Your search keyword '"Balintova, Magdalena"' showing total 31 results

1. Potentially toxic elements in soil and air along an altitudinal gradient in Tatra National Park

Author

Demková, Lenka, Bobuľská, Lenka, Árvay, Július, Homolová, Zuzana, Michalko, Miloslav, and Bálintová, Magdaléna

Published

2023

2. Sustainable cement mixtures based on sediments as a filler

Author

Junakova Natalia, Estokova Adriana, Balintova Magdalena, Sicakova Alena, and Junak Jozef

Subjects

Engineering (General). Civil engineering (General), TA1-2040

Abstract

For several years, research has been devoted to the issue of abiotic reuse of excavated bottom sediments from waterways, reservoirs, harbors and estuaries in the construction industry. Dredged sediment can be used for various purposes depending on its chemical composition and physical properties. In connection with the aforementioned sand crisis, it can be used as a substitute for filler in the preparation of concrete mixtures. The contribution is aimed at evaluating the strength characteristics of cement composites prepared with 20% replacement of aggregates of the fraction 0-4 mm with sediment from the water reservoirs Kľušov and Ružín (Slovakia). The results showed the potential of using sediments as a partial substitute for aggregates in cement compositions.

Published

2024

3. Materials for Heavy Metals Removal from Waters.

Author

Balintova, Magdalena and Estokova, Adriana

Subjects

*HEAVY metals, *WOOD waste, *BIOCHAR, *LANGMUIR isotherms, *ARSENIC, *FREUNDLICH isotherm equation, *WATER purification

Abstract

This document discusses the importance of removing heavy metals from water sources due to their increased concentrations from industrial activities. The focus is on adsorption as an effective method for removing pollutants from contaminated streams using various adsorbents. The document highlights several research papers that explore different materials and technologies for heavy metal removal, including the use of yeast cells, magnetic biocomposites, cherry pit biochar, alkali-modified sawdust, nano-biocomposites, calcined mussel shells, mineral-organic hybrid adsorbents, and natural bentonites. These studies demonstrate the potential of these materials for efficient and cost-effective heavy metal removal from water sources. [Extracted from the article]

Published

2024

4. Using of wooden sawdust for copper removal from waters

Author

Demcak Stefan, Balintova Magdalena, Demcakova Maria, Zinicovscaia Inga, Yushin Nikita, and Frontasyeva Marina V.

Subjects

Heavy metals, Water treatment, Adsorption, Wooden sawdust, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

The heavy metal removal from wastewater is very important due to their persistent character in aquatic environment. The use of wooden sawdust is emerging as a potential alternative to the existing conventional technologies for the removal of metal ions from aqueous solutions. The aim of this work is to study the Cu(II) removal of from water by unconventional waste products including the wooden sawdust of poplar, cherry, spruce and hornbeam. The FT-IR spectra of the studied wooden sawdust confirmed the presence of functional groups that have potential for heavy metal binding. The highest efficiency of Cu(II) removal was observed for poplar wooden sawdust at static (86 %) and dynamic (88 %) adsorption experiments. Data obtained by neutron activation analysis revealed that ion exchange is also a mechanism of metal removal by the selected wooden sawdust.

Published

2019

5. Study of sulphate ions removal from acidic waters using ion exchange resin

Author

Pavlikova Petra, Balintova Magdalena, and Holub Marian

Subjects

sulphates, ion - exchange, waste water treatment, acidic solution, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Acid Mine Drainage (AMD) is the most common pollution related to mining. It consists of an aqueous solution containing high metals and sulphate concentration, which impact surface and groundwater and lead to serious environmental problems. Low pH and high concentrations of heavy metals and sulphates are limiting for many various treatment technologies in these acidic waters. Ion - exchange is a very powerful technology where one or more undesirable contaminants are removed from water by exchange with another non-objectionable or less objectionable substance. Many of materials for the ion - exchange treatment is available in a variety forms and have widely differing chemical and physical properties. The paper deals with study of ion - exchange process under static and dynamic conditions for sulphate removal from acidic waters using ion - exchange resin with the aim to apply the results for treatment of acid mine drainage. Two types of experiments were performed under static and dynamic conditions. The efficiency of AMBERLITE MB20 resin for SO4 2- removal from model solution H2SO4 under static conditions decreases from 86.6 % for concentration 100 mg/L to efficiency 66.9 % for concertation 1000 mg/L. The efficiency for sulphate removal from AMD was only 41%. The study also presents three experiments under dynamic conditions, one with new ion - exchange resin a two experiments with its regenerated form. It was find that ion-exchange capacity decreases numbers of regeneration steps.

