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2. Adsorption of Cu(II) from aqueous solution using raw peat: preliminary results

Author

Naymushina Olga and Gaskova Olga

Subjects
Environmental sciences, GE1-350
Abstract

Peat is a polar, highly porous material that could have significant applications as an adsorbent for removal of heavy metals from aqueous solutions. Various functional groups in lignin allow such compounds to bind on active sites of peat. The adsorption of Cu (II) from aqueous solutions on peat from the West Siberia was studied in the concentration range of 10–150 mg/L and time variations of 0.25-12 hours. The pH of the solutions varied over a range of 3.2–4.3. The adsorption data could be fitted to a Freundlich adsorption isotherm and the maximum adsorption capacity of peat was determined to be 2.5⋅10-3 mmol/g when the initial concentration for Cu2+ was at its minimum (0.05 mmol/L), and the time of adsorption was 30 minutes.

Published
2019
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3. Assessment of geochemical barriers at preservation of low-level radioactive waste storages

Author

Boguslavsky Anatoly, Gaskova Olga, and Naymushina Olga

Subjects
Environmental sciences, GE1-350
Abstract

The work considers geochemical aspects of the natural and man-made system for storing radioactive waste (RW) from one of the Siberian enterprises of the fuel and nuclear cycle. Careful geochemical testing of key sites of the system allows us to identify geochemical barriers that prevent the spread of uranium outside the sludge storage. In addition, experiments were conducted on the leaching of the sludge material in the laboratory using modern methods for determining the composition of solutions and solid phases, as well as experiments on uranium sorption on the main types of subsoil. Experimental and thermodynamic modeling of uranium deposition processes confirms that the system studied satisfactorily copes with the absorption of uranium taken out of the sludge storage due to dilution and sorption on rocks and bottom sediments. Particularly favorable are bottom sediments rich in organic matter, which bind uranium to organic-mineral complexes.

Published
2019
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7. Озеро Эбейты, Россия: химико-органический и минеральный состав воды и донных отложений

Author

Колпакова, Марина Николаевна, Гаськова, Ольга Лукинична, Наймушина, Ольга Сергеевна, Кривоногов, Сергей Константинович, Kolpakova, Marina Nikolaevna, Gaskova, Olga Lukinichna, Naymushina, Olga Sergeevna, Krivonogov, Sergey Konstantinovich, Колпакова, Марина Николаевна, Гаськова, Ольга Лукинична, Наймушина, Ольга Сергеевна, Кривоногов, Сергей Константинович, Kolpakova, Marina Nikolaevna, Gaskova, Olga Lukinichna, Naymushina, Olga Sergeevna, and Krivonogov, Sergey Konstantinovich

Abstract

Актуальность исследования обусловлена необходимостью изучения и мониторинга эколого-геохимического состояния озера Эбейты, являющегося комплексным месторождением минеральных солей. Общие промышленные запасы сульфата натрия (мирабилита) в рапе озера составляют 36,89 млн т. Кроме того, это озеро представляет интерес как месторождение лечебных грязей, а также является местом обитания большой популяции рачков Artemia salina L. и их цист, используемых в медицинских, косметических и сельскохозяйственных целях. Цель работы: изучить особенности макро-, микрокомпонентного, органического и минерального состава оз. Эбейты, а также гидрогеохимические процессы, влияющие на распределение органоминеральных комплексов металлов. Методы исследования. Полевое опробование воды и донных отложений озера проводилось в летний период 2015 г. В ходе лабораторных исследований химический состав поверхностных и поровых вод, а также донных осадков определяли с использованием масс-спектральных методов, методов атомной абсорбции, пламенной-эмиссии, потенциометрии, титрования и т. д. Изучение минеральных фаз проводилось с использованием рентгенофазового анализа на автоматизированном порошковом дифрактометре ДРОН:4 (излучение CuKa, графитовый монохроматор). Дифракционные картины были отсканированы в интервале 2[тета] от 3° до 65° с шагом 0,05°, время сканирования в точке - 4 с, щель 0,5 мм. Результаты исследований показали, что озеро Эбейты относится к SO4~Cl-Na составу, рН озера в период опробования составлял 5,7, для озера характерна восстановительная обстановка. Поровые воды донных отложений не отличаются по макрокомпонентному составу от озерных вод, однако концентрации микроэлементов в 2-8 раз превышают значения для поверхностных вод. Основной фазой илистых донных осадков является кварц, обнаружены примеси NaCl, малые примеси кпш, плагиоклаза и кальцита. Солевые выцветы вдоль озера представлены тенардитом, небольшим/средним количеством галита и следами астраханита. Моделирование процессов компле, The relevance of the research is caused by the need to study and monitor the ecological and geochemical status of a complex mineral salt deposit of Ebeity Lake. The total industrial reserves of sodium sulfate (mirabilite) in the lake water are 36,89 million tons. In addition, this lake is of interest as a deposit of therapeutic mud, as well as the crustaceans Artemia Salina L. and their cysts. The aim of the study is to determine the main features of macro-, micro-component, organic and mineral composition of the lake Ebeity, as well as to determine the hydrogeochemical processes affecting the distribution of organomineral complexes of elements. Research methods. The lake was studied in summer 2015. The lake and porous waters, as well as bottom sediments were analysed using mass spectral methods, as well as the methods of atomic absorption, flame emission, potentiometry, titration, etc. The study of bottom sediments was also carried out using the X-ray powder diffractometry method with mandatory control of the composition of typical solid samples by X-ray fluorescent analysis using synchrotron radiation with registration on a Si (Li) detector. The results of the studies showed that Ebeity Lake refers to the SO4~Cl-Na composition, the pH of the lake during the sampling period was 5,7, the lake was characterised by anoxic condition. The pore waters of bottom sediments do not differ from the lake water in their major composition, but the concentrations of trace elements are 2-8 times higher than the values in the lake. The study of complexation of elements in lake water shown that most of iron, copper, uranium and thorium is bound to a high molecular organic matter that allows presuming the impossibility of formation of such minerals as goethite, chlorite and Cu (met), obtained during thermodynamic calculations. The results obtained at simulation allowed us to construct a sequence of formation of evaporite minerals in the lakeNa2SO4 x 10H2O+Na2Ca(SO4)2 - Na2SO4+Na4Ca(S

