Global ETD Search

61	Avaliação da remoção de diclofenaco e formação de subprodutos em tratamento de água / Evaluation of the removal of diclofenac and formation of by-products in water treatment Eliane Sloboda Rigobello 14 May 2012 (has links) A presença de resíduos de fármacos em águas superficiais e de abastecimento público tem preocupado a comunidade científica devido principalmente à sua persistência na água e aos efeitos adversos causados à comunidade aquática e aos possíveis riscos à saúde humana. Dentre os fármacos comumente identificados em águas de abastecimento público, encontram-se os anti-inflamatórios, como o diclofenaco (DCF), um dos fármacos mais consumidos no Brasil e no mundo. Nesse contexto, o presente trabalho, teve como objetivo principal estudar a eficiência das etapas de tratamento de água em ciclo completo (coagulação, floculação, sedimentação, filtração em areia e desinfecção com cloro) com e sem pré-oxidação com cloro e com dióxido de cloro e adsorção em carvão ativado granular (CAG) na remoção de DCF. Também foram determinados os trialometanos (THM) e identificados os principais subprodutos do DCF formados na oxidação com cloro e dióxido de cloro. Para a determinação do DCF nas amostras de água antes e após as etapas de tratamento de água foram desenvolvidos e validados métodos analíticos de extração em fase sólida (SPE) e cromatográfico por cromatografia líquida de alta eficiência (HPLC) com detecção no ultravioleta (UV). A validação do método foi feita de acordo com a resolução nº 899 de 2003 da Agência Nacional de Vigilância Sanitária (ANVISA), considerando os requisitos para métodos bioanalíticos. Os procedimentos analíticos empregados foram efetivos e confiáveis para a identificação e quantificação do DCF nas amostras de água antes e após os processos de tratamento de água. Os ensaios de tratamento de água foram feitos em equipamento de reatores estáticos (jarteste) e filtros de escala laboratorial empregando-se água de poço artesiano não clorada preparada com substâncias húmicas aquáticas (SHA) para conferir cor verdadeira de 20 uH, caulinita para conferir turbidez de 70 uT e fortificada com 1 mg L-1 de DCF. Os resultados indicaram que as etapas de coagulação com sulfato de alumínio, floculação, sedimentação e filtração em areia não removeram o DCF. Nas etapas de préoxidação com cloro e dióxido de cloro e de pós-cloração houve remoção parcial do DCF, porém verificou-se a formação de subprodutos provenientes da oxidação do DCF. Dentre os THM, foi quantificado apenas o clorofórmio na etapa de pré-oxidação com cloro. Em geral, os resultados indicaram que o dióxido de cloro foi mais eficiente na redução do DCF e formou menos subprodutos. Entretanto, o tratamento em ciclo completo seguido da adsorção em CAG foi eficiente na remoção de DCF, com remoção maior que 99,7%. Os subprodutos formados na oxidação com cloro e dióxido identificados por cromatografia líquida acoplada a espectrometria de massas em série (LC-MS/MS) consistiram na descaboxilação/hidroxilação e substituição aromática de átomos de hidrogênio por cloro. Os subprodutos identificados na oxidação com cloro apresentaram as seguintes fórmulas moleculares: C14H11</subCl2NO3, C13H10Cl3N e C14H10Cl3NO2. Com o dióxido de cloro foi identificado o subproduto de fórmula molecular igual a C14H11Cl2NO3. / The presence of pharmaceutical residues in surface waters and in drinking water supply has concerned the scientific community, mainly in which regards their persistence in water, adverse effects on the aquatic community and possible risks to human health. Antiinflammatory drugs, as diclofenac (DCF), are among those drugs commonly identified in drinking water supply. In this context, the main objective of this study was to assess the efficiency of the different stages of the conventional drinking water treatment (coagulation, flocculation, sedimentation, sand filtration and chlorine disinfection) with and without preoxidation with chlorine and chlorine dioxide and adsorption on granular activated carbon (GAC) in the removal of DCF. The trihalomethanes (THMs) were also determined and the main by-products of DCF formed by oxidation with chlorine dioxide and chlorine were identified. For the DCF determination in water samples before and after water treatment stages analytical methods of solid