Remoção de nitrogênio via processo de desamonificação utilizando-se diferentes configurações de reatores
| Ano de defesa: | 2015 |
|---|---|
| Autor(a) principal: |
Chini, Angélica
 |
| Orientador(a): |
Kunz, Airton
|
| Banca de defesa: |
Mello, Eloy Lemos de
,
Viancelli, Aline
|
| Tipo de documento: | Dissertação |
| Tipo de acesso: | Acesso aberto |
| Idioma: | por |
| Instituição de defesa: |
Universidade Estadual do Oeste do Parana
|
| Programa de Pós-Graduação: |
Programa de Pós-Graduação "Stricto Sensu" em Engenharia Agrícola
|
| Departamento: |
Engenharia
|
| País: |
BR
|
| Palavras-chave em Português: | |
| Palavras-chave em Inglês: | |
| Área do conhecimento CNPq: | |
| Link de acesso: | http://tede.unioeste.br:8080/tede/handle/tede/2673 |
Resumo: | Nitrogen is an essential nutrient for the survival of living organisms, and although abundant as a gas (N₂), it is largely inaccessible in this form to most beings. Nitrogen only becomes accessible when converted into, for example, ammonia, nitrite and nitrate. These substances can be found in high concentrations in effluents, such as swine wastewater, generating a high concentration of nutrients, which may cause damage to the environment and to public health. Biological processes are widely used to remove high nutrients loads. In this context, anammox, partial nitritation (PN) and their combination, as deammonification, are being studied for nitrogen removal. The deammonification consists in ammonia oxidation by PN and that generates substrate to anammox activity; therefore, it must have partial nitrification control to prevent nitrite accumulation. The nitrite concentration in the reactor can inhibit the anammox process, which can be controlled with different strategies, such as aeration and reactor configuration. Considering this, the present study aimed to evaluate two reactors configurations suspended and expanded sludge, for reactor configuration evaluation on deammonification process. For this, two up flow reactors were used with intermittent feeding and aeration at 30 min cycles (15 min on/ 15 min off), one with suspended and the other with expanded bed. These possess working volume of 1 L, 55 g (w/v) of biofilm plastic carrier, the temperature was maintained at 25 °C, HRT 9 h, circulation input flow rate of 2.70 L.d⁻¹ and recirculation flow rate was 2.5 times the input and it was fed with synthetic medium. It was possible to establish deammonification process in the two reactors and the experiments were carried out: phase I and III were unstable (air flow rate of 30 mL.min⁻¹.L⁻¹) and phase II was stable (air flow rate of 20 mL.min⁻¹.L⁻¹). Thus, in the tested process conditions, it was inferred that the ideal air flow rate was of 20 mL.min⁻¹.L⁻¹. The expanded biomass reactor configuration achieved better nitrogen removal efficiencies, being 1.23 more efficient than suspended bed, thus being considered the best option for the process under study. In the anammox and nitrifying quantification, there were no significant changes in the suspended bed reactor, only nitrifying growth in phase III. For the expanded bed reactor, anammox bacteria increased in phase II. The results showed that the expanded bed reactor presented a performance 23.06% more efficient than the suspended bed reactor. |
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Kunz, AirtonCPF:48699268068http://lattes.cnpq.br/0003350901000829Mello, Eloy Lemos deCPF:02131113900http://lattes.cnpq.br/2106300099734952Viancelli, AlineCPF:05220565982http://lattes.cnpq.br/1177756678285550CPF:07642862938http://lattes.cnpq.br/2155011622229314Chini, Angélica2017-07-10T19:23:57Z2016-01-282015-02-13CHINI, Angélica. Nitrogen removal via deammonification process using different reactors configurations. 2015. 