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Efeito interferente de compostos orgânicos no tratamento de efluentes sintéticos, contendo metil parabeno por processos eletroquímicos / Interfering effect of organic compounds on the treatment of synthetic wastewater, containing parabens, by electrochemical processesDionisio, Dawany 25 February 2019 (has links)
Interferentes endócrinos são substâncias que podem causar danos ao meio ambiente e à saúde humana. Estes compostos são usados na produção de vários produtos de uso diário, porém não são completamente eliminados dos efluentes industriais, contribuindo para a contaminação de diversas matrizes ambientais. Nesse contexto, os processos eletroquímicos se destacam com boas eficácias no tratamento de diversos tipos de efluentes. No entanto, uma melhor compreensão do processo é importante para estabelecer tratamentos de efluentes que possam ser mais amplamente aplicados. Esta tese aborda a degradação do metil parabeno (MeP), em diferentes efluentes sintéticos, via eletrólise com ânodos de misturas de óxidos metálicos comercial (MOM-Cl2) e diamante dopado com boro (DDB). Ainda mais importante, o MeP é utilizado como uma molécula modelo para o compreender os efeitos da irradiação de luz UV e de ultrassom (US) durante a eletrólise. É importante lembrar que a composição da matriz deve afetar a eficiência do processo e, assim, também se utiliza o MeP como modelo para entender os possíveis efeitos interferentes de outros compostos orgânicos na sua oxidação. Finalmente, se estuda um efluente simulado da indústria cosmética para melhor compreender os efeitos da eletrólise e da irradiação de US em uma matriz complexa. Foram observadas grandes diferenças entre as eficiências dos tratamentos com MOM-Cl2 e DDB, principalmente com relação ao mecanismo de degradação do MeP. Nos estudos com MOM-Cl2, muitas vezes o efluente final era mais complexo que o inicial, devido à formação de produto sólido, reações de polimerização e alto efeito de interferência quando dois compostos são tratados simultaneamente. Com o DDB, o processo de mineralização é muito mais favorecido, independentemente da complexidade do efluente. O efeito de interferência ganha significância na presença de altas concentrações de um segundo composto orgânico, mas a completa mineralização ainda foi atingida. A irradiação de UV e US representou melhoras no processo de remoção de matéria orgânica, principalmente com relação aos produtos do MeP. Foi observado que surfactantes podem interferir negativamente na degradação de compostos orgânicos devido a formação de micelas. Diante de alto conteúdo micelar a eficiência do processo diminui, porém 90% de mineralização do efluente foi alcançada. A irradiação de US ajuda significativamente no aspecto físico do efluente tratado, sendo possível obter a transformação de emulsões, com alta turbidez e material particulado, em soluções completamente límpidas e mineralizadas. / Endocrine disrupting chemicals (EDCs) are responsible for causing adverse effects on the environment and on human health. Those substances are extensively used in several costumer products, such as pharmaceuticals and cosmetics. However, several EDCs are not completely removed from industrial wastewaters by the most common treatments, contributing on the environmental contamination. In this context, electrochemical processes can be highlighted due to its efficacy presented on the treatment of numerous types of wastewater. Nevertheless, better understanding of the process is important in order to design wastewater treatments that can be widely applied. Hence, this thesis focus on the degradation of methyl paraben (MeP), in different synthetic wastewater, by electrolysis with mixed metal oxides commercial (MMO-Cl2) and boron-doped anode (BDD) anodes. More importantly, MeP is used as a model molecule to understand the effects of the irradiation of UV light and of ultrasound (US) during the electrolysis. It is important to consider that matrix composition must affect the process efficiency. Hence, MeP is also used as model to shed a light on the possible interfering effects of other organics on its oxidation. Finally, a simulated wastewater from cosmetic industry is studied in order to better comprehend the effects of electrolysis and of ultrasound on complex matrix. Great differences were observed on the efficiency of treatments using MMO-Cl2 and BDD, mostly regarding the mechanism of MeP oxidation. With MMO-Cl2, the treated wastewater was often more complex than the initial one, due to the formation of solid product, polymerization reaction and great interfering effect when two compounds are simultaneously treated. Conversely, using BDD, the mineralization process is favored, regardless the complexity of the matrix. Interfering effect on MeP oxidation is relevant under the presence of huge concentrations of a second organic compound, though the complete mineralization is attained. Irradiation of UV and of US resulted in better removals of organic matter, mainly with respect to MeP products. It was observed that surfactants may interfere on the degradation of organic compounds due to the formation of micelles. The efficiency of the process decreases under high micelles content, however 90% of mineralization was achieved. Irradiation of ultrasound notably improves the physical aspect of the treated wastewater, assisting on the transformation of emulsions, with great turbidity and amount of particles, in clear non-organic solutions.
