Migration characteristics of radionuclides 85+89Sr 2+, 134CS+, 125I-, 75SeO32- and 152+154Eu(III) in Chinese soils. Column investigation

Xiangke Wang; Jinzhou Du; Zuyi Tao; Zhongxiu Fan

doi:10.1023/A:1026222512462

Migration characteristics of radionuclides ⁸⁵⁺⁸⁹Sr ²⁺, ¹³⁴CS⁺, ¹²⁵I-, ⁷⁵SeO₃^2- and ^152+154Eu(III) in Chinese soils. Column investigation

Xiangke Wang, Jinzhou Du, Zuyi Tao, Zhongxiu Fan

Research output: Contribution to journal › Article › peer-review

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Abstract

The migration of radionuclides ⁸⁵⁺⁸⁹Sr²⁺, ¹³⁴Cs⁺, ¹²⁵I^- and ⁷⁵SeO₃^2- in calcareous soil from Yuzhong county of Gansu Province (China) at pH 7.8±0.2 and ^152+154Eu(III) in red earth from Yingtan county of Jiangxi Province (China) at pH 4.6±0.2, in presence of CaCl₂ was studied using column experiments. Results indicate that the negative anions, iodide and selenide are mobile nuclides while the migration of positive cations is related to the sorption capacity for the element. Iodide can be assumed to be non-reactive in calcareous soil. The breakthrough curves (BTCs) were fitted to the analytical solution or numerical solution of one-dimensional convection-dispersion transport models. Good agreements were obtained between the measured and predicted concentration profiles.

Original language	English
Pages (from-to)	133-138
Number of pages	6
Journal	Journal of Radioanalytical and Nuclear Chemistry
Volume	258
Issue number	1
DOIs	https://doi.org/10.1023/A:1026222512462
State	Published - Oct 2003
Externally published	Yes

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title = "Migration characteristics of radionuclides 85+89Sr 2+, 134CS+, 125I-, 75SeO32- and 152+154Eu(III) in Chinese soils. Column investigation",

abstract = "The migration of radionuclides 85+89Sr2+, 134Cs+, 125I- and 75SeO32- in calcareous soil from Yuzhong county of Gansu Province (China) at pH 7.8±0.2 and 152+154Eu(III) in red earth from Yingtan county of Jiangxi Province (China) at pH 4.6±0.2, in presence of CaCl2 was studied using column experiments. Results indicate that the negative anions, iodide and selenide are mobile nuclides while the migration of positive cations is related to the sorption capacity for the element. Iodide can be assumed to be non-reactive in calcareous soil. The breakthrough curves (BTCs) were fitted to the analytical solution or numerical solution of one-dimensional convection-dispersion transport models. Good agreements were obtained between the measured and predicted concentration profiles.",

author = "Xiangke Wang and Jinzhou Du and Zuyi Tao and Zhongxiu Fan",

year = "2003",

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T1 - Migration characteristics of radionuclides 85+89Sr 2+, 134CS+, 125I-, 75SeO32- and 152+154Eu(III) in Chinese soils. Column investigation

AU - Wang, Xiangke

AU - Du, Jinzhou

AU - Tao, Zuyi

AU - Fan, Zhongxiu

PY - 2003/10

Y1 - 2003/10

N2 - The migration of radionuclides 85+89Sr2+, 134Cs+, 125I- and 75SeO32- in calcareous soil from Yuzhong county of Gansu Province (China) at pH 7.8±0.2 and 152+154Eu(III) in red earth from Yingtan county of Jiangxi Province (China) at pH 4.6±0.2, in presence of CaCl2 was studied using column experiments. Results indicate that the negative anions, iodide and selenide are mobile nuclides while the migration of positive cations is related to the sorption capacity for the element. Iodide can be assumed to be non-reactive in calcareous soil. The breakthrough curves (BTCs) were fitted to the analytical solution or numerical solution of one-dimensional convection-dispersion transport models. Good agreements were obtained between the measured and predicted concentration profiles.

AB - The migration of radionuclides 85+89Sr2+, 134Cs+, 125I- and 75SeO32- in calcareous soil from Yuzhong county of Gansu Province (China) at pH 7.8±0.2 and 152+154Eu(III) in red earth from Yingtan county of Jiangxi Province (China) at pH 4.6±0.2, in presence of CaCl2 was studied using column experiments. Results indicate that the negative anions, iodide and selenide are mobile nuclides while the migration of positive cations is related to the sorption capacity for the element. Iodide can be assumed to be non-reactive in calcareous soil. The breakthrough curves (BTCs) were fitted to the analytical solution or numerical solution of one-dimensional convection-dispersion transport models. Good agreements were obtained between the measured and predicted concentration profiles.

UR - https://www.scopus.com/pages/publications/0142090827

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DO - 10.1023/A:1026222512462

M3 - 文章

AN - SCOPUS:0142090827

SN - 0236-5731

VL - 258

SP - 133

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JO - Journal of Radioanalytical and Nuclear Chemistry

JF - Journal of Radioanalytical and Nuclear Chemistry

IS - 1

ER -

Migration characteristics of radionuclides ⁸⁵⁺⁸⁹Sr ²⁺, ¹³⁴CS⁺, ¹²⁵I-, ⁷⁵SeO₃^2- and ^152+154Eu(III) in Chinese soils. Column investigation

Abstract

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