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Solvent Extraction and Ion Exchange Volume 38, 2020 - Issue 1: Solvent Extraction Equipment Developments
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Original Articles

Simulation of Solvent Extraction Flowsheets by a Global Model Combining Physicochemical and Engineering Approaches—Application to Cobalt(II) Extraction by D2EHPA

Alexandre ChagnesUniversité de Lorraine, CNRS, GeoRessources, Nancy, FranceCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-4345-6812
ORCID Icon
Pages 3-13 | Published online: 26 Dec 2019

References

  • Chagnes, A. Fundamentals in Electrochemistry and Hydrometallurgy. In Lithium Process Chemistry: Resources, Extractions, Batteries and Recycling, 1st ed.; Chagnes, A., Swiatowska, J., Eds.; Amsterdam: Elsevier, 2015 (ISBN: 978-0-12-801417-2); pp 41–80.
  • Ritcey, G. M. Solvent Extraction: Principles and Applications to Process Metallurgy; G.M. Ritcey & Associates Incorporated: Amsterdam, 2006; Vol. 2.
  • Habashi, F. Handbook of Extractive Metallurgy; Wiley VCH: New York, 1997.
  • Chagnes, A.; Fossé, C.; Courtaud, B.; Thiry, J.; Cote, G. Chemical Degradation of the Mixture of Trioctylamine (Extractant) and 1-tridecanol (Phase modifier) in Acidic Sulfate Media in the Presence of Vanadium (V). Hydrometallurgy 2011, 105(3–4), 328–333. DOI: 10.1016/j.hydromet.2010.11.003.
  • Chagnes, A.; Courtaud, B.; Thiry, J.; Cote, G. Computer Simulation of Flow Sheets for the Solvent Extraction of Uranium: A New Route to Delay the Effect of the Chemical Degradation of the Organic Phase on Uranium Recovery from Acidic Sulfate Media. J. Chem. Technol. Biotechnol. 2009, 84, 1899–1907. DOI: 10.1002/jctb.2263.
  • Beltrami, D.; Chagnes, A.; Haddad, M.; Laureano, H.; Mokhtari, H.; Courtaud, B.; Jugé, S.; Cote, G. Development of New Cation Exchangers for the Recovery of uranium(VI) from Wet Phosphoric Acid. Sep. Sci. Technol. 2013, 48, 480–486. DOI: 10.1080/01496395.2012.703752.
  • Beltrami, D.; Chagnes, A.; Haddad, M.; Laureano, H.; Mokhtari, H.; Courtaud, B.; Jugé, S.; Cote, G. Solvent Extraction Studies of uranium(VI) from Phosphoric Acid: Role of Synergistic Reagents in Mixture with bis(2-ethylhexyl) Phosphoric Acid. Hydrometallurgy 2014, 144–145, 207–214. DOI: 10.1016/j.hydromet.2014.02.010.
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  • Chagnes, A.; Moncomble, A.; Cote, G. In-Silico Calculations as a Helpful Tool for Designing New Extractants in Liquid-liquid Extraction. Solvent Extr. Ion Exch. 2013, 31(5), 499–518. DOI: 10.1080/07366299.2013.775884.
  • Collet, S.; Chagnes, A.; Courtaud, B.; Thiry, J.; Cote, G. Solvent Extraction of Uranium from Acidic Sulfate Media by Alamine®336: Computer Simulation and Optimization of the Flowsheets. J. Chem. Technol. Biotechnol. 2009, 84, 1331–1337. DOI: 10.1002/jctb.v84:9.
  • Beltrami, D.; Cote, G.; Mokhtari, H.; Courtaud, B.; Chagnes, A. Modelling of the Extraction of Uranium (VI) from Concentrated Phosphoric Acid by Synergistic Mixtures of bis-(2-ethylhexyl)-phosphoric Acid and Tri-n-octylphosphine Oxide. Hydrometallurgy 2012, 129–130, 118–125. DOI: 10.1016/j.hydromet.2012.09.005.
  • Dartiguelongue, A.; Provost, E.; Chagnes, A.; Cote, G.; Fürst, W. Experimental Determination and Modeling of the Speciation of Uranium(VI) in Phosphoric Acid Medium. Solvent Extr. Ion Exch. 2016, 34(3), 241–259. DOI: 10.1080/07366299.2016.1169145.
  • Dartiguelongue, A.; Chagnes, A.; Provost, E.; Cote, G.; Fürst, W. Modelling of uranium(VI) Extraction by D2EHPA/TOPO from Phosphoric Acid within a Wide Range of Concentrations. Hydrometallurgy. 2016, 165, 57–63. DOI: 10.1016/j.hydromet.2015.11.007.
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  • Omelchuk, K.; Chagnes, A. New Cation Exchangers for the Recovery of cobalt(II), nickel(II) and manganese(II) from Acidic Chloride Solutions: Modelling of Extraction Curves. Hydrometallurgy 2018, 180, 96–103. DOI: 10.1016/j.hydromet.2018.07.003.
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  • Omelchuk, K. Etude physicochimique de nouveaux agents d’extraction pour la récupération du cobalt, du nickel et du manganèse en milieu chlorure par extraction liquide-liquides. PhD thesis, PSL University, Jan 18, 2018.

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