Перегляд за Автор "Dzyazko, Yuliya Serhiivna"

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  • Ескіз
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    Composite ion-exchanger as prospective materials for sorption of uranium(VI) compounds
    (2016) Perlova, Natalya O.; Perlova, Olha V.; Dzyazko, Yuliya Serhiivna; Sazonova, Valentyna F.; Halutska, I. Yu.; Palchik, Alexey V.; Перлова, Ольга Вікторівна; Перлова, Ольга Викторовна; Сазонова, Валентина Федорівна; Сазонова, Валентина Федоровна
    In order to obtain organic-inorganic ion-exchanger, the method, which involves reorganization of gel-like cation exchange matrix in non-aqueous media followed by zirconium hydrophosphate precipitation, has been proposed. Reorganization, which is confirmed with standard contact porosimetry and NMR 23Na spectroscopy, means a narrowing of nanosized transport pores of the polymer.
  • Ескіз
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    Formation of Zirconium Hydrophosphate Nanoparticles and Their Effect on Sorption of Uranyl Cations
    (Springer International Publishing AG, 2017) Perlova, Natalya O.; Dzyazko, Yuliya Serhiivna; Perlova, Olha V.; Palchik, Alexey V.; Sazonova, Valentyna F.; Перлова, Ольга Вікторівна; Перлова, Ольга Викторовна; Сазонова, Валентина Федорівна; Сазонова, Валентина Федоровна
    Organic-inorganic ion-exchangers were obtained by incorporation of zirconium hydrophosphate into gel-like strongly acidic polymer matrix by means of precipitation from the solution of zirconium oxychloride with phosphoric acid. The approach for purposeful control of a size of the incorporated particles has been developed based on Ostwald-Freundich equation. This equation has been adapted for precipitation in ion exchange materials. Both single nanoparticles (2–20 nm) and their aggregates were found in the polymer. Regulation of salt or acid concentration allows us to decrease size of the aggregates approximately in 10 times. Smaller particles are formed in the resin, which possess lower exchange capacity. Sorption of U(VI) cations from the solution containing also hydrochloride acid was studied. Exchange capacity of the composites is ≈2 times higher in comparison with the pristine resin. The organic-inorganic sorbents show higher sorption rate despite chemical interaction of sorbed ions with functional groups of the inorganic constituent: the models of reaction of pseudo-first or pseudo-second order can be applied. In general, decreasing in size of incorporated particles provides acceleration of ion exchange. The composites can be regenerated completely, this gives a possibility of their multiple use.
  • Ескіз
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    Ion exchange resin containing nanoparticles of inorganic constituent for sorption of U(VI) anions
    (Одеський національний університет імені І. І. Мечникова, 2017) Perlova, Olha V.; Dzyazko, Yuliya Serhiivna; Rudenko O. S.; Perlova, Natalya O.; Kudelko, K. O.; Перлова, Ольга Вікторівна; Перлова, Ольга Викторовна
    The patterns of deposition of inorganic ion exchangers (hydrated oxides polyvalent metals) within the anion exchange resin. As can be seen from the TEM studies, nanoparticles exist both innon-aggregated and aggregated forms. Fractal analysis of TEM images was carried out with the aim of establishing an aggregation mechanism.
