Separation of Uranium from Aqueous Solutions Using Al<sup>3+</sup>‐ and Fe<sup>3+</sup>‐modified Titanium‐ and Zirconium Phosphates

Μisaelides, P.; Gallios, George P.; Sarri, S.; Zamboulis, D.; Pavlidou, E.; Kantiranis, Nikolaos; Anousis, I.; Zhuravlev, Igor Z.; Стрелко, В. В.

doi:10.1080/01496390500459429

Cited by 23 publications

(7 citation statements)

References 24 publications

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“…Further research allowed synthesis of ion exchangers such as a granulated gels, which favorably differ from powders [24][25][26]. Recent studies have allowed increasing the porosity, the selectivity of adsorption and the exchange capacity of such gels to radionuclides and other cationic and anionic contaminants [27][28][29][30][31][32]. Adsorption of heavy radionuclide ions which have a complex-forming ability-uranium, plutonium, americium, lanthanides, cobalt, etc.-can be carried out onto the above-mentioned adsorbents, apatites, and onto the metal-substituted forms of silica gel [33][34][35][36][37][38].…”

Section: Introductionmentioning

confidence: 99%

Titanium Silicates Precipitated on the Rice Husk Biochar as Adsorbents for the Extraction of Cesium and Strontium Radioisotope Ions

Zhuravlev¹

2019

Colloids and Interfaces

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The aim of the work was the development of cheap and effective adsorbents based on titanium silicates deposited on the products of thermochemical processing of rice husk to extract cesium and strontium radioisotopes from aqueous media. Synthesis of adsorbents was carried out using the cheapest and widely used titanium water-soluble reagent, titanium sulfate (an intermediate product of white rutile pigment production), as feedstock. After treatment with titanium sulfate and neutralization, hydrothermal treatment was carried out in various ways. The traditional method of processing in an autoclave was used, as well as the blowing at different temperatures by steam. The distribution coefficients and the adsorption capacity for cesium and strontium ions on these sorbents were studied. Along with the chemical composition of adsorbents obtained by those ways, the type and the temperature of hydrothermal treatment also affected the adsorption properties. It was found that the adsorbent obtained by hydrothermal treatment in an autoclave has the highest degree of cesium ions extraction (Kd = 27,500). The highest degree of strontium ions extraction (Kd = 2,095,000) has an adsorbent obtained by hydrothermal treatment with water vapor blowing.

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Section: Introductionmentioning

confidence: 99%

Titanium Silicates Precipitated on the Rice Husk Biochar as Adsorbents for the Extraction of Cesium and Strontium Radioisotope Ions

Zhuravlev¹

2019

Colloids and Interfaces

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“…Extensive laboratory experiments have been conducted on the uptake of U from aqueous solutions by crystalline and amorphous Zr-(oxyhydr)oxides and Zr-phosphates (e.g., Amphlett, 1964;Gal and Ruvarac, 1964;Horwitz, 1966;Vesely et al, 1968;Ruvarac and Vesely, 1970;Marei et al, 1972;Aly et al, 1975;Pakholkov and Zelenin, 1988;Song et al, 1995;Plotnikov and Bannykh, 1997;Drot et al, 1999;Zhuravlev et al, 2002;Lomenech et al, 2003;Misaelides et al, 2006;Um et al, 2007;Finck et al, 2008). Early studies focused on the use of these materials as industrial ion exchangers, while more recent ones were designed to test their applicability to the remediation or prevention of U contamination in soils and natural waters.…”

