Polyfunctional microspherical materials for long-term disposal of liquid radioactive wastes

Vereshchagina, T. A.; Anshits, N. N.; Sharonova, O. M.; Васильева, Наталья Гендриховна; Верещагин, С. Н.; Shishkina, N. N.; Fomenko, Elena V.; Anshits, A. G.

doi:10.1134/s1087659608050052

Cited by 18 publications

(15 citation statements)

References 11 publications

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“…The advantage of this approach is possibility to use CFAC of required chemical and phase composition provided by separation of a CFAC concentrate on the basis of differences of individual globules in size, density, and magnetic properties [27e29]. In most cases the direct transformation of the CFAC material, in dependence on reaction parameters (temperature, duration, alkaline concentration, solid-toliquid ratio), results in zeolitic phases of different structural types, such as NaX (FAU, JCPDS 12e0228), NaA (LTA, JCPDS 43e0142), NaP1 (GIS, JCPDS 40e1464), chabazite (CHA, JCPDS 12e0194), analcime (ANA, JCPDS 19e1180), and/or hydroxysodalite (JCPDS 11e401) [25]. Among them, only zeolite NaP1 was shown to crystallize as an individual phase under certain conditions (T ¼ 100e120 C, 1.5e2.5 M NaOH) [25,26].…”

Section: Introductionmentioning

confidence: 99%

“…In most cases the direct transformation of the CFAC material, in dependence on reaction parameters (temperature, duration, alkaline concentration, solid-toliquid ratio), results in zeolitic phases of different structural types, such as NaX (FAU, JCPDS 12e0228), NaA (LTA, JCPDS 43e0142), NaP1 (GIS, JCPDS 40e1464), chabazite (CHA, JCPDS 12e0194), analcime (ANA, JCPDS 19e1180), and/or hydroxysodalite (JCPDS 11e401) [25]. Among them, only zeolite NaP1 was shown to crystallize as an individual phase under certain conditions (T ¼ 100e120 C, 1.5e2.5 M NaOH) [25,26]. As it has been noted by Vereshchagin et al [25], analcime crystallized at elevated temperatures (T > 150 C) but detailed results on zeolite formation from CFAC under temperatures higher than 120 C were not reported anywhere.…”

Section: Introductionmentioning

confidence: 99%

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Synthesis and structure of analcime and analcime-zirconia composite derived from coal fly ash cenospheres

Vereshchagina

Kutikhina

Solovyov

et al. 2018

Microporous and Mesoporous Materials

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Cubic analcime and analcime-zirconia composite with the Si/Al ratio of 2.04 and 2.16, respectively, was synthesized by hydrothermal treatment of coal fly ash cenospheres (Si/Al ¼ 2.7) at 150 C. The scanning electron microscopy with energy dispersive spectroscopy (SEM-EDS), powder X-ray diffraction (PXRD), X-ray photoelectron spectroscopy (XPS), synchronous thermal analysis (STA) methods were used to study the morphology, composition and structure of the products. Two main types of analcime bearing particles were obtained, such as hollow microspheres with attached analcime icositetrahedra of 5 e50 mm in size and individual analcime crystals of a narrow particle size distribution (D m ¼ 41 mm) with incorporated zirconia (4.8 wt% Zr). The high quality of the crystalline fractions allowed an accurate fullprofile PXRD analysis of complete analcime crystal structure and composition including anisotropic displacement parameters of all atoms and H-positions of water molecules.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Synthesis and structure of analcime and analcime-zirconia composite derived from coal fly ash cenospheres

Vereshchagina

Kutikhina

Solovyov

et al. 2018

Microporous and Mesoporous Materials

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“…Coal fly ash cenospheres, the by-products of powdered coal combustion, 43 44 were reported as a suitable starting material for the syntheses of hollow sphere-shaped zeolites. 45 46 Wang et al 47 48 proposed a seed-induced in-situ hydrothermal conversion technique to prepare novel hollow microspheres with zeolite/mullite composite shells from fly ash cenosphere (FAC). Two groups of hollow microspheres were prepared, one with zeolite FAU/mullite composite shells and the other with zeolite LTA/mullite composite shells.…”

Section: Inorganicmentioning

confidence: 99%

Synthesis and Catalytic Application of Zeolite-Based Hollow Materials

Li¹,

Zhang²,

Fang³

et al. 2014

energy environ focus

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Owing to the diffusion limitations of reactants and products in micropores, large zeolite crystals are not suitable for catalytic reactions involving macromolecules. Hierarchically porous zeolites with mesopores or macropores exhibit remarkably improved catalytic performance. Moreover, zeolite-based hollow structures are attracting a great deal of interest for their diverse applications in the areas of biochemistry, photonics, and catalysis. This review presents the fabrication and catalytic applications of the various zeolite-based hollow materials. The synthesis methods are classified to three categories, and the formation mechanisms were briefly summarized in this paper.

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“…Другим вариантом получения инженерной формы магнитного сорбента может быть агломерация ферросфер с использованием цирконосиликатного связующего, выполняющего также функцию сорбционно-активного компонента и прекурсора фазы циркона. Микросферические сорбенты такого типа были получены в работах [18,19] путем консолидации алюмосиликатных микросфер с силикатным связующим.…”

Section: Introductionunclassified

Magnetic Composite Sorbents for Trapping Heavy Metals from Liquid Waste and Their Immobilization in a Mineral-Like Matrix

Черных

Соловьев

Chernykh

et al. 2019

Journal of Siberian Federal University. Chemistry

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Magnetic sorbents were prepared by addition of ferrospheres to zirconia-silica gel followed by thermal treatment at 500 °C. The ferrosphere narrow fraction E -0.063+0.050 mm from fly ash resulted from combustion of Ekibastuz coal was used as a magnetic component. The surface of magnetic composites was additionally functionalized by grafting of – POONa and – NH2 groups. Under equilibrium conditions sorption capacities of the sorbents with respect to Се3+ used as a U4+/Th4+ simulator and Pb2+ were measured by means of determination of sorption isotherms which were fitted by the Langmuir model. It was established that extraction of Се3+ and Pb2+ from aqueous solutions is characterized by distribution coefficients of 104–106 ml/g. Temperature conditions for solid-phase crystallization of the sorbents resulting in polyphase systems with the content of zircon phase of 50 wt. % were found

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Polyfunctional microspherical materials for long-term disposal of liquid radioactive wastes

Cited by 18 publications

References 11 publications

Synthesis and structure of analcime and analcime-zirconia composite derived from coal fly ash cenospheres

Synthesis and structure of analcime and analcime-zirconia composite derived from coal fly ash cenospheres

Synthesis and Catalytic Application of Zeolite-Based Hollow Materials

Magnetic Composite Sorbents for Trapping Heavy Metals from Liquid Waste and Their Immobilization in a Mineral-Like Matrix

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