phase extraction (SPE) and chromatographic method by high performance liquid chromatography (HPLC) with detection in the ultraviolet (UV) were developed and validated. The method validation was based on Resolution nº 899 of the 2003 of the Brazilian National Health Surveillance Agency (ANVISA), considering the requirements for bioanalytical methods. The analytical procedures used were effective and reliable for the identification and quantification of DCF in the water samples before and after the water treatment stages. The water treatment tests were carried out in jar test equipment and filters on laboratory scale employing non chlorinated water of artesian well prepared with aquatic humic substances (AHS) to yield 20 uH true color, kaolin turbidity of 70 NTU and DCF concentration of 1 mg L-1. The results indicated that the stages of coagulation with aluminum sulphate, flocculation, sedimentation and filtration sand did not remove DCF. In the stages of pre-oxidation with chlorine and chlorine dioxide and chlorine disinfection the DCF was partially removed, however by-products were formed from the DCF oxidation. Among the THMs, only chloroform was quantified in the pre-oxidation with chlorine. In general, the results showed that chlorine dioxide was more effective to reduce the DCF and fewer by-products were formed. Nevertheless, the complete cycle treatment followed by GAC adsorption was effective to remove DCF (> 99.7%. removal). The by-products of the oxidation of DCF with chlorine and chlorine dioxide identified by liquid chromatography coupled tandem mass spectrometry (LC-MS/MS) consisted in the descaboxylation/hydroxylation and aromatic substitution of hydrogen atoms by chlorine. The compounds identified in the oxidation with chlorine showed the following molecular formulas: C14H11</subCl2NO3, C13H10Cl3N e C14H10Cl3NO2. The by-product identified using chlorine dioxide was C14H11Cl2NO3. carvão ativado granular ciclo completo cloro diclofenaco dióxido de cloro subprodutos tratamento de água validação de método by-products chlorine chlorine dioxide diclofenac drinking water treatment granular activated carbon method validation
62	Preparation and long-term performance of poly(ethylene-co-butyl acrylate) nanocomposites and polyethylene Nawaz, Sohail January 2012 (has links) The current study discusses the preparation and long-term performance of polymer composites used for various purposes under different ageing conditions. The first part deals with the preparation and characterization of polymer nanocomposites based on poly(ethylene-co-butyl acrylate) (EBA–13 and EBA–28 with 13 and 28 wt % butyl acrylate, respectively) and 2–12 wt % (0.5–3 vol %) of aluminum oxide nanoparticles (two types with different specific surface areas and different hydroxyl-group concentrations; uncoated and coated with, respectively, octyltriethoxysilane and aminopropyltriethoxysilane). The nanocomposite with EBA–13 showed better overall nanoparticle dispersion while EBA–28 resulted in poor dispersion, probably due to insufficiently high shear forces acting during extrusion mixing which were unable to break down nanoparticle agglomerates. The activity of hindered phenolic antioxidant (0.2 wt%) in all EBA nanocomposites was assessed by determining the oxidation induction time using DSC. The composites containing uncoated aluminium oxide nanoparticles showed a much shorter initial OIT than the pristine polymer with the same initial concentration of antioxidant, indicating adsorption of antioxidant onto the nanoparticle surfaces. Composites containing coated nanoparticles showed a significantly smaller decrease in the initial OIT, suggesting the replacement of hydroxyl groups with organic silane tails, decreasing the concentration of available adsorption sites on the nanoparticle surfaces. The decrease in OIT with increasing ageing time in dry air at 90 °C of the nanocomposites was slower than that of the unfilled pristine polymer, suggesting a slow release of antioxidant from adsorption sites. The EBA nanocomposites exposed to liquid water at 90°C showed faster decrease of OIT than samples exposed to dry or humid air. The migration rate of antioxidant was controlled by the boundary conditions in the case of ageing in humid air and liquid water. The antioxidant diffusivity was lower for the composites