Published
2018

11. Geotechnical appraisal of the soils in East Aswan city, Egypt

Author

Shinawy, F. El. and Naymushina, Olga Sergeevna

Subjects
грунтовые воды, инженерно-геологические исследования, Египет, инженерно-геологическая оценка, почва
Published
2014

13. CHEMICAL SPECIATION OF HEAVY METALS IN PEAT BOG, KOKCHETAV MOUNTAIN GROUP, NORTH KAZAKHSTAN.

Author

Naymushina, Olga, Kolpakova, Marina, and Gaskova, Olga

Subjects
*CHEMICAL speciation, *HEAVY metals, *BOGS, *GEOCHEMICAL cycles, *PORE water
Abstract

In the present study, chemical speciation of heavy metals in bog water and peat deposits, collected from the territory of the Kokchetav mountain group, North Kazakhstan, is described. The purpose was to evaluate quantitatively migration, distribution, and redistribution of the elements by the example of the natural object as a basic tool for the study of geochemical cycles of elements. Studying of the chemical composition of bog and pore water has been carried out, their comparative characteristic was executed, mechanisms of elements behavior in the presence of organic acids in water and peat deposits were investigated. Besides, detailed studying of mineral and element structure of deposits and filters after a water filtration (0.45 and 0.2 microns) was carried out. Chemical forms of heavy metals in pore and surface water were calculated by the application of MINTEQ-2 software. The obtained results about elements species in the sediments explain the relationships between peat properties and the content, distribution, mobility, and availability of the heavy metals. [ABSTRACT FROM AUTHOR]

Published
2017
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14. GEOCHEMICAL PROCESSES CONTROLLING THE WATER CHEMISTRY OF SALINE LAKES IN THE NORTH KAZAKHSTAN REGION.

Author

Gaskova, Olga, Kolpakova, Marina, Naymushina, Olga, and Krivonogov, Sergey

Subjects
WATER chemistry, WATER quality, SALT lakes, ATMOSPHERIC temperature, EVAPORATION (Meteorology)
Abstract

Ishim steppe (plain) is the southern part of Western Siberia, situated between the Irtysh and Tobol rivers. The plain is composed chiefly of sand and clay deposits of the Neocene era, covered with loess-like loams. In the lowlands and valleys there are many fresh, bitter, and salt lakes, including investigated B.Tarangul, Shaglyteniz, Zhamantuz, Kishikaroy and Kalibek lakes. This paper gives a recent study of the water lakes chemistry to show their diversity despite a close arrangement, the similar hydrogeological, landscape and climatic conditions. We also noted a variation in the evaporite mineral assemblages. This is confirmed by the mineralogical analysis of bottom sediments and thermodynamic calculations of the water saturation indices. The lake characteristics are given in the following order - the type of salinity, TDS (g/L), pH. They are B.Tarangul (Cl-HCO3-Na, 0.9, 8), Shaglyteniz (Cl-Na, 2.5, 8), Zhamantuz (Cl-Na, 99.3, 8.5), Kishikaroy (Cl-Na, 201.4, 6-7) and Kalibek (Cl-Na, 307.2, 6.5). Major minerals with respect to which lakes water is supersaturated and which may appear during evaporation are: Shaglyteniz and B.Tarangul (CaCO3), Zhamantuz (CaCO3, NaCl), Kishikaroy (CaCO3, NaCl, Na2SO4·CaSO4), Kalibek (CaMg(CO3)2, NaCl, CaSO4·2H2O). Halite is the most important chloride mineral and it dominates in the littoral zone and deeper horizons. So the evaporation of solutions doesn't exceed the halite saturation stage. Despite the linear correlation coefficient for Cl-Br-B-Li, the ratios of these anions are quite different for the lakes named above. It is known that high level of Br and B indicates a possible chemical interaction of ground water and surface water. Thermodynamic calculations using computer code "HCh" allowed us to show their influence on the elements distribution between surface waters and bottom sediments. If coupled with other proxies like sedimentological analysis, this may have important implications for paleoclimatic fluctuations in the Ishim steppe. [ABSTRACT FROM AUTHOR]

Published
2017
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16. DRINKING WATER SUPPLY OF TOMSK (WESTERN SIBERIA, RUSSIA): GROUNDWATER RESOURCES AND QUALITY.

Author

Naymushina, Olga

Subjects
*DRINKING water, *GROUNDWATER, *WATER quality, *SEWAGE purification, *WATER purification
Abstract

Problem of pure drinking water is one of the main global problems of our time. Underground waters are the most protected from anthropogenous influence, but, despite it, water quality in some areas of intensive water intake doesn't conform to drinking requirements and leads to a certain water treatment. This paper deals with hydrogeological conditions of the Tomsk and Seversk groundwater deposit and with the chemical composition of groundwater samples, which have been selected during the period from 2008 to 2013. [ABSTRACT FROM AUTHOR]

Published
2014

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