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11	Fate Of Nonylphenol Compounds In Aerobic Batch Reactors Omeroglu, Secil 01 May 2012 (has links) (PDF) Today, numerous studies indicate the presence of synthetic organics such as nonylphenol (NP) compounds in wastewater. NP compounds are a group of chemicals including nonylphenol, nonylphenol polyethoxylates (NPnEO) and nonylphenoxy polyethoxy acetic acids (NPnEC). Since NP compounds have significant industrial, commercial and domestic use, they enter environmental systems and reach human beings from various pathways. Their presence is of concern because they are toxic, carcinogenic and endocrine disrupting due to their ability to mimic oestrogen hormone. The information available on the degradation of NPnEOs, is such that degradation starts with the reduction of ethylene oxide units, resulting in the formation of nonylphenol, nonylphenol mono- or diethoxylate (NP1EO and NP2EO) and nonylphenoxy acetic acid (NP1EC). Although their fate during wastewater treatment was investigated in the past, not many research investigating their fate in sludge treatment can be found. Therefore, the objective of this study is first to come up with reliable extraction and measurement methods for NP compounds and then to investigate the fate of NP2EO in aerobic digesters. After the development of techniques for the extraction and measurement of NP compounds, aerobic reactors spiked with NP2EO were operated. The samples were analyzed for solids content, COD, pH and NP compounds. The results showed that NP2EO degrades rapidly under aerobic conditions. As time proceeded, NP1EC formation was observed with the degradation of NP2EO, and NP1EC became the dominant specie. The solids concentration measurements showed that concentration of NP compounds did not affect the efficiency of aerobic digesters. TA Environmental Engineering 170-171
12	Desenvolvimento e validação de método analítico para análise de bisfenol A e nonilfenol em águas superficiais da cidade de Americana, SP / Development and validation of analytical method for analysis of bisphenol A and nonylphenol in surface waters of the city of Americana, SP Beraldo, Daniele Alves de Souza 20 April 2012 (has links) Neste estudo determinou-se o nonilfenol - um composto xenobiótico utilizados na fabricação de antioxidantes, aditivos para óleos lubrificantes e produção de surfactantes etoxilados - e o bisfenol A - um composto químico utilizado na produção de diversos produtos, como, plásticos policarbonatos, resinas epóxi e retardantes de chama. Ambos exibem atividade estrogênica em concentrações abaixo de 1ng L-1 - em cinco pontos de coleta na cidade de Americana, SP. Devido à ampla utilização, esses compostos estão presentes em esgoto industrial em quantidades substanciais. A primeira etapa deste estudo foi a validação dos método analítico seguindo o Método 8270D da United States Environmental Protection Agency (USEPA) que descreve o procedimento de validação para os compostos semivoláteis analisados por cromatografia gasosa acoplada a espectrometria de massas (GC/MS). Os limites de detecção e de quantificação do método para a determinação do nonilfenol foram, respectivamente, 1 e 5 µg L-1. O coeficiente de determinação (R2) e a recuperação média para o nonilfenol foram, respectivamente, 0,99 e 99,04%. Os limites de detecção e de quantificação do método para o bisfenol A foram, respetivamente, 1 e 5 µg L-1. O coeficiente de determinação (R2) e a recuperação média para o bisfenol A foram, respectivamente, 0,99 e 91,55%. Na segunda etapa desta pesquisa analisaram-se amostras de água coletadas na cidade de Americana para a determinação do nonilfenol e do bisfenol A. Como método de extração dos compostos, usou-se a extração em fase sólida (SPE) e como técnica analítica a cromatografia gasosa acoplada a espectrometria de massas (GC/MS). Os resultados indicaram a presença desses compostos em alguns pontos de amostragem sendo que a concentração do nonilfenol a variou de 5,028 