Simulation of a 2-site Langmuir model for characterizing the sorption capacity of Cs and Se in crushed mudrock under various ionic strength effects

Chuan Pin Lee; Ching Yuan Liu; Ming Chee Wu; Chun Hua Pan; Tsuey Lin Tsai; Hwa Jou Wei; Lee Chung Men

doi:10.1007/s10967-012-2184-1

Simulation of a 2-site Langmuir model for characterizing the sorption capacity of Cs and Se in crushed mudrock under various ionic strength effects

Chuan Pin Lee, Ching Yuan Liu, Ming Chee Wu, Chun Hua Pan, Tsuey Lin Tsai, Hwa Jou Wei, Lee Chung Men

Department of Chemical and Materials Engineering

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

3 Scopus citations

Abstract

The sorption capacity of cesium (Cs) and selenium (Se) in crushed mudrock was demonstrated in this study through a 2-site Langmuir model. To employ such a numerical analysis, batch tests were applied in this study in synthetic seawater and groundwater with sorption/desorption kinetic experiments (time-dependent) and different concentrations (10-2-10-7 M). The 2-site sorption models, which correspond to two rate constants (k1 and k2), might be more adequate than 1-site sorption models in characterizing Cs and Se sorption/desorption according to the least square errors between the numerical analysis and the results of the batch tests. The fitting results showed that a 2-site Langmuir model is capable of appropriately describing Cs and Se sorption in mudrock. Consequently, the sorption capacity was calculated at about 0.06 mol/kg for Cs and at 0.015 mol/kg for Se.

Original language	English
Pages (from-to)	1119-1125
Number of pages	7
Journal	Journal of Radioanalytical and Nuclear Chemistry
Volume	296
Issue number	2
DOIs	https://doi.org/10.1007/s10967-012-2184-1
State	Published - May 2013

Keywords

2-Site Langmuir
Capacity
Cesium
Selenium
Sorption

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10.1007/s10967-012-2184-1

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title = "Simulation of a 2-site Langmuir model for characterizing the sorption capacity of Cs and Se in crushed mudrock under various ionic strength effects",

abstract = "The sorption capacity of cesium (Cs) and selenium (Se) in crushed mudrock was demonstrated in this study through a 2-site Langmuir model. To employ such a numerical analysis, batch tests were applied in this study in synthetic seawater and groundwater with sorption/desorption kinetic experiments (time-dependent) and different concentrations (10-2-10-7 M). The 2-site sorption models, which correspond to two rate constants (k1 and k2), might be more adequate than 1-site sorption models in characterizing Cs and Se sorption/desorption according to the least square errors between the numerical analysis and the results of the batch tests. The fitting results showed that a 2-site Langmuir model is capable of appropriately describing Cs and Se sorption in mudrock. Consequently, the sorption capacity was calculated at about 0.06 mol/kg for Cs and at 0.015 mol/kg for Se.",

keywords = "2-Site Langmuir, Capacity, Cesium, Selenium, Sorption",

author = "Lee, {Chuan Pin} and Liu, {Ching Yuan} and Wu, {Ming Chee} and Pan, {Chun Hua} and Tsai, {Tsuey Lin} and Wei, {Hwa Jou} and Men, {Lee Chung}",

note = "Funding Information: Acknowledgments The experimental part of this study was supported by National Science Council (NSC, Taiwan) through the project of 101-2914-I-006-009-A1 and Institute of Nuclear Energy Research (INER, Taiwan) through the mutual project of Graduate student program 2012. It is much appreciated that this study is funded by National Cheng-Kung University, Taiwan, R.O.C under the project Headquarters of University Advancement.",

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T1 - Simulation of a 2-site Langmuir model for characterizing the sorption capacity of Cs and Se in crushed mudrock under various ionic strength effects

AU - Lee, Chuan Pin

AU - Liu, Ching Yuan

AU - Wu, Ming Chee

AU - Pan, Chun Hua

AU - Tsai, Tsuey Lin

AU - Wei, Hwa Jou

AU - Men, Lee Chung

N1 - Funding Information: Acknowledgments The experimental part of this study was supported by National Science Council (NSC, Taiwan) through the project of 101-2914-I-006-009-A1 and Institute of Nuclear Energy Research (INER, Taiwan) through the mutual project of Graduate student program 2012. It is much appreciated that this study is funded by National Cheng-Kung University, Taiwan, R.O.C under the project Headquarters of University Advancement.

PY - 2013/5

Y1 - 2013/5

N2 - The sorption capacity of cesium (Cs) and selenium (Se) in crushed mudrock was demonstrated in this study through a 2-site Langmuir model. To employ such a numerical analysis, batch tests were applied in this study in synthetic seawater and groundwater with sorption/desorption kinetic experiments (time-dependent) and different concentrations (10-2-10-7 M). The 2-site sorption models, which correspond to two rate constants (k1 and k2), might be more adequate than 1-site sorption models in characterizing Cs and Se sorption/desorption according to the least square errors between the numerical analysis and the results of the batch tests. The fitting results showed that a 2-site Langmuir model is capable of appropriately describing Cs and Se sorption in mudrock. Consequently, the sorption capacity was calculated at about 0.06 mol/kg for Cs and at 0.015 mol/kg for Se.

AB - The sorption capacity of cesium (Cs) and selenium (Se) in crushed mudrock was demonstrated in this study through a 2-site Langmuir model. To employ such a numerical analysis, batch tests were applied in this study in synthetic seawater and groundwater with sorption/desorption kinetic experiments (time-dependent) and different concentrations (10-2-10-7 M). The 2-site sorption models, which correspond to two rate constants (k1 and k2), might be more adequate than 1-site sorption models in characterizing Cs and Se sorption/desorption according to the least square errors between the numerical analysis and the results of the batch tests. The fitting results showed that a 2-site Langmuir model is capable of appropriately describing Cs and Se sorption in mudrock. Consequently, the sorption capacity was calculated at about 0.06 mol/kg for Cs and at 0.015 mol/kg for Se.

KW - 2-Site Langmuir

KW - Capacity

KW - Cesium

KW - Selenium

KW - Sorption

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DO - 10.1007/s10967-012-2184-1

M3 - 期刊論文

AN - SCOPUS:84892677912

SN - 0236-5731

VL - 296

SP - 1119

EP - 1125

JO - Journal of Radioanalytical and Nuclear Chemistry

JF - Journal of Radioanalytical and Nuclear Chemistry

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ER -

Simulation of a 2-site Langmuir model for characterizing the sorption capacity of Cs and Se in crushed mudrock under various ionic strength effects

Abstract

Keywords

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