathway for the formation of frozen polar stratospher ic clouds (PSCs) of type-Ia.