Solubility of vanadyl sulfate in concentrated sulfuric acid solutions

F. Rahman; M. Skyllas-Kazacos

doi:10.1016/S0378-7753(97)02692-X

Solubility of vanadyl sulfate in concentrated sulfuric acid solutions

F. Rahman
, M. Skyllas-Kazacos^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

193 Scopus citations

Abstract

The specific energy of the vanadium redox battery is determined by the solubility of the four vanadium oxidation states in sulfuric acid. While recent studies have shown that a higher vanadium concentration than that initially proposed might be feasible, further reliable solubility data for the various vanadium ions is required if the electrolyte composition is to be properly optimized. This study describes the results of a solubility study of vanadyl sulfate in sulfuric acid. VOSO₄ is the species which exists in the discharged positive half-cell of the vanadium redox cell. The solubility data have been generated in sulfuric acid concentrations that range from 0 to 9 mol/1 and at temperatures between 10 and 50°C. The solubility of VOSO₄ is found to decrease continuously with increasing H₂SO₄ concentration and decreasing temperature. At 20°C, the solubility of VOSO₄ in distilled water is 3.280 mol/1 whereas in 9 M H₂SO₄ it is 0.260 mol/1. The drop in solubility with increasing H₂SO₄ concentration is significant and is more pronounced at lower concentrations. A multivariable solubility prediction model has been developed as a function of temperature and total sulfate/bisulfate (SO^2-₄ and HSO^-₄) concentration using the extended Debye-Huckel functional form. The average absolute deviation of the predicted solubility values from experimental data is 4.5% with a maximum deviation of about 12% over the abovementioned temperature and sulfuric acid concentration range. When solubility data in the more useful H₂SO₄ concentration range of 3-7 M is considered, the solubility correlation improved with an average absolute deviation of only 3.0% and a maximum deviation of about 7%.

Original language	English
Pages (from-to)	105-110
Number of pages	6
Journal	Journal of Power Sources
Volume	72
Issue number	2
DOIs	https://doi.org/10.1016/S0378-7753(97)02692-X
State	Published - 21 Apr 1998
Externally published	Yes

Bibliographical note

Funding Information:
This project is funded by a grant from the Australian Research Council. The authors wish to acknowledge the technical support provided by Mr. Michael Kazacos, Katia S. Nasev and Hung Chau during the experimental setup. ICP analyses were performed by Mr. R. Finlayson, School of Chemistry, University of New South Wales, Australia.

Keywords

Solubility
Sulfuric acid concentration
Vanadium redox battery
Vanadyl sulfate

ASJC Scopus subject areas

Renewable Energy, Sustainability and the Environment
Energy Engineering and Power Technology
Physical and Theoretical Chemistry
Electrical and Electronic Engineering

Access to Document

10.1016/S0378-7753(97)02692-X

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title = "Solubility of vanadyl sulfate in concentrated sulfuric acid solutions",

abstract = "The specific energy of the vanadium redox battery is determined by the solubility of the four vanadium oxidation states in sulfuric acid. While recent studies have shown that a higher vanadium concentration than that initially proposed might be feasible, further reliable solubility data for the various vanadium ions is required if the electrolyte composition is to be properly optimized. This study describes the results of a solubility study of vanadyl sulfate in sulfuric acid. VOSO4 is the species which exists in the discharged positive half-cell of the vanadium redox cell. The solubility data have been generated in sulfuric acid concentrations that range from 0 to 9 mol/1 and at temperatures between 10 and 50°C. The solubility of VOSO4 is found to decrease continuously with increasing H2SO4 concentration and decreasing temperature. At 20°C, the solubility of VOSO4 in distilled water is 3.280 mol/1 whereas in 9 M H2SO4 it is 0.260 mol/1. The drop in solubility with increasing H2SO4 concentration is significant and is more pronounced at lower concentrations. A multivariable solubility prediction model has been developed as a function of temperature and total sulfate/bisulfate (SO2-4 and HSO-4) concentration using the extended Debye-Huckel functional form. The average absolute deviation of the predicted solubility values from experimental data is 4.5\% with a maximum deviation of about 12\% over the abovementioned temperature and sulfuric acid concentration range. When solubility data in the more useful H2SO4 concentration range of 3-7 M is considered, the solubility correlation improved with an average absolute deviation of only 3.0\% and a maximum deviation of about 7\%.",

keywords = "Solubility, Sulfuric acid concentration, Vanadium redox battery, Vanadyl sulfate",

author = "F. Rahman and M. Skyllas-Kazacos",

note = "Funding Information: This project is funded by a grant from the Australian Research Council. The authors wish to acknowledge the technical support provided by Mr. Michael Kazacos, Katia S. Nasev and Hung Chau during the experimental setup. ICP analyses were performed by Mr. R. Finlayson, School of Chemistry, University of New South Wales, Australia. ",

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doi = "10.1016/S0378-7753(97)02692-X",

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AU - Rahman, F.

