Solid–liquid extraction of terbium from phosphoric acid solutions using solvent‐impregnated resin containing TOPS 99
Identifieur interne : 000A45 ( Main/Exploration ); précédent : 000A44; suivant : 000A46Solid–liquid extraction of terbium from phosphoric acid solutions using solvent‐impregnated resin containing TOPS 99
Auteurs : Batchu Nagaphani Kumar [Inde] ; Surampally Radhika [Inde] ; Mannepalli Lakshmi Kantam [Inde] ; Bontha Ramachandra Reddy [Inde]Source :
- Journal of Chemical Technology & Biotechnology [ 0268-2575 ] ; 2011-04.
Descripteurs français
- Wicri :
- topic : Acide, Industrie chimique, Résine.
English descriptors
- KwdEn :
- Acid, Acid concentration, Adsorption, Alloys compd, Amberlite, Aqueous phase, Aqueous solutions, Batch factor, Binary, Binary separation, Biotechnol, Chem, Chem technol biotechnol, Chemical industry, Chemical technology, Cyanex, Elution studies, Equilibration, Equilibration time, Experimental conditions, Extractant, Extraction, Extraction behaviour, Extraction resin, Extraction studies, Funct polym, Further increase, Hydrochloric acid, Impregnated, Impregnated resin, Intraparticle diffusion, Ionic radii, Kinetics, Langmuir, Lanthanide, Loading capacity, Metal concentration, Metal ions, Nitrate medium, Oxalic acid, Percentage extraction, Phosphoric, Phosphoric acid, Phosphoric acid concentration, Phosphoric acid solutions, Purif technol, Rare earth elements, Rare earth metals, Rare earths, Reagent, Reddy, Resin, Resin phase, Separation factor, Separation factors, Solvent extraction, Sorption, Straight line, Technol, Terbium, Terbium concentration, Tops resin, Yttrium.
- Teeft :
- Acid, Acid concentration, Adsorption, Alloys compd, Amberlite, Aqueous phase, Aqueous solutions, Batch factor, Binary, Binary separation, Biotechnol, Chem, Chem technol biotechnol, Chemical industry, Chemical technology, Cyanex, Elution studies, Equilibration, Equilibration time, Experimental conditions, Extractant, Extraction, Extraction behaviour, Extraction resin, Extraction studies, Funct polym, Further increase, Hydrochloric acid, Impregnated, Impregnated resin, Intraparticle diffusion, Ionic radii, Kinetics, Langmuir, Lanthanide, Loading capacity, Metal concentration, Metal ions, Nitrate medium, Oxalic acid, Percentage extraction, Phosphoric, Phosphoric acid, Phosphoric acid concentration, Phosphoric acid solutions, Purif technol, Rare earth elements, Rare earth metals, Rare earths, Reagent, Reddy, Resin, Resin phase, Separation factor, Separation factors, Solvent extraction, Sorption, Straight line, Technol, Terbium, Terbium concentration, Tops resin, Yttrium.
Abstract
BACKGROUND: In this work, the solid‐liquid extraction of terbium from phosphoric acid solutions using solvent‐impregnated resin containing TOPS 99, an equivalent of di‐2‐ethylhexyl phosphoric acid, has been investigated. The parameters studied include equilibration time, acid concentration, amount of resin, metal concentration, kinetics, temperature, loading, elution, regeneration and recycling.