Published

2018

6. The impact of heavy metals in water from abandoned mine on human health

Author

Singovszka, Eva, Balintova, Magdalena, and Junakova, Natalia

Published

2020

7. CO2 utilization for fast preparation of nanocrystalline hydrozincite

Author

Turianicová, Erika, Kaňuchová, Mária, Zorkovská, Anna, Holub, Marián, Bujňáková, Zdenka, Dutková, Erika, Baláž, Matej, Findoráková, Lenka, Balintová, Magdaléna, and Obut, Abdullah

Published

2016

8. Utilization of poplar wood sawdust for heavy metals removal from model solutions

Author

Demcak Stefan, Balintova Magdalena, Hurakova Maria, Frontasyeva Marina V., Zinicovscaia Inga, and Yushin Nikita

Subjects

Adsorption heavy metals poplar wood sawdust, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Some kinds of natural organic materials have a potential for removal of heavy metal ions from wastewater. It is well known that cellulosic waste materials or by-products can be used as cheap adsorbents in chemical treatment process. In this paper, poplar wood sawdust were used for removal of Cu(II), Zn(II) and Fe(II) ions from model solutions with using the static and dynamic adsorption experiments. Infrared spectrometry of poplar wood sawdust confirmed the presence of the functional groups which correspond with hemicelluloses, cellulose and lignin. At static adsorption was achieved approximately of 80 % efficiency for all treated model solutions. Similar efficiency of the adsorption processes was reached after 5 min at dynamic condition. The highest efficiency of Cu(II) removal (98 %) was observed after 30 min of dynamic adsorption. Changes of pH values confirmed a mechanism of ion exchange on the beginning of the adsorption process.

Published

2017

9. Study of Inorganic Pollutants Removal from Acid Mine Drainage by Hemp Hurds

Author

Demcak Stefan and Balintova Magdalena

Subjects

sorption, precipitation, acid mine drainage, hemp hurds, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Sulphates in wastewaters have an origin as the by-products of a variety of industrial operations. A specific and major producer of such effluents, which contained sulphates and heavy metals, is the mining industry. These contaminants should be removed from wastewater using an adequate process of treatment.

Published

2016

10. Enhancing Ecological Efficiency in Biological Wastewater Treatment: A Case Study on Quality Control Information System.

Author

Alekseevsky, Dmitriy, Chernysh, Yelizaveta, Shtepa, Vladimir, Chubur, Viktoriia, Stejskalová, Lada, Balintova, Magdalena, Fukui, Manabu, and Roubík, Hynek

Subjects

WASTEWATER treatment, QUALITY control, INFORMATION resources management, INFORMATION storage & retrieval systems, NATURAL disasters

Abstract

This study aimed to improve the control system of the biological stage of wastewater treatment using the quality control information system to support the concept of environmental efficiency management. In this case, the object of the study was the treatment facilities of Sumy city (Ukraine). For automatic control of wastewater quality, pH, oxidation reduction potential (ORP), electrical conductivity, and temperature indicators were taken, as well as hydrobiological analysis of activated sludge and mathematical modelling. The pH of wastewater at the input system has systematically unacceptable values (above 8.5 were recorded). Unacceptable concentrations of sulphur-containing toxicants arrive at the entrance of treatment facilities (0.22–1.3 mg/L). The response of activated sludge biocenosis to increasing concentrations of hydrogen sulphide in wastewater was analysed. Furthermore, a mathematical model of monoculture population growth, with two factors that affect population growth (nutrient concentration and monoculture production concentration), was implemented for the initial assessment of possible negative effects on wastewater treatment. The differential equation of the population dynamics of the i-th species of microorganisms in activated sludge was described. The applied system of automated monitoring of wastewater parameters with expert assessment of activated sludge and a unified mathematical model of approaches allows for a complex system of decision-making support to be realised. However, this requires the construction of mathematical models that would take into account the cause–effect relations that operate under conditions of incomplete technological information and the potential presence of emergencies due to natural disasters and military activities. [ABSTRACT FROM AUTHOR]

