Equilibrium vapor pressure of H2O above aqueous H2SO4 at low temperature

Mario Massucci; Simon L. Clegg; Peter Brimblecombe

doi:10.1021/je950310a

Equilibrium vapor pressure of H₂O above aqueous H₂SO₄ at low temperature

Mario Massucci
, Simon L. Clegg
, Peter Brimblecombe

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

38 Citations (Scopus)

Abstract

Equilibrium partial pressures of water (p(H₂O)) over solutions of (5.054 to 26.18) mol kg^-1 H₂SO₄ from (314.2 to 196.5) K have been determined using capacitance manometers in order to (1) obtain data for compositions relevant to the stratospheric aerosol and (2) extend and test present knowledge of the thermodynamic properties of aqueous H₂SO₄ at low temperature. Current approaches to calculating p(H₂O) from existing thermodynamic data are critically examined and compared to measurements made in this study and others in the literature. The reliability (to within about ±10% at the lowest temperatures) of predictions of p(H₂O) using liquid phase thermodynamic properties determined by Giauque and co-workers is confirmed for solutions from 4.37 mol kg^-1 to at least 25 mol kg^-1.

Original language	English
Pages (from-to)	765-778
Journal	Journal of Chemical and Engineering Data
Volume	41
Issue number	4
DOIs	https://doi.org/10.1021/je950310a
Publication status	Published - Jul 1996
Externally published	Yes

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title = "Equilibrium vapor pressure of H2O above aqueous H2SO4 at low temperature",

abstract = "Equilibrium partial pressures of water (p(H2O)) over solutions of (5.054 to 26.18) mol kg-1 H2SO4 from (314.2 to 196.5) K have been determined using capacitance manometers in order to (1) obtain data for compositions relevant to the stratospheric aerosol and (2) extend and test present knowledge of the thermodynamic properties of aqueous H2SO4 at low temperature. Current approaches to calculating p(H2O) from existing thermodynamic data are critically examined and compared to measurements made in this study and others in the literature. The reliability (to within about ±10\% at the lowest temperatures) of predictions of p(H2O) using liquid phase thermodynamic properties determined by Giauque and co-workers is confirmed for solutions from 4.37 mol kg-1 to at least 25 mol kg-1.",

author = "Mario Massucci and Clegg, \{Simon L.\} and Peter Brimblecombe",

year = "1996",

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doi = "10.1021/je950310a",

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volume = "41",

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journal = "Journal of Chemical and Engineering Data",

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T1 - Equilibrium vapor pressure of H2O above aqueous H2SO4 at low temperature

AU - Massucci, Mario

AU - Clegg, Simon L.

AU - Brimblecombe, Peter

PY - 1996/7

Y1 - 1996/7

N2 - Equilibrium partial pressures of water (p(H2O)) over solutions of (5.054 to 26.18) mol kg-1 H2SO4 from (314.2 to 196.5) K have been determined using capacitance manometers in order to (1) obtain data for compositions relevant to the stratospheric aerosol and (2) extend and test present knowledge of the thermodynamic properties of aqueous H2SO4 at low temperature. Current approaches to calculating p(H2O) from existing thermodynamic data are critically examined and compared to measurements made in this study and others in the literature. The reliability (to within about ±10% at the lowest temperatures) of predictions of p(H2O) using liquid phase thermodynamic properties determined by Giauque and co-workers is confirmed for solutions from 4.37 mol kg-1 to at least 25 mol kg-1.

AB - Equilibrium partial pressures of water (p(H2O)) over solutions of (5.054 to 26.18) mol kg-1 H2SO4 from (314.2 to 196.5) K have been determined using capacitance manometers in order to (1) obtain data for compositions relevant to the stratospheric aerosol and (2) extend and test present knowledge of the thermodynamic properties of aqueous H2SO4 at low temperature. Current approaches to calculating p(H2O) from existing thermodynamic data are critically examined and compared to measurements made in this study and others in the literature. The reliability (to within about ±10% at the lowest temperatures) of predictions of p(H2O) using liquid phase thermodynamic properties determined by Giauque and co-workers is confirmed for solutions from 4.37 mol kg-1 to at least 25 mol kg-1.

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U2 - 10.1021/je950310a

DO - 10.1021/je950310a

M3 - RGC 21 - Publication in refereed journal

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JO - Journal of Chemical and Engineering Data

JF - Journal of Chemical and Engineering Data

IS - 4

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