containing uncoated ND than for the composites containing ND coated with octyltriethoxysilane or aminopropyltriethoxysilane. The migration and chemical consumption of deltamethrin DM, (synthetic pyrethroid) and synergist piperonyl butoxide from molded polyethylene sheets was also studied. Deltamethrin and piperonyl butoxide are often used for food storage and insect control purposes. DM showed no signs of crystallization and remained in a liquid state after being cooled to room temperature. Exposure of polyethylene compound sheets to liquid water (at 80 & 95 °C), caused degradation and hydrolysis of the ester bond in the DM, present in the prepared material, and generated species containing hydroxyl groups. Liquid chromatography and infrared spectroscopy showed a significant migration of the active species in liquid water, whereas in air at 80 °C (60 and 80 %RH) the loss of DM and PBO was negligible over 30 days. The long-term performance of medium-density polyethylene stabilized with six different phenolic antioxidants (0.1 wt%) in aqueous chlorinated media at 70 °C was studied. The results were compared with data for previously studied solutions of antioxidants in squalane (a liquid, low molar mass analogue of polyethylene). A linear relationship was established between the time to reach antioxidant depletion in polyethylene tape samples and the time in squalane samples. Infrared spectroscopy and scanning electron microscopy of drawn samples revealed the onset of surface oxidation and surface embrittlement in tape samples exposed beyond the time for antioxidant depletion. / <p>QC 20121109</p> / Cable insulation materials / Loss of deltamethrin and pipronyl butoxide from polyethylene / long-term performance of polyethylene in chlorine dioxide water Polymer nanocomposite nanoparticles aluminium oxide poly(ethylene-co-butyl acrylate) long-term performance ageing antioxidant OIT aqueous media silanization irganox 1010 deltamethrin piperonyl butoxide chlorine dioxide migration of stabilizer
63	Pâtes lignocellulosiques : étude d'un nouveau stade de blanchiment ECF à faible impact environnemental / Lignocellulosic pulps : study of a new ECF bleaching stage with low environmental impact Marcon, Jennifer 15 December 2016 (has links) Le dioxyde de chlore est l’agent de blanchiment le plus utilisé pour le blanchiment des pâtes chimiques lignocellulosiques. Son utilisation s’accompagne malheureusement de la formation d’ions chlorates, composés inefficaces pour le blanchiment, ainsi que d’importants rejets de DCO et d’organo-chlorés (AOX), nuisibles pour l’environnement. Cette étude a consisté à concevoir un nouveau stade de blanchiment au dioxyde de chlore (stade D) à pH non-conventionnel, économe en réactifs, et visant à réduire l’impact environnemental d’une séquence classique. Le travail a été effectué sur des pâtes kraft de résineux, obtenues après cuisson ou à différents stades de la séquence de blanchiment. Les résultats ont montré que l’efficacité du nouveau stade D était meilleure lorsqu’il était placé en fin de séquence. Après optimisation et incorporation de peroxyde d’hydrogène comme réactif complémentaire, les pâtes obtenues présentent des caractéristiques équivalentes à celles d’un blanchiment conventionnel, en termes de blancheur et de degré de polymérisation moyen viscosimétrique ; et ce, avec une réduction drastique de la pollution (70% des AOX et 20 % de DCO), et un gain économique substantiel en productivité de séquence (diminution de la température et du temps de réaction). L’étude chimique de la réaction du dioxyde de chlore effectuée par différentes techniques (spectroscopie RPE, RMN, FTIR, chromatographie HPAEC-PAD), a révélé la présence de radicaux hydroxyles en milieu alcalin, et mis en évidence les principales étapes du mécanisme à différents pH. / Chlorine dioxide is the most widely used bleaching agent for the production of bleached chemical pulps. However, its main drawbacks are the formation of chlorate ions which decrease delignification efficiency and the reject of toxic chloro-organic molecules (AOX) in mill effluents. This study focused on the development of a new bleaching stage using chlorine dioxide (D stage) at non-conventional pH, to reduce environmental impact and production costs. The work was carried out on several softwood kraft pulps