Investigation of key operational factors impacting phosphorus removal and recovery from wastewater treatment plants
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2022 |
| Idioma: | eng |
| Título da fonte: | Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) |
| Texto Completo: | http://hdl.handle.net/10362/132398 |
Resumo: | Nutrient and micropollutant removal, as well as resource recovery, are some of the major current concerns in the wastewater treatment field. Wastewater treatment plants (WWTPs) need solutions to quickly tackle these emerging problems and operate as sustainably as possible. Therefore, this thesis focused on providing insight into some of the major challenges in these fields, such as: i) factors influencing efficient enhanced biological phosphorus removal (EBPR) and its microbial community structure; ii) the biotransformation of an important micropollutant (diclofenac) in the EBPR process and iii) phosphorus and carbon solubilisation from WWTP sludge for resource recovery. EBPR is a complex process where specific bacteria are used for phosphorus removal from the bulk liquid. The most important polyphosphate accumulating organism (PAO) is “Candidatus Accumulibacter phosphatis”, that comprises of phylogenetically different Types, clades and subclades, whose metabolism can be influenced by specific conditions. A reactor enriched with Accumulibacter (> 85 %) was operated for over a one-year period, and identification at the sub-clade level was necessary to correlate the specific identity of the Accumulibacter group with the observed reactor performance. The carbon feeding rate proved to be crucial for the expression of different metabolisms, where a fast-feeding rate resulted in a mixed phosphate/glycogen accumulating metabolism leading to poor P removal (< 30 %) that correlated with clusters ii and iii of Accumulibacter IIc, while a slow carbon feeding rate resulted in complete phosphorus removal and an abundance of cluster i. This work showed that some organisms commonly recognised as PAO do not promote efficient phosphorus removal and there is a need to recharacterize the organisms within the Accumulibacter group. Removal of micropollutants is another emerging concern, especially since some micropollutants such as diclofenac have been shown to be near-recalcitrant in conventional WWTPs. Additionally, some physical/chemical processes have been shown to produce transformation products that are more toxic than the parent compound. Diclofenac biotransformation was investigated in the EBPR process, where the metabolic pathway and toxicity of diclofenac by-products were also assessed. Although Accumulibacter did not appear to transform diclofenac as efficiently as other bacteria (e.g., nitrifiers), it was found to still contribute towards its detoxification. Furthermore, a correlation was observed between the quantity of diclofenac biotransformation and Accumulibacter Type, which could suggest that enrichment of Type II Accumulibacter can stimulate diclofenac biodegradation in wastewater treatment. Finally, resource recovery is one of the major initiatives in the wastewater treatment field. WWTPs are no longer seen as just treatment facilities, but also present opportunities to recover other added-value products and provide more sustainable solutions. Phosphorus is an irreplaceable nutrient and a scarce resource that must be recovered from phosphorus rich waste streams. Biological acidification was tested in this study as an additional step within conventional WWTPs and was shown to have great potential to solubilise up to 80 % of phosphorus and produce on average 0.35 g CODVFA/gVS that could be used in subsequent processes for the production of phosphorus rich fertilizers or bioplastics, respectively. |
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Investigation of key operational factors impacting phosphorus removal and recovery from wastewater treatment plantsphosphorus removal and recoveryenhanced biological phosphorus removal (EBPR)polyphosphate accumulating organisms (PAOs)micropollutantsdiclofenacwaste valorisationDomínio/Área Científica::Engenharia e Tecnologia::Engenharia QuímicaNutrient and micropollutant removal, as well as resource recovery, are some of the major current concerns in the wastewater treatment field. Wastewater treatment plants (WWTPs) need solutions to quickly tackle these emerging problems and operate as sustainably as possible. Therefore, this thesis focused on providing insight into some of the major challenges in these fields, such as: i) factors influencing efficient