An Overview of Selected Radiation Chemical Reactions Affecting Fuel Cycle Solvent Extraction

Mincher, Bruce J.

doi:10.1021/bk-2010-1046.ch015

Cited by 7 publications

(6 citation statements)

References 32 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…For the development of processes on an industrial scale, one main issue to consider is the detailed knowledge of radiolytic stability of the chemicals used since a solvent would be in contact for longer times with highly radioactive process streams. Degradation of the solvent may lead to the production of interfering degradation products, decreases in ligand concentration and changes in solvent viscosity as well as phase separation parameters [13]. This degradation may result in losses in selectivity and affi nity for target metal extraction.…”

Section: Introductionmentioning

confidence: 99%

Gamma radiolytic stability of CyMe₄BTBP and the effect of nitric acid

et al. 2015

View full text Add to dashboard Cite

The highly selective nitrogen donor ligand CyMe4BTBP for An(III) separation by solvent extraction was irradiated in a 60Co γ-source under varying conditions. Organic solutions of 10 mmol/L ligand in 1-octanol were contacted with different concentrations of nitric acid to observe the influence of an aqueous phase during irradiation. In subsequent liquid-liquid extraction experiments, distribution ratios of 241Am and 152Eu were determined. Distribution ratios decreased with increasing absorbed dose when irradiation was performed in the absence of nitric acid. With addition of nitric acid, initial distribution ratios remained constant over the whole examined dose range up to 300 kGy. For qualitative determination of radiolysis products, HPLC-MS measurements were performed. The protective effect of nitric acid was confirmed, since in samples irradiated with acid contact, no degradation products were observed, but only addition products of the 1-octanol molecule to the CyMe4BTBP molecule.

show abstract

Section: Introductionmentioning

confidence: 99%

Gamma radiolytic stability of CyMe₄BTBP and the effect of nitric acid

et al. 2015

View full text Add to dashboard Cite

show abstract

“…The major reactive species formed [3,4] Due to relatively low ligand concentrations employed most decay energy is absorbed by the diluent and ligand radiolysis is expected to occur by indirect, rather than direct mechanisms. [5] For example, the proposed TRUEX solvent contains 0.2 M CMPO as the ligand, while the tributylphosphate (TBP) modifier and dodecane diluent concentrations are about 1.4 M and 3 M, respectively. Consequently, most ligand damage will be due to reaction with reactive species created by energy deposition in the balance of the organic phase, or in the acidic aqueous phase in contact with that organic phase.…”

Section: Introductionmentioning

confidence: 99%

TRUEX Radiolysis Testing Using the INL Radiolysis Test Loop: FY-2012 Status Report

Peterman¹,

Olson²,

Tillotson³

et al. 2012

View full text Add to dashboard Cite

SUMMARYThis report presents a summary of the work performed to meet the FCRD level 3 milestone M3FT-12IN0302032, "TRUEX strip/TALSPEAK feed degradation mechanism." The INL radiolysis test loop has been used to evaluate the effects of radiolytic degradation upon the efficacy of the strip section of the TRUEX flowsheet for the recovery of trivalent actinides and lanthanides from acidic solution. The nominal composition of the TRUEX solvent used in this study is 0.2 M CMPO and 1.4 M TBP dissolved in n-dodecane and the nominal composition of the TRUEX strip solution is 1.5 M lactic acid and 0.050 M diethylenetriaminepentaacetic acid. Gamma irradiation of a mixture of TRUEX process solvent and stripping solution in the test loop does not adversely impact flowsheet performance as measured by stripping americium ratios. The observed increase in americium stripping distribution ratios with increasing absorbed dose indicates the radiolytic production of organic soluble degradation compounds. While the observed increases in the americium stripping distributions with increasing absorbed dose are statistically significant, the increase from D Am = <0.001 at 0 kGy absorbed dose to D Am = 0.015 at 1300 kGy absorbed dose is not an insurmountable difficulty. A more troubling observation is the significant decrease in the solvent dispersion number as the strip section of the TRUEX flowsheet is subjected to gamma radiolysis. The dispersion number, N Di , determined for un-irradiated TRUEX solvent and strip solution is N Di = 1.05 x 10 -3 , which is an acceptable value for typical solvent extraction equipment. However, the dispersion number for the irradiated TRUEX solvent and strip solution is 3.94 x 10 -4 , which is a poor value for typical solvent extraction equipment. Dispersion number determinations for mixture of irradiated and un-irradiated solutions suggest that both the aqueous and organic phases play a role in the decrease of the solvent dispersion number.