a 10,524 µg L-1 e para o bisfenol A a concentração variou de 5,645 a 295,255 µg L-1. Foram feitos também testes ecotoxicólogicos utilizando como organismo teste o microcrustáceo Daphnia similis, porém o nonilfenol e o bisfenol A, na concentração testada que variou de 0,05 a 500 µg L-1 não apresentaram toxicidade aguda. / In this study it was determined nonylphenol - a xenobiotic compound used in the manufacture of antioxidants, additives for lubricating oils and production of ethoxylated surfactant - and bisphenol A - a chemical compound used in production of various products, such as polycarbonate plastic, epoxy resins and flame retardants. Both exhibit estrogenic activity at concentrations lower than 1 ng L-1 - in five sampling points in the city of Americana, SP. Due to the widespread use of these compounds, they are present in substantial quantities in industrial sewage. The first step of this study was to validate the analytical method following the Method 8270D of the United States Environmental Protection Agency (USEPA) that describes the validation procedure for semi-volatile compounds analized by gas chromatography-mass spectrometry (GC/MS). The limits of detection and quantification for determining the nonylphenol were, respectively, 1 and 5 µg L-1. The coefficient ofdetermination (R2) and recovery for nonylphenol were respectively 0.99 and 99.04%. The limits of detection and quantification for the bisphenol A were, respectively, 1 and 5 µg L-1. The coefficient of determination (R2) and recovery for bisphenol A were respectively 0.99 and 91.55%. In the second step of this study were analized in water samples of Americana city for the determination of nonylphenol and bisphenol A. As a method of extraction of the compounds it was used solid-phase extraction (SPE) and as analytical technique GC/MS. The results indicated the presence of such compounds in some sampling points and the concentration of nonylphenol ranged from 5.028 to 10.524 µg L-1 and bisphenol A concentration ranged from 5.645 to 295.255 µg L-1. Ecotoxicological tests were also performed using as test organism microcrustaceans Daphnia similis, but nonylphenol and bisphenol A, tested at concentration ranging from 0,05 to 500 µg L-1 showed no acute toxicity. bisfenol A bisphenol GC/MS GC/MS nonifenol nonylphenol
13	Análise dos efeitos tóxicos do nonilfenol e do bisfenol A em organismos de água doce / The effects of nonylphenol and bisphenol A on freshwater organisms Spadoto, Mariângela 15 February 2013 (has links) O bisfenol A (BPA) e o nonilfenol (NP), presentes em detergentes, pesticidas, plásticos e resinas, são conhecidos como Endocrine Disrupting-Chemicals (EDCs), Disruptores ou Desreguladores Endócrinos (DE) ou ainda Perturbadores Endócrinos ou Interferentes Endócrinos. O desregulador endócrino pode ser definido como uma substância química exógena ou mistura, que promove alterações em uma ou mais funções do sistema endócrino e na sua estrutura, causando, conseqüentemente, efeitos adversos na saúde de um organismo, ou a sua descendência. Esses compostos estão presentes nas águas de abastecimento, nos efluentes domésticos e industriais. Os desreguladores endócrinos têm ação mimética aos hormônios tanto no sítio de ligação quanto nos efeitos provocados nos seres vivos a eles expostos. Os compostos bisfenol A e nonilfenol foram identificados como desreguladores endócrinos em inúmeros trabalhos em diversos países, porém sendo pouco os efeitos em organismos tropicais. Este estudo teve como objetivo avaliar a toxicidade aguda do bisfenol A e do nonilfenol para Daphnia similis e Ceriodaphnia silvestrii, bem como, a toxicidade crônica para Ceriodaphnia silvestrii e Chironomus xanthus. Nos testes de toxicidade aguda com BPA os valores de CE(I)50; 48h foram de 10,64 mg/L para Daphnia similis e 19,9 mg/L para Ceriodaphnia silvestrii. Nos testes crônicos o valor do CEO obtido para Ceriodaphnia silvestrii foi 1,29 mg/L e para Chironomus xanthus 12 mg/L e o CENO 6 mg/L. Nos testes de