enhanced biological phosphorus removal (EBPR) and its microbial community structure; ii) the biotransformation of an important micropollutant (diclofenac) in the EBPR process and iii) phosphorus and carbon solubilisation from WWTP sludge for resource recovery. EBPR is a complex process where specific bacteria are used for phosphorus removal from the bulk liquid. The most important polyphosphate accumulating organism (PAO) is “Candidatus Accumulibacter phosphatis”, that comprises of phylogenetically different Types, clades and subclades, whose metabolism can be influenced by specific conditions. A reactor enriched with Accumulibacter (> 85 %) was operated for over a one-year period, and identification at the sub-clade level was necessary to correlate the specific identity of the Accumulibacter group with the observed reactor performance. The carbon feeding rate proved to be crucial for the expression of different metabolisms, where a fast-feeding rate resulted in a mixed phosphate/glycogen accumulating metabolism leading to poor P removal (< 30 %) that correlated with clusters ii and iii of Accumulibacter IIc, while a slow carbon feeding rate resulted in complete phosphorus removal and an abundance of cluster i. This work showed that some organisms commonly recognised as PAO do not promote efficient phosphorus removal and there is a need to recharacterize the organisms within the Accumulibacter group. Removal of micropollutants is another emerging concern, especially since some micropollutants such as diclofenac have been shown to be near-recalcitrant in conventional WWTPs. Additionally, some physical/chemical processes have been shown to produce transformation products that are more toxic than the parent compound. Diclofenac biotransformation was investigated in the EBPR process, where the metabolic pathway and toxicity of diclofenac by-products were also assessed. Although Accumulibacter did not appear to transform diclofenac as efficiently as other bacteria (e.g., nitrifiers), it was found to still contribute towards its detoxification. Furthermore, a correlation was observed between the quantity of diclofenac biotransformation and Accumulibacter Type, which could suggest that enrichment of Type II Accumulibacter can stimulate diclofenac biodegradation in wastewater treatment. Finally, resource recovery is one of the major initiatives in the wastewater treatment field. WWTPs are no longer seen as just treatment facilities, but also present opportunities to recover other added-value products and provide more sustainable solutions. Phosphorus is an irreplaceable nutrient and a scarce resource that must be recovered from phosphorus rich waste streams. Biological acidification was tested in this study as an additional step within conventional WWTPs and was shown to have great potential to solubilise up to 80 % of phosphorus and produce on average 0.35 g CODVFA/gVS that could be used in subsequent processes for the production of phosphorus rich fertilizers or bioplastics, respectively.A remoção de nutrientes e micropoluentes, bem como a recuperação de recursos, são algumas das principais preocupações atuais na área do tratamento de águas residuais. As estações de tratamento de águas residuais precisam de soluções para combater rapidamente esses problemas emergentes e operar da forma mais sustentável possível. Por esse motivo, o objectivo desta tese foi identificar alguns dos principais desafios nestas áreas, tais como: i) fatores que influenciam a remoção biológica eficiente de fósforo e respetiva composição da comunidade microbiana; ii) a biotransformação de um importante micropoluente (diclofenac) no processo de remoção biológica de fósforo e iii) solubilização de fósforo e carbono de lamas de tratamento de águas residuais com objectivo de recuperação de recursos. A remoção biológica do fósforo é um processo complexo em que bactérias específicas são usadas para a remoção do fósforo da parte liquida. O organismo acumulador de polifosfato (PAO) mais importante é a “Candidatus Accumulibacter phosphatis”, composta por diferentes tipos filogenéticos, clades e subclades, cujo metabolismo das diferentes espécies é influenciado por condições especificas. Neste trabalho, um reator enriquecido em Accumulibacter (> 85%) foi operado por um período superior a um ano, durante o qual a identificação de uma espécie , ao nível do subclade, foi feita de forma a correlacionar a identidade específica do grupo Accumulibacter com o desempenho do reator. A taxa de alimentação de carbono provou ser crucial para a expressão de diferentes metabolismos. Uma