Biogas production and nutrient recovery from biodegradation of swine manure

Detalhes bibliográficos
Autor(a) principal: Josà de Souza Oliveira Filho
Data de Publicação: 2016
Tipo de documento: Tese
Idioma: por
Título da fonte: Biblioteca Digital de Teses e Dissertações da UFC
Texto Completo: http://www.teses.ufc.br/tde_busca/arquivo.php?codArquivo=16866
Resumo: The production of renewable energy and fertilizer, through anaerobic biodegradation (AnBio) of waste from pig farming, presents itself as a strategic solution to minimize the negative effects associated with the large volume of manure generated in a small production space. However, further studies should be conducted to improve the understanding on the process and propose improvements. In this sense, this work was divided into three stages. In the first stage, a study was conducted to evaluate the changes that occur in organic matter and in organic and inorganic forms of nitrogen (N) and phosphorus (P) of the solid fraction of pig manure (PM) using anaerobic bench-top reactors as a function of seven hydraulic retention times (7, 14, 21, 28, 35, 42 and 49 days of biodegradation) and compared with the raw manure. In the second stage, we developed a study of anaerobic co-digestion, in a semi-continuous reactor, using the PM and the industrial waste of tomato processing (WTP) at different mixing ratios, to improve the performance of digestion and establish the best ratio of the two substrates for the production of biogas and methane. The following proportions were used (% PM + % WTP): 10% + 90%, 20% + 80%, 30% + 70%, 50% + 50% and 40% + 60%. In the third stage, there was an innovative study to recover the N present in the digestate generated after AnBio, using semipermeable membranes made of expanded polytetrafluoroethylene (PTFE) submerged in the material. This system consists of forcing the volatilization of N present in the digestate in the form of NH3 and then recover it in an acid solution of 1N H2SO4 flowing through the inside of the PTFE membrane. The N is recovered as the ammonium ion (NH4+), with potential for being used as fertilizer. Besides the digestate, raw pig manure (RPM) was used to compare the N recovery potential of both materials. The accumulation of the NH4+ formed was determined at nine sampling times (0, 7, 20, 30, 44, 54, 70, 79 and 93 hours). Based on the results obtained in the first stage, it was concluded that, during the digestion process, the organic matter of higher lability, represented by the carbon of the fulvic acid fraction and carbon oxidizable with 2.5 mL of H2SO4, was partially consumed, promoting the accumulation of recalcitrant organic matter at the end of the process. The contents of organic N and NH4+ reduced respectively by 45.2% and 54.2%, compared with their initial contents in the RPM, probably due to loss by volatilization. The P content reduced by 41.25% in relation to the initial content, due to the chemical precipitation of the inorganic fraction extractable in water with metallic cations within the reactor. In the case of co-digestion, increasing PM proportion to up to 30% of the feed mixture led to the maximum daily production of biogas (175 L) and the largest proportion of methane (60%). Amounts above 30% of manure in the mixture reduced biogas and methane production due to the increase of free NH3 concentration (272 mg L-1), which is toxic to most methanogens. As regards the recovery of N using PTFE membranes, it was observed that the recovery efficiency of the digestate was 12% higher compared with that observed in the RPM. Quantitatively, 4555 mg NH4+ could be recovered from the digestate in 93 hours of experiment, which can be used later as a source of N to agricultural crops.