Published

2023

11. Environmentally-Friendly Materials in Wastewater Treatment.

Author

Zinicovscaia, Inga and Balintova, Magdalena

Subjects

*WASTEWATER treatment, *BIOGAS production, *WATER purification, *WASTE products, *INDUSTRIAL wastes, *ENVIRONMENTAL security, *BIOLOGICAL nutrient removal, *CHROMIUM removal (Sewage purification)

Published

2023

12. Influence of Granularity of Sediment from a Water Reservoir on Phosphorus Sorption Processes

Author

Junakova, Natalia, Balintova, Magdalena, and Smolakova, Michaela

Published

2017

13. Influence Of Used Bacterial Culture On Zinc And Aluminium Bioleaching From Printed Circuit Boards

Author

Mrazikova Anna, Marcincakova Renata, Kadukova Jana, Velgosova Oksana, and Balintova Magdalena

Subjects

bioleaching, electronic waste, zinc, aluminium, Acidithiobacillus ferrooxidans, Acidithiobacillus thiooxidans, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Bioleaching processes were used to solubilize metals (Cu, Ni, Zn and Al) from printed circuit boards (PCBs). In this study, a PCBs-adapted pure culture of Acidithiobacillus ferrooxidans, pure culture of Acidithiobacillus thiooxidans and PCBs-adapted mixed culture of A. ferrooxidans and A. thiooxidans were used for recovery of the metals. The study showed that the mixed bacterial culture has the greatest potential to dissolve metals. The maximum metal bioleaching efficiencies were found to be 100, 92, 89 and 20% of Cu, Ni, Zn and Al, respectively. The mixed culture revealed higher bacterial stability. The main factor responsible for high metal recovery was the ability of the mixed culture to maintain the low pH during the whole process. The pure culture of A. thiooxidans had no significant effect on metal bioleaching from PCBs.

Published

2015

14. Heavy metal contamination and its indexing approach for sediment in Smolnik creek (Slovakia)

Author

Singovszka, Eva, Balintova, Magdalena, and Holub, Marian

Published

2016

15. Precipitation of heavy metals from acid mine drainage and their geochemical modeling

Author

Petrilakova Aneta, Balintova Magdalena, and Holub Marian

Subjects

geochemical modeling, precipitation, acid mine drainage, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Geochemical modeling plays an increasingly vital role in a number of areas of geoscience, ranging from groundwater and surface water hydrology to environmental preservation and remediation. Geochemical modeling is also used to model the interaction processes at the water - sediment interface in acid mine drainage (AMD). AMD contains high concentrations of sulfate and dissolved metals and it is a serious environmental problem in eastern Slovakia. The paper is focused on comparing the results of laboratory precipitation of metal ions from AMD (the Smolnik creek, Slovakia) with the results obtained by geochemical modeling software Visual Minteq 3.0.

Published

2014

16. Intensification of Waste Valorization Techniques for Biogas Production on the Example of Clarias gariepinus Droppings.

Author

Shtepa, Vladimir, Balintova, Magdalena, Shykunets, Aliaksei, Chernysh, Yelizaveta, Chubur, Viktoriia, Plyatsuk, Leonid, and Junakova, Natalia

Subjects

CLARIAS gariepinus, BIOGAS production, CHEMICAL oxygen demand, ELECTRON donors, ELECTROPHILES, REDUCTION potential

Abstract

This study aims to evaluate the process of biogas production from the droppings of Clarias gariepinus under intensification of methanogenesis using electrolysis pretreatment and electro-fermentation in comparison with the addition of stimulating substances (humates and zeolites). For the realization of a series of experiments, laboratory installations of electrolysis and electro-fermentation were developed. The following parameters were monitored: biogas composition, chemical oxygen demand, redox potential, hydrogen potential, nitrates, ammonia–ammonium, and nitrites. A taxonomic classification and review of the metabolic pathways were performed using the KEGG, MetaCyc, and EzTaxon databases. The stimulation of biomethanogenesis in the utilization of catfish droppings by the introduction of additional electron donors—exogenous hydrogen (electro-fermentation)—was confirmed. The electro-fermentation process released 4.3 times more methane compared to conventional conditions and stimulant additives and released 1.7 times more with electrolysis pretreatment. The main metabolic pathways of electron acceptor recruitment using bioinformatic databases are highlighted, and models of CO2 transformation involving exogenous hydrogen along the chain of metabolic reactions of methanogenesis are generated. The summary model of metabolic pathways of methanogenesis are also proposed. Based on the results of the present and previous studies, two technological solutions are proposed to implement the process of anaerobic treatment intensification of excreta of the clariid catfish. Additional studies should include the optimization of the operation mode of electro-fermentation and electrolysis pretreatment of the substrate during the aquacultivation process. [ABSTRACT FROM AUTHOR]

Published

2023

17. Reservoir sediment as a secondary raw material in concrete production

Author

Junakova, Natalia, Junak, Jozef, and Balintova, Magdalena

Published

2015

18. Spatio Prediction of Soil Capability Modeled with Modified RVFL Using Aptenodytes Forsteri Optimization and Digital Soil Assessment Technique.