show abstract

“…1 Irradiation of the ligand occurs due to the decay energy of actinides and fission products in the dissolved nuclear fuel solution. The radiation types are predominantly low linear energy transfer (LET) beta/gamma radiation from fission product decay, and high LET alpha radiation from actinide decay.…”

Section: Introductionmentioning

confidence: 99%

“…Due to relatively low ligand concentrations employed most decay energy is absorbed by the diluent and ligand radiolysis is expected to occur by indirect, rather than direct mechanisms. 1 For example, the proposed TRUEX solvent contains 0.2 M octylphenyl-N,N-diisobutylcarbamoylmethylphosphine oxide (CMPO) as the ligand, while the dodecane diluent and tributylphosphate (TBP) modifier concentrations are about 3 M and 1 M, respectively. Consequently, most ligand damage will be due to reaction with reactive species created by energy deposition in the balance of the organic phase, or in the acidic aqueous phase in contact with that organic phase.…”

Section: Introductionmentioning

confidence: 99%

A comparison of the alpha and gamma radiolysis of CMPO

Mincher¹,

Mezyk²,

Groenewold³

et al. 2011

View full text Add to dashboard Cite

iii SUMMARYThe radiation chemistry of CMPO has been investigated using a combination of irradiation and analytical techniques. The D-, and J-irradiation of CMPO resulted in identical degradation rates (G-value, in Pmol Gy -1 ) for both radiation types, despite the difference in their linear energy transfer (LET). Similarly, variations in J-ray dose rates did not affect the degradation rate of CMPO. The solvent extraction behavior was different for the two radiation types, however. Gamma-irradiation resulted in steadily increasing distribution ratios for both forward and stripping extractions, with respect to increasing absorbed radiation dose. This was true for samples irradiated as a neat organic solution, or irradiated in contact with the acidic aqueous phase. In contrast, D-irradiated samples showed a rapid drop in distribution ratios for forward and stripping extractions, followed by essentially constant distribution ratios at higher absorbed doses. These differences in extraction behavior are reconciled by mass spectrometric examination of CMPO decomposition products under the different irradiation sources. Irradiation by J-rays resulted in the rupture of phosphoryl-methylene bonds with the production of phosphinic acid products. These species are expected to be complexing agents for americium that would result in higher distribution ratios. Irradiation by D-sources appeared to favor rupture of carbamoylmethylene bonds with the production of less deleterious acetamide products.

show abstract

An Overview of Selected Radiation Chemical Reactions Affecting Fuel Cycle Solvent Extraction

Cited by 7 publications

References 32 publications

Gamma radiolytic stability of CyMe₄BTBP and the effect of nitric acid

Gamma radiolytic stability of CyMe₄BTBP and the effect of nitric acid

TRUEX Radiolysis Testing Using the INL Radiolysis Test Loop: FY-2012 Status Report

A comparison of the alpha and gamma radiolysis of CMPO

Contact Info

Product

Resources

About

An Overview of Selected Radiation Chemical Reactions Affecting Fuel Cycle Solvent Extraction

Cited by 7 publications

References 32 publications

Gamma radiolytic stability of CyMe4BTBP and the effect of nitric acid

Gamma radiolytic stability of CyMe4BTBP and the effect of nitric acid

TRUEX Radiolysis Testing Using the INL Radiolysis Test Loop: FY-2012 Status Report

A comparison of the alpha and gamma radiolysis of CMPO

Contact Info

Product

Resources

About

Gamma radiolytic stability of CyMe₄BTBP and the effect of nitric acid

Gamma radiolytic stability of CyMe₄BTBP and the effect of nitric acid