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Filtro anaeróbio ascendente combinado com reator aeróbio de lodos ativados em batelada no tratamento de água residuária sintética de indústria de polpa celulósica não branqueada sob condições termofílicas / Upflow anaerobic filter combined with aerobic reactor of activated sludge in batch treating of synthetic wastewater from unbleached cellulose pulp plant under thermophilic conditionsMegda, Cláudia Regina 20 September 2007 (has links)
Um sistema combinado anaeróbio-aeróbio composto de um filtro anaeróbio ascendente seguido de reator aeróbio de lodos ativados em batelada, foi continuamente alimentado com água residuária sintética da indústria de polpa celulósica não branqueada, durante o período de trezentos e sessenta e três dias, com o objetivo de verificar o desempenho dos reatores operados sob condições termofílicas. Os reatores foram inoculados com lodo mesofílico com gradual adaptação para a condição termofílica e operados em duas fases distintas. A primeira e segunda fases contemplam os períodos em que os reatores foram operados em temperatura termofílica de 55 e 65 graus Celsius, respectivamente. O filtro anaeróbio trabalhou com tempo de detenção hidráulica de 48 horas em fluxo contínuo e o reator aeróbio operado em bateladas seqüenciais (RBS) com tempos de ciclo de 12, 18 e 24 horas. A melhor eficiênica de remoção de DQO do sistema combinado anaeróbio-aeróbio foi de 65%, devida, em maior parte ao reator anaeróbio. O filtro anaeróbio operado em temperatura de 55 e 65 graus demonstrou eficiência na capacidade de retenção de biomassa termofílica, evitando a perda no efluente. O RBS, quando operado em temperatura de 55 graus e tempo de ciclo de 18 horas, demonstrou melhor eficiência para pós-tratamento de água residuária sintética. Os resultados gerais mostram uma melhor eficiência dos reatores operados em temperatura de 55 graus Celsius. / A combined anaerobic-aerobic system, composed of an upflow anaerobic filter followed by an aerobic reactor of activated sludge in batch, was continuously feed with synthetic wastewater from unbleached cellulose pulp plant during a period of three hundred and sixty three days, aiming to verify the performance of the reactors operating under thermophilic conditions. The reactors were inoculated with mesophilic sludge having a gradual adaptation to the thermophilic condition and they were operated in two distinct phases. The first and second phases contemplate the periods in which the reactors were operated in a thermophilic temperature of 55 and 65 Celsius degrees, respectively. The anaerobic filter worked with hydraulic detention time of 48 hours in a continuous flow, and the aerobic reactor was operated in a sequencing batch (SBR) with a cycle time of 12, 18 and 24 hours. The best efficiency of the combined anaerobic-aerobic system to remove DQO was 65% due to, in most part, the anaerobic reactor. The anaerobic filter, operating in temperatures of 55 and 65 degrees, has demonstrated efficiency in the capacity to retain thermophilic biomass, avoiding effluent lost. The SBR reactor, when operated in temperature of 55 degrees and a cycle time of 18 hours, has demonstrated better efficiency in the post-treatment of synthetic wastewater. The general results have showed a better efficiency of the reactors operating in a thermophilic temperature of 55 Celsius degrees.
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Filtro anaeróbio ascendente combinado com reator aeróbio de lodos ativados em batelada no tratamento de água residuária sintética de indústria de polpa celulósica não branqueada sob condições termofílicas / Upflow anaerobic filter combined with aerobic reactor of activated sludge in batch treating of synthetic wastewater from unbleached cellulose pulp plant under thermophilic conditionsCláudia Regina Megda 20 September 2007 (has links)
Um sistema combinado anaeróbio-aeróbio composto de um filtro anaeróbio ascendente seguido de reator aeróbio de lodos ativados em batelada, foi continuamente alimentado com água residuária sintética da indústria de polpa celulósica não branqueada, durante o período de trezentos e sessenta e três dias, com o objetivo de verificar o desempenho dos reatores operados sob condições termofílicas. Os reatores foram inoculados com lodo mesofílico com gradual adaptação para a condição termofílica e operados em duas fases distintas. A primeira e segunda fases contemplam os períodos em que os reatores foram operados em temperatura termofílica de 55 e 65 graus Celsius, respectivamente. O filtro anaeróbio trabalhou com tempo de detenção hidráulica de 48 horas em fluxo contínuo e o reator aeróbio operado em bateladas seqüenciais (RBS) com tempos de ciclo de 12, 18 e 24 horas. A melhor eficiênica de remoção de DQO do sistema combinado anaeróbio-aeróbio foi de 65%, devida, em maior parte ao reator anaeróbio. O filtro anaeróbio operado em temperatura de 55 e 65 graus demonstrou eficiência na capacidade de retenção de biomassa termofílica, evitando a perda no efluente. O RBS, quando operado em temperatura de 55 graus e tempo de ciclo de 18 horas, demonstrou melhor eficiência para pós-tratamento de água residuária sintética. Os resultados gerais mostram uma melhor eficiência dos reatores operados em temperatura de 55 graus Celsius. / A combined anaerobic-aerobic system, composed of an upflow anaerobic filter followed by an aerobic reactor of activated sludge in batch, was continuously feed with synthetic wastewater from unbleached cellulose pulp plant during a period of three hundred and sixty three days, aiming to verify the performance of the reactors operating under thermophilic conditions. The reactors were inoculated with mesophilic sludge having a gradual adaptation to the thermophilic condition and they were operated in two distinct phases. The first and second phases contemplate the periods in which the reactors were operated in a thermophilic temperature of 55 and 65 Celsius degrees, respectively. The anaerobic filter worked with hydraulic detention time of 48 hours in a continuous flow, and the aerobic reactor was operated in a sequencing batch (SBR) with a cycle time of 12, 18 and 24 hours. The best efficiency of the combined anaerobic-aerobic system to remove DQO was 65% due to, in most part, the anaerobic reactor. The anaerobic filter, operating in temperatures of 55 and 65 degrees, has demonstrated efficiency in the capacity to retain thermophilic biomass, avoiding effluent lost. The SBR reactor, when operated in temperature of 55 degrees and a cycle time of 18 hours, has demonstrated better efficiency in the post-treatment of synthetic wastewater. The general results have showed a better efficiency of the reactors operating in a thermophilic temperature of 55 Celsius degrees.
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Studie odkanalizování obce Prasklice / The study village sewer system PraskliceGembalová, Barbora January 2017 (has links)
The diploma thesis deals with the assessment of the existing condition of the sewerage system and the proposal of measures for disposal of sewage in the village Prasklice. Submits a proposal for three options for improving the condition of the drainage and resolve the disposal of sewage. Option 1. consists in the design of new separate system and reconstruction of existing stormwater, the original combined system. To this option, including the proposal of the central sewage treatment plant. Option 2. includes the design of the pumping station for the diversion of sewage effluent to wastewater treatment plant that is proposed in the next village Pačlavice. Option 3. describes the reconstruction of the existing combined system and design of the central sewage treatment plant. The individual proposed technological solutions to the drainage and treatment of waste, is created overview of the economic performance. The object is to determine what the least economically demanding variant and show how subsidies can be used. Economically least demanding option was evaluated option 3. From an operational point of view it is most advantageous to variant 1., which will prevent future operating costs. The diploma thesis brings the village Prasklice a convenient solution for sewerage and sewage disposal in the village.
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