79 f. Dissertação (Mestrado em Engenharia) - Universidade Estadual do Oeste do Parana, Cascavel, 2015.http://tede.unioeste.br:8080/tede/handle/tede/2673Nitrogen is an essential nutrient for the survival of living organisms, and although abundant as a gas (N₂), it is largely inaccessible in this form to most beings. Nitrogen only becomes accessible when converted into, for example, ammonia, nitrite and nitrate. These substances can be found in high concentrations in effluents, such as swine wastewater, generating a high concentration of nutrients, which may cause damage to the environment and to public health. Biological processes are widely used to remove high nutrients loads. In this context, anammox, partial nitritation (PN) and their combination, as deammonification, are being studied for nitrogen removal. The deammonification consists in ammonia oxidation by PN and that generates substrate to anammox activity; therefore, it must have partial nitrification control to prevent nitrite accumulation. The nitrite concentration in the reactor can inhibit the anammox process, which can be controlled with different strategies, such as aeration and reactor configuration. Considering this, the present study aimed to evaluate two reactors configurations suspended and expanded sludge, for reactor configuration evaluation on deammonification process. For this, two up flow reactors were used with intermittent feeding and aeration at 30 min cycles (15 min on/ 15 min off), one with suspended and the other with expanded bed. These possess working volume of 1 L, 55 g (w/v) of biofilm plastic carrier, the temperature was maintained at 25 °C, HRT 9 h, circulation input flow rate of 2.70 L.d⁻¹ and recirculation flow rate was 2.5 times the input and it was fed with synthetic medium. It was possible to establish deammonification process in the two reactors and the experiments were carried out: phase I and III were unstable (air flow rate of 30 mL.min⁻¹.L⁻¹) and phase II was stable (air flow rate of 20 mL.min⁻¹.L⁻¹). Thus, in the tested process conditions, it was inferred that the ideal air flow rate was of 20 mL.min⁻¹.L⁻¹. The expanded biomass reactor configuration achieved better nitrogen removal efficiencies, being 1.23 more efficient than suspended bed, thus being considered the best option for the process under study. In the anammox and nitrifying quantification, there were no significant changes in the suspended bed reactor, only nitrifying growth in phase III. For the expanded bed reactor, anammox bacteria increased in phase II. The results showed that the expanded bed reactor presented a performance 23.06% more efficient than the suspended bed reactor.O nitrogênio é um dos nutrientes essenciais para a sobrevivência dos organismos vivos e, embora abundante como gás (N₂), é em grande parte inacessível nesta forma à maioria dos organismos. O nitrogênio só se torna acessível quando convertido em, por exemplo, amônia, nitrito e nitrato. Substâncias essas que são encontradas em elevadas concentrações em efluentes, como os da suinocultura, gerando uma elevada concentração de nutrientes,que podem causar danos ao meio ambiente e à saúde pública. Para a remoção de elevadas cargas de nutrientes, os processos biológicos são amplamente utilizados. Assim, os processos anammox, nitritação parcial e seus sistemas combinados, como a desamonificação, estão sendo estudados para a remoção do nitrogênio. A desamonificação consiste na oxidação da amônia pela nitritação parcial (NP), gerando substrato para as bactérias com atividade anammox. Por isso, é necessário que ocorra controle rigoroso da NP a fim de evitar acúmulo de nitrito. O controle da produção de nitrito, a qual pode inibir as bactérias com atividade anammox,pode ser de várias formas, como, por exemplo, estratégias de aeração e configuração de reatores. Considerando estes aspectos, propõe-se estudar duas configurações de reatores, biomassa suspensa e biomassa expandida, com o intuito de avaliar a influência destas configurações em relação ao processo de desamonificação. Para isto, foram utilizados dois reatores de fluxo ascendente, com alimentação e aeração intermitente em ciclos de 30 min (sendo alimentação e aeração ligadas por 15 min e desligadas por 15 min), um com leito suspenso e outro expandido. Reatores com volume útil de 1L e 55 g (v/v) de meio suporte, temperatura mantida em 25 °C, TRH de 9 h, vazão de alimentação de 2,70 L.d⁻¹ e a de recirculação foi 2,5 vezes a de entrada. Os reatores foram alimentados com meio de cultura sintético contendo nitrogênio amoniacal total na faixa de 300 mgN.L⁻¹. A partir disso, foi possível estabelecer o processo de desamonificação nos dois reatores com vazões de ar de 20 e 30 mL.min⁻¹.L⁻¹, em