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Application of membrane methods for recycling of washing water from sand filters of pool technology
Humeníková, Juliana ; Mergl, Václav (referee) ; Repková, Martina (advisor)
The diploma thesis deals with the application of membrane processes for the treatment of washing water from sand filters of pool technology to parameters suitable for its reuse, not only on a theoretical level, but also on a real example. The experimental part deals with the monitoring of relevant parameters given by Decree no. 568/2000 Sb. and other technologically significant water quality indicators. All monitored parameters in the reverse osmosis permeate reached satisfactory values and thus it was concluded that the effluent water is suitable for reuse. Instead of being discharged into the sewer, it is possible to recycle 70 to 80 % of the washed water per day thanks to the applied technology, which saves approximately 20 m3 of water per day.
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Anaerobic membrane bioreactor (AnMBR) for food industry wastewater treatment.
Polášek, Daniel ; Bodík,, Igor (referee) ; Rusník,, Igor (referee) ; Hlavínek, Petr (advisor)
The most significant environmental problems related to the food industry is water consumption and pollution, energy consumption and waste production. Most of the water that does not become a part of the products ultimately leaves plants in the form of wastewater, which is often very specific and requires adequate handling / treatment / disposal. For the purpose of this thesis, brewery industry was chosen, because of its very long tradition in the Czech history and culture. Anaerobic technologies are applied for still wider range of industrial wastewater treating. In general anaerobic membrane bioreactors (AnMBRs) can very effectively treat wastewater of different concentration and composition and produce treated water (outlet, permeate) of excellent quality, that can be further utilised. At the same time, it can promote energy self-sufficiency through biogas production usable in WWTPs / plants. Main disadvantages include unavoidable membrane fouling and generally higher CAPEX / OPEX. Within the framework of Ph.D. studies and related research activities, immersed membrane modules for anaerobic applications were selected and lab-scale tested (designed and assembled laboratory unit), an AnMBR pilot plant was designed, built and subsequently tested under real conditions - at Černá Hora Brewery WWTP (waste waters from the brewery and associated facilities). The pilot AnMBR and the technology itself has been verified over more than a year (5/2015 – 11/2016) of trial operation - the initial and recommended operational parameters have been set up, minor construction adjustments / modifications and measurement & regulation optimizations have been made, the recommended membrane cleaning and regeneration procedure has been verified. Last, but not least, conclusions and recommendations of the trial operation were summarised - some key findings and recommendations for further operation, use and modifications of the existing AnMBR pilot plant are presented.
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Optimization of urinary exosome isolation for proteomic analysis in kidney disease diagnosis
Ulrychová, Lucie ; Přikryl, Petr (advisor) ; Kučerová, Zdenka (referee)
Extracellular vesicles (exosomes) are the subject of current nephrology proteomics research as they are considered as a promising source of potential biomarkers of kidney disease. This work is focused on discovery of the most appropriate procedure for the urinary exosomes isolation. We have compared already described methods, based on different physicochemical principles of isolation: hydrostatic filtration dialysis (HFD), differential ultracentrifugation, ultrafiltration through a 100 kDa filter, or sample precipitation with Total Exosome Isolation (from urine) kit. Characterization of individual isolated exosomal fractions was performed using SDS-PAGE method (presence of contaminating proteins), western blot analysis (detection of exosomal markers TSG101, alix), nanoparticle tracking analysis (NTA, vesicle size and concentration) or transmission electron microscopy (TEM, vesicles morphology). Due to the presence of contaminating proteins in urine samples, which could distort the results of subsequent proteomic assays, the conditions for the cleavage of undesirable proteins by proteinase K prior to their own isolation were optimized. It has been found that the best yield and purity of the isolated exosomal fractions were provided by a process combining HFD with differential ultracentrifugation...
