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I. Tang, H. Munkelwitz (1993)
Composition and temperature dependence of the deliquescence properties of hygroscopic aerosolsAtmospheric Environment. Part A. General Topics, 27
R. Charlson, J. Lovelock, M. Andreae, S. Warren (1987)
Oceanic phytoplankton, atmospheric sulphur, cloud albedo and climateNature, 326
Y. P. Kim, J. H. Seinfeld, P. Saxena (1993)
Atmopsheric gas-aerosol equilibrium II. Analysis of common approximations and activity coefficient methodsAerosol Sci. Technol., 19
M. Jacobson, A. Tabazadeh, R. Turco (1996)
Simulating equilibrium within aerosols and nonequilibrium between gases and aerosolsJournal of Geophysical Research, 101
S. Pandis, A. Wexler, J. Seinfeld (1995)
Dynamics of Tropospheric AerosolsThe Journal of Physical Chemistry, 99
L. Bromley (1973)
Thermodynamic properties of strong electrolytes in aqueous solutionsAiche Journal, 19
L. Hildemann, A. Russell, G. Cass (1984)
Ammonia and nitric acid concentrations in equilibrium with atmospheric aerosols: Experiment vs theoryAtmospheric Environment, 18
Zhaoyue Meng, J. Seinfeld (1996)
Time scales to achieve atmospheric gas-aerosol equilibrium for volatile speciesAtmospheric Environment, 30
Y. Kim, J. Seinfeld, P. Saxena (1993)
Atmospheric gas−aerosol equilibrium. II: Analysis of common approximations and activity coefficient calculation methodsAerosol Science and Technology, 19
K. Morris (1965)
Principles of Chemical Equilibrium
A. Wexler, J. Seinfeld (1991)
Second-generation inorganic aerosol modelAtmospheric Environment. Part A. General Topics, 25
P. Saxena, T. Peterson (1981)
Thermodynamics of multicomponent electrolytic aerosolsJournal of Colloid and Interface Science, 79
K. Pitzer, G. Mayorga (1973)
Thermodynamics of electrolytes. II. Activity and osmotic coefficients for strong electrolytes with one or both ions univalentThe Journal of Physical Chemistry, 77
K. Denbigh (1956)
The Principles of Chemical EquilibriumSoil Science, 81
Sudhakar Potukuchi, A. Wexler (1995)
Identifying solid-aqueous phase transitions in atmospheric aerosols—I. Neutral-acidity solutionsAtmospheric Environment, 29
M. Bassett, J. Seinfeld (1984)
Atmospheric equilibrium model of sulfate and nitrate aerosols—II. Particle size analysisAtmospheric Environment, 18
C. Kusik, Kusik Cl, H. Meissner (1978)
ELECTROLYTE ACTIVITY COEFFICIENTS IN INORGANIC PROCESSING.
P. Hill, R. Macmillan, Victor Lee (1982)
A Fundamental Equation of State for Heavy WaterJournal of Physical and Chemical Reference Data, 11
J. Fitzgerald (1991)
Marine aerosols: A reviewAtmospheric Environment. Part A. General Topics, 25
Sudhakar Potukuchi, A. Wexler (1995)
Identifying solid-aqueous-phase transitions in atmospheric aerosols. II. Acidic solutionsAtmospheric Environment, 29
Y. Kim, J. Seinfeld, P. Saxena (1993)
Atmospheric Gas-Aerosol Equilibrium I. Thermodynamic ModelAerosol Science and Technology, 19
M. Bassett, J. Seinfeld (1983)
Atmospheric equilibrium model of sulfate and nitrate aerosolsAtmospheric Environment, 17
L. Russell, S. Pandis, J. Seinfeld (1994)
Aerosol production and growth in the marine boundary layerJournal of Geophysical Research, 99
C. Pilinis, S. Pandis, J. Seinfeld (1995)
Sensitivity of direct climate forcing by atmospheric aerosols to aerosol size and compositionJournal of Geophysical Research, 100
D. Wagman (1982)
The NBS tables of chemical thermodynamic properties : selected values for inorganic and C1 and C2 organic substances in SI units
P. Saxena, P. Mueller, Y. Kim, J. Seinfeld, P. Koutrakis (1993)
Coupling Thermodynamic Theory with Measurements to Characterize Acidity of Atmospheric ParticlesAerosol Science and Technology, 19
A. Allen, R. Harrison, J. Erisman (1989)
Field measurements of the dissociation of ammonium nitrate and ammonium chloride aerosolsAtmospheric Environment, 23
P. Saxena, A. Hudischewskyj, C. Seigneur, J. Seinfeld (1986)
A comparative study of equilibrium approaches to the chemical characterization of secondary aerosolsAtmospheric Environment, 20
M. Shimizu (2019)
[Electrolyte solutions].[Kango] Japanese journal of nursing, 20 10
Patricia Quinn, Patricia Quinn, W. Asher, R. Charlson (1992)
Equilibria of the marine multiphase ammonia systemJournal of Atmospheric Chemistry, 14
J. Heintzenberg (1989)
Fine particles in the global troposphere. A reviewTellus B, 41
(1991)
The international global aerosol program ( IGAP ) plan
C. Pilinis, J. Seinfeld (1987)
Continued development of a general equilibrium model for inorganic multicomponent atmospheric aerosolsAtmospheric Environment, 21
A computationally efficient and rigorous thermodynamic model that predicts the physical state and composition of inorganic atmospheric aerosol is presented. One of the main features of the model is the implementation of mutual deliquescence of multicomponent salt particles, which lowers the deliquescence point of the aerosol phase.
Aquatic Geochemistry – Springer Journals
Published: Oct 15, 2004
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