taxa de alimentação rápida resultou em um metabolismo misto de acumulação de fosfato/glicogênio, levando a uma baixa remoção de P (< 30%), o que se correlacionou com os clusters ii e iii, enquanto uma taxa de alimentação de carbono lenta levou a um metabolismo de acumulação de polifosfato típico, resultando na remoção completa do fósforo e de uma abundância do cluster i dentro da mesma Accumulibacter IIc. Este trabalho mostrou que alguns organismos habitualmente reconhecidos como PAO não promovem uma remoção eficiente de fósforo, verificando-se assim a necessidade de reclassificar os organismos que são PAOs dentro do grupo Accumulibacter. A remoção de micropoluentes é outra preocupação emergente, especialmente porque alguns micropoluentes, como o diclofenaco, mostraram ser recalcitrantes em estações de tratamento de águas residuais convencionais. Foi demonstrado que alguns processos físicos/químicos produzem produtos de transformação mais tóxicos do que o composto original. A biotransformação do diclofenaco foi investigada simultaneamente com a remoção biológica do fósforo, onde a via metabólica e a toxicidade dos subprodutos do diclofenaco também foram avaliadas. Embora a Accumulibacter não pareça biotransformar o diclofenaco tão eficientemente quanto outras bactérias (por exemplo, nitrificantes), ainda assim contribui para a sua desintoxicação ao produzir subprodutos de menor toxicidade do que o próprio diclofenaco. Além disso, foi observada uma correlação entre a quantidade de biotransformação de diclofenaco e o tipo de Accumulibacter, o que pode sugerir que o enriquecimento de Accumulibacter do tipo II pode estimular a biodegradação do diclofenaco no tratamento de águas residuais. Por fim, a recuperação de recursos é uma das principais iniciativas na área de tratamento de águas residuais. As estações de tratamento de águas residuais não são apenas vistas como estações de tratamento, apresentando também oportunidades de recuperação de outros produtos de valor acrescentado e de soluções mais sustentáveis. O fósforo é um nutriente insubstituível e um recurso escasso que deve ser recuperado de correntes de resíduos ricos em fósforo. A acidificação biológica foi testada neste estudo como uma etapa adicional a incluir em estações de tratamento de águas residuais convencionais e demonstrou ter o potencial de solubilizar até 80 % do fósforo e produzir 0,35 g CODVFA/g VS, que poderá ser usado em processos subsequentes para a produção de fertilizantes ricos em fósforo ou bioplásticos, respetivamente.Reis, Maria AscensãoSekulić, MajaOehmen, AdrianRUNBarreiros, Srđana Kolaković Oliveira2022-02-07T15:17:55Z2022-012022-01-01T00:00:00Zdoctoral thesisinfo:eu-repo/semantics/publishedVersionapplication/pdfhttp://hdl.handle.net/10362/132398enginfo:eu-repo/semantics/openAccessreponame:Repositórios Científicos de Acesso Aberto de Portugal (RCAAP)instname:FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiainstacron:RCAAP2024-05-22T17:59:08Zoai:run.unl.pt:10362/132398Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireinfo@rcaap.ptopendoar:https://opendoar.ac.uk/repository/71602025-05-28T17:30:16.962155Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) - FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiafalse |
| dc.title.none.fl_str_mv |
Investigation of key operational factors impacting phosphorus removal and recovery from wastewater treatment plants |
| title |
Investigation of key operational factors impacting phosphorus removal and recovery from wastewater treatment plants |
| spellingShingle |
Investigation of key operational factors impacting phosphorus removal and recovery from wastewater treatment plants Barreiros, Srđana Kolaković Oliveira phosphorus removal and recovery enhanced biological phosphorus removal (EBPR) polyphosphate accumulating organisms (PAOs) micropollutants diclofenac waste valorisation Domínio/Área Científica::Engenharia e Tecnologia::Engenharia Química |
| title_short |
Investigation of key operational factors impacting phosphorus removal and recovery from wastewater treatment plants |
| title_full |
Investigation of key operational factors impacting phosphorus removal and recovery from wastewater treatment plants |
| title_fullStr |
Investigation of key operational factors impacting phosphorus removal and recovery from wastewater treatment plants |
| title_full_unstemmed |
Investigation of key operational factors impacting phosphorus removal and recovery from wastewater treatment plants |
| title_sort |
Investigation of key operational factors impacting phosphorus removal and recovery from wastewater treatment plants |