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spelling info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/doctoralThesisBiogas production and nutrient recovery from biodegradation of swine manureProduÃÃo de biogÃs e recuperaÃÃo de nutrientes a partir da biodegradaÃÃo de dejetos suÃnos2016-02-24Thales VinÃcius de AraÃjo Viana24333552320http://lattes.cnpq.br/1049903075813062Geocleber Gomes de Sousa03624661493http://lattes.cnpq.br/1328029175359492Maria Ivanilda de Aguiar86912739334http://lattes.cnpq.br/5455983813192128Maria Eugenia Ortiz Escobar23121309803http://lattes.cnpq.br/0354607134470549Mirian Cristina Gomes Costa24668879835http://lattes.cnpq.br/8973547754946152 01206998342http://lattes.cnpq.br/2215266005062106 Josà de Souza Oliveira FilhoUniversidade Federal do CearÃPrograma de PÃs-GraduaÃÃo em Agronomia/Solos e NutriÃÃo de PlantasUFCBRDigestatoCo-digestÃo anaerÃbiaFertilizante orgÃnicoNitrogÃnioMembranas permeÃveis a gÃsDigestateAnaerobic co-digestionOrganic fertilizerNitrogenGas-permeable membranesCIENCIA DO SOLOThe production of renewable energy and fertilizer, through anaerobic biodegradation (AnBio) of waste from pig farming, presents itself as a strategic solution to minimize the negative effects associated with the large volume of manure generated in a small production space. However, further studies should be conducted to improve the understanding on the process and propose improvements. In this sense, this work was divided into three stages. In the first stage, a study was conducted to evaluate the changes that occur in organic matter and in organic and inorganic forms of nitrogen (N) and phosphorus (P) of the solid fraction of pig manure (PM) using anaerobic bench-top reactors as a function of seven hydraulic retention times (7, 14, 21, 28, 35, 42 and 49 days of biodegradation) and compared with the raw manure. In the second stage, we developed a study of anaerobic co-digestion, in a semi-continuous reactor, using the PM and the industrial waste of tomato processing (WTP) at different mixing ratios, to improve the performance of digestion and establish the best ratio of the two substrates for the production of biogas and methane. The following proportions were used (% PM + % WTP): 10% + 90%, 20% + 80%, 30% + 70%, 50% + 50% and 40% + 60%. In the third stage, there was an innovative study to recover the N present in the digestate generated after AnBio, using semipermeable membranes made of expanded polytetrafluoroethylene (PTFE) submerged in the material. This system consists of forcing the volatilization of N present in the digestate in the form of NH3 and then recover it in an acid solution of 1N H2SO4 flowing through the inside of the PTFE membrane. The N is recovered as the ammonium ion (NH4+), with potential for being used as fertilizer. Besides the digestate, raw pig manure (RPM) was used to compare the N recovery potential of both materials. The accumulation of the NH4+ formed was determined at nine sampling times (0, 7, 20, 30, 44, 54, 70, 79 and 93 hours). Based on the results obtained in the first stage, it was concluded that, during the digestion process, the organic matter of higher lability, represented by the carbon of the fulvic acid fraction and carbon oxidizable with 2.5 mL of H2SO4, was partially consumed, promoting the accumulation of recalcitrant organic matter at the end of the process. The contents of organic N and NH4+ reduced respectively by 45.2% and 54.2%, compared with their initial contents in the RPM, probably due to loss by volatilization. The P content reduced by 41.25% in relation to the initial content, due to the chemical precipitation of the inorganic fraction