três diferentes fases. As fases I e III foram instáveis (vazão de ar de 30 mL.min⁻¹.L⁻¹), ao passo que a fase II foi estável (vazão de ar de 20 mL.min⁻¹.L⁻¹). Dessa maneira, nas condições de processo testadas, inferiu-se que a vazão de ar de 20 mL.min⁻¹.L⁻¹ é a ideal. A configuração de reator de biomassa expandida obteve melhores resultados na remoção de nitrogênio, tendo 1,23 vezes maior eficiência do que o de biomassa suspensa. Assim sendo, o reator de leito expandido se mostrou a melhor opção para o processo estudado. Já na quantificação de biomassa anammox e nitrificante, não houve alterações significativas no reator de leito suspenso, somente crescimento de bactéria nitrificante na fase III. O reator de leito expandido, além disto, também apresentou crescimento de bactérias com atividade anammox na fase II. Os resultados evidenciaram que o reator de leito expandido teve um desempenho 23,06% superior ao de leito suspensoMade available in DSpace on 2017-07-10T19:23:57Z (GMT). No. of bitstreams: 1 Angelica _Chini.pdf: 1719142 bytes, checksum: cacffbf4d6a7bd7dd87a559756ed1238 (MD5) Previous issue date: 2015-02-13application/pdfporUniversidade Estadual do Oeste do ParanaPrograma de Pós-Graduação "Stricto Sensu" em Engenharia AgrícolaUNIOESTEBREngenhariaanammoxconfiguração de reatornitritação parcialReator únicoanammoxpartial nitrificationreactor configuration single reactorCNPQ::CIENCIAS AGRARIASRemoção de nitrogênio via processo de desamonificação utilizando-se diferentes configurações de reatoresNitrogen removal via deammonification process using different reactors configurationsinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisinfo:eu-repo/semantics/openAccessreponame:Biblioteca Digital de Teses e Dissertações do UNIOESTEinstname:Universidade Estadual do Oeste do Paraná (UNIOESTE)instacron:UNIOESTEORIGINALAngelica _Chini.pdfapplication/pdf1719142http://tede.unioeste.br:8080/tede/bitstream/tede/2673/1/Angelica+_Chini.pdfcacffbf4d6a7bd7dd87a559756ed1238MD51tede/26732017-07-10 16:23:57.318oai:tede.unioeste.br:tede/2673Biblioteca Digital de Teses e Dissertaçõeshttp://tede.unioeste.br/PUBhttp://tede.unioeste.br/oai/requestbiblioteca.repositorio@unioeste.bropendoar:2017-07-10T19:23:57Biblioteca Digital de Teses e Dissertações do UNIOESTE - Universidade Estadual do Oeste do Paraná (UNIOESTE)false |
| dc.title.por.fl_str_mv |
Remoção de nitrogênio via processo de desamonificação utilizando-se diferentes configurações de reatores |
| dc.title.alternative.eng.fl_str_mv |
Nitrogen removal via deammonification process using different reactors configurations |
| title |
Remoção de nitrogênio via processo de desamonificação utilizando-se diferentes configurações de reatores |
| spellingShingle |
Remoção de nitrogênio via processo de desamonificação utilizando-se diferentes configurações de reatores Chini, Angélica anammox configuração de reator nitritação parcial Reator único anammox partial nitrification reactor configuration single reactor CNPQ::CIENCIAS AGRARIAS |
| title_short |
Remoção de nitrogênio via processo de desamonificação utilizando-se diferentes configurações de reatores |
| title_full |
Remoção de nitrogênio via processo de desamonificação utilizando-se diferentes configurações de reatores |
| title_fullStr |
Remoção de nitrogênio via processo de desamonificação utilizando-se diferentes configurações de reatores |
| title_full_unstemmed |
Remoção de nitrogênio via processo de desamonificação utilizando-se diferentes configurações de reatores |
| title_sort |
Remoção de nitrogênio via processo de desamonificação utilizando-se diferentes configurações de reatores |
| author |
Chini, Angélica |
| author_facet |
Chini, Angélica |
| author_role |
author |
| dc.contributor.advisor1.fl_str_mv |
Kunz, Airton |
| dc.contributor.advisor1ID.fl_str_mv |
CPF:48699268068 |
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http://lattes.cnpq.br/0003350901000829 |
| dc.contributor.referee1.fl_str_mv |
Mello, Eloy Lemos de |
| dc.contributor.referee1ID.fl_str_mv |
CPF:02131113900 |
| dc.contributor.referee1Lattes.fl_str_mv |
http://lattes.cnpq.br/2106300099734952 |
| dc.contributor.referee2.fl_str_mv |
Viancelli, Aline |
| dc.contributor.referee2ID.fl_str_mv |
CPF:05220565982 |
