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A comparative study of anaerobic treatment of citrus processing wastewaterFashanu, Julius Olusegun January 1996 (has links)
No description available.
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Treatability And Toxicity Of Nonylphenol Compounds In Anaerobic Batch ReactorsBozkurt, Hande 01 December 2011 (has links) (PDF)
Nonylphenol (NP) and its ethoxylates are used in formulation of pesticides and detergents, production of personal care products and many industrial sectors such as textile, metal plating, plastic, paper and energy. They are also used in the formulation of household cleaning agents. Industrial uses in the production line make up 55% of the total use / whereas industrial and domestic cleaning processes constitute 30 and 15%, respectively.
Since they are widely used in industry and households, NP compounds enter the environment mainly by industrial and municipal wastewater treatment plant effluents. NP is considered strongly toxic and has adverse effects even with short term exposures. Moreover, with its similarities to natural hormones, NP and its ethoxylates are considered as endocrine disrupter compounds. In studies conducted with human cells, chicken embryo, trout and mice eostrogen receptors, positive responses were observed. Due to their lipophilic and hydrophobic characteristics they accumulate in cells, tissues and organic materials such as sludge. For these reasons, fate of NP and its
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ethoxylates in wastewater treatment plants and in sludge treatment processes gained importance. Nonylphenol polyethoxylates (NPnEO) are degraded in microbial media and lose their ethoxylates to nonylphenol diethoxylate (NP2EO), nonylphenol monoethoxylate (NP1EO) and NP. Moreover, nonyl phenoxycarboxylic acids (NPnEC) can be formed during some of these reactions. Because the first degradation reactions are fast, concerns and studies are focused mainly on NP2EO, NP1EO, NP, NP1EC and NP2EC. Even though these general degradation information is available, studies on sludge are very rare.
In this study, treatability and toxicity of NP2EO in anaerobic batch reactors is investigated. First, with the use of Anaerobic Toxicity Assay (ATA) test, toxic doses of NP2EO which was added to the reactor as the parent component, were determined. Moreover, the degradation of these chemicals were studied in larger scale batch anaerobic digesters. The aim of this part was to observe the degradation patterns and products. Throughout the study the fate of NP and its ethoxylates was followed in aqueous and solid phases by the use of Gas Chromatography / Mass Spectrometry system (GC/MS).
ATA tests showed that NP2EO was not toxic to anaerobic microorganisms at the doses investigated in this study. It was rather stimulating and caused an increase in methane production in the reactors. On the other hand the spiked NP2EO&rsquo / s at 0.5 and 2.5 mg/L concentration were completely degraded in the larger scale batch reactors. At the same time, an increase in the concentrations of NP and NP1EO was observed which supported the fact that NP2EO was degraded into NP1EO and NP under anaerobic conditions. Abiotic degradation was not observed.
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Návrh optimálního promíchávání velkokapacitních vyhnívacích nádrží / Design of optimal mixing of large-scale digestersBradáč, Antonín January 2017 (has links)
The aim of this diploma thesis is an optimal method of mixing of the digester with consideration to the uniform mixing of the whole volume, ensuring the quality process conditions for the anaerobic fermentation and the maximum yield and quality of the produced biogas. First chapters describe the basic design parameters, general calculations and the principles for design of individual types of mixers, supplemented by practical examples of mixing large capacity tanks. The work introduces the problem of sludge formation at the sewage treatment plant with an emphasis on sludge treatment and the processes which take place inside the fermenter. Various types of design of anaerobic sludge stabilization digester were introduced. Also ways of their operation, which are necessary for the quality of the fermentation, were presented. In the next chapters, various ways of mixing high-capacity digester tanks and experience from the operation of selected treatment plants were described. According to the theoretical research part of this thesis, several types of mixing equipment was designed for the experimental digestion tank built at the Institute of Process Engineering which is used for research work with mixers. Measurement of the selected pneumatic mixing method was performed on the experimental tank and the findings were evaluated.