Url:
DOI: 10.1002/jctb.2553
Affiliations:
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Le document en format XML
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<term>Alloys compd</term>
<term>Amberlite</term>
<term>Aqueous phase</term>
<term>Aqueous solutions</term>
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<term>Experimental conditions</term>
<term>Extractant</term>
<term>Extraction</term>
<term>Extraction behaviour</term>
<term>Extraction resin</term>
<term>Extraction studies</term>
<term>Funct polym</term>
<term>Further increase</term>
<term>Hydrochloric acid</term>
<term>Impregnated</term>
<term>Impregnated resin</term>
<term>Intraparticle diffusion</term>
<term>Ionic radii</term>
<term>Kinetics</term>
<term>Langmuir</term>
<term>Lanthanide</term>
<term>Loading capacity</term>
<term>Metal concentration</term>
<term>Metal ions</term>
<term>Nitrate medium</term>
<term>Oxalic acid</term>
<term>Percentage extraction</term>
<term>Phosphoric</term>
<term>Phosphoric acid</term>
<term>Phosphoric acid concentration</term>
<term>Phosphoric acid solutions</term>
<term>Purif technol</term>
<term>Rare earth elements</term>
<term>Rare earth metals</term>
<term>Rare earths</term>
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<term>Reddy</term>
<term>Resin</term>
<term>Resin phase</term>
<term>Separation factor</term>
<term>Separation factors</term>
<term>Solvent extraction</term>
<term>Sorption</term>
<term>Straight line</term>
<term>Technol</term>
<term>Terbium</term>
<term>Terbium concentration</term>
<term>Tops resin</term>
<term>Yttrium</term>
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<term>Adsorption</term>
<term>Alloys compd</term>
<term>Amberlite</term>
<term>Aqueous phase</term>
<term>Aqueous solutions</term>
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<term>Binary separation</term>
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<term>Chem</term>
<term>Chem technol biotechnol</term>
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<term>Chemical technology</term>
<term>Cyanex</term>
<term>Elution studies</term>
<term>Equilibration</term>
<term>Equilibration time</term>
<term>Experimental conditions</term>
<term>Extractant</term>
<term>Extraction</term>
<term>Extraction behaviour</term>
<term>Extraction resin</term>
<term>Extraction studies</term>
<term>Funct polym</term>
<term>Further increase</term>
<term>Hydrochloric acid</term>
<term>Impregnated</term>
<term>Impregnated resin</term>
<term>Intraparticle diffusion</term>
<term>Ionic radii</term>
<term>Kinetics</term>
<term>Langmuir</term>
<term>Lanthanide</term>
<term>Loading capacity</term>
<term>Metal concentration</term>
<term>Metal ions</term>
<term>Nitrate medium</term>
<term>Oxalic acid</term>
<term>Percentage extraction</term>
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<term>Phosphoric acid</term>
<term>Phosphoric acid concentration</term>
<term>Phosphoric acid solutions</term>
<term>Purif technol</term>
<term>Rare earth elements</term>
<term>Rare earth metals</term>
<term>Rare earths</term>
<term>Reagent</term>
<term>Reddy</term>
<term>Resin</term>
<term>Resin phase</term>
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<term>Separation factors</term>
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<term>Straight line</term>
<term>Technol</term>
<term>Terbium</term>
<term>Terbium concentration</term>
<term>Tops resin</term>
<term>Yttrium</term>
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<front><div type="abstract">BACKGROUND: In this work, the solid‐liquid extraction of terbium from phosphoric acid solutions using solvent‐impregnated resin containing TOPS 99, an equivalent of di‐2‐ethylhexyl phosphoric acid, has been investigated. The parameters studied include equilibration time, acid concentration, amount of resin, metal concentration, kinetics, temperature, loading, elution, regeneration and recycling.</div>
</front>
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<name sortKey="Kantam, Mannepalli Lakshmi" sort="Kantam, Mannepalli Lakshmi" uniqKey="Kantam M" first="Mannepalli Lakshmi" last="Kantam">Mannepalli Lakshmi Kantam</name>
<name sortKey="Radhika, Surampally" sort="Radhika, Surampally" uniqKey="Radhika S" first="Surampally" last="Radhika">Surampally Radhika</name>
<name sortKey="Reddy, Bontha Ramachandra" sort="Reddy, Bontha Ramachandra" uniqKey="Reddy B" first="Bontha Ramachandra" last="Reddy">Bontha Ramachandra Reddy</name>
<name sortKey="Reddy, Bontha Ramachandra" sort="Reddy, Bontha Ramachandra" uniqKey="Reddy B" first="Bontha Ramachandra" last="Reddy">Bontha Ramachandra Reddy</name>
<name sortKey="Reddy, Bontha Ramachandra" sort="Reddy, Bontha Ramachandra" uniqKey="Reddy B" first="Bontha Ramachandra" last="Reddy">Bontha Ramachandra Reddy</name>
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