after cooking, and at different stages of the bleaching sequence. The best results of the novel D stage were obtained for pulps at low kappa number, i.e. at the end of the bleaching sequence. The D stage was optimized and coupled with hydrogen peroxide addition. The same brightness and viscosimetric average degree of polymerization as after conventional D bleaching were obtained. Interestingly, a very important decrease of pollution load (70% of AOX and 20% of COD) was obtained, accompanied by a significant gain of productivity and energy saving (lower temperature and reaction time).Chemical investigations on the reaction mechanisms, carried out by different techniques (ESR, NMR and FTIR spectroscopies, HPAEC-PAD chromatography), revealed the formation of hydroxyl radicals at alkaline pH. The structural modification of the pulp residual lignin was also studied; differences of the reaction mechanism as function of pH were highlighted. Pâtes lignocellulosiques Stade de blanchiment Dioxyde de chlore PH alcalin Radicaux hydroxyles Spectroscopie RPE Lignocellulosic pulps Bleaching stage Chlorine dioxide Alkaline pH Hydroxyl radicals EPR spectroscopy 620
64	Durabilité de produits innovants de robinetterie en polyamide 6,6 / Durability of innovative valve products in polyamide 6,6 El mazry, Chaker 31 January 2013 (has links) Le PA 6,6 est maintenant envisagé pour des pièces de robinetterie sur le réseau domestique de distribution d'eau potable. Cependant, ce matériau ne pourra être utilisé que si sa durabilité à long terme, en conditions réelles de service, est clairement démontrée. L'analyse cinétique des principaux mécanismes de vieillissement chimique susceptibles de se produire et d'interagir sur le réseau domestique de distribution d'eau potable : l'hydrolyse, la thermo-oxydation et l'attaque chimique par le dioxyde de chlore, a permis au final d'élaborer un modèle cinétique général de dégradation du PA 6,6. Ce modèle donne accès aux modifications structurales du PA 6,6 aux différentes échelles pertinentes (moléculaire, macromoléculaire, morphologique et macroscopique) en conditions de service. Il prédit la fragilisation du PA 6,6 lorsque la masse molaire moyenne en nombre atteint une valeur critique de l'ordre de 17 kg/mole. De nombreuses perspectives de recherche sont présentées comme l'introduction de ce modèle cinétique dans les codes courants de calcul mécaniques. / PA 6,6 is now considered for the elaboration of valve parts in the domestic network of drinking water distribution. However, this material will be used only if its long-term durability, in real use conditions, is clearly demonstrated. The kinetic analysis of the main chemical ageing mechanisms which may occur and interact in the domestic network of drinking water distribution: hydrolysis, thermal oxidation and chemical attack by chlorine dioxide, has allowed to finally build a general kinetic model for PA 6,6 degradation. This model gives access to PA 6,6 structural modifications at the different pertinent scales (molecular, macromolecular, morphological and macroscopic scales) in use conditions. It predicts the embrittlement of PA 6,6 when the number average molar mass reaches a critical value of the order of 17 kg/mole. Many research prospects are presented such as the introduction of this kinetic model in common mechanical calculation codes. Polyamide 6,6 Hydrolyse Oxydation Dioxyde de chlore Prédiction de durée de vie Polyamide 6,6 Hydrolysis Oxidation Chlorine dioxide Kinetic modeling Lifetime prediction
65	Suivi de l'état viable non cultivable de souches de Legionella pneumophila soumises à différents stress (thermique ou chloré) : Evaluation de leur pouvoir pathogène / Monitoring state of viable but non culturable legionella pneumophila strains after different stress (heat shock or chlorine treatment) : Evaluation of their pathogenicity Epalle, Thibaut 09 February 2015 (has links) Legionella pneumophila, l’agent responsable de la légionellose est transmissible à l’Homme par les aérosols environnementaux et infecte les macrophages pulmonaires. Après l’exposition à différents stress L. pneumophila est capable de d’entrer dans un état Viable Non Cultivable (VBNC) qui semble être une stratégie de survie. L’objectif de nos travaux était d’étudier l’état VBNC de différentes souches de L. pneumophila