toxicidade aguda feitos com NP, os valores de CE(I)50; 48h foram de 0,309 mg/L para Daphnia similis, 0,4520 mg/Lpara Ceriodaphnia silvestrii com solvente água e 0,0541 mg/L com solvente etanol, e 0,03398 mg/L para Ceriodaphnia dubia. O valor do CEO para Ceriodaphnia silvestrii foi 0,0198 mg/L e para Chironomus xanthus foi 100 \'mü\'g/g, com CENO de 50 \'mü\'g/g. Apesar das concentrações encontradas nos testes serem maiores que as encontradas nos estudos que quantificaram esses compostos no ambiente, outros estudos demonstraram que, mesmo em concentrações inferiores as obtidas nesse estudo já ocorrem problemas relacionados com o tempo da muda e com a androgenização do metabolismo de cladóceros. Além disso, a partir dos resultados obtidos com estes testes, pretende-se alertar o poder público sobre os riscos inerentes da presença destes produtos químicos nas águas e da urgência em se adotar novas técnicas no tratamento de efluentes visando à remoção eficaz desses poluentes. / Bisphenol A (BPA) and nonylphenol (NP), present in detergents, pesticides, plastics and resins, are known as Endocrine-Disrupting Chemicals (EDCs), Disruptors or Endocrine Disruptors (ED), Endocrine Disruption or Interferences Endocrine. The endocrine disruptors can be defined as an exogenous chemical substance or mixture, which causes changes in one or more functions of the endocrine system and its structure, causing, therefore, adverse effects on the health of an organism, or its progeny. These compounds are present in the water supply in domestic and industrial effluents. EDs have mimetic action to hormones in both binding site as the effects caused in living beings exposed to them. The compounds bisphenol A and nonylphenol were identified as endocrine disruptors in numerous studies in many countries, but with little effects on tropical organisms. This study aimed to evaluate the acute toxicity of bisphenol A and nonylphenol Daphnia similis and Ceriodaphnia silvestrii, as well as chronic toxicity to Ceriodaphnia silvestrii and Chironomus xanthus. In acute toxicity tests with BPA values EC(I) 50, 48 h were 10.64 mg/L for Daphnia similis and 19.9 mg/L for Ceriodaphnia silvestrii; chronic In the tests the value obtained for the CEO Ceriodaphnia silvestrii was 1.29 mg/L and 12 mg/L Chironomus xanthus CENO and 6 mg/L. In acute toxicity tests made with NP values EC(I) 50; 48h were 0.309 mg/L for Daphnia similis, 0.4520 mg/L for Ceriodaphnia silvestrii solvent and water with 0.0541 mg/L ethanol solvent and 0.03398 mg/L for Ceriodaphnia dubia. The value of the CEO to Ceriodaphnia silvestrii was 0.0198 mg/L and Chironomus xanthus was 100 \'mü\'g/g, with CENO was 50 \'mü\'g/g. Although the found concentrations in the tests are higher than those found in studies to have quantified these compounds in the environment, other studies showed that at concentrations lower than those obtained in this study have problems occur with time and the change of the metabolism of Cladocera androgenization. Also, based on the results obtained with these tests, is intended to alert the public on the risks associated of the presence of these chemicals in the water and the urgency in adopting new techniques in wastewater treatment aiming at the effective removal of these pollutants in water and in the sediment. Bisfenol A Bisphenol A Chironomid Cladóceros Daphnids Nonilfenol Nonylphenol Quironomídeos Toxicidade Toxicity
14	Desenvolvimento e validação de método analítico para análise de bisfenol A e nonilfenol em águas superficiais da cidade de Americana, SP / Development and validation of analytical method for analysis of bisphenol A and nonylphenol in surface waters of the city of Americana, SP Daniele Alves de Souza Beraldo 20 April 2012 (has links) Neste estudo determinou-se o nonilfenol - um composto xenobiótico utilizados na fabricação de antioxidantes, aditivos para óleos lubrificantes e produção de surfactantes etoxilados - e o bisfenol A - um composto químico utilizado na produção de diversos produtos, como, plásticos