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Avaliação da atividade microbiana metanogênica na lagoa de estabilização anaeróbia da estação de tratamento de esgotos sanitários do município de Cajati, Vale do Ribeira do Iguape, Estado de São Paulo / Assessment of anaerobic methanogenic microbial activity at anaerobic stabilization pond of domestic wastewater plant at Cajati city, Vale do Ribeira de Iguape, São Paulo State, BrazilSteil, Lara 31 August 2007 (has links)
O estudo sobre a comunidade microbiana de um sistema de tratamento biológico de águas residuárias é de particular interesse, uma vez que o conhecimento da microbiologia do processo pode levar ao aperfeiçoamento de projetos e ao aumento da eficiência dos sistemas. Este trabalho avaliou a atividade microbiana, particularmente a metanogênica, na lagoa de estabilização anaeróbia da estação de tratamento de esgotos sanitários do município de Cajati - SP. Para isso adotou a taxonomia polifásica na caracterização dos microrganismos e de seus aspectos funcionais, buscando o conhecimento da diversidade dos microrganismos e suas relações nesse tipo de sistema anaeróbio. Objetivou também contribuir para o estabelecimento de um protocolo seguro na realização dos ensaios de atividade metanogênica específica (AME). Os estudos foram realizados com amostras dos sedimento da lagoa coletadas em três períodos diferentes, a saber: outubro/2003, outubro/2004 e dezembro/2004. Durante as amostragens foram determinadas variáveis abióticas como temperatura, condutividade, pH, potencial de óxido-redução e teor de oxigênio dissolvido. Medidas do conteúdo de sólidos totais e voláteis (SV) foram também realizadas. A avaliação da atividade microbiana foi feita por exames microscópicos de contraste de fase e fluorescência, AME, determinação do DNAtotal, FISH - hibridização in-situ com sondas fluorescentes e DGGE - eletroforese em gel com gradiente linear de agentes desnaturantes. Também procedeu-se a contagem de protozoários e análise da presença de algas e cianobactérias. Os resultados revelaram que ocorreu variação nas condições do processo biológico nos períodos amostrados, sendo que em outubro/2004, durante período de fortes chuvas e ventos, a eficiência na redução da DBO foi apenas 18,2%. Nesse período, constatou-se organismos como algas do gênero Chorella sp e cianobactérias do gênero Merismopedia sp. Nas demais coletas a remoção da matéria orgânica medida em DBO foi superior a 80%, com boa atividade anaeróbia. Os resultados mostraram que a relação So/Xo de 0,25 gDQO/g SV foi a mais adequada para determinar o valor de AME, e os ensaios com as amostras de outubro/2003 e dezembro/2004 revelaram valores de AME na faixa de 0,85 a 0,21 mg\'CH IND.4\'/gSV.d. Constatou-se a ocorrência de alterações na estrutura da comunidade microbiana inicial em relação à final do experimento de AME, por meio do DGGE. Verifcou-se também nesses ensaios, que o conteúdo de SV inicial variou entre amostras e substratos, conferindo alta variabilidade ao teste. Os perfís de DGGE das amostras coletadas revelaram variação na estrutura das comunidades microbianas no sedimento, e maior diversidade de bactérias e arquéias quando a lagoa anaeróbia apresentava boa eficiência na redução da DBO. A técnica FISH como adotada não foi eficaz para quantificar e identificar os microrganismos devido ao excesso de hibridizações inespecíficas. Mesmo com suas limitações, a técnica FISH revelou a presença de microrganismos dos Domínios Bacteria e Archaea. Nesse caso, a Família Methanobacteriaceae, a ordem Methanomicrobiales e o gênero Methanosaeta sp. foram confirmados. Nas diferentes coletas, foram identificados protozoários dos gêneros Paramecium sp. e Vorticella sp., e rotíferos dos gêneros Brachionus sp., Trichocerca sp., Synchaeta sp. e Keratella sp. / Microbial diversity studies have remarkable relevance since the knowledge about the microbiology of process can improve plants and system efficiency. This work assessed microbial activity, specially methanogenic, at anaerobic pond for domestic wastewater treatment in the city of Cajati, São Paulo State, Brazil. Poliphasic taxonomy was adopted in onder to contribute