après des traitements thermique et chimique et d’évaluer le pouvoir infectieux des formes VBNC envers les macrophages et les cellules épithéliales alvéolaires. Nous avons étudié les profils physiologiques de L. pneumophila de trois souches différentes. Les résultats montrent que pour chaque souche 3 populations peuvent être identifiées, les légionelles viables cultivables, les VBNC et les bactéries mortes. Lorsque soumises aux stress, chaque souche possède un profil physiologique propre et la présence ou non de bactéries VBNC était dépendante du traitement appliqué et de la souche utilisée. La deuxième partie fut relative à l’étude des traitements thermiques de 70°C pendant 30 min et des chocs au dioxyde de chlore de 4, 6 et 7 mg/L pendant 60 min à température ambiante sur ces VBNC. Aucune légionelle VBNC n’est capable de se développer au sein des cellules et aucune croissance sur milieu BCYE n’a été observée après co-culture. La suite de notre étude a été d’étudier le comportement, envers les macrophages, de L. pneumophila revivifiées après culture sur amibes. Les résultats montrent que les légionelles VBNC induites par choc thermique et revivifiées par co-culture sur Acanthamoeba polyphaga sont capables d’infecter de nouveau les macrophages. En conclusion, ces résultats suggèrent que: (i) les formes VBNC de L. pneumophila ne sont pas spontanément infectieuses pour les macrophages et les cellules épithéliales alvéolaires in vitro et (ii) elles peuvent devenir pathogènes pour les cellules humaines après revivification préalable sur A. polyphaga / Legionella pneumophila, the causative agent of legionellosis is transmitted to human through aerosols from environmental sources and invades lung’s macrophages. It also can replicate within various protozoan species in environmental reservoirs. Following exposures to various stresses, L. pneumophila enters a Viable Non Cultivable state (VBNC) which is likely to be a survival strategy. The objective of our work was to study the VBNC forms of several strains of L. pneumophila serogroup 1 obtained after thermal and chemical treatments and to evaluate the infectivity of these VBNC forms against macrophages and alveolar epithelial cells. First we studied the physiological patterns of the three different strains (Philadelphia GFP 008, 044 clinical and environmental RNN). For all strains we observed the presence of VBNC bacteria in the native (non stressed) state. The results show that for each strain, three populations of Legionella can be identified: viable and culturable, VBNC and dead cells. Once submitted to the various stresses, we observed that each strain had its own physiological pattern and the presence (or not) of VBNC bacteria was dependent on the applied treatment and the strain used. The second part was related to the study of the pathogenicity of these VBNC forms against macrophages or epithelial cells. The study focused on heat shock treatment at 70°C for 30 min and chlorine dioxide treatment at 4, 6 and 7 mg/L for 60 min at room temperature. The results show that no Legionella VBNC forms were able to grow within the cells and no growth on BCYE medium was observed after co-culture. Then we investigated the behavior of L. pneumophila resuscitated after culture on ameba within macrophages. The results shows that Legionella VBNC induced by heat shock treatment and resuscitated by Acanthamoeba polyphaga co-culture are able to infect macrophages. In conclusion, these results suggest that: (i) the VBNC forms of L. pneumophila are not infectious for macrophages and alveolar epithelial cells in vitro and; (ii) they can be pathogenic for human cells after revivification by an amoeba (A. polyphaga) VBNC L. pneumophila Choc thermique Choc ClO2 Amibe Macrophage Revivification VBNC L. pneumophila Heat shock Chlorine dioxide treatment Amoeba Macrophage-like cell Resuscitation