policarbonatos, resinas epóxi e retardantes de chama. Ambos exibem atividade estrogênica em concentrações abaixo de 1ng L-1 - em cinco pontos de coleta na cidade de Americana, SP. Devido à ampla utilização, esses compostos estão presentes em esgoto industrial em quantidades substanciais. A primeira etapa deste estudo foi a validação dos método analítico seguindo o Método 8270D da United States Environmental Protection Agency (USEPA) que descreve o procedimento de validação para os compostos semivoláteis analisados por cromatografia gasosa acoplada a espectrometria de massas (GC/MS). Os limites de detecção e de quantificação do método para a determinação do nonilfenol foram, respectivamente, 1 e 5 µg L-1. O coeficiente de determinação (R2) e a recuperação média para o nonilfenol foram, respectivamente, 0,99 e 99,04%. Os limites de detecção e de quantificação do método para o bisfenol A foram, respetivamente, 1 e 5 µg L-1. O coeficiente de determinação (R2) e a recuperação média para o bisfenol A foram, respectivamente, 0,99 e 91,55%. Na segunda etapa desta pesquisa analisaram-se amostras de água coletadas na cidade de Americana para a determinação do nonilfenol e do bisfenol A. Como método de extração dos compostos, usou-se a extração em fase sólida (SPE) e como técnica analítica a cromatografia gasosa acoplada a espectrometria de massas (GC/MS). Os resultados indicaram a presença desses compostos em alguns pontos de amostragem sendo que a concentração do nonilfenol a variou de 5,028 a 10,524 µg L-1 e para o bisfenol A a concentração variou de 5,645 a 295,255 µg L-1. Foram feitos também testes ecotoxicólogicos utilizando como organismo teste o microcrustáceo Daphnia similis, porém o nonilfenol e o bisfenol A, na concentração testada que variou de 0,05 a 500 µg L-1 não apresentaram toxicidade aguda. / In this study it was determined nonylphenol - a xenobiotic compound used in the manufacture of antioxidants, additives for lubricating oils and production of ethoxylated surfactant - and bisphenol A - a chemical compound used in production of various products, such as polycarbonate plastic, epoxy resins and flame retardants. Both exhibit estrogenic activity at concentrations lower than 1 ng L-1 - in five sampling points in the city of Americana, SP. Due to the widespread use of these compounds, they are present in substantial quantities in industrial sewage. The first step of this study was to validate the analytical method following the Method 8270D of the United States Environmental Protection Agency (USEPA) that describes the validation procedure for semi-volatile compounds analized by gas chromatography-mass spectrometry (GC/MS). The limits of detection and quantification for determining the nonylphenol were, respectively, 1 and 5 µg L-1. The coefficient ofdetermination (R2) and recovery for nonylphenol were respectively 0.99 and 99.04%. The limits of detection and quantification for the bisphenol A were, respectively, 1 and 5 µg L-1. The coefficient of determination (R2) and recovery for bisphenol A were respectively 0.99 and 91.55%. In the second step of this study were analized in water samples of Americana city for the determination of nonylphenol and bisphenol A. As a method of extraction of the compounds it was used solid-phase extraction (SPE) and as analytical technique GC/MS. The results indicated the presence of such compounds in some sampling points and the concentration of nonylphenol ranged from 5.028 to 10.524 µg L-1 and bisphenol A concentration ranged from 5.645 to 295.255 µg L-1. Ecotoxicological tests were also performed using as test organism microcrustaceans Daphnia similis, but nonylphenol and bisphenol A, tested at concentration ranging from 0,05 to 500 µg L-1 showed no acute toxicity. bisfenol A GC/MS nonifenol bisphenol GC/MS nonylphenol
15	Untersuchung der Mikroflora im Sediment von Nonylphenol-belasteten aquatischen Mikrokosmen Jontofsohn, Miriam. Unknown Date (has links) (PDF) Universiẗat, Diss., 2002--München.