extractable in water with metallic cations within the reactor. In the case of co-digestion, increasing PM proportion to up to 30% of the feed mixture led to the maximum daily production of biogas (175 L) and the largest proportion of methane (60%). Amounts above 30% of manure in the mixture reduced biogas and methane production due to the increase of free NH3 concentration (272 mg L-1), which is toxic to most methanogens. As regards the recovery of N using PTFE membranes, it was observed that the recovery efficiency of the digestate was 12% higher compared with that observed in the RPM. Quantitatively, 4555 mg NH4+ could be recovered from the digestate in 93 hours of experiment, which can be used later as a source of N to agricultural crops.A produÃÃo de energia renovÃvel e fertilizante, atravÃs da biodegradaÃÃo anaerÃbia (BioAn) dos dejetos da suinocultura, apresenta-se como uma soluÃÃo estratÃgica para minimizar os efeitos negativos associados ao grande volume de dejeto gerado em um reduzido espaÃo de produÃÃo. Contudo, mais estudos devem ser realizados para melhorar o entendimento do processo e propor melhorias. Nesse sentido, realizou-se este trabalho que foi dividido em trÃs etapas. Na primeira, foi realizado um estudo com o objetivo de avaliar as mudanÃas que ocorrem na matÃria orgÃnica e nas formas orgÃnicas e inorgÃnicas de nitrogÃnio (N) e fÃsforo (P) da fraÃÃo sÃlida do dejeto suÃno (DS), utilizando reatores anaerÃbios de bancada, em funÃÃo de sete tempos de retenÃÃo hidrÃulica (7, 14, 21, 28, 35, 42 e 49 dias de biodegradaÃÃo) e comparados com o dejeto nÃo degradado. Na segunda etapa, desenvolveu-se um estudo de co-digestÃo anaerÃbia, em um reator semicontÃnuo, utilizando o DS e o resÃduo da indÃstria do processamento do tomate (RPT) em diferentes proporÃÃes de mistura, visando melhorar o desempenho da biodegradaÃÃo e estabelecer a melhor proporÃÃo dos dois substratos para a produÃÃo de biogÃs e metano. Utilizaram-se as seguintes proporÃÃes (% de DS + % de RPT): 10% + 90%, 20% + 80%, 30% + 70%, 50% + 50% e 60% + 40%. Na terceira etapa, realizou-se um estudo inovador visando recuperar o N presente no digestato gerado apÃs a biodegradaÃÃo, utilizando membranas semipermeÃveis de politetrafluoroetileno expandido (PTFE) submersas no material. Esse sistema consistiu em forÃar a volatilizaÃÃo do N presente no digestato na forma de NH3 e, posteriormente, recuperÃ-lo em uma soluÃÃo Ãcida de H2SO4 1N que circulava pelo interior da membrana de PTFE. O N foi recuperado na forma do Ãon amÃnio (NH4+), com potencial para ser utilizado como fertilizante. Utilizou-se alÃm do digestato, DS nÃo degradado, para comparaÃÃo do potencial de recuperaÃÃo de N dos dois materiais. A determinaÃÃo do acÃmulo de NH4+ formado foi realizada em nove tempos de amostragem (0, 7, 20, 30, 44, 54, 70, 79 e 93 horas). Com base nos resultados obtidos na etapa 1, concluiu-se que durante a biodegradaÃÃo, a matÃria orgÃnica de maior labilidade, representada pelo carbono da fraÃÃo Ãcido fÃlvico e carbono oxidÃvel com 2,5 mL de H2SO4, foi parcialmente consumida, promovendo o acÃmulo de matÃria orgÃnica recalcitrante no final do processo. Os conteÃdos de N orgÃnico e NH4+ reduziram respectivamente, 45,2% e 54,2% em relaÃÃo aos seus conteÃdos iniciais no dejeto nÃo degradado, devido, provavelmente, a perda por volatilizaÃÃo. O conteÃdo de P reduziu 41,25% em relaÃÃo ao seu conteÃdo inicial, devido à precipitaÃÃo quÃmica da fraÃÃo inorgÃnica extraÃvel em Ãgua com cÃtions metÃlicos no interior do reator. No caso da co-digestÃo, o aumento da proporÃÃo do DS atà o limite de 30% da mistura de alimentaÃÃo, proporcionou a mÃxima produÃÃo diÃria de biogÃs (175 L) e a maior