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APPLICATION OF VARIOUS METHODS FOR SULPHATES REMOVAL UNDER ACIDIC CONDITIONS

Holub, Marian, Balintova, Magdalena, Pavlikova, Petra, Demcak, Stefan

First published: 2014-06-20https://doi.org/10.5593/sgem2014/b52/s20.006View metrics

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  • CrossRef - Citation Indexes: 2
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Publication details

Title
APPLICATION OF VARIOUS METHODS FOR SULPHATES REMOVAL UNDER ACIDIC CONDITIONS
Authors
Holub, Marian, Balintova, Magdalena, Pavlikova, Petra, Demcak, Stefan
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 14th SGEM GeoConference on ECOLOGY, ECONOMICS, EDUCATION AND LEGISLATION
Publisher
Stef92 Technology
Year
2014
Pages
Not available yet
ISSN
1314-2704
ISBN
978-619-7105-18-6
Language
en
Publication type
Conference Paper
References22
  1. Morris M.E. & Levy G. Absorption of sulphate from orally administered magnesium sulfate in man. In: Journal of Toxicology – Clinical Toxicology, vol. 20, pp. 107 – 114, 1983.

  2. Silva R., Cadorin L. & Rubio J. Sulphate ions removal from an aqueous solution: I. Co-precipitation with hydrolysed aluminum-bearing salts. In: Minerals Engineering, vol. 23, issue 15, pp. 1220 – 1226, 2010.

  3. Mansoura C., Lefèvreb G., Pavageaua E.M., Catalettea H., Fédoroff M. & Zannac S. Sorption of sulfate ions onto magnetite. In: Journal of Colloid and Interface Science, vol. 331, issue 1, pp. 77 – 82, 2009.

  4. Stefan D-S., Frederick van Staden J., Vasile E., Vasile O-R. & Dancila M. Influence of sulfate and nitrate uptake from aqueous solutions on surface exchange in Purolite A - 520E resin. In: Comptes Rendus Chimie, In press 2014.

  5. Meihong L., Sanchuan Y., Yong Z. & Congjie G. Study on the thin-film composite nanofiltration membrane for the removal of sulfate from concentrated salt aqueous: Preparation and performance. In: Journal of Membrane Science, vol. 310, issues 1 – 2, pp. 289 – 295, 2008.

  6. Benatti C.T., Granhen Tavares C.R. & Lenzi E. Sulfate removal from waste chemicals by precipitation. In: Journal of Environmental Management, vol. 90, issu e 1, pp. 504 – 511, 2009.

  7. Tait S., Clarke W.P., Keller J. & Batstone D.J. Removal of sulfate from high- strength wastewater by crystallisation. In: Water Research, vol. 43, issue 3, pp. 762 – 772, 2009.

  8. Park J-Y., Byun H- J., Choi W-H. & Kang W-H. Cement paste column for simultaneous removal of fluoride, phosphate, and nitrate in acidic wastewater. In: Chemosphere, vol. 70, issue 8, pp. 1429 – 1437, 2008.

  9. Luptakova A., Kotulicova I., Macingova E. & Jencarova J. Bacterial elimination of sulphates from mine waters. In: Chemical Engineering Transactions, vol. 35, pp. 853 – 858, 2013.

  10. Balintova M., Petrilakova, A. Study of pH Influence on Selective Precipitation of Heavy Metals from Acid Mine Drainage. In: Chemical Engineering Transactions, Vol. 25, pp. 1-6, 2011.

  11. Pallová Z., Kupka D., Achimovičová M. Metal mobilization from AMD sediments in connection with bacterial iron reduction. In: Mineralia Slovaca, vol. 42, pp. 343-7, 2010.

  12. Morris M.E. & Levy G. Absorption of sulphate from orally administered magnesium sulfate in man. In: Journal of Toxicology – Clinical Toxicology, vol. 20, pp. 107 – 114, 1983.

  13. Silva R., Cadorin L. & Rubio J. Sulphate ions removal from an aqueous solution: I. Co-precipitation with hydrolysed aluminum-bearing salts. In: Minerals Engineering, vol. 23, issue 15, pp. 1220 – 1226, 2010.

  14. Mansoura C., Lefèvreb G., Pavageaua E.M., Catalettea H., Fédoroff M. & Zannac S. Sorption of sulfate ions onto magnetite. In: Journal of Colloid and Interface Science, vol. 331, issue 1, pp. 77 – 82, 2009.

  15. Stefan D-S., Frederick van Staden J., Vasile E., Vasile O-R. & Dancila M. Influence of sulfate and nitrate uptake from aqueous solutions on surface exchange in Purolite A - 520E resin. In: Comptes Rendus Chimie, In press 2014.

  16. Meihong L., Sanchuan Y., Yong Z. & Congjie G. Study on the thin-film composite nanofiltration membrane for the removal of sulfate from concentrated salt aqueous: Preparation and performance. In: Journal of Membrane Science, vol. 310, issues 1 – 2, pp. 289 – 295, 2008.

  17. Benatti C.T., Granhen Tavares C.R. & Lenzi E. Sulfate removal from waste chemicals by precipitation. In: Journal of Environmental Management, vol. 90, issu e 1, pp. 504 – 511, 2009.

  18. Tait S., Clarke W.P., Keller J. & Batstone D.J. Removal of sulfate from high- strength wastewater by crystallisation. In: Water Research, vol. 43, issue 3, pp. 762 – 772, 2009.

  19. Park J-Y., Byun H- J., Choi W-H. & Kang W-H. Cement paste column for simultaneous removal of fluoride, phosphate, and nitrate in acidic wastewater. In: Chemosphere, vol. 70, issue 8, pp. 1429 – 1437, 2008.

  20. Luptakova A., Kotulicova I., Macingova E. & Jencarova J. Bacterial elimination of sulphates from mine waters. In: Chemical Engineering Transactions, vol. 35, pp. 853 – 858, 2013.

  21. Balintova M., Petrilakova, A. Study of pH Influence on Selective Precipitation of Heavy Metals from Acid Mine Drainage. In: Chemical Engineering Transactions, Vol. 25, pp. 1-6, 2011.

  22. Pallová Z., Kupka D., Achimovičová M. Metal mobilization from AMD sediments in connection with bacterial iron reduction. In: Mineralia Slovaca, vol. 42, pp. 343-7, 2010.

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Number of times cited according to Crossref: 2

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