Radiation-chemical effects in the near-field of a final disposal site: role of bromine on the radiolytic processes in NaCl-solutions

Ершов, Б. Г.; Kelm, M.; Janata, E.; Гордеев, А. В.; Bohnert, E.

doi:10.1524/ract.2002.90.9-11_2002.617

Cited by 19 publications

(33 citation statements)

References 21 publications

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“…For the simulation of experiment no. 6 (addition of Br À ) it is necessary to integrate the complex bromide system into the reaction scheme [16,18]. The calculation shows that Br À competes successfully with H 2 for Cl À 2 and OH radicals so that gas evolution can proceed as observed in the experiment (Fig.…”

Section: Resultsmentioning

confidence: 99%

Gamma radiolysis of NaCl brine: Effect of dissolved radiolysis gases on the radiolytic yield of long-lived products

Kelm

Bohnert

2005

Journal of Nuclear Materials

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Section: Resultsmentioning

confidence: 99%

Gamma radiolysis of NaCl brine: Effect of dissolved radiolysis gases on the radiolytic yield of long-lived products

Kelm

Bohnert

2005

Journal of Nuclear Materials

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“…Cl 3 − → Cl 2 + Cl − k = 1.1 × 10 5 s −1[95] ( 6 7 )Cl 2 + H 2 O → HClO + Cl − + H +(68)Similar reactions have been demonstrated for Br, and mixed bromine/chlorine species in weakly acidic solution[95]. The oxidative dissolution of Pu then proceeds as shown[92]:Pu(OH) 4 + HClO → PuO 2 2+ + OH − + Cl − + 2H 2 O (69) Pu(OH) 4 + ClO − → PuO 2 2+ + 2OH − + Cl − + H 2 O (70)The other actinides important for long-term waste storage considerations behave similarly.…”

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confidence: 99%

Radiation chemical effects on radiochemistry: A review of examples important to nuclear power

Mincher¹,

Mezyk

2009

Radiochimica Acta

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Radiolysis / Linear energy transfer / Redox reactions / Ligand degradation / Free radicals / Solvent extractionSummary. Radiochemistry deals with the chemistry of the radioactive elements. In the nuclear industry successful fuel reprocessing, high-level waste treatment, and long-term storage of spent fuel depend on an understanding of the radiochemistry of actinides and fission products in these settings. Radiation chemistry is concerned with the chemical effects of ionizing radiation, with the most common types of radiation encountered by the radiochemist being low linear energy transfer (LET) β − and γ radiation, and higher LET α radiation. These radiations can have profound and important effects on radiochemistry, including changes in metal oxidation states and degradation of the organic ligands designed to complex radioelements. This may occur by direct action of the incident radiation on compounds present with high abundance or by reaction with radiolytically produced reactive species for trace components, such as the complexing agents. This review examines the role of reactive species created in irradiated aqueous and organic solution and their effects on radiochemistry. The sources and nature of these reactive species are discussed. Examples of radiation chemical effects are provided related to solvent extraction of the actinides from acidic solution, metal complexation and technetium redox chemistry in alkaline tank waste, and the corrosion of spent fuel stored in repository brine.

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“…The radiolysis of high-ionic-strength brine systems has not been extensively studied, but some studies exist (Büppelman, Kim et al 1994;Kelm, Pashalidis, and Kim 1999;Ershov et al 2002). The many components in the brine systems of interest to the WIPP will lead to a relatively complex radiation chemistry and the formation of numerous transients and free radicals.…”

Section: Radiation Chemistry Of Brine Systemsmentioning

confidence: 99%

“…It was also observed that hypochlorite ion generation was negligible when chloride concentrations were smaller than 2 M. Concentrations at a Constant Alpha Activity of 37 GBq/L at pH~12 (Based on Data in Kelm, Pashalidis, and Kim 1999) In the WIPP brine, however, some solutes other than chloride may play a role. Ershov et al (2002) showed that small amounts of bromide in natural brines under radiolysis can give Cl 2 -, ClBr -, and Brradical anions at the radical step, and then mixed halogen molecules and trihalide ions by radical recombination at the molecular step (Ershov et al 2002). The hydrolysis of mixed halogen molecules can then result in the formation of hypobromite (OBr -) (acidic form: (Ershov et al 2002).…”

Section: Radiation Chemistry Of Brine Systemsmentioning

confidence: 99%

“…Ershov et al (2002) showed that small amounts of bromide in natural brines under radiolysis can give Cl 2 -, ClBr -, and Brradical anions at the radical step, and then mixed halogen molecules and trihalide ions by radical recombination at the molecular step (Ershov et al 2002). The hydrolysis of mixed halogen molecules can then result in the formation of hypobromite (OBr -) (acidic form: (Ershov et al 2002).…”

Section: Radiation Chemistry Of Brine Systemsmentioning

confidence: 99%

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Appendix SOTERM-2009 Actinide Chemistry Source Term

Borkowski

Garner²,

Lucchini

et al. 2013

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β (apparent) stability constant, or beta particle Bq becquerel BRAGFLO Brine and Gas Flow code CAPHUM maximum (cap) concentration of actinide associated with mobile humic colloids CAPMIC maximum concentrations of actinides that could be associated with microbes CBFO (U.S. Department of Energy) Carlsbad Field Office CCA Compliance Certification Application Ci Curie cm-1 per centimeter CN coordination number coll colloid conc concentration CONCINT concentration of actinide associated with mobile actinide intrinsic colloids CONCMIN concentration of actinide associated with mobile mineral fragment colloids CPR cellulosic, plastic, and rubber C Pu maximum concentration of all combined isotopes of Pu Cr or c crystalline phase CRA Compliance Recertification Application DBR direct brine release D-H Debye-Hückel theory DOE U.S. Department of Energy DRZ disturbed rock zone E 0 or E 0 redox potential EDS energy dispersive x-ray spectroscopy-Acetate anion (CH 2 CO 2) 2 C(OH)(CO 2) 3-Citrate anion (CH 2 CO 2) 2 N(CH2) 2 N(CH 2 CO 2) 2 4-Ethylenediaminetetraacetate (EDTA) anion C 2 O 4 2

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Radiation-chemical effects in the near-field of a final disposal site: role of bromine on the radiolytic processes in NaCl-solutions

Cited by 19 publications

References 21 publications

Gamma radiolysis of NaCl brine: Effect of dissolved radiolysis gases on the radiolytic yield of long-lived products

Gamma radiolysis of NaCl brine: Effect of dissolved radiolysis gases on the radiolytic yield of long-lived products

Radiation chemical effects on radiochemistry: A review of examples important to nuclear power

Appendix SOTERM-2009 Actinide Chemistry Source Term

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