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Removal of sulfonamide antibiotics using advanced oxidation processes
Fučík, Jan ; Suková, Petra (referee) ; Tulková, Tereza (advisor)
This thesis deals with a present problem of increasing concentrations of pharmaceuticals and other micropollutants in aquatic environment, because these micropollutants are not treated sufficiently in conventional wastewater treatment plants. It is necessary to develop new technological processes, that are able to treat these pollutants sufficiently. One of the options is that conventional methods would be complementary with advanced oxidation processes (AOP), which would work as a tertiary cleaning process on wastewater treatment plants. The actual knowledge, principle of the plasma discharge and principle of analytical methods is described in theoretical part of the thesis. In experimental part of the thesis, the plasma discharge is used for removal of sulfonamide antibiotics (sulfamethoxazole), as the representative of AOP. Samples were taken during the plasma treatment of the model solution of sulfamethoxazole. These samples were analysed by LC-ESI-MS as the appropriate analytical method. An efficiency of degradation of sulfamethoxazole in different solutions (neutral, acidic and alkaline) was evaluated in this bachelor thesis. A suitability of plasma application on degradation of sulfonamide antibiotics was reviewed by comparing with other AOP.
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Study of glyphosate degradation in water plasma application
Vašinková, Alena ; Vávrová, Milada (referee) ; Mravcová, Ludmila (advisor)
This work deals with the current problem of increasing concentrations of glyphosate in groundwater and wastewater due to insufficient efficiency of methods used in wastewater treatment. From this point of view effective removing of glyphosate from water have to be developed by new methods and technological processes. The methods used so far in wastewater treatment plants should be replaced or supplemented by advanced oxidation processes. The practical part of this work is devoted to glyphosate and its degradation in water by plasma. Samples were taken sequentially during plasma application and further evaluated by LC/MS selected as suitable analytical methods. The aim of this work was to determine the efficiency of plasma in water with admixture of glyphosate.
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Use of plasma for degradation of ibuprofen in water
Bača, Ondřej ; Landová, Pavlína (referee) ; Mravcová, Ludmila (advisor)
This Bachelor’s thesis deals with the current problem of increasing concentrations of nonsteroidal anti-inflammatory drugs in water. The concentration increase of these drugs is due to rised anti-inflammatory drugs intake in modern era. Wastewater treatment plants are not capable of sufficient elimination of these drugs in wastewater. That leads to contamination of groundwater and surface water. The long-term impacts of these drugs on human health is not fully understood, so it is necessary to develop new methods, which will lead to complete degradation of nonsteroidal anti-inflammatory drugs and other pollutants. Theoretical part of the Bachelor’s thesis focuses on description and properties of nonsteroidal anti-inflammatory drugs and their consumption in the Czech Republic. Furthermore, the paper deals with advanced oxidation processes especially with plasma. This part of the paper also deals with determination of nonsteroidal anti-inflammatory drugs in water. For degradation of ibuprofen was used plasma. During the plasma treatment, samples were taken in regular time intervals, which were afterwards determined by an appropriate analytical method LC-ESI-MS. The results were compared with scientific studies dealing with this topic.
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Use of Advanced Oxidation Processes to remove selected pollutants from the water matrix
Minich, Marek ; Landová, Pavlína (referee) ; Repková, Martina (advisor)
This bachelor’s thesis deals with the topic of using Advanced Oxidation Processes (AOP) to remove selected pollutants from the water matrix via food dye Brilliant Blue E133 removal. For the AOPs reactions systems 3 types were chosen: UV/H2O2, UV/TiO2 and UV/H2O2/TiO2 system. Although the AOP reactor prototype has been constructed only for the TiO2 system, there has been proven efficiency for the two remaining systems. All three of these systems exhibited dye degradation level from 63,29 ± 9,97 % for UV/TiO2 system to 77,06 ± 2,23 % for UV/H2O2 system in 240 minutes long experiments. This thesis offers complex and up to date view regarding AOP issue in wider context and demonstrates its usefulness in half controlled conditions.