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Crystallization of Parabens : Thermodynamics, Nucleation and ProcessingHuaiyu, Yang January 2013 (has links)
In this work, the solubility of butyl paraben in 7 pure solvents and in 5 different ethanol-water mixtures has been determined from 1 ˚C to 50 ˚C. The solubility of ethyl paraben and propyl paraben in various solvents has been determined at 10 ˚C. The molar solubility of butyl paraben in pure solvents and its thermodynamic properties, measured by Differential Scanning Calorimetry, have been used to estimate the activity of the pure solid phase, and solution activity coefficients. More than 5000 nucleation experiments of ethyl paraben, propyl paraben and butyl paraben in ethyl acetate, acetone, methanol, ethanol, propanol and 70%, 90% ethanol aqueous solution have been performed. The induction time of each paraben has been determined at three different supersaturation levels in various solvents. The wide variation in induction time reveals the stochastic nature of nucleation. The solid-liquid interfacial energy, free energy of nucleation, nuclei critical radius and pre-exponential factor of parabens in these solvents have been determined according to the classical nucleation theory, and different methods of evaluation are compared. The interfacial energy of parabens in these solvents tends to increase with decreasing mole fraction solubility but the correlation is not very strong. The influence of solvent on nucleation of each paraben and nucleation behavior of parabens in each solvent is discussed. There is a trend in the data that the higher the boiling point of the solvent and the higher the melting point of the solute, the more difficult is the nucleation. This observation is paralleled by the fact that a metastable polymorph has a lower interfacial energy than the stable form, and that a solid compound with a higher melting point appears to have a higher solid-melt and solid-aqueous solution interfacial energy. It has been found that when a paraben is added to aqueous solutions with a certain proportion of ethanol, the solution separates into two immiscible liquid phases in equilibrium. The top layer is water-rich and the bottom layer is paraben-rich. The area in the ternary phase diagram of the liquid-liquid-phase separation region increases with increasing temperature. The area of the liquid-liquid-phase separation region decreases from butyl paraben, propyl paraben to ethyl paraben at the constant temperature. Cooling crystallization of solutions of different proportions of butyl paraben, water and ethanol have been carried out and recorded using the Focused Beam Reflectance Method, Particle Vision and Measurement, and in-situ Infrared Spectroscopy. The FBRM and IR curves and the PVM photos track the appearance of liquid-liquid phase separation and crystallization. The results suggest that the liquid-liquid phase separation has a negative influence on the crystal size distribution. The work illustrates how Process Analytical Technology (PAT) can be used to increase the understanding of complex crystallizations. By cooling crystallization of butyl paraben under conditions of liquid-liquid-phase separation, crystals consisting of a porous layer in between two solid layers have been produced. The outer layers are transparent and compact while the middle layer is full of pores. The thickness of the porous layer can reach more than half of the whole crystal. These sandwich crystals contain only one polymorph as determined by Confocal Raman Microscopy and single crystal X-Ray Diffraction. However, the middle layer material melts at lower temperature than outer layer material. / <p>QC 20130515</p> / investigate nucleation and crystallization of drug-like organic molecules
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Evaluation de l’activité oestrogenique de contaminants et développement d’un bio-récepteur d’affinité pour la détection d’une xéno-hormone / Evaluation of estrogenic activity of contaminants and development of a bio-affinity receptor for a xeno-hormone detectionIbn Hadj Hassine, Aziza 23 April 2014 (has links)
Depuis plusieurs années, des agents exogènes environnementaux appelés perturbateurs endocriniens (PE), sont soupçonnés d’interférer avec les fonctions essentielles de reproduction et de développement chez de nombreux organismes vivants. Pour la protection de l’Environnement et de l’Homme, la Directive Cadre sur l’Eau établit des normes de qualité environnementale (NQE) et limite la concentration de trente-trois substances et de huit autres polluants dans les eaux de surface. En revanche, elle ne prend pas encore en compte l’effet de ces substances prioritaires sur les écosystèmes et les humains notamment la perturbation endocrinienne. De plus les spécificités des perturbateurs endocriniens (courbe dose réponse, effets de mélanges etc..) rendent le processus d'identification de ces molécules complexe. Cette thèse est axée sur l’étude d’un des effets hormonaux, les plus couramment rencontrés, la perturbation estrogénique en utilisant comme outils de diagnostic le yeast estrogen screen (YES). Cette étude porte plus particulièrement sur le nord de la Tunisie où l’impact de certains PE sur le développement de poissons Aphanius fasciatus a été mis en évidence. Certains xénoestrogènes comme le cadmium et les HAP, produits générés par l’industrie locale, sont en partie mis en cause dans les malformations observées. En parallèle, certains xénoestrogènes (parabènes notamment) sont retrouvés dans les eaux de stations d’épuration. D’autres produits chimiques