Author

Alnaimy, Manal A., Shahin, Sahar A., Afifi, Ahmed A., Ewees, Ahmed A., Junakova, Natalia, Balintova, Magdalena, and Abd Elaziz, Mohamed

Abstract

To meet the needs of Egypt's rising population, more land must be cultivated. Land evaluation is vital to achieving sustainable agricultural production. To determine the soil capability in the northeast Nile Delta region of Egypt, the present study introduces a new form of integration between the Agriculture Land Evaluation System (ALES Arid) model and the machine learning (ML) approach. The soil capability indicators required for the ALES Arid model were determined for the 47 collected soil profiles covering the study area. These indicators include soil pH, soil salinity, the sodium adsorption ratio (SAR), the exchangeable sodium percentage (ESP), the organic matter (OM) content, the calcium carbonate (CaCO3) content, the gypsum content, the clay percentage, and the slope. The ALES Arid model was run using these indicators, and soil capability indexes were obtained. Using GIS, these indexes helped to classify the study area into four capability classes, ranging from good to very poor soils. To predict the soil capability, three machine learning algorithms named traditional RVFL, sine cosine algorithm (SCA), and AFO were also applied to the same soil criteria. The developed ML method aims to enhance the prediction of soil capability. This method depends on improving the performance of Random Vector Functional Link (RVFL) using an optimization technique named Aptenodytes Forsteri Optimization (AFO). The operators of AFO were used to determine the best parameters of RVFL since traditional RVFL is sensitive to parameters. To assess the performance of the developed AFO-RVFL method, a set of real collected data was used. The experimental results illustrate the high efficacy of AFO-RVFL in the spatial prediction of soil capability. The correlations found in this study are critical for understanding the overall techniques for predicting soil capability. [ABSTRACT FROM AUTHOR]

Published

2022

19. Effect of Electrolysis on Activated Sludge during the Hydrolysis and Acidogenesis Stages in the Anaerobic Digestion of Poultry Manure.

Author

Chernysh, Yelizaveta, Balintova, Magdalena, Shtepa, Vladimir, Chubur, Viktoriia, and Junakova, Natalia

Abstract

This paper focuses on the study of the effect of electrolysis on activated sludge in a microbial electrolysis cell (MEC) under the anaerobic digestion of poultry manure. This study was conducted using a bioreactor design with and without electrodes (conventional condition). Measurements of pH, redox potential (ORP), and total dissolved solids were carried out, as was the microscopy of activated sludge during treatment and gasometry. There was an increase in the yields of CH4 and CO2 compared to conventional conditions. Thus, on the 14th day, there was an increase in the CH4 yield to 35.1% compared with the conventional conditions—31.6%—as well as in the CO2 yield to 53.5% compared with the cell without electrodes—37.7%. Visually, the microscopy of anaerobic activated sludge showed changes in the aggregation process itself, with the formation of cells of clusters of microorganism colonies with branches of a delineated shape. ORP fluctuations were related to the process of the dissociation into ions during the passage of an electric current through the electrodes, and were observed before and after the inclusion of a current into the system. A model of the effect of electrolysis during anaerobic digestion was developed, taking into account the influencing factors on the condition of the activated sludge. [ABSTRACT FROM AUTHOR]

Published

2022

20. Integration of Processes of Radionuclide-Contaminated Territories Decontamination in the Framework of their Ecological-Socio-Economic Rehabilitation.

