IMMOBILIZATION OF INORGANIC ION-EXCHANGER INTO BIOPOLYMER FOAMS- APPLICATION TO CESIUM SORPTION

机译：将无机离子交换剂固定化为生物聚合物泡沫-在铯吸附中的应用

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Nickel-potassium ferrocyanide (along with other ferrocyanide sub-products, as shown by mineralization, SEM-EDX analyses) has been immobilized in highly porous discs of chitin for the sorption of Cs(Ⅰ) from near neutral solutions. The immobilization process allows synthesizing stable materials that can bind up to 80 mg Cs g~(-1) (i.e., 240 mg Cs g~(-1) ion-exchanger). The pseudo-second order rate equation fits well kinetic profiles: the rate coefficient increases with the flow rate of recirculation (to force the access to potentially non-interconnected pores), as an evidence of the control of uptake kinetics by diffusion properties. Preliminary tests performed on ~(137)Cs spiked solutions confirm the efficiency of the material for the treatment of effluents bearing radionuclides.

机译：镍-亚铁氰化钾（连同其他亚铁氰化物副产物，如矿化显示，SEM-EDX分析）已固定在高度多孔的甲壳质圆盘中，用于从接近中性的溶液中吸附Cs（Ⅰ）。固定过程可以合成稳定的材料，该材料可以结合至80 mg Cs g〜（-1）（即240 mg Cs g〜（-1）离子交换剂）。拟二阶速率方程式很好地拟合了动力学曲线：速率系数随再循环流量的增加而增加（以强制进入潜在的非互连孔），这是通过扩散特性控制吸收动力学的证据。对〜（137）Cs加标溶液进行的初步测试证实了该材料用于处理带有放射性核素的废水的效率。

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《ASME international conference on environmental remediation and radioactive waste management》|2014年|V001T01A016.1-V001T01A016.8|共8页
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Yves Barre; Audrey Hertz;
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Nickel-potassium ferrocyanide; chitin; porous discs; sorption isotherms; uptake kinetics; breakthrough curves;

机译：镍-亚铁氰化钾;甲壳素多孔盘吸附等温线;吸收动力学;突破曲线;

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3. Recent developments in nanostructured inorganic materials for sorption of cesium and strontium: Synthesis and shaping, sorption capacity, mechanisms, and selectivity-A review [J] . Delhia Alby, Clarence Charnay, Marc Heran, Journal of Hazardous Materials . 2018,第FEBa15期

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4. IMMOBILIZATION OF INORGANIC ION-EXCHANGER INTO BIOPOLYMER FOAMS- APPLICATION TO CESIUM SORPTION [C] . Yves Barre, Audrey Hertz ASME international conference on environmental remediation and radioactive waste management . 2014

机译：将无机离子交换剂固定到生物聚合物泡沫中 - 铯吸附施用
5. Inorganic nanoparticles for the spatial and temporal control of organic reactions: Applications to radical degradation of biopolymer networks. [D] . Walker, Joan Marie. 2015

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7. Exfoliation of Inorganic Ion-exchangers with a Layered Structure and Applications [O] . Takayoshi SASAKI 2008

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IMMOBILIZATION OF INORGANIC ION-EXCHANGER INTO BIOPOLYMER FOAMS- APPLICATION TO CESIUM SORPTION

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