16	Optimisation of water-in-oil microemulsion formulation stabilised by nonylphenol ethoxylated phosphate ester Mdhlovu, Johan. January 2005 (has links) Thesis (M.Sc.)(Chemistry)--University of Pretoria, 2005. / Title from opening screen (viewed March 27, 2006). Summaries in English and Afrikaans. Includes bibliographical references.
17	Análise dos efeitos tóxicos do nonilfenol e do bisfenol A em organismos de água doce / The effects of nonylphenol and bisphenol A on freshwater organisms Mariângela Spadoto 15 February 2013 (has links) O bisfenol A (BPA) e o nonilfenol (NP), presentes em detergentes, pesticidas, plásticos e resinas, são conhecidos como Endocrine Disrupting-Chemicals (EDCs), Disruptores ou Desreguladores Endócrinos (DE) ou ainda Perturbadores Endócrinos ou Interferentes Endócrinos. O desregulador endócrino pode ser definido como uma substância química exógena ou mistura, que promove alterações em uma ou mais funções do sistema endócrino e na sua estrutura, causando, conseqüentemente, efeitos adversos na saúde de um organismo, ou a sua descendência. Esses compostos estão presentes nas águas de abastecimento, nos efluentes domésticos e industriais. Os desreguladores endócrinos têm ação mimética aos hormônios tanto no sítio de ligação quanto nos efeitos provocados nos seres vivos a eles expostos. Os compostos bisfenol A e nonilfenol foram identificados como desreguladores endócrinos em inúmeros trabalhos em diversos países, porém sendo pouco os efeitos em organismos tropicais. Este estudo teve como objetivo avaliar a toxicidade aguda do bisfenol A e do nonilfenol para Daphnia similis e Ceriodaphnia silvestrii, bem como, a toxicidade crônica para Ceriodaphnia silvestrii e Chironomus xanthus. Nos testes de toxicidade aguda com BPA os valores de CE(I)50; 48h foram de 10,64 mg/L para Daphnia similis e 19,9 mg/L para Ceriodaphnia silvestrii. Nos testes crônicos o valor do CEO obtido para Ceriodaphnia silvestrii foi 1,29 mg/L e para Chironomus xanthus 12 mg/L e o CENO 6 mg/L. Nos testes de toxicidade aguda feitos com NP, os valores de CE(I)50; 48h foram de 0,309 mg/L para Daphnia similis, 0,4520 mg/Lpara Ceriodaphnia silvestrii com solvente água e 0,0541 mg/L com solvente etanol, e 0,03398 mg/L para Ceriodaphnia dubia. O valor do CEO para Ceriodaphnia silvestrii foi 0,0198 mg/L e para Chironomus xanthus foi 100 \'mü\'g/g, com CENO de 50 \'mü\'g/g. Apesar das concentrações encontradas nos testes serem maiores que as encontradas nos estudos que quantificaram esses compostos no ambiente, outros estudos demonstraram que, mesmo em concentrações inferiores as obtidas nesse estudo já ocorrem problemas relacionados com o tempo da muda e com a androgenização do metabolismo de cladóceros. Além disso, a partir dos resultados obtidos com estes testes, pretende-se alertar o poder público sobre os riscos inerentes da presença destes produtos químicos nas águas e da urgência em se adotar novas técnicas no tratamento de efluentes visando à remoção eficaz desses poluentes. / Bisphenol A (BPA) and nonylphenol (NP), present in detergents, pesticides, plastics and resins, are known as Endocrine-Disrupting Chemicals (EDCs), Disruptors or Endocrine Disruptors (ED), Endocrine Disruption or Interferences Endocrine. The endocrine disruptors can be defined as an exogenous chemical substance or mixture, which causes changes in one or more functions of the endocrine system and its structure, causing, therefore, adverse effects on the health of an organism, or its progeny. These compounds are present in the water supply in domestic and industrial effluents. EDs have mimetic action to hormones in both binding site as the effects caused in living beings exposed to them. The compounds bisphenol A and nonylphenol were identified as endocrine disruptors in numerous studies in many countries, but with little effects on tropical organisms. This study aimed to evaluate the acute toxicity of bisphenol A and nonylphenol Daphnia similis and