Author

Chernysh, Yelizaveta, Balintova, Magdalena, Shtepa, Vladimir, Skvortsova, Polina, Skydanenko, Maksym, and Fukui, Manabu

Subjects

RADIOISOTOPES, NUCLEAR power plants, COMPOSITE materials, SOIL absorption & adsorption, SOLUBILIZATION, SOIL restoration

Abstract

Large-scale disasters at nuclear power plants (NPPs) and their consequences are still the subject of discussion by the world scientific community, which makes mankind recognize the unsolved problem of radiation pollution. Accordingly, the search for new effective biocomposite materials with high sorption capacity to eliminate harmful effects associated with radiation contamination of large territories is an urgent task on a global scale. This paper is devoted to the study of the decontamination processes of the areas contaminated with radionuclides, the search for new mechanisms of fixation of radionuclides and heavy metals in the soil using the matrix material of different origin. In order to intensify the process of radionuclide fixation in the soil-plant system the method consisting of introducing into the soil the organic-mineral biocomposite based on sewage sludge and phosphogypsum after anaerobic fermentation was proposed. It is necessary to further study the processes of sorption and radionuclides solubilization due to complexation with organic agents present in matrix materials of different nature. The mechanisms of radionuclide and heavy metal fixation using matrix material of different origin were analyzed and a general model was formed. The direction of integration of radionuclide-contaminated soil decontamination technologies into the process of ecological, social, and economic development of the territories under rehabilitation after the accidents at the Chernobyl NPP and Fukushima-1 NPP is proposed. [ABSTRACT FROM AUTHOR]

Published

2022

21. Rationale for the Combined Use of Biological Processes and AOPs in Wastewater Treatment Tasks.

Author

Shtepa, Vladimir, Balintova, Magdalena, Chernysh, Yelizaveta, Chubur, Viktoriia, Demcak, Stefan, and Gautier, Mathieu

Subjects

WASTEWATER treatment, WATER purification, POLYETHYLENE oxide, ELECTROLYTIC oxidation, STRUCTURAL models, ACTIVATED sludge process

Abstract

This paper aims to form a unified concept of the integrated use of different wastewater treatment methods to form a resistant biological treatment stage of technological systems under the influence of such toxic factors as antibiotics and surfactants. The processes of mechanical treatment, ozonation, UV irradiation, and electrolytic anodic oxidation were implemented in an electrotechnological wastewater treatment facility. Wastewater treatment quality was determined by the concentration of nitrogen compounds in aqueous solutions according to the method of Lurie. Biodiagnostics of the investigated activated sludge via surfactant action was carried out at polyethylene oxide concentrations of 10, 30, and 50 mg/dm3. As a result of experiments on wastewater treatment after aquaculture, an improvement in the reduction of pollutants only by the indicator "nitrate concentration" was determined: by 20% after anodic oxidation, and by 15% after photolysis. At almost all surfactant concentrations studied, the activated sludge was not completely recovered, which was expressed in a decrease in its quantity and in the inability to aggregate flakes of activated sludge. The diameter of the growth retardation of the standard disk with antibiotic (amoxiclav) by the accumulative culture of activated sludge was 17.3 ± 2 mm at a concentration of 4 mg/dm3 and 31.3 ± 3 mm at a concentration of 6 mg/dm3. In the process of studying the state of the activated sludge's biocenosis under the influence of such toxicants, several regularities were revealed. The directions of using combined approaches of water treatment and wastewater treatment were defined. The structural model of treatment facilities using aerobic and anaerobic bioprocesses together with advanced oxidative technologies was substantiated. [ABSTRACT FROM AUTHOR]

Published

2021

22. SORPTION ISOTHERM STUDY OF MANGANESE REMOVAL FROM AQUEOUS SOLUTIONS BY NATURAL AND MnO2-COATED ZEOLITE.

Author

DEMCAK, STEFAN, KOVACOVA, ZDENKA, BALINTOVA, MAGDALENA, FAZEKAS, JURAJ, and ZINICOVSCAIA, INGA

Subjects

DISTRIBUTION isotherms (Chromatography), ZEOLITES, AQUEOUS solutions, MANGANESE, SORPTION

Abstract

The applicability of the natural and MnO2-coated zeolite as sorbent for the removal of Mn(II) from synthetic solutions has been investigated. Batch experiments were carried out to determine the influence of pH and Mn(II) concentration on the sorption process. A maximum removal efficiency (98.9%) was observed for modified zeolite with the concentration of 10 mg/dm³ of manganese in solution. The equilibrium data showed a very good correlation for both Langmuir and Freundlich sorption models and this suggests both monolayer adsorption and a heterogeneous surface existence. Maximum sorption capacity calculated from the Langmuir model constituted 5.57 mg/g for natural zeolite and 13.41 mg/g for modified zeolite. [ABSTRACT FROM AUTHOR]