66	On the Process Development of an ECF Light Bleaching Sequence for the Production of High Quality Softwood Kraft Pulp and Low AOX Formation Starrsjö, Sara January 2021 (has links) The aim of this work is to contribute to the process development of the ECF light bleaching sequence Q(OP)D(PO) by providing a better understanding of the bleaching of softwood kraft pulp. There are few published studies on this type of sequence, and more knowledge is needed on how to reduce environmental impact, improve cost-effectiveness and ensure a high pulp quality. Firstly, this research showed that using a pH buffer to stabilize the pH at a near-neutral level during bleaching with chlorine dioxide can lower the formation of adsorbable organically bound halogens (AOX) without altering the bleaching efficiency. A near-neutral pH decreases the formation of strongly chlorinating species so that the AOX content in the bleaching effluents is reduced by up to 30%. The increased pH in the near-neutral pH D stage compared with the reference lowered the chlorine dioxide consumption, resulting in a higher kappa number and viscosity. A lower degradation of hexenuronic acid correlated well with a lower AOX content in the effluents, affirming earlier theories that hexenuronic acid has an important impact on AOX formation. Secondly, this research aimed at studying bleachability in (OO)Q(OP)D(PO). The bleachability was defined as delignifying and brightness gain bleachability, which is suited to ECF light bleaching sequences. The delignifying and brightness gain bleachability were used to evaluate the stages in (OO)Q(OP)D(PO) in regard to the unbleached kappa number. When comparing different stages, it is possible to distinguish the bleaching efficiency in each stage. For this ECF light sequence, the bleachability depends on the purpose of the stage. It was found that in the stages that are mainly delignifying (OO and D), a higher unbleached kappa number is beneficial for the delignifying bleachability, although the brightness gain is not improved. However, in the stages that are mainly brightness increasing (OP and PO), the brightness gain bleachability is improved by a lower unbleached kappa number. Thirdly, the bleaching of the pulp samples in this study with the ECF light sequence was most effective with a kappa number around 32 after cooking. Although an even higher kappa number resulted in a higher yield after cooking, it seemed that this bleaching sequence cannot preserve the yield gain. Kappa number 32 also gave the best results in regard to brightness ceiling and viscosity. On the other hand, kappa number 27 was the most favourable with regard to yellowing and chemical charge. / <p>Examinator: Helena Håkansson, lektor, Karlstads universitet</p> Chemical Engineering Natural Science Chemical Pulping Softwood Kraft Pulp Bleaching ECF light bleaching Chlorine Dioxide AOX formation Delignification Bleachability Chemical Sciences Kemi
67	WHEN MISTRUST IS COMMON SENSE:CONSPIRACY THEORIES AS BOUNDARY OBJECTS.THE USE OF CHLORINE DIOXIDE IN THE COVID-19 PANDEMIC IN BOLIVIA. Velasco, Ana January 2021 (has links) No description available. Folklore Religion Alternative Medicine Latin American Studies Comparative Conspiracy theories Boundary object Stigmatized knowledge Common sense Bolivia COVID19 Chlorine Dioxide Mineral Miracle Solution
68	Estudos de remoção de 17 'alfa'-etinilestradiol de aguas para abastecimento, utilizando dioxido de cloro, hipoclorito de sodio, carvão ativado em po (cap) e tratamento fisico-quimico / Studies of 17 'alfa'-etinilestradiol removal from supplying water, using chorine dioxide, sodium hipoclorite, powder activated carbon (cap) and physicist-chemistry treatment Fernandes, Roberto, 1972- 30 August 2007 (has links) Orientador: Ruben Bresaola Junior / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Civil, Arquitetura e Urbanismo / Made available in DSpace on 2018-08-11T06:31:37Z (GMT). No. of bitstreams: 1 Fernandes_Roberto_M.pdf: 1490135 bytes, checksum: 28ec6cd0c6b627114af37a1ee1c25693 (MD5) Previous issue date: 2007 / Resumo: O 17'alfa'-Etinilestradiol é um princípio-ativo sintético presente na formulação dos contraceptivos utilizados por parcela expressiva da população feminina. Por ser um composto persistente, o 17'alfa'-Etinilestradiol não absorvido pelo organismo da mulher, fração que pode chegar a 80%, é eliminado pela usuária, principalmente pela urina. Na rede de esgotos, mesmo sobre a existência de tratamento, este não é removido completamente, alcançando, posteriormente, mananciais que podem ser utilizados para abastecimento público. Nesse sentido, o presente trabalho teve por objetivo estudar as eficiências de remoção do 17'alfa'-Etinilestradiol de águas para abastecimento, quando empregadas as tecnologias: pré-oxidação