Section: Zr-rich Materialsmentioning

confidence: 98%

Newly recognized hosts for uranium in the Hanford Site vadose zone

Stubbs

Veblen

Elbert

et al. 2009

Geochimica et Cosmochimica Acta

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Uranium contaminated sediments from the U.S. Department of Energy's Hanford Site have been investigated using electron microscopy. Six classes of solid hosts for uranium were identified. Preliminary sediment characterization was carried out using optical petrography, and electron microprobe analysis (EMPA) was used to locate materials that host uranium. All of the hosts are fine-grained and intergrown with other materials at spatial scales smaller than the analytical volume of the electron microprobe. A focused ion beam (FIB) was used to prepare electron-transparent specimens of each host for the transmission electron microscope (TEM). The hosts were identified as: (1) metatorbernite [Cu(UO 2 ) 2 (PO 4 ) 2 Á8H 2 O]; (2) coatings on sediment clasts comprised mainly of phyllosilicates; (3) an amorphous zirconium (oxyhydr)oxide found in clast coatings; (4) amorphous and poorly crystalline materials that line voids within basalt lithic fragments; (5) amorphous palagonite surrounding fragments of basaltic glass; and (6) Fe-and Mn-oxides. These findings demonstrate the effectiveness of combining EMPA, FIB, and TEM to identify solid-phase contaminant hosts. Furthermore, they highlight the complexity of U geochemistry in the Hanford vadose zone, and illustrate the importance of microscopic transport in controlling the fate of contaminant metals in the environment.

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“…silica) to non-conventional materials as unique as human hair and bone powder. 9 Recent research efforts have focused towards inorganic sol-gels, [12][13][14] polyurethane foams, 15 polymer sorbents 4,6,16 and functionalized silica resins 17,18 to provide high binding capacity and/or metal-specific sorbents. Relevant to the work described here, both polymer and silicabased fibers have also been used as SPE media for a variety of analyte species.…”

Section: Introductionmentioning

confidence: 99%

Extraction of metals from aqueous systems employing capillary-channeled polymer (C-CP) fibers modified with poly(acrylic acid) (PAA)

et al. 2010

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Polyethylene terephthalate (PET, polyester) capillary-channeled polymer (C-CP) fibers were employed as the base structure for surface modification to provide a sorbent for solid phase extraction (SPE) of aqueous cations. Surface functionalization with polyacrylic acid (PAA) was achieved using a ''grafting to'' approach, yielding a stable sorbent that has the potential of being employed over a large range of pH values and a variety of sample matrices. PAA was chosen for surface modification because the repeating acrylic acid monomeric unit, which contains a carboxylic acid, has the ability to bind metal ions. In a micropipette-tip SPE format, these PAA-functionalized C-CP fibers showed the ability to efficiently bind several metals (Cu 2+ , Cu + , Ni 2+ , Fe 3+ , UO 2 2+ ), while elution could be achieved with extremely low concentrations of hydrochloric acid (1 ml of 0.005%), resulting in overall recoveries of greater than 88%. A single tip was carried throughout the entire study as a control, and showed overall recoveries averaging 96% over the course of 19 extraction experiments and a 12-month period, demonstrating the chemical stability of the sorbent material, and suggesting the potential of the C-CP fiber SPE tips to be used multiple times.

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Separation of Uranium from Aqueous Solutions Using Al³⁺‐ and Fe³⁺‐modified Titanium‐ and Zirconium Phosphates

Cited by 23 publications

References 24 publications

Titanium Silicates Precipitated on the Rice Husk Biochar as Adsorbents for the Extraction of Cesium and Strontium Radioisotope Ions

Titanium Silicates Precipitated on the Rice Husk Biochar as Adsorbents for the Extraction of Cesium and Strontium Radioisotope Ions

Newly recognized hosts for uranium in the Hanford Site vadose zone

Extraction of metals from aqueous systems employing capillary-channeled polymer (C-CP) fibers modified with poly(acrylic acid) (PAA)

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Separation of Uranium from Aqueous Solutions Using Al3+‐ and Fe3+‐modified Titanium‐ and Zirconium Phosphates

Cited by 23 publications

References 24 publications

Titanium Silicates Precipitated on the Rice Husk Biochar as Adsorbents for the Extraction of Cesium and Strontium Radioisotope Ions

Titanium Silicates Precipitated on the Rice Husk Biochar as Adsorbents for the Extraction of Cesium and Strontium Radioisotope Ions

Newly recognized hosts for uranium in the Hanford Site vadose zone

Extraction of metals from aqueous systems employing capillary-channeled polymer (C-CP) fibers modified with poly(acrylic acid) (PAA)

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Separation of Uranium from Aqueous Solutions Using Al³⁺‐ and Fe³⁺‐modified Titanium‐ and Zirconium Phosphates