Published

2021

23. Year over year comparison of sediment quality in the rivers of Eastern Slovakia.

Author

SINGOVSZKA, Eva and BALINTOVA, Magdalena

Subjects

RIVER sediment quality, WATER quality, WATER supply, HYDRAULICS, HYDRODYNAMICS

Abstract

Quality is one of the most important risk indicators in river basins. Therefore, monitoring and evaluating water and sediment quality has a very important role in process of risk management. The aim of the monitoring is provide for the sustainability of water bodies and these results are the basis for the risk management in the river catchment area. Hornad, Laborec and Poprad are the rivers in Eastern Slovakia. Hornad and Laborec belongs to basin of Danube and Poprad belongs to basin of Vistula. Sediment sampling was carried out according to ISO 5667-6. Monitoring was carried out in the spring on 2017-2018. The chemical composition of sediments was determined by means of X-ray fluorescence (XRF) using SPECTRO iQ II (Ametek, Germany, 2000). The results of sediment quality evaluated by method PERI revealed that the quality of sediment in 2018 was better than 2017. Results of XRF analysis of sediments were compared with the limited values according to the Slovak Act 188/2003 Coll. of Laws on the application of treated sludge and bottom sediments to fields. It can be state that limit values comparing with Slovak legislation were not exceeding in all sediment samples in rivers in Eastern Slovakia. Based on the monitoring data of sediment quality in the study area, a quantitative analysis of heavy-metal pollution in sediment was conducted using the method of potential ecological risk index (PERI) which is method for evaluate the potential ecological risk of heavy metals. It is based exclusively on chemical parameters of sediments because sediment data show mean integrated values in time, with higher stability than water column parameters; sediments are easily sampled at field work; sediment samples are more representative for time and space scales and analytical data are easily obtained, especially because sediments present high concentrations of contaminants, decreasing the possible errors due to detection limits of the applied analytical method. This method comprehensively considers the synergy, toxic level, concentration of the heavy metals and ecological sensitivity of heavy metals. Potential ecological risk index can be obtained using three basic modules: degree of contamination (CD), toxic-response factor (TR) and potential ecological risk factor (ER). The results show on the basis on potential ecological risk index that the quality of sediment in 2018 is better than 2017. The worst result shows Hornad in 2017. Significant improvement occurred at the sampling point S2 in Hornad in 2018. The best results show Laborec in 2018. The results show on the basis on potential ecological risk index that quality of sediment in 2018 is better than 2017. [ABSTRACT FROM AUTHOR]

Published

2020

24. THE REMOVAL OF SULPHATE IONS FROM MODEL SOLUTIONS AND THEIR INFLUENCE ON ION EXCHANGE RESINS.

Author

DEMCAK, Stefan, BALINTOVA, Magdalena, and HOLUB, Marian

Subjects

INDUSTRIES, POLLUTANTS, INDUSTRIAL wastes, INFRARED spectroscopy, ION exchange (Chemistry)

Abstract

There is a growing tendency for industries around the globe to diminish the contents of pollutants in industrial wastewaters to an acceptable level. Conventional methods are unfavourable and economically unacceptable, especially for large volumes of wastewaters with a high content of undesirable compounds. In contrast, ion--exchange is a very powerful technology capable of removing contamination from water. This paper analyses a study of ion exchange in Amberlite MB20 and Purolite MB400 resins after sulphate removal from a model solution. For the characterisation of ion exchange in resins, infrared spectroscopy was used. The IR spectra of both ion exchange resins show a similar composition after adsorption. Experiments that are due to this same used matrix in producing. The efficiency of sulphate ion removal and pH changes were also measured. Amberlite MB20 has proven to be a suitable ion exchange resin due to its high efficiency (about 86%) for the removal of sulphates from solutions with initial concentrations of 100 and 500 mg.L-1, respectively. [ABSTRACT FROM AUTHOR]

Published

2020

25. Influence of Phosphogypsum Dump on the Soil Ecosystem in the Sumy region (Ukraine).

Author

Plyatsuk, Leonid, Balintova, Magdalena, Chernysh, Yelizaveta, Demcak, Stefan, Holub, Marian, and Yakhnenko, Elena

Subjects

PHOSPHOGYPSUM, BLACK locust, X-ray fluorescence, EUROPEAN white birch, SOIL pollution