Ceriodaphnia silvestrii, as well as chronic toxicity to Ceriodaphnia silvestrii and Chironomus xanthus. In acute toxicity tests with BPA values EC(I) 50, 48 h were 10.64 mg/L for Daphnia similis and 19.9 mg/L for Ceriodaphnia silvestrii; chronic In the tests the value obtained for the CEO Ceriodaphnia silvestrii was 1.29 mg/L and 12 mg/L Chironomus xanthus CENO and 6 mg/L. In acute toxicity tests made with NP values EC(I) 50; 48h were 0.309 mg/L for Daphnia similis, 0.4520 mg/L for Ceriodaphnia silvestrii solvent and water with 0.0541 mg/L ethanol solvent and 0.03398 mg/L for Ceriodaphnia dubia. The value of the CEO to Ceriodaphnia silvestrii was 0.0198 mg/L and Chironomus xanthus was 100 \'mü\'g/g, with CENO was 50 \'mü\'g/g. Although the found concentrations in the tests are higher than those found in studies to have quantified these compounds in the environment, other studies showed that at concentrations lower than those obtained in this study have problems occur with time and the change of the metabolism of Cladocera androgenization. Also, based on the results obtained with these tests, is intended to alert the public on the risks associated of the presence of these chemicals in the water and the urgency in adopting new techniques in wastewater treatment aiming at the effective removal of these pollutants in water and in the sediment. Bisfenol A Cladóceros Nonilfenol Quironomídeos Toxicidade Bisphenol A Chironomid Daphnids Nonylphenol Toxicity
18	Fate of Nonylphenol in lakes: : Case study modelling of two small lakes in Stockholm, Sweden Chang, Wei January 2010 (has links) Nonylphenol is a widely used organic compound which has been reported to have potential risk to aquatic environment. According to the result of recent studies, it has been detected in many lakes in Stockholm, Sweden, which raised great concern. In this thesis, a dynamic fate model was adopted and modified from literature in order to study the distribution and concentration of nonylphenol in small lakes, guide the field sampling and provide information for corresponding decision making. Two lakes in Stockholm, Lake Trekanten and Lake Drevviken, were selected as case studies. Another model was included for comparison purpose. Based on the model result, the most important nonylphenol removal process in both lakes was the transformation in water. A sensitivity analysis showed that the model results were most sensitive to the process of nonylphenol water inflow. In terms of sediment concentration of nonylphenol, satisfactory agreements were obtained from the comparison between model results and field data. However, problems, such as the simultaneous handling of nonylphenol and nonylphenol ethoxylates, may cause uncertainties on the model performance. The result of the analysis about scenario load change and the seasonal variation showed that the sediment nonylphenol content is more stable to the seasonal change compare to nonylphenol water content, but the response times to load change of nonylphenol content in these two compartments are quite close and somewhat lower than the water residence time. nonylphenol fate modelling lake Engineering and Technology Teknik och teknologier
19	OCCURRENCE OF NONYLPHENOL POLYETHOXYLATES AND POLYCHLORO-BIPHENYLS IN AQUEOUS AND SOLID PHASES ALONG TWO PILOT-SCALE WASTEWATER TREATMENT PLANTS GONZÁLEZ-FERNÁNDEZ, MARIA-CHRISTINA 27 September 2005 (has links) No description available. Engineering, Environmental Nonylphenol polyethoxylates Polychloro-biphenyls Wastewater Anaerobic and Aerobic Treatment
20	Evaluation of Enzyme-Linked Immunosorbent Assay (ELISA) Test Kits for the Quantitative Determination of Endocrine Disrupting Compounds (EDCs) in Aqueous Phase Environmental Samples Kleiner, Eric J. 29 November 2010 (has links) No description available. Environmental Engineering ELISA Estrogen Wastewater Endocrine Disrupting Compounds Estradiol Nonylphenol

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