proporÃÃo de metano (60%). Quantidades superiores a 30% de dejeto na mistura, reduziram a produÃÃo de biogÃs e metano devido ao aumento da concentraÃÃo de NH3 Livre (272 mg L-1) tÃxico a maioria dos microrganismos metanogÃnicos. No que se refere à recuperaÃÃo do N utilizando as membranas de PTFE, observou-se que a eficiÃncia de recuperaÃÃo no digestato foi superior em 12% em relaÃÃo ao observado no dejeto nÃo degradado. Em termos quantitativos, conseguiu-se recuperar 4555 mg de NH4+ proveniente do digestato durante 93 horas de experimento que poderÃ, posteriormente, ser utilizado como fonte de N para as culturas agrÃcolas.CoordenaÃÃo de AperfeÃoamento de Pessoal de NÃvel Superior http://www.teses.ufc.br/tde_busca/arquivo.php?codArquivo=16866application/pdfinfo:eu-repo/semantics/openAccessporreponame:Biblioteca Digital de Teses e Dissertações da UFCinstname:Universidade Federal do Cearáinstacron:UFC2019-01-21T11:30:22Zmail@mail.com -
dc.title.en.fl_str_mv Biogas production and nutrient recovery from biodegradation of swine manure
dc.title.alternative.pt.fl_str_mv ProduÃÃo de biogÃs e recuperaÃÃo de nutrientes a partir da biodegradaÃÃo de dejetos suÃnos
title Biogas production and nutrient recovery from biodegradation of swine manure
spellingShingle Biogas production and nutrient recovery from biodegradation of swine manure
Josà de Souza Oliveira Filho
Digestato
Co-digestÃo anaerÃbia
Fertilizante orgÃnico
NitrogÃnio
Membranas permeÃveis a gÃs
Digestate
Anaerobic co-digestion
Organic fertilizer
Nitrogen
Gas-permeable membranes
CIENCIA DO SOLO
title_short Biogas production and nutrient recovery from biodegradation of swine manure
title_full Biogas production and nutrient recovery from biodegradation of swine manure
title_fullStr Biogas production and nutrient recovery from biodegradation of swine manure
title_full_unstemmed Biogas production and nutrient recovery from biodegradation of swine manure
title_sort Biogas production and nutrient recovery from biodegradation of swine manure
author Josà de Souza Oliveira Filho
author_facet Josà de Souza Oliveira Filho
author_role author
dc.contributor.advisor1.fl_str_mv Thales VinÃcius de AraÃjo Viana
dc.contributor.advisor1ID.fl_str_mv 24333552320
dc.contributor.advisor1Lattes.fl_str_mv http://lattes.cnpq.br/1049903075813062
dc.contributor.referee1.fl_str_mv Geocleber Gomes de Sousa
dc.contributor.referee1ID.fl_str_mv 03624661493
dc.contributor.referee1Lattes.fl_str_mv http://lattes.cnpq.br/1328029175359492
dc.contributor.referee2.fl_str_mv Maria Ivanilda de Aguiar
dc.contributor.referee2ID.fl_str_mv 86912739334
dc.contributor.referee2Lattes.fl_str_mv http://lattes.cnpq.br/5455983813192128
dc.contributor.referee3.fl_str_mv Maria Eugenia Ortiz Escobar
dc.contributor.referee3ID.fl_str_mv 23121309803
dc.contributor.referee3Lattes.fl_str_mv http://lattes.cnpq.br/0354607134470549
dc.contributor.referee4.fl_str_mv Mirian Cristina Gomes Costa
dc.contributor.referee4ID.fl_str_mv 24668879835
dc.contributor.referee4Lattes.fl_str_mv http://lattes.cnpq.br/8973547754946152
dc.contributor.authorID.fl_str_mv 01206998342
dc.contributor.authorLattes.fl_str_mv http://lattes.cnpq.br/2215266005062106
dc.contributor.author.fl_str_mv Josà de Souza Oliveira Filho
contributor_str_mv Thales VinÃcius de AraÃjo Viana
Geocleber Gomes de Sousa
Maria Ivanilda de Aguiar
Maria Eugenia Ortiz Escobar
Mirian Cristina Gomes Costa
dc.subject.por.fl_str_mv Digestato
Co-digestÃo anaerÃbia
Fertilizante orgÃnico
NitrogÃnio
Membranas permeÃveis a gÃs
topic Digestato
Co-digestÃo anaerÃbia
Fertilizante orgÃnico
NitrogÃnio
Membranas permeÃveis a gÃs
Digestate
Anaerobic co-digestion
Organic fertilizer
Nitrogen
Gas-permeable membranes