Abstract

This paper investigates the influence of a phosphogypsum dump on the surrounding environment (soil ecosystem) in the Sumy region (Ukraine). Analysis of the surrounding soils was performed to study the possible presence of compounds leaching from the dump. For physical chemical analysis of samples, X-ray fluorescence (XRF) analysis, X-ray diffraction (XRD) analysis, and Fourier transform infrared spectrophotometry (FTIR) were used. XRF analysis did not confirm the contamination of soils around the phosphogypsum dump, and the soil fluoride levels measured in this study were comparable to the average soil fluoride concentration of soils globally. The colonization of the surface of the phosphogypsum dump by living organisms after the reclamation process was also analyzed. Field research was carried out on the routes, which specify the boundaries of the contours of plant communities, for description of phytocenoses in the territory of the dump, where the pH value ranged from 2.5 to 5.3, depending on the age of phosphogypsum terraces. Annual and perennial herbaceous plants are dominant on the reclaimed dump slopes. On the third and fourth phosphogypsum terraces (20 and 25 years old, respectively), tree forms have begun to settle, represented mainly by Populus tgemula, Populus alba, Betula pendula, and Robinia pseudoacacia. The studied patterns of ecological groups of plants growing under natural change of species can be used for the complete reclamation of the dump. [ABSTRACT FROM AUTHOR]

Published

2019

26. Effect of alkaline treatment of wooden sawdust for the removal of heavy metals from aquatic environments.

Author

Demcak, Stefan, Balintova, Magdalena, Demcakova, Maria, Csach, Kornel, Zinicovscaia, Inga, Yushin, Nikita, and Frontasyeva, Marina

Subjects

WOOD waste, HEAVY metals, ADSORPTION capacity, NUCLEAR activation analysis, TREATMENT effectiveness, WASTE products, ION exchange (Chemistry)

Abstract

This paper reports a study of the removal of heavy metals from water by unconventional waste products including the wooden sawdust of poplar, cherry, spruce and hornbeam. The efficiency of Cu(II), Zn(II), and Fe(II) ion sorption under various initial concentrations from model solutions by raw and alkaline-modified sawdust was investigated. Data obtained by neutron activation analysis revealed that ion exchange is one of the mechanisms underlying metal removal by the selected sawdust from the model solutions. Analysis of the structure and morphology of natural and alkali-modified wooden sawdust by SEM/EDX did not reveal significant changes. The FT-IR spectra showed changes in functional groups due to the alkaline modification of sawdust where the intensity of hydroxyl peaks was considerably increased. It was found that the sorption capacity of the modified sawdust for the model solutions of 50 mg.L-1 of Cu(II) and Zn(II) was approximately 4.5 times higher in comparison to the untreated sawdust; however, the alkaline-modified sawdust had a negative influence on Fe(II) ion removal because of organic-metallic dye formations. The adsorption capacity of the alkaline modified wooden sawdust for the removal of heavy metals from wastewater was improved. [ABSTRACT FROM AUTHOR]

Published

2019

27. Proposal and Testing of Multi-Step Process for Acid Mine Drainage Treatment.

Author

HOLUB, Marian, BALINTOVA, Magdalena, and PAVLIKOVA, Petra

Subjects

ACID mine drainage, HUMAN beings, ANIMALS, SULFIDE minerals, SULFATES

Abstract

Copyright of Inzynieria Mineralna is the property of Polskie Towarzystwo Przerobki Kopalin and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

28. Metal Pollution Indices of Bottom Sediment and Surface Water Affected by Acid Mine Drainage.

Author

Singovszka, Eva, Balintova, Magdalena, Demcak, Stefan, and Pavlikova, Petra

Subjects

RIVER sediment quality, HEAVY metals, MINERAL industries, ACID mine drainage, PARTITION coefficient (Chemistry)

Abstract

Sediments are normally the final pathway of both natural and anthropogenic components produced or derived from the environment. Sediment quality is a good indicator of pollution in the water column, where heavy metals and other organic pollutants tend to concentrate. Metals are introduced in aquatic systems as a result of the weathering of soils and rocks, from volcanic eruptions, and from a variety of human activities involving the mining, processing, or use of metals and/or substances that contain metal pollutants. Heavy metal concentration in the water column can be relatively low in some cases, but the concentrations in the sediment may be elevated. The presented work aimed to investigate the pollutant levels of some heavy metals (Fe, Mn, Al, Cu, Zn, As, Cd, Pb) in the water and sediments related to acid mine drainage (AMD) produced from an abandoned sulphide mine in Smolnik in Eastern Slovakia. A metal pollution index was used to compare the total content of metals at five sampling stations. The level of partitioning of the metals between the surface water and sediments in the area was calculated using Partition coefficients and the correlation coefficients between the metal pairs in both media were calculated by a Pearson coefficient. [ABSTRACT FROM AUTHOR]

Published

2017

29. Adsorption of Pb(II) from Aqueous Solution by Mussel Shell-Based Adsorbent: Preparation, Characterization, and Adsorption Performance.