to the understanding of microbial community diversity and functionality. As well as to contribute for the establishment of a protocol to the specific methanogenic activity test (SMA). Three periods of sampling were done at the sediment of the anaerobic pond (october 2003, october 2004 and december 2004). Abiotic variables as temperature, conductivity, pH, dissolved oxygen and redox potential were measured at sampling time. TS and VS contents were determined in the samples. Microbial studies were done by observation on optical and fluorescent microscopy, analyse of SMA, totalDNA quantitation, counting of protozoa, analyze of algal and cyanobacteria presence, as well as application of two molecular techniques: Fluorescent in-situ Hybridization (FISH) and Denaturing Gradient Gel Electrophoresis (DGGE). Results showed that general conditions of the anaerobic pond changed among samplings. On October 2004, when the rain and wind were very strong, the organic matter removal efficiency (BOD basis) in the anaerobic pond was low (18.2%) and predominant microorganisms were of aerobic algae, as Chorella sp, and the blue-green algae Merismopedia sp. On the other hand, the removal of organics at other two samplings was more than 80% and the anaerobic microbial activity was verified in the sample. SMA tests showed the food/microorganism rate (F/M) of 0.25 gDQO/g VS was the most suitable to the samples. The results showed SMA values between 0.85 and 0.21 mg\'CH IND.4\'/gVS.d for samples of October 2003 and October 2004. SMA test induced modifications in the structure of the microbial community according to DGGE-profile. In addition, VS content, which was used in the SMA tests as biomass measurement, displayed variable behavior making test results difficult to interpret in some situations. DGGE-profile showed variation in the sediment community structure. Higher bacterial and archaeal diversity was observed when anaerobic pond showed 80%, or more, of DBO removal. FISH technique was not a suitable method to secure quantification and identification of the microorganisms from in excess. In spite of the technique limitations, it was possible to identify microorganisms of Bacteria Domain, Archaea Domain, Methanobacteriaceae Family, Methanomicrobiales Order, and microorganisms belonging to Methanosaeta genus. Paramecium and Vorticella were the protozoans identified in all samplings. Rotifers belonging to genders Brachionus, Trichocerca, Synchaeta and Keratella were also observed.
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Avaliação da atividade microbiana metanogênica na lagoa de estabilização anaeróbia da estação de tratamento de esgotos sanitários do município de Cajati, Vale do Ribeira do Iguape, Estado de São Paulo / Assessment of anaerobic methanogenic microbial activity at anaerobic stabilization pond of domestic wastewater plant at Cajati city, Vale do Ribeira de Iguape, São Paulo State, BrazilLara Steil 31 August 2007 (has links)
O estudo sobre a comunidade microbiana de um sistema de tratamento biológico de águas residuárias é de particular interesse, uma vez que o conhecimento da microbiologia do processo pode levar ao aperfeiçoamento de projetos e ao aumento da eficiência dos sistemas. Este trabalho avaliou a atividade microbiana, particularmente a metanogênica, na lagoa de estabilização anaeróbia da estação de tratamento de esgotos sanitários do município de Cajati - SP. Para isso adotou a taxonomia polifásica na caracterização dos microrganismos e de seus aspectos funcionais, buscando o conhecimento da diversidade dos microrganismos e suas relações nesse tipo de sistema anaeróbio. Objetivou também contribuir para o estabelecimento de um protocolo seguro na realização dos ensaios de atividade metanogênica específica (AME). Os estudos foram realizados com amostras dos sedimento da lagoa coletadas em três períodos diferentes, a saber: outubro/2003, outubro/2004 e dezembro/2004. Durante as amostragens foram determinadas variáveis abióticas como temperatura, condutividade, pH, potencial de óxido-redução e teor de oxigênio dissolvido. Medidas do conteúdo de sólidos totais e voláteis (SV) foram também realizadas. A