CIENCIA DO SOLO
dc.subject.eng.fl_str_mv Digestate
Anaerobic co-digestion
Organic fertilizer
Nitrogen
Gas-permeable membranes
dc.subject.cnpq.fl_str_mv CIENCIA DO SOLO
dc.description.sponsorship.fl_txt_mv CoordenaÃÃo de AperfeÃoamento de Pessoal de NÃvel Superior
dc.description.abstract.por.fl_txt_mv The production of renewable energy and fertilizer, through anaerobic biodegradation (AnBio) of waste from pig farming, presents itself as a strategic solution to minimize the negative effects associated with the large volume of manure generated in a small production space. However, further studies should be conducted to improve the understanding on the process and propose improvements. In this sense, this work was divided into three stages. In the first stage, a study was conducted to evaluate the changes that occur in organic matter and in organic and inorganic forms of nitrogen (N) and phosphorus (P) of the solid fraction of pig manure (PM) using anaerobic bench-top reactors as a function of seven hydraulic retention times (7, 14, 21, 28, 35, 42 and 49 days of biodegradation) and compared with the raw manure. In the second stage, we developed a study of anaerobic co-digestion, in a semi-continuous reactor, using the PM and the industrial waste of tomato processing (WTP) at different mixing ratios, to improve the performance of digestion and establish the best ratio of the two substrates for the production of biogas and methane. The following proportions were used (% PM + % WTP): 10% + 90%, 20% + 80%, 30% + 70%, 50% + 50% and 40% + 60%. In the third stage, there was an innovative study to recover the N present in the digestate generated after AnBio, using semipermeable membranes made of expanded polytetrafluoroethylene (PTFE) submerged in the material. This system consists of forcing the volatilization of N present in the digestate in the form of NH3 and then recover it in an acid solution of 1N H2SO4 flowing through the inside of the PTFE membrane. The N is recovered as the ammonium ion (NH4+), with potential for being used as fertilizer. Besides the digestate, raw pig manure (RPM) was used to compare the N recovery potential of both materials. The accumulation of the NH4+ formed was determined at nine sampling times (0, 7, 20, 30, 44, 54, 70, 79 and 93 hours). Based on the results obtained in the first stage, it was concluded that, during the digestion process, the organic matter of higher lability, represented by the carbon of the fulvic acid fraction and carbon oxidizable with 2.5 mL of H2SO4, was partially consumed, promoting the accumulation of recalcitrant organic matter at the end of the process. The contents of organic N and NH4+ reduced respectively by 45.2% and 54.2%, compared with their initial contents in the RPM, probably due to loss by volatilization. The P content reduced by 41.25% in relation to the initial content, due to the chemical precipitation of the inorganic fraction extractable in water with metallic cations within the reactor. In the case of co-digestion, increasing PM proportion to up to 30% of the feed mixture led to the maximum daily production of biogas (175 L) and the largest proportion of methane (60%). Amounts above 30% of manure in the mixture reduced biogas and methane production due to the increase of free NH3 concentration (272 mg L-1), which is toxic to most methanogens. As regards the recovery of N using PTFE membranes, it was observed that the recovery efficiency of the digestate was 12% higher compared with that observed in the RPM. Quantitatively, 4555 mg NH4+ could be recovered from the digestate in 93 hours of experiment, which can be used later as a source of N to agricultural crops.
