Effect of chemical environment on the radiation chemistry of N , N -di-(2-ethylhexyl)butyramide (DEHBA) and plutonium retention

N , N -di-(2-ethylhexyl)butyramide (DEHBA) has been proposed as part of a hydro-reprocessing solvent extraction system for the co-extraction of uranium and plutonium from spent nuclear fuel, owing to its selectivity for hexavalent uranium and tetravalent plutonium. However, there is a critical lack...

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Published in	Dalton transactions : an international journal of inorganic chemistry Vol. 48; no. 38; pp. 14450 - 14460
Main Authors	Horne, Gregory P., Zarzana, Christopher A., Grimes, Travis S., Rae, Cathy, Ceder, Joakim, Mezyk, Stephen P., Mincher, Bruce J., Charbonnel, Marie-Christine, Guilbaud, Philippe, Saint-Louis, George, Berthon, Laurence
Format	Journal Article
Language	English
Published	Cambridge Royal Society of Chemistry 2019 Royal Society of Chemistry (RSC)
Subjects	Analytical chemistry Chemical Sciences Coordination chemistry Degradation Dodecane Environmental impact Formulations Gamma irradiation Gamma rays Investigations Mass balance Nitric acid or physical chemistry Organic chemistry Oxidation Plutonium Radiation chemistry Radiochemistry Reaction kinetics Reprocessing Retention Selectivity Solvent extraction Solvent extraction processes Solvents Spent nuclear fuels Theoretical and Uranium
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Abstract	N , N -di-(2-ethylhexyl)butyramide (DEHBA) has been proposed as part of a hydro-reprocessing solvent extraction system for the co-extraction of uranium and plutonium from spent nuclear fuel, owing to its selectivity for hexavalent uranium and tetravalent plutonium. However, there is a critical lack of quantitative understanding regarding the impact of chemical environment on the radiation chemistry of DEHBA, and how this would affect process performance. Here we present a systematic investigation into the radiolytic degradation of DEHBA in a range of n -dodecane solvent system formulations, where we subject DEHBA to gamma irradiation, measure reaction kinetics, ligand integrity, degradation product formation, and investigate solvent system performance through uranium and plutonium extraction and strip distribution ratios. The rate of DEHBA degradation in n -dodecane was found to be slow ( G = −0.31 ± 0.02 μmol J −1 ) but enhanced upon contact with the oxidizing conditions of the investigated solvent systems (organic-only, or in contact with either 0.1 or 3.0 M aqueous nitric acid). Two major degradation products were identified in the organic phase, bis-2-ethylhexylamine (b2EHA) and N -(2-ethylhexyl)butyramide (MEHBA), resulting from the cleavage of C–N bonds, and could account for the total loss of DEHBA up to ∼300 kGy for organic-only conditions. Both b2EHA and MEHBA were also found to be susceptible to radiolytic degradation, having G -values of −0.12 ± 0.01 and −0.08 ± 0.01 μmol J −1 , respectively. Solvent extraction studies showed: (i) negligible change in uranium extraction and stripping with increasing absorbed dose; and (ii) plutonium extraction and retention exhibits complex dependencies on absorbed dose and chemical environment. Organic-only conditions afforded enhanced plutonium extraction and retention attributed to b2EHA, while acid contacts inhibited this effect and promoted significant plutonium retention for the highest acidity. Overall it has been demonstrated that chemical environment during irradiation has a significant influence on the extent of DEHBA degradation and plutonium retention.