avaliação da atividade microbiana foi feita por exames microscópicos de contraste de fase e fluorescência, AME, determinação do DNAtotal, FISH - hibridização in-situ com sondas fluorescentes e DGGE - eletroforese em gel com gradiente linear de agentes desnaturantes. Também procedeu-se a contagem de protozoários e análise da presença de algas e cianobactérias. Os resultados revelaram que ocorreu variação nas condições do processo biológico nos períodos amostrados, sendo que em outubro/2004, durante período de fortes chuvas e ventos, a eficiência na redução da DBO foi apenas 18,2%. Nesse período, constatou-se organismos como algas do gênero Chorella sp e cianobactérias do gênero Merismopedia sp. Nas demais coletas a remoção da matéria orgânica medida em DBO foi superior a 80%, com boa atividade anaeróbia. Os resultados mostraram que a relação So/Xo de 0,25 gDQO/g SV foi a mais adequada para determinar o valor de AME, e os ensaios com as amostras de outubro/2003 e dezembro/2004 revelaram valores de AME na faixa de 0,85 a 0,21 mg\'CH IND.4\'/gSV.d. Constatou-se a ocorrência de alterações na estrutura da comunidade microbiana inicial em relação à final do experimento de AME, por meio do DGGE. Verifcou-se também nesses ensaios, que o conteúdo de SV inicial variou entre amostras e substratos, conferindo alta variabilidade ao teste. Os perfís de DGGE das amostras coletadas revelaram variação na estrutura das comunidades microbianas no sedimento, e maior diversidade de bactérias e arquéias quando a lagoa anaeróbia apresentava boa eficiência na redução da DBO. A técnica FISH como adotada não foi eficaz para quantificar e identificar os microrganismos devido ao excesso de hibridizações inespecíficas. Mesmo com suas limitações, a técnica FISH revelou a presença de microrganismos dos Domínios Bacteria e Archaea. Nesse caso, a Família Methanobacteriaceae, a ordem Methanomicrobiales e o gênero Methanosaeta sp. foram confirmados. Nas diferentes coletas, foram identificados protozoários dos gêneros Paramecium sp. e Vorticella sp., e rotíferos dos gêneros Brachionus sp., Trichocerca sp., Synchaeta sp. e Keratella sp. / Microbial diversity studies have remarkable relevance since the knowledge about the microbiology of process can improve plants and system efficiency. This work assessed microbial activity, specially methanogenic, at anaerobic pond for domestic wastewater treatment in the city of Cajati, São Paulo State, Brazil. Poliphasic taxonomy was adopted in onder to contribute to the understanding of microbial community diversity and functionality. As well as to contribute for the establishment of a protocol to the specific methanogenic activity test (SMA). Three periods of sampling were done at the sediment of the anaerobic pond (october 2003, october 2004 and december 2004). Abiotic variables as temperature, conductivity, pH, dissolved oxygen and redox potential were measured at sampling time. TS and VS contents were determined in the samples. Microbial studies were done by observation on optical and fluorescent microscopy, analyse of SMA, totalDNA quantitation, counting of protozoa, analyze of algal and cyanobacteria presence, as well as application of two molecular techniques: Fluorescent in-situ Hybridization (FISH) and Denaturing Gradient Gel Electrophoresis (DGGE). Results showed that general conditions of the anaerobic pond changed among samplings. On October 2004, when the rain and wind were very strong, the organic matter removal efficiency (BOD basis) in the anaerobic pond was low (18.2%) and predominant microorganisms were of aerobic algae, as Chorella sp, and the blue-green algae Merismopedia sp. On the other hand, the removal of organics at other two samplings was more than 80% and the anaerobic microbial activity was verified in the sample. SMA tests showed the food/microorganism rate (F/M) of 0.25 gDQO/g VS was the most suitable to the samples. The results showed SMA values between 0.85 and 0.21 mg\'CH IND.4\'/gVS.d for samples of October 2003 and October 2004. SMA test induced modifications in the structure of the microbial community according to DGGE-profile. In addition, VS content, which was used in the SMA