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Study of plasma protein binding of radiopharmaceuticals
Hafinec, Václav Matyáš ; Lázníček, Milan (advisor) ; Ramos Mandíková, Jana (referee)
Study of Plasma Protein Binding of Radiopharmaceuticals Summary The purpose of this work is the study of binding of substances (177 Lu-DOTA- [Lys3]bombesin, 177 Lu-NOTA-[Lys3]bombesin, 177 Lu-PCTA-[Lys3]bombesin, and 177 Lu- DOTA-MG47) to plasma proteins by equilibrum dialysis in 37řC, particularly using plasma samples of beef, rabbit, rat and human. Within this group, these substances were compared interspecifically. The substances 177 Lu-DOTA-[Lys3]bombesin, 177 Lu-NOTA-[Lys3]bombesin, 177 Lu- PCTA-[Lys3]bombesin, and 177 Lu-DOTA-MG47 are the newly developed receptor- specific radiolabeled peptides. For all the newly collected data, the interspecific comparison and subsequent statistical evaluation was performed. The indicated bombesin derivates were compared and statistically analyzed even between themselves. During the interspecies comparisons and the determination of the statistical significance of the data, there were found statistically significant and statistically highly significant differences between some of the examined samples. A highly significant difference was found during comparing with samples of 177 Lu-NOTA- [Lys3]bombesin and statistical evaluation, there was found a statistically highly significant difference. Despite the differences found, it is clear that the plasma binding concerning...
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Measurements of permeability of dialysis membranes
Veselá, Martina ; Jiřík, Radovan (referee) ; Kolářová, Jana (advisor)
Familiarization with dialysis theoretical principles and determination of dialysis membrane permeability with the help of experimentally assembled apparatus is the aim of this bachelor thesis. The introduction part deals with basic knowledge concerning treatment with dialysis and its current quality. There continues a chapter stating an overview of dialysis membranes different types and main characteristics of individual materials, which the membranes were made of and which they are produced now. Theoretical preparation for the practical part of the thesis clarifies the basic notions, principals and processes connected with the mass transfer through dialysis membranes and dialysis. Further on, theoretical process is described and phrased how to determine dialysis membranes permeability in a laboratory scale in an experimental way. Two possible configurations of experimental apparatus are illustrated with block schemes working either in a non-stationary or a stationary regime of measurement. The basis to determine membrane permeability is sampling in specified time intervals from blood and dialyze side and spectrophotometric detection of samples concentration. The practical part itself is preceded with the process with collected samples analysis. Then, it is followed with relations derivation for mass transfer coefficient calculation. Concentration progress on blood and dialyze side with non-stationary way of measurement is modelled in Simulink programme. The practical part of the thesis uses the mentioned above theoretical knowledge and assumptions and it realises concrete measurements in non-stationary regime. Evaluating part of the thesis documents the obtained results and assesses them with the help of derived equations. The whole process of measurement including obtained results is evaluated and discussed in the final part.
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Determination of titanium dioxide nanoparticles in personal care products
Košík, Juraj ; Čáslavský, Josef (referee) ; Vávrová, Milada (advisor)
Předkládaná diplomová práce se zabývá extrakcí nanočástic oxidu titaničitého z produktů osobní péče, konkrétně opalovacích krémů a následnou charakterizací těchto částic. Počet komerčně dostupných produktů s obsahem nanočástic TiO2 se neustále zvyšuje a to se sebou přináší potřebu vyhodnotit potenciální osud a nepřímou expozici TiO2 nanošástic o různých velikostí a tvarů a zkoumat jejich celý životní cyklus. Bylo zkoumáno použití ultrafiltrace a ultracentrifugace jako extrakční metody. Dvě metody pro extrakci TiO2 nanočástic byly vyvinuty a aplikovány na vzorky opalovacích krémů. Extrahované částice mohou být použity pro ekotoxikologické studie, případně experimenty v mesokosmu. Velikost částic byla stanovena pomocí metody dynamického rozptylu světla a transmisní elektronové mikroskopie.