AbstractList	N,N-di-(2-ethylhexyl)butyramide (DEHBA) has been proposed as part of a hydro-reprocessing solvent extraction system for the co-extraction of uranium and plutonium from spent nuclear fuel, owing to its selectivity for hexavalent uranium and tetravalent plutonium. However, there is a critical lack of quantitative understanding regarding the impact of chemical environment on the radiation chemistry of DEHBA, and how this would affect process performance. Here we present a systematic investigation into the radiolytic degradation of DEHBA in a range of n-dodecane solvent system formulations, where we subject DEHBA to gamma irradiation, measure reaction kinetics, ligand integrity, degradation product formation, and investigate solvent system performance through uranium and plutonium extraction and strip distribution ratios. The rate of DEHBA degradation in n-dodecane was found to be slow (G = −0.31 ± 0.02 μmol J−1) but enhanced upon contact with the oxidizing conditions of the investigated solvent systems (organic-only, or in contact with either 0.1 or 3.0 M aqueous nitric acid). Two major degradation products were identified in the organic phase, bis-2-ethylhexylamine (b2EHA) and N-(2-ethylhexyl)butyramide (MEHBA), resulting from the cleavage of C–N bonds, and could account for the total loss of DEHBA up to ∼300 kGy for organic-only conditions. Both b2EHA and MEHBA were also found to be susceptible to radiolytic degradation, having G-values of −0.12 ± 0.01 and −0.08 ± 0.01 μmol J−1, respectively. Solvent extraction studies showed: (i) negligible change in uranium extraction and stripping with increasing absorbed dose; and (ii) plutonium extraction and retention exhibits complex dependencies on absorbed dose and chemical environment. Organic-only conditions afforded enhanced plutonium extraction and retention attributed to b2EHA, while acid contacts inhibited this effect and promoted significant plutonium retention for the highest acidity. Overall it has been demonstrated that chemical environment during irradiation has a significant influence on the extent of DEHBA degradation and plutonium retention. N,N-di-(2-ethylhexyl)butyramide (DEHBA) has been proposed as part of a hydro-reprocessing solvent extraction system for the co-extraction of uranium and plutonium from spent nuclear fuel, owing to its selectivity for hexavalent uranium and tetravalent plutonium. However, there is a critical lack of quantitative understanding regarding the impact of chemical environment on the radiation chemistry of DEHBA, and how this would affect process performance. Here we present a systematic investigation into the radiolytic degradation of DEHBA in a range of n-dodecane solvent system formulations, where we subject DEHBA to gamma irradiation, measure reaction kinetics, ligand integrity, degradation product formation, and investigate solvent system performance through uranium and plutonium extraction and strip distribution ratios. The rate of DEHBA degradation in n-dodecane was found to be slow (G = -0.31 ± 0.02 μmol J-1) but enhanced upon contact with the oxidizing conditions of the investigated solvent systems (organic-only, or in contact with either 0.1 or 3.0 M aqueous nitric acid). Two major degradation products were identified in the organic phase, bis-2-ethylhexylamine (b2EHA) and N-(2-ethylhexyl)butyramide (MEHBA), resulting from the cleavage of C-N bonds, and could account for the total loss of DEHBA up to ∼300 kGy for organic-only conditions. Both b2EHA and MEHBA were also found to be susceptible to radiolytic degradation, having G-values of -0.12 ± 0.01 and -0.08 ± 0.01 μmol J-1, respectively. Solvent extraction studies showed: (i) negligible change in uranium extraction and stripping with increasing absorbed dose; and (ii) plutonium extraction and retention exhibits complex dependencies on absorbed dose and chemical environment. Organic-only conditions afforded enhanced plutonium extraction and retention attributed to b2EHA, while acid contacts inhibited this effect and promoted significant plutonium retention for the highest acidity. Overall it has been demonstrated that chemical environment during irradiation has a significant influence on the extent of DEHBA degradation and plutonium retention.N,N-di-(2-ethylhexyl)butyramide (DEHBA) has been proposed as part of a hydro-reprocessing solvent extraction system for the co-extraction of uranium and plutonium from spent nuclear fuel, owing to its selectivity for hexavalent uranium and tetravalent plutonium. However, there is a critical lack of quantitative understanding regarding the impact of chemical environment on the radiation chemistry of DEHBA, and how this would affect process performance. Here we present a systematic investigation into the radiolytic degradation of DEHBA in a range of n-dodecane solvent system formulations, where we subject DEHBA to gamma irradiation, measure reaction kinetics, ligand integrity, degradation product formation, and investigate solvent system performance through uranium and plutonium extraction and strip distribution ratios. The rate of DEHBA degradation in n-dodecane was found to be slow (G = -0.31 ± 0.02 μmol J-1) but enhanced upon contact with the oxidizing conditions of the investigated solvent systems (organic-only, or in contact with either 0.1 or 3.0 M aqueous nitric acid). Two major degradation products were identified in the organic