  • Ескіз
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    New sorbents for removal of uranium(VI) compounds from diluted aqueous solutions
    (2015) Perlova, Natalya O.; Sazonova, Valentyna F.; Perlova, Olha V.; Dzyazko, Yuliya Serhiivna; Polykarpov, A. P.; Перлова, Ольга Вікторівна; Перлова, Ольга Викторовна; Сазонова, Валентина Федорівна; Сазонова, Валентина Федоровна
    New sorbents for removal of uranium(VI) compounds from diluted aqueous solutions
  • Ескіз
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    Organic-inorganic ion-exchanger containing zirconium hydrophosphate for removal of UO2+/2 cations from water
    (2016) Dzyazko, Yuliya Serhiivna; Perlova, Natalya O.; Perlova, Olha V.; Volfkovich, Yurii Myronovich; Trachevskii, Vladimir Vasylevych; Sosenkin, Valentin Evseevich; Palchik, Alexey V.; Sazonova, Valentyna F.; Перлова, Ольга Вікторівна; Перлова, Ольга Викторовна; Сазонова, Валентина Федорівна; Сазонова, Валентина Федоровна
    Organic-inorganic materials based on gel-like strongly acidic resin containing zirconium hydrophosphate have been synthesized. The synthesis method allows us to control purposefully composition of the inorganic constituent as well as a size of incorporated particles (up to 0.2–1 mm), which consist of nanoparticles (10–20 nm). Fractal analysis of SEM and TEM images of the composites gives fractal dimension of the aggregates of ≈2.5. Thus, the DLA model can be applied to the particle formation indicating diffusion of the nanoparticles as a rate-determining stage of zirconium hydrophosphate precipitation inside the polymer.
  • Ескіз
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    Organic-inorganic ion-exchangers for sorption of uranium(VI) compounds from model solutions. Effect of synthesis condition
    (2015) Perlova, Olha V.; Perlova, Natalya O.; Dzyazko, Yuliya Serhiivna; Sazonova, Valentyna F.; Panchyna, G. L.; Menchuk, Vasyl V.; Менчук, Василь Васильович; Менчук, Василий Васильевич; Перлова, Ольга Вікторівна; Перлова, Ольга Викторовна; Сазонова, Валентина Федорівна; Сазонова, Валентина Федоровна
    Organic-inorganic ion-exchangers for sorption of uranium(VI) compounds from model solutions. Effect of synthesis conditions
  • Ескіз
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    Polymer ion-exchanger modified with zirconium hydrophosphate for removal of uranium (VI) from water
    (2016) Dzyazko, Yuliya Serhiivna; Perlova, Natalya O.; Volfkovich, Yurii Myronovich; Perlova, Olha V.; Palchik, Alexey V.; Sosenkin, Valentin Evseevich; Sazonova, Valentyna F.; Перлова, Ольга Вікторівна; Перлова, Ольга Викторовна; Сазонова, Валентина Федорівна; Сазонова, Валентина Федоровна
    Significant uranium content in water sources is due to the ingress of mine water, wastes of nuclear power plants, mining and mineral processing plants. The content of this element in water is strictly limited (0.015 mg dm-3 or less) due to its toxicity. Adsorption and ion exchange are the most suitable methods to reduce U(VI) content in water down to required level. Organicinorganic resins containing zirconium hydrophosphate (ZHP) were proposed for removal of toxic ions from water [1, 2]. The purpose of this work is to establish the interrelation between structure of the ZHP-containing composites and sorption of U(VI) ions. Another tasks are to ascertain a possibility to remove U(VI) compounds from water and to use the ion-exchangers many times. Method of standard contact porosimetry [3, 4] was applied to investigations.
  • Ескіз
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    Removal of the Uranium(VI) compounds from model solutions with sorbents of different nature
    (2016) Perlova, Natalya O.; Perlova, Olha V.; Dzyazko, Yuliya Serhiivna; Sazonova, Valentyna F.; Halutska, I. Yu.; Перлова, Ольга Вікторівна; Перлова, Ольга Викторовна; Сазонова, Валентина Федорівна; Сазонова, Валентина Федоровна
    The problem o f uranium compounds removal from aqueous solutions remains valid for many years. To solve tliis problem, tire sorption methods дге used widely. A search o f sorbents, which would combine availability, cheapness, possibility of regeneration, absorption efficiency in a wide range of pH temperature, and concentration, is an important task. The aim o f this work was to establish an efficiency of sorbents of different nature towards removal of uranium compounds from model solutions.