A produÃÃo de energia renovÃvel e fertilizante, atravÃs da biodegradaÃÃo anaerÃbia (BioAn) dos dejetos da suinocultura, apresenta-se como uma soluÃÃo estratÃgica para minimizar os efeitos negativos associados ao grande volume de dejeto gerado em um reduzido espaÃo de produÃÃo. Contudo, mais estudos devem ser realizados para melhorar o entendimento do processo e propor melhorias. Nesse sentido, realizou-se este trabalho que foi dividido em trÃs etapas. Na primeira, foi realizado um estudo com o objetivo de avaliar as mudanÃas que ocorrem na matÃria orgÃnica e nas formas orgÃnicas e inorgÃnicas de nitrogÃnio (N) e fÃsforo (P) da fraÃÃo sÃlida do dejeto suÃno (DS), utilizando reatores anaerÃbios de bancada, em funÃÃo de sete tempos de retenÃÃo hidrÃulica (7, 14, 21, 28, 35, 42 e 49 dias de biodegradaÃÃo) e comparados com o dejeto nÃo degradado. Na segunda etapa, desenvolveu-se um estudo de co-digestÃo anaerÃbia, em um reator semicontÃnuo, utilizando o DS e o resÃduo da indÃstria do processamento do tomate (RPT) em diferentes proporÃÃes de mistura, visando melhorar o desempenho da biodegradaÃÃo e estabelecer a melhor proporÃÃo dos dois substratos para a produÃÃo de biogÃs e metano. Utilizaram-se as seguintes proporÃÃes (% de DS + % de RPT): 10% + 90%, 20% + 80%, 30% + 70%, 50% + 50% e 60% + 40%. Na terceira etapa, realizou-se um estudo inovador visando recuperar o N presente no digestato gerado apÃs a biodegradaÃÃo, utilizando membranas semipermeÃveis de politetrafluoroetileno expandido (PTFE) submersas no material. Esse sistema consistiu em forÃar a volatilizaÃÃo do N presente no digestato na forma de NH3 e, posteriormente, recuperÃ-lo em uma soluÃÃo Ãcida de H2SO4 1N que circulava pelo interior da membrana de PTFE. O N foi recuperado na forma do Ãon amÃnio (NH4+), com potencial para ser utilizado como fertilizante. Utilizou-se alÃm do digestato, DS nÃo degradado, para comparaÃÃo do potencial de recuperaÃÃo de N dos dois materiais. A determinaÃÃo do acÃmulo de NH4+ formado foi realizada em nove tempos de amostragem (0, 7, 20, 30, 44, 54, 70, 79 e 93 horas). Com base nos resultados obtidos na etapa 1, concluiu-se que durante a biodegradaÃÃo, a matÃria orgÃnica de maior labilidade, representada pelo carbono da fraÃÃo Ãcido fÃlvico e carbono oxidÃvel com 2,5 mL de H2SO4, foi parcialmente consumida, promovendo o acÃmulo de matÃria orgÃnica recalcitrante no final do processo. Os conteÃdos de N orgÃnico e NH4+ reduziram respectivamente, 45,2% e 54,2% em relaÃÃo aos seus conteÃdos iniciais no dejeto nÃo degradado, devido, provavelmente, a perda por volatilizaÃÃo. O conteÃdo de P reduziu 41,25% em relaÃÃo ao seu conteÃdo inicial, devido à precipitaÃÃo quÃmica da fraÃÃo inorgÃnica extraÃvel em Ãgua com cÃtions metÃlicos no interior do reator. No caso da co-digestÃo, o aumento da proporÃÃo do DS atà o limite de 30% da mistura de alimentaÃÃo, proporcionou a mÃxima produÃÃo diÃria de biogÃs (175 L) e a maior proporÃÃo de metano (60%). Quantidades superiores a 30% de dejeto na mistura, reduziram a produÃÃo de biogÃs e metano devido ao aumento da concentraÃÃo de NH3 Livre (272 mg L-1) tÃxico a maioria dos microrganismos metanogÃnicos. No que se refere à recuperaÃÃo do N utilizando as membranas de PTFE, observou-se que a eficiÃncia de recuperaÃÃo no digestato foi superior em 12% em relaÃÃo ao observado no dejeto nÃo degradado. Em termos quantitativos, conseguiu-se recuperar 4555 mg de NH4+ proveniente do digestato durante 93 horas de experimento que poderÃ, posteriormente, ser utilizado como fonte de N para as culturas agrÃcolas.
