Abstract
In this work, compressible Prussian blue/polyurethane sponges (PB@PUS) for selective removal of cesium ions were prepared via an in situ radiation chemical route. The characterization results indicate that uniform PB nanoparticles were successfully synthesized and well dispersed on the porous skeleton of sponge. Batch and fixed-bed column experiments were detailedly conducted to investigate their adsorption performances. Batch adsorption experiments reveal that PB@PUS exhibited good selective removal property for cesium ions in a wide range of pH, whose maximal adsorption capacity and removal efficiency reached 68.6 mg g−1 and 99%, respectively. The adsorption processes could be described by the Langmuir isotherm adsorption model and pseudo-second-order adsorption kinetic model. The fixed-bed column experiments show that the breakthrough and exhaustion time obviously increased with the decrease of flow rate and initial cesium ions concentration. The breakthrough curves could be well fitted by the Thomas model and Yoon–Nelson model. The theoretical saturated adsorption capacity of PB@PUS-3 calculated from the Thomas model was 68.2 mg g−1. The as-prepared samples were light, stable and compressible, which can be applied in radioactive wastewater treatment.
Highlights
Many kinds of radioactive wastes are produced during the application of nuclear energy and nuclear technology, which are very harmful to human beings
In the Fukushima nuclear accident, a large amount of radioactive wastewater was released into the external environment and resulted in an immeasurable ecological impact.[1,2]
More and more attentions have been paid to the treatment of radioactive wastewater containing cesium ions
Summary
Many kinds of radioactive wastes are produced during the application of nuclear energy and nuclear technology, which are very harmful to human beings. In the Fukushima nuclear accident, a large amount of radioactive wastewater was released into the external environment and resulted in an immeasurable ecological impact.[1,2] Radioactive cesium-137 is the most abundant and dangerous radionuclide in radioactive wastewater, since it is one of the important ssion products and has a long half-life with gamma ray emission It has extremely high solubility in water and can migrate in the environment like potassium.[3] more and more attentions have been paid to the treatment of radioactive wastewater containing cesium ions. Batch adsorption experiments were usually carried out to characterize the adsorption properties of as prepared PB composites Their adsorption behaviour in practical application cannot be properly re ected by batch experiments
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