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    Removal of uranyl cations from iron-containing solutions using composite sorbents based on polymer matrix
    (2017) Perlova, Olha V.; Dzyazko, Yuliya Serhiivna; Perlova, Natalya O.; Sazonova, Valentyna F.; Halutska, I. Yu.; Перлова, Ольга Вікторівна; Перлова, Ольга Викторовна; Сазонова, Валентина Федорівна; Сазонова, Валентина Федоровна
    Some technologies of uranium recovery from minerals involve hydrochloric acid where cationic forms of uranyl ions dominate. The work is devoted to development and testing of sorbents for removal of uranium(VI) from liquid wastes containing also an excess of Fe(III) ions. Organic-inorganic ionexchangers based on gel-like strongly acidic resin containing zirconium hydrophosphate have been proposed for this purpose. The theoretical approach, which allows us to control a size of incorporated particles, has been applied to modification of the resin with the inorganic constituent. The results of TEM show that the samples contain mainly aggregates of nanoparticles (300 nm) or simultaneously aggregates (200 nm) and agglomerates (several microns). The synthesized organic-inorganic ion-exchangers contain from 10 to 50 mass. % of zirconium hydrophosphate. Composition and structure of the ion-exchangers affect their sorption properties. Sorption of U(VI) from modeling solutions containing also HCl and Fe(III) ions was researched under batch conditions. The initial pH of the solution was within the interval of 2–4, the sorbent dosage was 2–10 g/dm3. Simultaneous sorption of U(VI) and Fe(III) species was shown to occur, the removal of Fe(III) species is faster and more complete. Increasing of the sorbent dosage and the solution pH results in improvement of the efficiency of uranium (VI) removal and increase of the exchange rate. Sorption degree of uranyl cations reaches about 90 % after 3 h at pH 2 and the sorbent dosage of 10 g/dm3. When the sorbent dosage is 5 g/dm3 and the solution pH is 4 the sorption degree reaches 100 % for the composite containing 10 % of the inorganic constituent. The sorption degree is lower for the materials containing higher amount of zirconium hydrophosphate. The rate of sorption has been found to obey mainly particle diffusion model. The models of chemical reaction of pseudo-first or pseudo-second order can be also applied. The composites show mainly higher sorption capacity towards U(VI) at pH 2, the pristine resin demonstrates higher capacity towards Fe(III) under these conditions. The organic-inorganic ion-exchangers can be recommended for polishing of liquid wastes which are formed during monazite processing.
  • Ескіз
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    Sorption Removal of the Uranium(VI) compounds with organic-inorganic ion-exchangers
    (2016) Perlova, Natalya O.; Perlova, Olha V.; Halutska, I. Yu.; Dzyazko, Yuliya Serhiivna; Palchik, Alexey V.; Sazonova, Valentyna F.; Перлова, Наталья А.; Перлова, Ольга Вікторівна; Галуцька, І. Ю.; Дзязько, Юлія С.; Пальчик, О. В.; Сазонова, Валентина Федорівна; Перлова, Ольга Викторовна; Сазонова, Валентина Федоровна
    Orsaidc-inorgimic composites based on ion exchmage resins containing zirconium hrvdiophospbate (cation-exchanger) and hydrated zirconium dioxide (anion-exchanger) wse applied to removal of soluble U(VI) compounds from modeling solutions. The advantages of the composites over the pristine resins are more significant sorption capacity, higher sorption rate and more facile regeneration.
  • Ескіз
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    Аdsorption of U(VI) complexes on anion-exchange resins modified by hydrated zirconium oxide
    (2017) Perlova, Olha V.; Dzyazko, Yuliya Serhiivna; Halutska, I. Yu.; Ivanova, I.; Palchik, Alexey V.; Перлова, Ольга Вікторівна; Перлова, Ольга Викторовна
    Sorption is the most widespread method for removal of uranium(VI) from diluted aqueous solutions. The development of new effective sorbents is in a focus of attention. Organic-inorganic cation-exchangers are prospective materials for sorption of uranyl cations [1-3]. These materials are characterized by higher sorption rate than the inorganic materials, moreover, they are more selective than ion exchange resins. The aim of this work is to a study of adsorption of uranium(VI) compounds from diluted aqueous solution using organic-inorganic sorbents, which were obtained by modification of anion exchange resin EDE-10P with nanoparticles of hydrated zirconium dioxide.