description The production of renewable energy and fertilizer, through anaerobic biodegradation (AnBio) of waste from pig farming, presents itself as a strategic solution to minimize the negative effects associated with the large volume of manure generated in a small production space. However, further studies should be conducted to improve the understanding on the process and propose improvements. In this sense, this work was divided into three stages. In the first stage, a study was conducted to evaluate the changes that occur in organic matter and in organic and inorganic forms of nitrogen (N) and phosphorus (P) of the solid fraction of pig manure (PM) using anaerobic bench-top reactors as a function of seven hydraulic retention times (7, 14, 21, 28, 35, 42 and 49 days of biodegradation) and compared with the raw manure. In the second stage, we developed a study of anaerobic co-digestion, in a semi-continuous reactor, using the PM and the industrial waste of tomato processing (WTP) at different mixing ratios, to improve the performance of digestion and establish the best ratio of the two substrates for the production of biogas and methane. The following proportions were used (% PM + % WTP): 10% + 90%, 20% + 80%, 30% + 70%, 50% + 50% and 40% + 60%. In the third stage, there was an innovative study to recover the N present in the digestate generated after AnBio, using semipermeable membranes made of expanded polytetrafluoroethylene (PTFE) submerged in the material. This system consists of forcing the volatilization of N present in the digestate in the form of NH3 and then recover it in an acid solution of 1N H2SO4 flowing through the inside of the PTFE membrane. The N is recovered as the ammonium ion (NH4+), with potential for being used as fertilizer. Besides the digestate, raw pig manure (RPM) was used to compare the N recovery potential of both materials. The accumulation of the NH4+ formed was determined at nine sampling times (0, 7, 20, 30, 44, 54, 70, 79 and 93 hours). Based on the results obtained in the first stage, it was concluded that, during the digestion process, the organic matter of higher lability, represented by the carbon of the fulvic acid fraction and carbon oxidizable with 2.5 mL of H2SO4, was partially consumed, promoting the accumulation of recalcitrant organic matter at the end of the process. The contents of organic N and NH4+ reduced respectively by 45.2% and 54.2%, compared with their initial contents in the RPM, probably due to loss by volatilization. The P content reduced by 41.25% in relation to the initial content, due to the chemical precipitation of the inorganic fraction extractable in water with metallic cations within the reactor. In the case of co-digestion, increasing PM proportion to up to 30% of the feed mixture led to the maximum daily production of biogas (175 L) and the largest proportion of methane (60%). Amounts above 30% of manure in the mixture reduced biogas and methane production due to the increase of free NH3 concentration (272 mg L-1), which is toxic to most methanogens. As regards the recovery of N using PTFE membranes, it was observed that the recovery efficiency of the digestate was 12% higher compared with that observed in the RPM. Quantitatively, 4555 mg NH4+ could be recovered from the digestate in 93 hours of experiment, which can be used later as a source of N to agricultural crops.
publishDate 2016
dc.date.issued.fl_str_mv 2016-02-24
dc.type.status.fl_str_mv info:eu-repo/semantics/publishedVersion
dc.type.driver.fl_str_mv info:eu-repo/semantics/doctoralThesis
status_str publishedVersion
format doctoralThesis
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dc.publisher.none.fl_str_mv Universidade Federal do CearÃ
dc.publisher.program.fl_str_mv Programa de PÃs-GraduaÃÃo em Agronomia/Solos e NutriÃÃo de Plantas
dc.publisher.initials.fl_str_mv UFC
dc.publisher.country.fl_str_mv BR
publisher.none.fl_str_mv Universidade Federal do CearÃ
dc.source.none.fl_str_mv reponame:Biblioteca Digital de Teses e Dissertações da UFC
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