tests as biomass measurement, displayed variable behavior making test results difficult to interpret in some situations. DGGE-profile showed variation in the sediment community structure. Higher bacterial and archaeal diversity was observed when anaerobic pond showed 80%, or more, of DBO removal. FISH technique was not a suitable method to secure quantification and identification of the microorganisms from in excess. In spite of the technique limitations, it was possible to identify microorganisms of Bacteria Domain, Archaea Domain, Methanobacteriaceae Family, Methanomicrobiales Order, and microorganisms belonging to Methanosaeta genus. Paramecium and Vorticella were the protozoans identified in all samplings. Rotifers belonging to genders Brachionus, Trichocerca, Synchaeta and Keratella were also observed.
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An Investigation of the Biochemistry of Biological Phosphorus RemovalErdal, Zeynep Kisoglu 21 March 2002 (has links)
Although enhanced biological phosphorus removal (EBPR) and complete biological nutrient removal (BNR) systems can be operated successfully by experienced operators, the accuracy of design and strength of the scientific background need to be reinforced to enable accurate modeling and economically optimal design. One way to accomplish this would be through a better understanding of the biochemical mechanisms and microbial population dynamics that determine the reliability and efficiency of EBPR, and the utilization of this information to improve the design and operation of BNR plants. Such knowledge will also contribute to better structure of modeling tools that are used for design and educational purposes. The current body of knowledge is limited to observational studies that lack detailed biochemical explanations backed with a series of well planned experiments, and this has introduced uncertainties and inaccuracies into the biochemical and design models. Therefore, this study mainly covers a biochemical survey of the underlying metabolisms of active populations in BNR sludges. BNR biomass with biological phosphorus removal (BPR) capability was cultivated in continuous flow reactor (CFR) systems, configured as either University of Cape Town (UCT) and anoxic/oxic (A/O) systems. Following an acclimation period at 20°C, low temperature stress (5°C) was imposed on one UCT system for investigation of the response of the microbial consortium responsible from EBPR activity under cold temperature. Once a stable population with EBPR capabilities is established in each system, activities of ten enzymes that are hypothesized to be taking part in the EBPR metabolism were measured. These enzymes were selected among those that take part in major known pathways of bacterial energy and growth metabolism. Also, 13C-NMR was used as a tool to monitor the flux of labeled carbon in and out of pools of cellular storage; i.e. glycogen and polyhydroxyalkanoates (PHA). Combining the gathered information, accurate mass balances of carbons and reducing equivalents were calculated, eventually leading to determination of the biochemical pathways utilized by the EBPR consortium. Additionally, anaerobic stabilization of COD, a long debated but empirically established phenomenon, was addressed during the study. Considering the pathways proposed to be operative under different conditions imposed on the EBPR systems, a biochemical explanation for the occurrence of COD stabilization in wastewater treatment systems that incorporate anaerobic zones was proposed. Accordingly, depending on the pathways actively used by a microbial consortium, electrons stored in NADH and FADH2 can either be transferred to the terminal electron acceptor, oxygen, or they can be incorporated into storage polymers such as glycogen for future use. Such differences in metabolism reflect in the quantity of the oxygen consumed in the aerobic reactors. Thus, the correct incorporation of anaerobic stabilization of COD into process design would reduce design aeration requirements and result in economic savings during both construction and operation. / Ph. D.
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