Selective Uptake of Cesium by Ammonium Molybdophosphate (AMP)-Calcium Alginate Composites
スポンサーリンク
概要
- 論文の詳細を見る
The uptake properties of Cs+ for ammonium molybdophosphate (AMP, (NH4)3PMo12O40·3H2O) and its composite with alginate gel polymer have been studied by the batch and column methods. The free energy for the ion exchange ([NH4+]ad+Cs+\\rightleftharpoonsNH4++[Cs+]ad) was found to have a relatively low value of −9.7 kJ/mol compared to other inorganic ion exchangers, indicating high selectivity of AMP for Cs+ ions. The fine crystals of AMP exchanger were granulated with calcium alginate (CaALG) gel polymer as an immobilization matrices. The uptake rate of Cs+ for AMP-CaALG composite was fairly fast and the uptake attained equilibrium within 3 h; the uptake was above 96% even in the presence of 5 M (=mol/dm3) NaNO3. The distribution coefficient of Cs+, Kd,Cs, decreased in the order of coexisting ions, H+>Na+>K+>NH4+. In a wide HNO3 concentration region of 10−2–5 M, the Kd,Cs value for the composite was around 104 cm3/g, while those for other elements, Na+, Sr2+, Co2+, Eu3+ and Am3+, were less than 102 cm3/g. The uptake of Cs+ followed a Langmuir adsorption isotherm, and the uptake capacity of Cs+ increased with the content of AMP immobilized in the composite. The trace amounts of Cs+ in the presence of HNO3 were selectively adsorbed on the composite column.
- 社団法人 日本原子力学会の論文
- 2001-10-25
著者
-
AKIBA Kenichi
Institute for Advanced Materials Processing, Tohoku University
-
Saito M
Institute Of Multidisciplinary Research For Advanced Materials Tohoku University
-
Akiba K
Institute Of Multidisciplinary Research For Advanced Materials. Tohoku University
-
Akiba Kenichi
Institute For Advanced Materials Processing Tohoku University
-
MIMURA Hitoshi
Institute of Multidisciplinary Research for Advanced Materials, Tohoku University
-
ONODERA Yoshio
National Institute of Advanced Industrial Science and Technology
-
Onodera Y
National Inst. Advanced Industrial Sci. And Technol. Sendai
-
Mimura H
Tohoku Univ. Sendai
-
Mimura Hitoshi
Institilte Of Multidisciplinary Research For Advanced Materials Tohoku University
-
SAITO Mikio
Institute of Multidisciplinary Research for Advanced Materials, Tohoku University
関連論文
- Separation and Recovery of Gold, Platinum and Palladium by a Trioctylamine Liquid Membrane
- Solvent Extraction of Lanthanide(III)with 1, 3-Benzenedimethylbis(phenylphosphinic acid)
- Extraction of Arsenic(III)with Macroporous Resin Impregnated with Bis(2-ethylhexyl)ammonium Bis(2-ethylhexyl)-dithiocarbamate
- Solvent Extraction of Lanthanide(3)with 1,3-Benzenedimethylbis(phenylphosphinic acid)
- Uptake and Recovery of Platinum Group Metals Ions by Alginate Microcapsules Immobilizing Cyanex 302 Emulsions
- Uptake and Recovery of Ruthenium by Alginate Gel Polymers
- Selective Uptake and Recovery of Palladium by Biopolymer Microcapsules Enclosing Cyanex 302 Extractant
- Chromatographic Separation of Strontium and Cesium with Mixed Zeolite Column
- Selective Uptake of Cesium by Ammonium Molybdophosphate (AMP)-Calcium Alginate Composites
- Alkali Hydrothermal Synthesis of Zeolites from Coal Fly Ash and Their Uptake Properties of Cesium Ion
- Separation of Cesium and Strontium by Potassium Nickel Hexacyanoferrate(II)-Loaded Zeolite A
- Physicochemical Properties of Potassium Nickel Hexacyanoferrate(II)-Loaded Chabazites
- Physical and Chemical Properties of Solid Forms Fixing Heat-Generating Nuclides
- Separation of Americium by High-speed Couutercurrent Chromatography using Cyanex 301 as a Stationary Phase
- High-Performance Liquid Chromatography Using Reversed-Phase Stationary Phases Dynamically Modified with Organophosphorus Compound for the Separation and Determination of Lanthanoid Elements
- Transport of Americium and Europium through a Liquid Membrane Impregnated with an Organodithiophosphinic Acid
- Enrichment and Determination of Zinc by High-Speed Countercurrent Chromatography
- Separation and Enrichment of Arsenic(V) with Composite Resin Beads Containing Magnetite Crystals
- Selective Removal of Cesium from Simulated High-level Liquid Wastes by Insoluble Ferrocyanides
- Chemical and Thermal Stability of Potassium Nickel Hexacyanoferrate (II)
- Ion Exchange of Cesium on Potassium Nickel Hexacyanoferrate (II) s
- Synergistic Enhancement in The Extraction of Lanthanoids by LIX 51 and Bidentate Amines
- Synergic Extraction of Lanthanoids by Mixtures of LIX 54(High Molecular Weight β-Diketone) and Bidentate Neutral Amines
- Leaching Behavior and Surface Alteration of Cesium Aluminum Silicate under Static and Dynamic Conditions
- Preparation of Analcime Film from Hydrogels
- Adsorption Properties of Europium on Granulated α-Zirconium Phosphate
- Formation of Analcime Film under Hydrothermal Conditions
- Adsorption Behavior of Americium on Granulated Zirconium Phosphate
- Selective Uptake and Recovery of Cesium Ions by Composite Columns of Ammonium Molybdophosphate (AMP)-Calcium Alginate
- Mutual Separation of Heavy Lanthanoid Elements and Yttrium by High-Speed Countercurrent Chromatography
- Recovery of Heat-Generating Nuclides in Eluted Solutions.
- Removal of Heat-Generating Nuclides from High-Level Liquid Wastes through Mixed Zeolite Columns.
- Elution Behavior of Cesium from Ferrierite Column by Using Inorganic Salt and Acid Solutions.
- Separation of Heat-Generating Nuclides from High-Level Liquid Wastes through Zeolite Columns.
- Elution Behavior of Strontium from Zeolite A Column with Chelating Reagents.
- Adsorption Behavior of Cesium and Strontium on Synthetic Zeolite P.