Author

Wang, Quan, Jiang, Fangyuan, Ouyang, Xiao-Kun, Yang, Li-Ye, Wang, Yangguang, and Balintova, Magdalena

Subjects

FREUNDLICH isotherm equation, FOURIER transform infrared spectroscopy, AQUEOUS solutions, MUSSELS, X-ray photoelectron spectroscopy, ADSORPTION kinetics

Abstract

As a natural biological adsorbent, shell powder is inexpensive, highly efficient, and does not leave any chemical residue; thus, it can be used to remove contaminants from water. In this study, we used mussel shells as a raw material to prepare an adsorbent. Scanning electron microscopy was used to observe the surface morphology of the mussel shell powder before and after calcination, and X-ray diffraction measurements, Fourier transform infrared spectroscopy, differential scanning calorimetry, X-ray photoelectron spectroscopy, and Brunauer–Emmett–Teller measurements were performed to analyze the structure and composition of calcined mussel shell powder. Characterization of the shell powder before and after calcination revealed a change from calcium carbonate to calcium oxide, as well as the formation of a surface porous structure. Using Pb(II) as a representative contaminant, various factors affecting the adsorption were explored, and the adsorption mechanism was analyzed. It was found that the adsorption is consistent with the Freundlich adsorption isotherm and the pseudo second-order model. The calcined mussel shell powder exhibits excellent adsorption for Pb(II), with an adsorption capacity reaching 102.04 mg/g. [ABSTRACT FROM AUTHOR]

Published

2021

30. Influence of Wooden Sawdust Treatments on Cu(II) and Zn(II) Removal from Water.

Author

Kovacova, Zdenka, Demcak, Stefan, Balintova, Magdalena, Pla, Cocencepcion, and Zinicovscaia, Inga

Subjects

WOOD waste, FOURIER transform infrared spectroscopy, ORGANIC wastes, WASTE products, ION exchange (Chemistry), LANGMUIR isotherms

Abstract

Organic waste materials and semi-products containing cellulose are used as low-cost adsorbents that are able to compete with conventional sorbents. In addition, their capacity to bind heavy metal ions can be intensified by chemical treatments using mineral and organic acids, bases, oxidizing agents, and organic compounds. In this paper, we studied the biosorption capacity of natural and modified wooden sawdust of poplar, cherry, spruce, and hornbeam in order to remove heavy metals from acidic model solutions. The Fourier transform infrared spectroscopy (FTIR) spectra showed changes of the functional groups due to the alkaline modification of sawdust, which manifested in the considerably increased intensity of the hydroxyl peaks. The adsorption isotherm models clearly indicated that the adsorptive behavior of metal ions in treated sawdust satisfied not only the Langmuir model, but also the Freundlich model. The adsorption data obtained for studied sorbents were better fitted by the Langmuir isotherm model for both metals, except for spruce sawdust. Surface complexation and ion exchange are the major mechanisms involved in metal ion removal. We investigated the efficiency of the alkaline modified sawdust for metal removal under various initial concentrations of Cu(II) and Zn(II) from model solutions. The highest adsorption efficiency values (copper 94.3% at pH 6.8 and zinc 98.2% at pH 7.3) were obtained for poplar modified by KOH. For all types of sawdust, we found that the sorption efficiency of modified sorbents was higher in comparison to untreated sawdust. The value of the pH initially increased more in the case of modified sawdust (8.2 for zinc removal with spruce NaOH) and then slowly decreased (7.0 for Zn(II) with spruce NaOH). [ABSTRACT FROM AUTHOR]

Published

2020

31. The Influence of Phosphogypsum Addition on Phosphorus Release in Biochemical Treatment of Sewage Sludge.

Author

Chernysh, Yelizaveta, Balintova, Magdalena, Plyatsuk, Leonid, Holub, Marian, and Demcak, Stefan

Published

2018