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The partial model of sewage treatment plant
Novák, Petr ; Ptáček, Michal (referee) ; Radil, Lukáš (advisor)
The thesis deals with wastewater treatment plants (WWTPs). For the energetic self-sufficiency of the WWTP, it is necessary to study the operational background, equipment and their possible operational prediction for energy distribution over time and adaptation to any renewable energy (RES). It is also possible to optimize the operation to maximize the equalization of the input power. We're talking about small WWTPs up to 500 EP. Large purification blocks are also an option. The student will evaluate the current state of knowledge and try to design and possibly implement the financial savings of the given concept.
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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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The partial model of sewage treatment plant
Novák, Petr ; Ptáček, Michal (referee) ; Radil, Lukáš (advisor)
The thesis deals with wastewater treatment plants (WWTPs). For the energetic self-sufficiency of the WWTP, it is necessary to study the operational background, equipment and their possible operational prediction for energy distribution over time and adaptation to any renewable energy (RES). It is also possible to optimize the operation to maximize the equalization of the input power. We're talking about small WWTPs up to 500 EP. Large purification blocks are also an option. The student will evaluate the current state of knowledge and try to design and possibly implement the financial savings of the given concept.
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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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Monitoring of (anti-)progestagenic activity in wastewater by in vitro bioassay
BERANOVÁ, Petra
The aim of this diploma thesis was to detect (anti-)progestagenic activity in wastewater samples from the influent and effluent of six wastewater treatment plants (WWTPs) located in South Bohemia. Subsequently, the efficiency of the treatment process of this WWTPs was assessed from this point of view. The wastewater from WWTPs was transported to the laboratory and extracted oby solid phase extraction. The eluates were washed, evaporated and dissolved in DMSO. Detection of (anti-)progestagenic activity was performed by using the PR-CALUX in vitro bioassay. Transgenic cells were seeded on well plates and were exposed to ORG2058, reference substance for progestagenic activity, or RU-486, reference substance for antiprogestagenic activity, as well as a number of diluted wastewater extracts. After that, luminiscence of the cells was measured and it was was expressed in relative light units which were a measure of (anti-)progestagenic activity.(Anti-)progestagenic activity was reported in equivalent concentrations of the reference substance. Progestagenic activity in WWTPs influent ranged from below LOQ up to 1.8 ng/l ORG2058 eq. In effluent this activity ranged from below LOQ up to 0.5 ng/l ORG2058 eq. The elimination rate of progestagenic activity ranged from -25% to 100%. Antiprogestagenic activity in WWTPs inffluent was below the LOQ up to 1 ng/l RU-486 eq. In effluent this activity was below LOQ up to 9.7 ng/l RU-486 eq. The elimination rate of antiprogestagenic activity ranged from -50% to 100%.(Anti-)progestagenic activity in waste water has been demonstrated by using the PR-CALUX in vitro bioassay. Negative removal efficiency of some WWTPs was also documented. This is probably caused by biotransformation of some substances which don´t have (anti-)progestagenic activity to substances which have this activity or it is caused by deconjugation of metabolits of compounds with (anti-)progestagenic activity. Antiprogestagenic activity may be more hazardous for organisms living in the aquatic environment than progestagenic activity because of concentrations in WWTPs effluent. However this activity should not be underestimated.
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