Standard
On Deliquescence/Efflorescence Induced Hysteresis During Hygroscopic Particle Growth/Evaporation. / Hellmuth, O.; Shchekin, A.K.; Shabaev, I.V.; Katzwinkel, J.
18th International Conference "Nucleation and Atmospheric Aerosols", 10-14 August 2009, Prague, Chech Republic. Eds. J.Smolik and C. O’Dowd, A16.4. ред. / J. Smolik; C. O’Dowd. Elsevier, 2009. стр. 419-422.
Результаты исследований: Публикации в книгах, отчётах, сборниках, трудах конференций › статья в сборнике материалов конференции
Harvard
Hellmuth, O
, Shchekin, AK, Shabaev, IV & Katzwinkel, J 2009,
On Deliquescence/Efflorescence Induced Hysteresis During Hygroscopic Particle Growth/Evaporation. в J Smolik & C O’Dowd (ред.),
18th International Conference "Nucleation and Atmospheric Aerosols", 10-14 August 2009, Prague, Chech Republic. Eds. J.Smolik and C. O’Dowd, A16.4. Elsevier, стр. 419-422, 18th International Conference "Nucleation and Atmospheric Aerosols", 10-14 August 2009, Prague, Czech Republic., Прага, Чехия,
10/08/09.
APA
Hellmuth, O.
, Shchekin, A. K., Shabaev, I. V., & Katzwinkel, J. (2009).
On Deliquescence/Efflorescence Induced Hysteresis During Hygroscopic Particle Growth/Evaporation. в J. Smolik, & C. O’Dowd (Ред.),
18th International Conference "Nucleation and Atmospheric Aerosols", 10-14 August 2009, Prague, Chech Republic. Eds. J.Smolik and C. O’Dowd, A16.4 (стр. 419-422). Elsevier.
Vancouver
Hellmuth O
, Shchekin AK, Shabaev IV, Katzwinkel J.
On Deliquescence/Efflorescence Induced Hysteresis During Hygroscopic Particle Growth/Evaporation. в Smolik J, O’Dowd C, Редакторы, 18th International Conference "Nucleation and Atmospheric Aerosols", 10-14 August 2009, Prague, Chech Republic. Eds. J.Smolik and C. O’Dowd, A16.4. Elsevier. 2009. стр. 419-422
Author
BibTeX
@inproceedings{4407ae53ded145b7a1c1adbda9efec5d,
title = "On Deliquescence/Efflorescence Induced Hysteresis During Hygroscopic Particle Growth/Evaporation",
abstract = "Both thermodynamic and kinetic approaches are employed to interpret data revealing a hysteresis effect during the growth/evaporation of hygroscopic particles in an ambient solvent vapour. For given thermodynamic parameters and material constants, the deliquescence humidity can be determined from the generalised Gibbs-Kelvin-K{\"o}hler and Oswald-Freundlich equations. Additionally employing the quasi-steady nucleation kinetics, we can estimate the efflorescence hu-midity. The predictive power of this approach is demonstrated for the sodium chloride-water system. ",
author = "O. Hellmuth and A.K. Shchekin and I.V. Shabaev and J. Katzwinkel",
year = "2009",
language = "English",
pages = "419--422",
editor = "Smolik, { J.} and { O{\textquoteright}Dowd}, {C. }",
booktitle = "18th International Conference {"}Nucleation and Atmospheric Aerosols{"}, 10-14 August 2009, Prague, Chech Republic. Eds. J.Smolik and C. O{\textquoteright}Dowd, A16.4",
publisher = "Elsevier",
address = "Netherlands",
note = "18th International Conference {"}Nucleation and Atmospheric Aerosols{"}, 10-14 August 2009, Prague, Czech Republic., ICNAA 18 ; Conference date: 10-08-2009 Through 14-08-2009",
url = "http://www.icnaa.org/history.html",
}
RIS
TY - GEN
T1 - On Deliquescence/Efflorescence Induced Hysteresis During Hygroscopic Particle Growth/Evaporation
AU - Hellmuth, O.
AU - Shchekin, A.K.
AU - Shabaev, I.V.
AU - Katzwinkel, J.
N1 - Conference code: 18
PY - 2009
Y1 - 2009
N2 - Both thermodynamic and kinetic approaches are employed to interpret data revealing a hysteresis effect during the growth/evaporation of hygroscopic particles in an ambient solvent vapour. For given thermodynamic parameters and material constants, the deliquescence humidity can be determined from the generalised Gibbs-Kelvin-Köhler and Oswald-Freundlich equations. Additionally employing the quasi-steady nucleation kinetics, we can estimate the efflorescence hu-midity. The predictive power of this approach is demonstrated for the sodium chloride-water system.
AB - Both thermodynamic and kinetic approaches are employed to interpret data revealing a hysteresis effect during the growth/evaporation of hygroscopic particles in an ambient solvent vapour. For given thermodynamic parameters and material constants, the deliquescence humidity can be determined from the generalised Gibbs-Kelvin-Köhler and Oswald-Freundlich equations. Additionally employing the quasi-steady nucleation kinetics, we can estimate the efflorescence hu-midity. The predictive power of this approach is demonstrated for the sodium chloride-water system.
M3 - Conference contribution
SP - 419
EP - 422
BT - 18th International Conference "Nucleation and Atmospheric Aerosols", 10-14 August 2009, Prague, Chech Republic. Eds. J.Smolik and C. O’Dowd, A16.4
A2 - Smolik, J.
A2 - O’Dowd, C.
PB - Elsevier
T2 - 18th International Conference "Nucleation and Atmospheric Aerosols", 10-14 August 2009, Prague, Czech Republic.
Y2 - 10 August 2009 through 14 August 2009
ER -