com Hipoclorito de Sódio ou Dióxido de Cloro, adsorção em carvão ativado em pó (CAP) e tratamento físico-químico composto de coagulação, floculação, sedimentação e filtração rápida. A metodologia empregada para as determinações do estrogênio foi a cromatografia líquida de alta eficiência (CLAE), aplicada após processo de extração em fase sólida (EFS) do analito presente na água. O cromatógrafo HPLC utilizado, possuía coluna cromatográfica modelo C18, de fase reversa e detector de arranjo de diodos com UV. O trabalho mostrou que o Hipoclorito de Sódio foi mais efetivo que o Dióxido de Cloro, na oxidação do 17'alfa'- Etinilestradiol. Sua maior ação foi observada sob dosagens de 5 e 10 mg/L e tempos de oxidação entre 3 e 5 horas. Esta combinação de parâmetros experimentais impactou na redução da concentração do estrogênio na água, em níveis superiores a 97,5%. Este nível de remoção também foi observado, quando aplicado carvão ativado em pó, sob dosagens a partir de 50 mg/L e tempo de contato de 60 minutos. O tratamento físico-químico apresentou melhores resultados quando aumentada a dosagem de carvão para 5 mg/L. Os resultados alcançados constituem-se de fundamental importância na formação de base para futuras soluções dedicadas ao problema, dada a escassez de estudos de remoção de fármacos contaminantes da água / Abstract: The 17'alfa'-Etinilestradiol is a synthetic active pharmaceutical ingredient presents in the formulation of contraceptives used by a large amount of the female population. As a bioaccumulative molecule, the 17'alfa'-Etinilestradiol is not completely absorbed by woman organism; up to 80% can be eliminated by user, mainly by urine. Even after sewage treatment, the residual of 17'alfa'-Etinilestradiol it is not totally removed reaching, later, water sources that can be used for public supplying. In this direction, the present work has for objective the study of 17'alfa'-Etinilestradiol removal efficiency in waters supplies, using different technologies such as: pre-oxidizing with Sodium Hypochlorite or Chlorine Dioxide, adsorption in powder activated carbon (CAP) and physic-chemical treatment composed by coagulation, flocculation, sedimentation and fast filtration. The methodology used for the estrogen determination was the High Performance Liquid Chromatography (HPLC), applied after solid phase extraction process (SFE) of the hormone present in water. The HPLC equipment used was composed by a model C18 chromatographic column with reverse phase, and diodes arrangement detector, with UV. The work showed that the Sodium Hypochlorite was more effective than the Chlorine Dioxide, to the 17'alfa'-Etinilestradiol oxidizing. Its higher action was observed when applying 5 and 10 mg/L of oxidants in a time of reaction between 3 and 5 hours. This interaction between concentration of oxidant and time of reaction provided estrogen concentration reduction in water, in levels upper to 97.5%. This same removal level also was observed when applied powder activated carbon, mainly when 50 mg/L in a contact time of 60 minutes was performed. The physic-chemical treatment presented better results when 5 mg/L of activated carbon was applied. The present results consist of fundamental importance in the base formation for future solutions dedicated to the problem, due to lack of studies present now a days in pharmaceutical products removal from water / Mestrado / Saneamento e Ambiente / Mestre em Engenharia Civil Hipoclorito de sódio Água - Purificação Água potável Agua - Purificação - Floculação Agua - Purificação - Coagulação Carbono ativado Sodium hypochlorite Chlorine dioxide Powder activated carbon Coagulation Floculation, water treatment Oral contraceptive Endocrine disruptor 17 'alfa'-Etinilestradiol HPLC
69	Attitudinal, Economic and Technological Approaches to Wastewater Management in Rural Ohio Vedachalam, Sridhar 25 July 2011 (has links) No description available. Agricultural Engineering Environmental Economics Environmental Engineering Environmental Science Sanitation Sociology Water Resource Management septic systems onsite systems wastewater management soil depth leach field hedonic price method economic valuation disinfection public perception wastewater reuse Ohio chlorine dioxide Geneva wheel water quality

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