Evaluation of the antimigration properties of materials for buffer filling of a near-surface radioactive waste repository

“…The required protective properties of the barrier (buffer) materials are justified and selected at the design stage with regard for the facility's technological peculiarities and operating conditions. Sand, gravel, extracted rock, sand mix with grainy sorbent, clayey materials, and concrete grouts can be used to build safety barriers (Varlakova et al 2013). In some countries, bentonite clays are considered predominantly as the buffer material (Oblivantsev and Shcherbakova 2007; Kuleshova et al 2014;Cherif et al 2017;Missana et al 2018;Tran et al 2018;Wissocq et al 2018).…”

“…In some countries, bentonite clays are considered predominantly as the buffer material (Oblivantsev and Shcherbakova 2007; Kuleshova et al 2014;Cherif et al 2017;Missana et al 2018;Tran et al 2018;Wissocq et al 2018). These clays feature low water permeability, an extensive sorptive capacity with respect to most radionuclides, an increased swelling ability, and rather high heat resistance, thermal conductivity, and ductility values (Varlakova et al 2013). Russia has an experience of using mixtures based on kaolin clays in building safety barriers with high protective properties (Ilyina et al 2019).…”

Sorption of 90Sr and 137Cs on clays used to build safety barriers in radioactive waste storage facilities

“…The required protective properties of the barrier (buffer) materials are justified and selected at the design stage with regard for the facility's technological peculiarities and operating conditions. Sand, gravel, extracted rock, sand mix with grainy sorbent, clayey materials, and concrete grouts can be used to build safety barriers (Varlakova et al 2013). In some countries, bentonite clays are considered predominantly as the buffer material (Oblivantsev and Shcherbakova 2007; Kuleshova et al 2014;Cherif et al 2017;Missana et al 2018;Tran et al 2018;Wissocq et al 2018).…”

“…In some countries, bentonite clays are considered predominantly as the buffer material (Oblivantsev and Shcherbakova 2007; Kuleshova et al 2014;Cherif et al 2017;Missana et al 2018;Tran et al 2018;Wissocq et al 2018). These clays feature low water permeability, an extensive sorptive capacity with respect to most radionuclides, an increased swelling ability, and rather high heat resistance, thermal conductivity, and ductility values (Varlakova et al 2013). Russia has an experience of using mixtures based on kaolin clays in building safety barriers with high protective properties (Ilyina et al 2019).…”

Sorption of 90Sr and 137Cs on clays used to build safety barriers in radioactive waste storage facilities

“…Обоснование требуемых защитных свойств барьерных (буферных) материалов и их выбор осуществляют на этапе проектирования в зависимости от технологических особенностей хранилища и условий его эксплуатации. При сооружении барьеров может использоваться пе сок, гравий, изъятая порода, смесь песка с зернистым сорбентом, глинистые мате риалы и бетонные смеси [7]. В ряде стран в качестве буферного материала наибо лее часто рассматривают бентонитовые глины [1, 8 -12].…”

“…В ряде стран в качестве буферного материала наибо лее часто рассматривают бентонитовые глины [1, 8 -12]. Они обладают низкой водопроницаемостью, значительной сорбционной способностью по отношению к большинству радионуклидов, повышенной набухаемостью, довольно высокими тер мостойкостью, теплопроводностью и пластичностью [7]. В России имеется опыт применения смесей на основе каолиновых глин при создании барьеров безопасно сти с высокими защитными свойствами [13].…”

Sorption of 90Sr and 137Cs on Clays used in the Construction of Safety Barriers in Radioactive Waste Storage Facilities

Sorption of Cs(I) in the Clays of the Markovskoye (Belarus) and 10th Khutor (Khakasia, Russia) Deposits