comme les colorants textiles et alimentaires ont également des activités endocriniennes. Dans le cadre de la surveillance de la qualité des eaux, il est nécessaire de développer des tests rapides de détection de ces perturbateurs venant complémenter les analyses chimiques. Certaines substances actives sur le système endocrinien étant peu immunogènes, l’axe de recherche développé, dans ce cadre de cette thèse, porte sur un peptide affine pour détecter une myoestrogène, l’ochratoxine A. / For several years, environmental exogenous agents called endocrine disruptors (ED) , are thought to interfere with reproduction and development fonctions in many organisms . For the Protection of the Environment and human health, the Water Framework Directive establishes environmental quality standards (EQS) and limits the ranges of thirty-three substances and eight other pollutants in surface waters. Nevertheless, it does not yet take into account the effect of these priority substances on ecosystems and humans including endocrine disruption. More than endocrine disruptors specificity (dose response curve , mixtures effect etc. .. ) make the identification process more complex. This thesis focuses on the study of hormonal effects, the most commonly encountered, estrogen disruption using the yeast estrogen screen (YES) as diagnostic tool. This study focuses particularly on the north of Tunisia, where the impact of ED on development of Aphanius fasciatus . Some xenoestrogens such as cadmium and PAH products generated by local industry are partly implicated on observed skeletal deformities. In parallel, some xenoestrogens (including parabens) are detected in the waters of sewage treatment plants. Other chemicals such as textile and food dyes also have endocrine activities. Under the supervision of water quality, it is necessary to develop rapid tests to detect endocrine disrupter and supplement chemical analyzes. Some active substances on the endocrine system is poorly immunogenic, the research axis developed in this thesis focuses on a peptide affinity for detecting a fungi toxin, ochratoxin A.
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Investigations intothe crystallization of butyl parabenYang, Huaiyu January 2011 (has links)
In thisproject, solubility of butyl paraben in 7 puresolvents and 5 ethanol aqueous solvents has been determined at from 1 ℃to 50 ℃. Thermodynamic properties of butyl paraben have been measured by DifferentialScanning Calorimetey. Relationship between molar solubility of butyl paraben in6 pure solvents and thermodynamic properties has been analyzed. Thisrelationship suggests a method of estimating activity of solute at equilibrium fromcombining solubility data with DSC measurements. Then, activity coefficient accordingto the solubility at different temperatures can be estimated. Duringthe solubility measurements in ethanol aqueous solvents, it is found that whenbutyl paraben is added into aqueous solutions with certain proportion ethanol,solutions separates into two immiscible liquid layers in equilibrium. Water andethanol are primary in top layer, while the butyl paraben is primary in bottomlayer, but the solution turns to cloudy when two layers of solution are mixed. Theaim of this work was to present the phase behaviour of liquid-liquid-phaseseparation for (butyl paraben + water + ethanol) ternary system from 1 ℃ to 50 ℃at atmospheric pressure. Thearea of liquid-liquid-phase separation region in the ternary phase diagram increaseswith the increasing temperature from 10 ℃to 50 ℃. In thisstudy, more than several hundreds of nucleation experiments of butyl paraben havebeen investigated in ethyl acetate, propanol, acetone and 90% ethanol aqueoussolution. Induction time of butyl paraben has been determined at 3 differentsupersaturation levels in these solvents, respectively. Free energy ofnucleation, solid-liquid interfacial energy, and nuclei critical radius havebeen determined according to the classical nucleation theory. Statistical analysis ofinduction time reveals that the nucleation is a stochastic process with widevariation even at the same experiment condition. Butyl paraben nucleates most difficultlyin 90 % ethanol than in other 3 solvents, and most easily in acetone. The interfacialenergy of butyl paraben in these solvents tends to increasing with decreasemole fraction solubility in these solvents. Coolingcrystallizations with different proportions of butyl paraben, water and ethanolhave been observed by Focused Beam Reflectance Method, Parallel VirtualMachine, and On-line Infrared. The FBRM, IR curves and the PVM photos show someof the solutions appeared liquid-liquid phase separation during coolingcrystallization process. The results suggest that if solutions went throughliquid-liquid phase separation region during the cooling crystallizationprocess the distribution of crystals crystal was poor. Droplets from solutions withsame proportion butyl paraben but different proportions of water and ethanolhave been observed under microscope. Induction time of the droplets has been determinedunder the room temperature. Droplets from top layer or bottom layer of solutionwith liquid-liquid phase separation on small glass or plastic plates were alsoobserved under microscope. The microscope photos show that the opposite flows ofcloudy solution on the glass and the plastic plate before nucleation. The resultsof the cooling and evaporation crystallization experiments both revealed thatnucleation would be prevented by the liquid-liquid phase separation. / QC 20110630
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