phase, bis-2-ethylhexylamine (b2EHA) and N-(2-ethylhexyl)butyramide (MEHBA), resulting from the cleavage of C-N bonds, and could account for the total loss of DEHBA up to ∼300 kGy for organic-only conditions. Both b2EHA and MEHBA were also found to be susceptible to radiolytic degradation, having G-values of -0.12 ± 0.01 and -0.08 ± 0.01 μmol J-1, respectively. Solvent extraction studies showed: (i) negligible change in uranium extraction and stripping with increasing absorbed dose; and (ii) plutonium extraction and retention exhibits complex dependencies on absorbed dose and chemical environment. Organic-only conditions afforded enhanced plutonium extraction and retention attributed to b2EHA, while acid contacts inhibited this effect and promoted significant plutonium retention for the highest acidity. Overall it has been demonstrated that chemical environment during irradiation has a significant influence on the extent of DEHBA degradation and plutonium retention. Gamma-radiolysis of the ligand DEHBA is accelerated under biphasic acidic conditions and yields one or more plutonium complexing degradation products. N , N -di-(2-ethylhexyl)butyramide (DEHBA) has been proposed as part of a hydro-reprocessing solvent extraction system for the co-extraction of uranium and plutonium from spent nuclear fuel, owing to its selectivity for hexavalent uranium and tetravalent plutonium. However, there is a critical lack of quantitative understanding regarding the impact of chemical environment on the radiation chemistry of DEHBA, and how this would affect process performance. Here we present a systematic investigation into the radiolytic degradation of DEHBA in a range of n -dodecane solvent system formulations, where we subject DEHBA to gamma irradiation, measure reaction kinetics, ligand integrity, degradation product formation, and investigate solvent system performance through uranium and plutonium extraction and strip distribution ratios. The rate of DEHBA degradation in n -dodecane was found to be slow ( G = −0.31 ± 0.02 μmol J −1 ) but enhanced upon contact with the oxidizing conditions of the investigated solvent systems (organic-only, or in contact with either 0.1 or 3.0 M aqueous nitric acid). Two major degradation products were identified in the organic phase, bis-2-ethylhexylamine (b2EHA) and N -(2-ethylhexyl)butyramide (MEHBA), resulting from the cleavage of C–N bonds, and could account for the total loss of DEHBA up to ∼300 kGy for organic-only conditions. Both b2EHA and MEHBA were also found to be susceptible to radiolytic degradation, having G -values of −0.12 ± 0.01 and −0.08 ± 0.01 μmol J −1 , respectively. Solvent extraction studies showed: (i) negligible change in uranium extraction and stripping with increasing absorbed dose; and (ii) plutonium extraction and retention exhibits complex dependencies on absorbed dose and chemical environment. Organic-only conditions afforded enhanced plutonium extraction and retention attributed to b2EHA, while acid contacts inhibited this effect and promoted significant plutonium retention for the highest acidity. Overall it has been demonstrated that chemical environment during irradiation has a significant influence on the extent of DEHBA degradation and plutonium retention. N,N -di-(2-ethylhexyl)butyramide (DEHBA) has been proposed as part of a hydro-reprocessing solvent extraction system for the co-extraction of uranium and plutonium from spent nuclear fuel, owing to its selectivity for hexavalent uranium and tetravalent plutonium. However, there is a critical lack of quantitative understanding regarding the impact of chemical environment on the radiation chemistry of DEHBA, and how this would affect process performance. Here we present a systematic investigation into the radiolytic degradation of DEHBA in a range of n -dodecane solvent system formulations, where we subject DEHBA to gamma irradiation, measure reaction kinetics, ligand integrity, degradation product formation, and investigate solvent system performance through uranium and plutonium extraction and strip distribution ratios. The rate of DEHBA degradation in n-dodecane was found to be slow ( G = -0.31 +/- 0.02 mu mol J(-1)) but enhanced upon contact with the oxidizing conditions of the investigated solvent systems (organic-only, or in contact with either 0.1 or 3.0 M aqueous nitric acid). Two major degradation products were identified in the organic phase, bis-2-ethylhexylamine (b2EHA) and N -(2-ethylhexyl)butyramide (MEHBA), resulting from the cleavage of C-N bonds, and could account for the total loss of DEHBA up to similar to 300 kGy for organic-only conditions. Both b2EHA and MEHBA were also found to be susceptible to radiolytic degradation, having G-values of -0.12 +/- 0.01 and -0.08 +/- 0.01 mu mol J -1 , respectively. Solvent extraction studies showed: (i) negligible change in uranium extraction and stripping with increasing absorbed dose; and (ii) plutonium extraction and retention exhibits complex dependencies on absorbed dose and chemical environment. Organic-only conditions afforded enhanced plutonium extraction and retention attributed to b2EHA, while acid contacts inhibited this effect and promoted significant plutonium retention for the highest acidity. Overall it has been demonstrated that chemical environment during irradiation has a significant influence on the extent of DEHBA degradation and plutonium retention.