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Study of Transfer of Musk Compounds in Abiotic and Biotic Components of Aquatic Ecosystems
Zouhar, Libor ; Hajšlová, Jana (referee) ; Sokol, Jozef (referee) ; Večeřa, Zbyněk (referee) ; Vávrová, Milada (advisor)
This work was focused on the determination of musk compounds in various components of the environment. Synthetic musk compounds are organic substances commonly used as fragrant constituents of detergents, perfumes, cosmetics and other personal care products (PCPs). These compounds contaminate the aquatic environment through municipal wastewater from sewage treatment plants. The result is accumulation of these analytes in the environment and their occurrence in food chain. Synthetic fragrances are commonly detected also in human body; these substances generally belong among relatively new persistent organic pollutants (POPs) because of their persistence, bioaccumulation, and potential toxicity. The aim of this work was to optimize the methods for the determination of selected synthetic fragrances in wastewater (municipal, industrial) and in fish muscle. These analytes were determined in wastewater [the wastewater treatment plant (WWTP) Brno – Modřice, cosmetic manufacturing plant] and in fish Squalius cephalus that had been caught in the river Svratka. The selected analytes (14 substances) originate from the group of nitromusk, polycyclic musk and linear musk compounds. Solid phase microextraction (SPME) [for wastewater samples] and pressurized solvent extraction (PSE) [for fish samples] were used for isolation of analytes from real samples. The identification and quantification of analytes were carried out by high resolution gas chromatography coupled with mass spectrometry detection (GC-MS). The results show that galaxolide (g.L-1) and tonalide (tenths of g.L-1) were polycyclic musk compounds which were found at the highest concentration level in influent and also in effluent samples from the WWTP Brno – Modřice. The most extended nitromusk compound was musk ketone (hundredths of g.L-1). Linear musk compounds were detected in all influent samples (g.L-1). The overall removal efficiency of synthetic musk compounds from wastewater in the WWTP varies within the following ranges: nitromusk compounds 34.4 % – 85.4 %, polycyclic musk compounds 36.7 % – 53.3 % and linear musk compounds 90.5 % – 99.9 %. On the basis of the results it can be stated that wastewater (effluent from the WWTP) is the primary source of musk compounds, especially of the polycyclic ones in the environment. It has been also shown that ultrafiltration used in a cosmetic plant is a highly efficient technology for removing nitromusk and polycyclic musk compounds from industry wastewater. The results from evaluation of the fish contamination by musk compounds show that galaxolide was the substance which reached the highest concentration levels (tens of g.kg-1 l.w.). The results corroborate ubiquitous occurrence of musk compounds in the environment and reduction of using of nitromusk compounds due to their potential toxic properties. It has been shown that the insufficiency of the purifying procedures used in the WWTP Brno – Modřice has a significant influence on the concentration level of polycyclic musk compounds (tonalide, galaxolide) in fish caught from the river Svratka.
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Personal care products as environmental contaminants
Babuš, Ondřej ; Stoupalová, Michaela (referee) ; Vávrová, Milada (advisor)
Synthetic musk compounds were first prepared artificially in the late 19th century. They have been used to perfume cosmetics, detergents and personal care products. The attention of many researchers has been focused on it recently, due to its high penetration into the nature which is a logical consequence of its great use. The main goal of this thesis is to determine the effect of the ultrafiltration on the concentration reduction of substances mentioned above in the industrial waste waters produced by the cosmetic company. Analytes from the sample were extracted using solid phase microextraction (SPME) and on gas chromatography analysis with mass spectroscopy (GC / MS) has been performed. The whole method was optimized and evaluated. Determination of the average efficiency of the ultrafiltration was made based on data obtained before and after ultrafiltration. Such efficiency determines the suitability of use of this method for removal of synthetic musk compounds from waste waters.
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Assesment of basic characteristics of waste water from the Dermacol Company
Fribertová, Marcela ; Zlámalová Gargošová, Helena (referee) ; Vávrová, Milada (advisor)
This master thesis is focused on waste waters from cosmetics industry and basic indicators of these waters. The pollution of the environment caused by increase industrial development has a negative effect on ecosystem. Waste waters are part of the pollution. In theoretical part a basic indicators of waters (its definition and way of determination) have been described. Membrane processes for water purification have been mentioned as well – particularly the ultrafiltration. The experimental part of thesis deals with practical determination of indicators mentioned in methods described in the theoretical part. Results are discussed at the close. The discussion is focused on evaluation of efficiency of the device for waste waters adjustment, which is in use in the Dermacol company, which produces cosmetics products.
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The potential of microfiltration and ultrafiltration processes as a methods of ayays of water treatment plants
Zelený, Zdeněk ; Biela,, Renata (referee) ; Kučera, Tomáš (advisor)
This bachelor´s thesis deals with the possibilities od using membrane filtration in water treatment process intensification. The introduction presents the formativ and development of these technologies, their progressive expansion and application. Then deals with specific properties and possibilities of using microfiltration and ultrafiltration membrane modules. Part of this work is the description of the materials used for making membranes, their advantages and disadvantages. Below are the possible approaches to setting and operation of filtration technology in drinking water supply for residents. Another important point of this thesis is the description of cleaning, maintenance and any repairs or expansion of membráně modules depending on the method of operation and the type of memebrane module. Another point mentioned in this study is the description of both methods of testing the integrity of membranes, direct and indirect. Testing of memebrane integrity is considered one of the most important advantages over alternative membrane filtration water treatment methods. The final part is devoted to recent findings from on going research a concrete example of the membrane device installed in the Czech Republic.
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