RU2008125922A

RU2008125922A - COLLOID-RESISTANT NANO-SIZED SORBENT FOR DEACTIVATION OF SOLID BULK MATERIALS (OPTIONS) AND METHOD OF DEACTIVATION OF SOLID BULK MATERIALS WITH ITS USE

Info

Publication number: RU2008125922A
Application number: RU2008125922/06A
Authority: RU
Inventors: Светлана Юрьевна Братская (RU); Светлана Юрьевна Братская; Валентин Александрович Авраменко (RU); Валентин Александрович Авраменко; Валентин Иванович Сергиенко (RU); Валентин Иванович Сергиенко; Юрий Павлович Корчагин (RU); Юрий Павлович Корчагин; Андрей Михайлович Егорин (RU); Андрей Михайлович Егорин
Priority date: 2008-06-25
Filing date: 2008-06-25
Publication date: 2009-12-27
Also published as: RU2401469C2

Abstract

1. Коллоидно-устойчивый наноразмерный сорбент, селективный к радионуклидам цезия-137, представляющий собой продукт взаимодействия катионов-прекурсоров селективного сорбента из группы переходных металлов и гексацианоферрат-анионов - прекурсоров селективного сорбента в среде стабильного карбоксилсодержащего полимерного коллоида. ! 2. Коллоидно-устойчивый наноразмерный сорбент по п.1, отличающийся тем, что катионы-прекурсоры селективного сорбента представляют собой кобальт, никель, железо, медь и другие, образующие при взаимодействии с гексацианоферрат-анионом ферроцианидные сорбенты. ! 3. Коллоидно-устойчивый наноразмерный сорбент по п.1, отличающийся тем, что концентрация катиона переходного металла в среде стабильного карбоксилсодержащего полимерного коллоида составляет 10-5-10-3 моль/л. ! 4. Коллоидно-устойчивый наноразмерный сорбент по п.1, отличающийся тем, что в качестве стабильного карбоксилсодержащего полимерного коллоида используют полиакриловую кислоту, ее растворимые сополимеры и эмульсию сополимеров акриловой кислоты с размером частиц не более 500 нм и содержанием полимера 0,001-0,4%. ! 5. Коллоидно-устойчивый наноразмерный сорбент, селективный к радионуклидам стронция-90, представляющий собой продукт взаимодействия катионов-прекурсоров селективного сорбента - кальция, бария или их смеси, и сульфат-анионов - прекурсоров селективного сорбента в среде стабильного карбоксилсодержащего полимерного коллоида. ! 6. Коллоидно-устойчивый наноразмерный сорбент по п.5, отличающийся тем, что концентрация катионов кальция, бария или их смеси в среде стабильного карбоксилсодержащего полимерного коллоида составляе1. A colloidal-resistant nanosized sorbent selective for cesium-137 radionuclides, which is a product of the interaction of cations precursors of a selective sorbent from a group of transition metals and hexacyanoferrate anions - precursors of a selective sorbent in a stable carboxyl-containing polymer colloid. ! 2. The colloid-resistant nanoscale sorbent according to claim 1, characterized in that the precursor cations of the selective sorbent are cobalt, nickel, iron, copper and others, which form ferrocyanide sorbents when interacting with the hexacyanoferrate anion. ! 3. The colloid-resistant nanoscale sorbent according to claim 1, characterized in that the concentration of the transition metal cation in a stable carboxyl-containing polymer colloid is 10-5-10-3 mol / L. ! 4. The colloid-resistant nanoscale sorbent according to claim 1, characterized in that polyacrylic acid, its soluble copolymers and an emulsion of acrylic acid copolymers with a particle size of not more than 500 nm and a polymer content of 0.001-0.4% are used as a stable carboxyl-containing polymer colloid. . ! 5. A colloidal-resistant nanoscale sorbent selective for strontium-90 radionuclides, which is the product of the interaction of precursor cations of the selective sorbent — calcium, barium, or a mixture thereof, and sulfate anions — precursors of the selective sorbent in a stable carboxyl-containing polymer colloid. ! 6. The colloid-resistant nanoscale sorbent according to claim 5, characterized in that the concentration of calcium, barium cations or a mixture thereof in a stable carboxyl-containing polymer colloid is composed of

Claims

1. A colloidal-resistant nanosized sorbent selective for cesium-137 radionuclides, which is a product of the interaction of cations precursors of a selective sorbent from a group of transition metals and hexacyanoferrate anions - precursors of a selective sorbent in a stable carboxyl-containing polymer colloid.

2. The colloid-resistant nanoscale sorbent according to claim 1, characterized in that the precursor cations of the selective sorbent are cobalt, nickel, iron, copper and others, which form ferrocyanide sorbents when interacting with the hexacyanoferrate anion.

3. The colloid-resistant nanoscale sorbent according to claim 1, characterized in that the concentration of the transition metal cation in a stable carboxyl-containing polymer colloid is 10 ^-5 -10 ^-3 mol / L.

4. The colloid-resistant nanoscale sorbent according to claim 1, characterized in that polyacrylic acid, its soluble copolymers and an emulsion of acrylic acid copolymers with a particle size of not more than 500 nm and a polymer content of 0.001-0.4% are used as a stable carboxyl-containing polymer colloid. .

5. A colloidal-resistant nanoscale sorbent selective for strontium-90 radionuclides, which is the product of the interaction of precursor cations of the selective sorbent — calcium, barium, or a mixture thereof, and sulfate anions — precursors of the selective sorbent in a stable carboxyl-containing polymer colloid.

6. The colloidal-resistant nanoscale sorbent according to claim 5, characterized in that the concentration of calcium, barium cations or a mixture thereof in a stable carboxyl-containing polymer colloid is 10 ^-5 -10 ^-3 mol / L.

7. The colloid-resistant nanoscale sorbent according to claim 5, characterized in that polyacrylic acid, its soluble copolymers and an emulsion of acrylic acid copolymers with a polymer content of 0.001-0.4% are used as a stable carboxyl-containing polymer colloid.

8. A method for decontamination of solid bulk materials from cesium or strontium radionuclides, comprising contacting materials contaminated with radionuclides with a decontamination solution, which is a colloidal-resistant nanoscale sorbent, selective, respectively, to cesium or strontium for a period of time that ensures maximum completeness of radionuclide extraction colloid-resistant nanoscale sorbent, and the subsequent destruction of colloidal-stable nanoscale sorbent with localized radion in it clyde treatment by cationic flocculants.

9. The method according to claim 8, characterized in that the decontamination of solid bulk materials from cesium is carried out in the presence of potassium or ammonium salts, and the decontamination from strontium in the presence of calcium salt at a salt concentration in the decontamination solution of 1-100 g / l.

10. The method according to claim 8, characterized in that the decontamination process from radionuclides is carried out with the ratio of radiation-contaminated material to the decontamination solution equal to 1: (50-500).

11. The method according to claim 8, characterized in that the decontamination process from radionuclides is carried out in dynamic mode with a filtration rate of 0.1-5.0 column volumes per hour.

12. The method according to claim 8, characterized in that the decontamination process from radionuclides is carried out in a static mode while mixing a mixture of material contaminated with radionuclides with a decontamination solution, which is a colloidal-resistant nanoscale sorbent, for 1-100 hours

13. The method according to claim 8, characterized in that polyamines are used as cationic flocculant.