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Removal of selected organic pollutants from water using advanced oxidation processes
Dalajková, Nikola ; Vávrová, Milada (referee) ; Repková, Martina (advisor)
The aim of this diploma thesis is the determination of selected organic pollutants with a focus on artificial sweeteners in waste water from wastewater treatment plant (WWTP) Modřice and the subsequent degradation of the thus obtained concentrations in model water using advanced oxidation processes (AOP). Two sweeteners were determined, namely sucralose and saccharin found in waste water. Synthetic sweeteners are not sufficiently cleaned in the WWTP and penetrate the environment. Effective processes for removing organic substances, including alternative sweeteners, are AOP processes. These processes are based on reactions of highly reactive hydroxyl radical (OH·), which is produced by many chemical reactions. Generally, they use ozone (O3) and hydrogen peroxide (H2O2). On sampling, wastewater samples were treated with Solid Phase Extraction (SPE) and then evaluated by HPLC/MS (High Performance Liquid Chromatography). In observing the degradation of selected sweeteners, three AOP methods were used: O3/UV, H2O2/UV and O3/H2O2. For each of these methods, the efficiency of degradation of sucralose and saccharin was investigated. From the evaluated data it was found that the most efficient AOP process for removing artificial sweeteners from water is the O3/H2O2 method.
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Antidepresiva - výskyt v přírodních vodách, účinky na organismy, možnosti jejich fototransformace v přírodním prostředí
ČERNÁ, Pavlína
The thesis is focused on one group of organic xenobiotic compounds, antidepressants, their presence in natural waters and their effects on aquatic organisms. A survey of increasing consumption of antidepressants in developed countries is presented together with numerous studies proving rising concentrations of these compounds in natural sufrace waters. Several studies dealing with influence of antidepressants on selected aquatic organisms of different trophic levels are demonstrated. Modern techniques, including AOPs (advanced oxidation processes), used for possible better waste waters treatment are discussed.
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Removing organic contamination from water, using UV radiation.
Venská, Petra ; Vávrová, Milada (referee) ; Repková, Martina (advisor)
This diploma thesis focuses on possibilities of applications of UV radiation to remove pollutants from water. It summarizes sources of UV radiation and list their benefits and properties. The thesis characterizes so called advanced oxidation processes using UV light. Degradation pathways od pyridine and its derivatives especially halogenated pyridines are described. The photodegradability of pyridine and a rate of this reaction in model water is investigated in the experimental part. Also, the effect of concentration and dose of H2O2 is assessed. Gas chromatography was used to determinate concentrations of pyridine in samples.
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Use of oxidation processes (AOP) for removal of micropolutants
Stříteský, Luboš ; Pešoutová,, Radka (referee) ; Hlavínek, Petr (advisor)
This thesis deals with advanced oxidation processes (AOPs) and it’s use for removal of micropollutants from wastewater. The first chapter explains the need AOPs, water quality, pollution and substances that are present in the water. Further, the first chapter outlines approach of the current legislation to micropollutants. The second chapter explains the theory and principle of operation of AOPs. This chapter is divided into two sections. The first section describes AOPs, which were tested at selected WWTP. In the second section, there are described some other AOPs. The third chapter is a literature retrieval of AOPs dealing with the removal of micropollutants. This chapter is focused on the removal of hormones by AOPs using ozone-based AOPs. The fourth chapter describes the actual testing of selected AOPs. The chapter describes selected WWTP, pilot-scale AOP unit and test results. In the last chapter there is designed and described full-scale AOP tertiary unit for removing of micropollutants. The last chapter also contains economic analysis of the proposed tertiary unit.
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Advanced oxidation processes in environmental applications
OLŠAN, Pavel
The aim of this thesis is the study of application of the synergistic effects of various advanced oxidation processes (AOP) used for decomposition of chemical compounds resistant to biodegradation. The synergistic effect of photocatalytically active material and low temperature plasma were tested in my thesis. Model substances with photocatalytically active material were exposed to atmospheric plasma discharge (Gliding Arc) in order to improve generation of the active hydroxyl groups and oxidation processes. The first chapter of the theoretical part summarizes the knowledge of advanced oxidation processes, their principles and utilization. Next chapters are dedicated to basic summary of titanium dioxide and types of creating the thin films. The last part of theoretical chapter describes the types of plasma discharges. The experimental part describes the equipment for decomposition of chemical compounds resistant to biodegradation using AOP. Next chapter of the experimental part is dedicated to decomposition of organic dye AO7 and antibiotic Verapamil hydrochloride. The last chapter summarizes the results of the experiments.
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