Author	Berthon, Laurence Charbonnel, Marie-Christine Ceder, Joakim Zarzana, Christopher A. Grimes, Travis S. Mezyk, Stephen P. Guilbaud, Philippe Horne, Gregory P. Rae, Cathy Mincher, Bruce J. Saint-Louis, George
Author_xml	– sequence: 1 givenname: Gregory P. orcidid: 0000-0003-0596-0660 surname: Horne fullname: Horne, Gregory P. organization: Idaho National Laboratory, Center for Radiation Chemistry Research, Idaho Falls, USA – sequence: 2 givenname: Christopher A. orcidid: 0000-0001-9617-7123 surname: Zarzana fullname: Zarzana, Christopher A. organization: Idaho National Laboratory, Center for Radiation Chemistry Research, Idaho Falls, USA – sequence: 3 givenname: Travis S. orcidid: 0000-0003-2751-0492 surname: Grimes fullname: Grimes, Travis S. organization: Idaho National Laboratory, Center for Radiation Chemistry Research, Idaho Falls, USA – sequence: 4 givenname: Cathy orcidid: 0000-0002-4520-1645 surname: Rae fullname: Rae, Cathy organization: Idaho National Laboratory, Center for Radiation Chemistry Research, Idaho Falls, USA – sequence: 5 givenname: Joakim orcidid: 0000-0003-3509-6754 surname: Ceder fullname: Ceder, Joakim organization: Idaho National Laboratory, Center for Radiation Chemistry Research, Idaho Falls, USA, KTH Royal Institute of Technology – sequence: 6 givenname: Stephen P. orcidid: 0000-0001-7838-1999 surname: Mezyk fullname: Mezyk, Stephen P. organization: California State University Long Beach, Department of Chemistry and Biochemistry, Long Beach, USA – sequence: 7 givenname: Bruce J. orcidid: 0000-0003-3108-2590 surname: Mincher fullname: Mincher, Bruce J. organization: Idaho National Laboratory, Center for Radiation Chemistry Research, Idaho Falls, USA – sequence: 8 givenname: Marie-Christine orcidid: 0000-0002-0552-7405 surname: Charbonnel fullname: Charbonnel, Marie-Christine organization: CEA, DEN, DMRC, Univ Montpellier, France – sequence: 9 givenname: Philippe orcidid: 0000-0001-9777-8326 surname: Guilbaud fullname: Guilbaud, Philippe organization: CEA, DEN, DMRC, Univ Montpellier, France – sequence: 10 givenname: George surname: Saint-Louis fullname: Saint-Louis, George organization: CEA, DEN, DMRC, Univ Montpellier, France – sequence: 11 givenname: Laurence orcidid: 0000-0003-3474-8474 surname: Berthon fullname: Berthon, Laurence organization: CEA, DEN, DMRC, Univ Montpellier, France
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Snippet	N , N -di-(2-ethylhexyl)butyramide (DEHBA) has been proposed as part of a hydro-reprocessing solvent extraction system for the co-extraction of uranium and... N,N-di-(2-ethylhexyl)butyramide (DEHBA) has been proposed as part of a hydro-reprocessing solvent extraction system for the co-extraction of uranium and... Gamma-radiolysis of the ligand DEHBA is accelerated under biphasic acidic conditions and yields one or more plutonium complexing degradation products. N,N -di-(2-ethylhexyl)butyramide (DEHBA) has been proposed as part of a hydro-reprocessing solvent extraction system for the co-extraction of uranium and...
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SubjectTerms	Analytical chemistry Chemical Sciences Coordination chemistry Degradation Dodecane Environmental impact Formulations Gamma irradiation Gamma rays Investigations Mass balance Nitric acid or physical chemistry Organic chemistry Oxidation Plutonium Radiation chemistry Radiochemistry Reaction kinetics Reprocessing Retention Selectivity Solvent extraction Solvent extraction processes Solvents Spent nuclear fuels Theoretical and Uranium
Title	Effect of chemical environment on the radiation chemistry of N , N -di-(2-ethylhexyl)butyramide (DEHBA) and plutonium retention
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