Mathematical Model of Separation of Transplutonium and Rare Earth Elements by Ion-Exchange Chromatography Method with Complexation During Elution

Mathematical Model of Separation of Transplutonium and Rare Earth Elements by Ion-Exchange Chromatography Method with Complexation During Elution

Spent nuclear fuel contains precious and highly radioactive metals, such as plutonium, americium, curium, europium. Closed nuclear fuel cycle technology allows to distinguish these elements from spent nuclear fuel. Americium and curium are very expensive metals. They are used only in the most import...

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Main Authors: Y.A. Chursin, A.I. Gozhimov, S.N. Liventsov, O.V. Shmidt
Format: Article
Language:English
Published: AIDIC Servizi S.r.l. 2016-08-01
Series:Chemical Engineering Transactions
Online Access:https://www.cetjournal.it/index.php/cet/article/view/3680
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spelling doaj-eb2ca0d5661f4a8fb2fa918912df9fad2021-02-19T21:06:29ZengAIDIC Servizi S.r.l.Chemical Engineering Transactions2283-92162016-08-015210.3303/CET1652034Mathematical Model of Separation of Transplutonium and Rare Earth Elements by Ion-Exchange Chromatography Method with Complexation During ElutionY.A. ChursinA.I. GozhimovS.N. LiventsovO.V. ShmidtSpent nuclear fuel contains precious and highly radioactive metals, such as plutonium, americium, curium, europium. Closed nuclear fuel cycle technology allows to distinguish these elements from spent nuclear fuel. Americium and curium are very expensive metals. They are used only in the most important areas of nuclear technology (Gureckij et al., 1987). There are many methods for separation these metals from each other, like extraction methods, pyrochemical methods, chromatographic methods. This paper considers ion-exchange chromatography method with complexation during elution.https://www.cetjournal.it/index.php/cet/article/view/3680
collection DOAJ
language English
format Article
sources DOAJ
author Y.A. Chursin
A.I. Gozhimov
S.N. Liventsov
O.V. Shmidt
spellingShingle Y.A. Chursin
A.I. Gozhimov
S.N. Liventsov
O.V. Shmidt
Mathematical Model of Separation of Transplutonium and Rare Earth Elements by Ion-Exchange Chromatography Method with Complexation During Elution
Chemical Engineering Transactions
author_facet Y.A. Chursin
A.I. Gozhimov
S.N. Liventsov
O.V. Shmidt
author_sort Y.A. Chursin
title Mathematical Model of Separation of Transplutonium and Rare Earth Elements by Ion-Exchange Chromatography Method with Complexation During Elution
title_short Mathematical Model of Separation of Transplutonium and Rare Earth Elements by Ion-Exchange Chromatography Method with Complexation During Elution
title_full Mathematical Model of Separation of Transplutonium and Rare Earth Elements by Ion-Exchange Chromatography Method with Complexation During Elution
title_fullStr Mathematical Model of Separation of Transplutonium and Rare Earth Elements by Ion-Exchange Chromatography Method with Complexation During Elution
title_full_unstemmed Mathematical Model of Separation of Transplutonium and Rare Earth Elements by Ion-Exchange Chromatography Method with Complexation During Elution
title_sort mathematical model of separation of transplutonium and rare earth elements by ion-exchange chromatography method with complexation during elution
publisher AIDIC Servizi S.r.l.
series Chemical Engineering Transactions
issn 2283-9216
publishDate 2016-08-01
description Spent nuclear fuel contains precious and highly radioactive metals, such as plutonium, americium, curium, europium. Closed nuclear fuel cycle technology allows to distinguish these elements from spent nuclear fuel. Americium and curium are very expensive metals. They are used only in the most important areas of nuclear technology (Gureckij et al., 1987). There are many methods for separation these metals from each other, like extraction methods, pyrochemical methods, chromatographic methods. This paper considers ion-exchange chromatography method with complexation during elution.
url https://www.cetjournal.it/index.php/cet/article/view/3680
work_keys_str_mv AT yachursin mathematicalmodelofseparationoftransplutoniumandrareearthelementsbyionexchangechromatographymethodwithcomplexationduringelution
AT aigozhimov mathematicalmodelofseparationoftransplutoniumandrareearthelementsbyionexchangechromatographymethodwithcomplexationduringelution
AT snliventsov mathematicalmodelofseparationoftransplutoniumandrareearthelementsbyionexchangechromatographymethodwithcomplexationduringelution
AT ovshmidt mathematicalmodelofseparationoftransplutoniumandrareearthelementsbyionexchangechromatographymethodwithcomplexationduringelution
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