| author |
Barreiros, Srđana Kolaković Oliveira |
| author_facet |
Barreiros, Srđana Kolaković Oliveira |
| author_role |
author |
| dc.contributor.none.fl_str_mv |
Reis, Maria Ascensão Sekulić, Maja Oehmen, Adrian RUN |
| dc.contributor.author.fl_str_mv |
Barreiros, Srđana Kolaković Oliveira |
| dc.subject.por.fl_str_mv |
phosphorus removal and recovery enhanced biological phosphorus removal (EBPR) polyphosphate accumulating organisms (PAOs) micropollutants diclofenac waste valorisation Domínio/Área Científica::Engenharia e Tecnologia::Engenharia Química |
| topic |
phosphorus removal and recovery enhanced biological phosphorus removal (EBPR) polyphosphate accumulating organisms (PAOs) micropollutants diclofenac waste valorisation Domínio/Área Científica::Engenharia e Tecnologia::Engenharia Química |
| description |
Nutrient and micropollutant removal, as well as resource recovery, are some of the major current concerns in the wastewater treatment field. Wastewater treatment plants (WWTPs) need solutions to quickly tackle these emerging problems and operate as sustainably as possible. Therefore, this thesis focused on providing insight into some of the major challenges in these fields, such as: i) factors influencing efficient enhanced biological phosphorus removal (EBPR) and its microbial community structure; ii) the biotransformation of an important micropollutant (diclofenac) in the EBPR process and iii) phosphorus and carbon solubilisation from WWTP sludge for resource recovery. EBPR is a complex process where specific bacteria are used for phosphorus removal from the bulk liquid. The most important polyphosphate accumulating organism (PAO) is “Candidatus Accumulibacter phosphatis”, that comprises of phylogenetically different Types, clades and subclades, whose metabolism can be influenced by specific conditions. A reactor enriched with Accumulibacter (> 85 %) was operated for over a one-year period, and identification at the sub-clade level was necessary to correlate the specific identity of the Accumulibacter group with the observed reactor performance. The carbon feeding rate proved to be crucial for the expression of different metabolisms, where a fast-feeding rate resulted in a mixed phosphate/glycogen accumulating metabolism leading to poor P removal (< 30 %) that correlated with clusters ii and iii of Accumulibacter IIc, while a slow carbon feeding rate resulted in complete phosphorus removal and an abundance of cluster i. This work showed that some organisms commonly recognised as PAO do not promote efficient phosphorus removal and there is a need to recharacterize the organisms within the Accumulibacter group. Removal of micropollutants is another emerging concern, especially since some micropollutants such as diclofenac have been shown to be near-recalcitrant in conventional WWTPs. Additionally, some physical/chemical processes have been shown to produce transformation products that are more toxic than the parent compound. Diclofenac biotransformation was investigated in the EBPR process, where the metabolic pathway and toxicity of diclofenac by-products were also assessed. Although Accumulibacter did not appear to transform diclofenac as efficiently as other bacteria (e.g., nitrifiers), it was found to still contribute towards its detoxification. Furthermore, a correlation was observed between the quantity of diclofenac biotransformation and Accumulibacter Type, which could suggest that enrichment of Type II Accumulibacter can stimulate diclofenac biodegradation in wastewater treatment. Finally, resource recovery is one of the major initiatives in the wastewater treatment field. WWTPs are no longer seen as just treatment facilities, but also present opportunities to recover other added-value products and provide more sustainable solutions. Phosphorus is an irreplaceable nutrient and a scarce resource that must be recovered from phosphorus rich waste streams. Biological acidification was tested in this study as an additional step within conventional WWTPs and was shown to have great potential to solubilise up to 80 % of phosphorus and produce on average 0.35 g CODVFA/gVS that could be used in subsequent processes for the production of phosphorus rich fertilizers or bioplastics, respectively. |
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2022 |
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2022-02-07T15:17:55Z 2022-01 2022-01-01T00:00:00Z |
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doctoral thesis |
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