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    Органо-неорганический ионит, содержащий гидрофосфат циркония, для извлечения соединений урана (VI) из водных растворов
    (2016) Дзязько, Юлия С.; Перлова, Наталья А.; Перлова, Ольга Викторовна; Сазонова, Валентина Федоровна; Пономарева, Л. Н.; Вольфкович, Юрий Миронович; Пальчик, А. В.; Трачевский, Владимир Васильевич; Беляков, В. Н.; Дзязько, Юлія С.; Перлова, Наталія О.; Перлова, Ольга Вікторівна; Сазонова, Валентина Федорівна; Пономарьова, Л. Н.; Пальчик, О. В.; Трачевський, Володимир Васильович; Бєляков, В. М.; Dzyazko, Yuliya Serhiivna; Perlova, Natalya O.; Perlova, Olha V.; Sazonova, Valentyna F.; Ponomarova, L. N.; Volfkovich, Yurii Myronovich; Palchik, Alexey V.; Trachevskii, Vladimir Vasylevych; Bieliakov, V. M.
    Разработан способ модифицирования полимерной гелевой ионообменной матрицы, включающий реорганизацию ее пористой структуры в неводной среде. Способ позволяет осаждать в полимере агрегаты наночастиц гидрофосфата циркония с низким содержанием фосфора. Размер агрегатов составляет до ≈200 нм в поперечнике. Проанализированы факторы, которые позволяют регулировать размеры инкорпорированных частиц в ионообменном полимере. Показано, что скорость извлечения композитом соединений U(VI) из водного раствора выше, чем в случае немодифицированного ионита, и определяется полимерной составляющей. Установлено, что сорбция соединений U(VI) из индивидуального раствора происходит в смешанно-диффузионном режиме, а из раствора, содержащего ионы Fe3+, − осложнена химической реакцией, которая описывается моделью псевдовторого порядка. Показано, что композит эффективно сорбирует соединения U(VI) в интервале рН растворов 2-10.
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    Сорбция катионов UO22+ на полимерном ионите, модифицированном гидрофосфатом циркония
    (2016) Перлова, Ольга Викторовна; Дзязько, Юлия С.; Перлова, Наталья А.; Сазонова, Валентина Федоровна; Пальчик, А. В.; Perlova, Olha V.; Dzyazko, Yuliya Serhiivna; Perlova, Natalya O.; Sazonova, Valentyna F.; Palchik, Alexey V.; Перлова, Ольга Вікторівна; Сазонова, Валентина Федорівна
    Установлены закономерности сорбции катионов уранила из солянокислых модельных растворов сильнокислотной гелевой катионообменной смолой Dowex HCR-S и органо-неорганическими ионитами на ее основе, полученными модифицированием полимерной матрицы гидрофосфатом циркония. Показано, что высокая сорбционная способность органо-неорганических композитов по отношению к катионам уранила определяется условиями синтеза, составом и морфологией сорбентов. В статических условиях при оптимальном расходе сорбентов (2 г-дм—3) уран (VI) может быть извлечен на 93—100% в течение 140—180 мин. Установлено, что сорбция катионов уранила исследуемыми катионитами протекает в смешанно-диффузионном режиме. Рассчитаны константы скорости внешней диффузии (0,0143— 0,0186 мин-1), коэффициенты внешнего массопереноса ((4,6—5,5)-10—7 м-с—1) и коэффициенты внутренней диффузии катионов уранила ((3,86—12,10)-10—12 м2с—1). Показано, что сорбенты, регенерированные 1 М H2SO4, сохраняют высокую сорбционную способность по отношению к катионам уранила после, как минимум, 5 циклов сорбции-регенерации.