| dc.contributor.referee2Lattes.fl_str_mv |
http://lattes.cnpq.br/1177756678285550 |
| dc.contributor.authorID.fl_str_mv |
CPF:07642862938 |
| dc.contributor.authorLattes.fl_str_mv |
http://lattes.cnpq.br/2155011622229314 |
| dc.contributor.author.fl_str_mv |
Chini, Angélica |
| contributor_str_mv |
Kunz, Airton Mello, Eloy Lemos de Viancelli, Aline |
| dc.subject.por.fl_str_mv |
anammox configuração de reator nitritação parcial Reator único |
| topic |
anammox configuração de reator nitritação parcial Reator único anammox partial nitrification reactor configuration single reactor CNPQ::CIENCIAS AGRARIAS |
| dc.subject.eng.fl_str_mv |
anammox partial nitrification reactor configuration single reactor |
| dc.subject.cnpq.fl_str_mv |
CNPQ::CIENCIAS AGRARIAS |
| description |
Nitrogen is an essential nutrient for the survival of living organisms, and although abundant as a gas (N₂), it is largely inaccessible in this form to most beings. Nitrogen only becomes accessible when converted into, for example, ammonia, nitrite and nitrate. These substances can be found in high concentrations in effluents, such as swine wastewater, generating a high concentration of nutrients, which may cause damage to the environment and to public health. Biological processes are widely used to remove high nutrients loads. In this context, anammox, partial nitritation (PN) and their combination, as deammonification, are being studied for nitrogen removal. The deammonification consists in ammonia oxidation by PN and that generates substrate to anammox activity; therefore, it must have partial nitrification control to prevent nitrite accumulation. The nitrite concentration in the reactor can inhibit the anammox process, which can be controlled with different strategies, such as aeration and reactor configuration. Considering this, the present study aimed to evaluate two reactors configurations suspended and expanded sludge, for reactor configuration evaluation on deammonification process. For this, two up flow reactors were used with intermittent feeding and aeration at 30 min cycles (15 min on/ 15 min off), one with suspended and the other with expanded bed. These possess working volume of 1 L, 55 g (w/v) of biofilm plastic carrier, the temperature was maintained at 25 °C, HRT 9 h, circulation input flow rate of 2.70 L.d⁻¹ and recirculation flow rate was 2.5 times the input and it was fed with synthetic medium. It was possible to establish deammonification process in the two reactors and the experiments were carried out: phase I and III were unstable (air flow rate of 30 mL.min⁻¹.L⁻¹) and phase II was stable (air flow rate of 20 mL.min⁻¹.L⁻¹). Thus, in the tested process conditions, it was inferred that the ideal air flow rate was of 20 mL.min⁻¹.L⁻¹. The expanded biomass reactor configuration achieved better nitrogen removal efficiencies, being 1.23 more efficient than suspended bed, thus being considered the best option for the process under study. In the anammox and nitrifying quantification, there were no significant changes in the suspended bed reactor, only nitrifying growth in phase III. For the expanded bed reactor, anammox bacteria increased in phase II. The results showed that the expanded bed reactor presented a performance 23.06% more efficient than the suspended bed reactor. |
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2015 |
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2015-02-13 |
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2016-01-28 |
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2017-07-10T19:23:57Z |
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CHINI, Angélica. Nitrogen removal via deammonification process using different reactors configurations. 2015. 79 f. Dissertação (Mestrado em Engenharia) - Universidade Estadual do Oeste do Parana, Cascavel, 2015. |
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http://tede.unioeste.br:8080/tede/handle/tede/2673 |
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CHINI, Angélica. Nitrogen removal via deammonification process using different reactors configurations. 2015. 79 f. Dissertação (Mestrado em Engenharia) - Universidade Estadual do Oeste do Parana, Cascavel, 2015. |
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