AU - Skyllas-Kazacos, M.

N1 - Funding Information: This project is funded by a grant from the Australian Research Council. The authors wish to acknowledge the technical support provided by Mr. Michael Kazacos, Katia S. Nasev and Hung Chau during the experimental setup. ICP analyses were performed by Mr. R. Finlayson, School of Chemistry, University of New South Wales, Australia.

PY - 1998/4/21

Y1 - 1998/4/21

N2 - The specific energy of the vanadium redox battery is determined by the solubility of the four vanadium oxidation states in sulfuric acid. While recent studies have shown that a higher vanadium concentration than that initially proposed might be feasible, further reliable solubility data for the various vanadium ions is required if the electrolyte composition is to be properly optimized. This study describes the results of a solubility study of vanadyl sulfate in sulfuric acid. VOSO4 is the species which exists in the discharged positive half-cell of the vanadium redox cell. The solubility data have been generated in sulfuric acid concentrations that range from 0 to 9 mol/1 and at temperatures between 10 and 50°C. The solubility of VOSO4 is found to decrease continuously with increasing H2SO4 concentration and decreasing temperature. At 20°C, the solubility of VOSO4 in distilled water is 3.280 mol/1 whereas in 9 M H2SO4 it is 0.260 mol/1. The drop in solubility with increasing H2SO4 concentration is significant and is more pronounced at lower concentrations. A multivariable solubility prediction model has been developed as a function of temperature and total sulfate/bisulfate (SO2-4 and HSO-4) concentration using the extended Debye-Huckel functional form. The average absolute deviation of the predicted solubility values from experimental data is 4.5% with a maximum deviation of about 12% over the abovementioned temperature and sulfuric acid concentration range. When solubility data in the more useful H2SO4 concentration range of 3-7 M is considered, the solubility correlation improved with an average absolute deviation of only 3.0% and a maximum deviation of about 7%.

AB - The specific energy of the vanadium redox battery is determined by the solubility of the four vanadium oxidation states in sulfuric acid. While recent studies have shown that a higher vanadium concentration than that initially proposed might be feasible, further reliable solubility data for the various vanadium ions is required if the electrolyte composition is to be properly optimized. This study describes the results of a solubility study of vanadyl sulfate in sulfuric acid. VOSO4 is the species which exists in the discharged positive half-cell of the vanadium redox cell. The solubility data have been generated in sulfuric acid concentrations that range from 0 to 9 mol/1 and at temperatures between 10 and 50°C. The solubility of VOSO4 is found to decrease continuously with increasing H2SO4 concentration and decreasing temperature. At 20°C, the solubility of VOSO4 in distilled water is 3.280 mol/1 whereas in 9 M H2SO4 it is 0.260 mol/1. The drop in solubility with increasing H2SO4 concentration is significant and is more pronounced at lower concentrations. A multivariable solubility prediction model has been developed as a function of temperature and total sulfate/bisulfate (SO2-4 and HSO-4) concentration using the extended Debye-Huckel functional form. The average absolute deviation of the predicted solubility values from experimental data is 4.5% with a maximum deviation of about 12% over the abovementioned temperature and sulfuric acid concentration range. When solubility data in the more useful H2SO4 concentration range of 3-7 M is considered, the solubility correlation improved with an average absolute deviation of only 3.0% and a maximum deviation of about 7%.

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KW - Vanadyl sulfate

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DO - 10.1016/S0378-7753(97)02692-X

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AN - SCOPUS:0009453150

SN - 0378-7753

VL - 72

SP - 105

EP - 110

JO - Journal of Power Sources

JF - Journal of Power Sources

IS - 2

ER -

Solubility of vanadyl sulfate in concentrated sulfuric acid solutions

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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