Integration of advanced oxidation processes (ozone/magnetite) and biological treatments (up-flow anaerobic sludge blanket reactor - uasb and microalgae) for the treatment of landfill leachates

This research addresses the treatment of landfill leachates by integrating advanced oxidation processes (AOPs) and biological treatments to enhance contaminant removal efficiency and reduce effluent toxicity. For this purpose, catalytic ozonation with magnetite, its coupling with an up-flow anaerobi...

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Autores:: Becerra Moreno, Dorance

Tipo de recurso:: Doctoral thesis

Fecha de publicación:: 2025

Institución:: Universidad del Valle

Repositorio:: Repositorio Digital Univalle

Idioma:: eng

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dc.title.eng.fl_str_mv	Integration of advanced oxidation processes (ozone/magnetite) and biological treatments (up-flow anaerobic sludge blanket reactor - uasb and microalgae) for the treatment of landfill leachates
title	Integration of advanced oxidation processes (ozone/magnetite) and biological treatments (up-flow anaerobic sludge blanket reactor - uasb and microalgae) for the treatment of landfill leachates
spellingShingle	Integration of advanced oxidation processes (ozone/magnetite) and biological treatments (up-flow anaerobic sludge blanket reactor - uasb and microalgae) for the treatment of landfill leachates Lixiviados Rellenos sanitarios Proceso de oxidación avanzada (POA) Tratamientos biológicos Ozonización catalítica Reactor anaerobio de flujo ascendente (UASB)
title_short	Integration of advanced oxidation processes (ozone/magnetite) and biological treatments (up-flow anaerobic sludge blanket reactor - uasb and microalgae) for the treatment of landfill leachates
title_full	Integration of advanced oxidation processes (ozone/magnetite) and biological treatments (up-flow anaerobic sludge blanket reactor - uasb and microalgae) for the treatment of landfill leachates
title_fullStr	Integration of advanced oxidation processes (ozone/magnetite) and biological treatments (up-flow anaerobic sludge blanket reactor - uasb and microalgae) for the treatment of landfill leachates
title_full_unstemmed	Integration of advanced oxidation processes (ozone/magnetite) and biological treatments (up-flow anaerobic sludge blanket reactor - uasb and microalgae) for the treatment of landfill leachates
title_sort	Integration of advanced oxidation processes (ozone/magnetite) and biological treatments (up-flow anaerobic sludge blanket reactor - uasb and microalgae) for the treatment of landfill leachates
dc.creator.fl_str_mv	Becerra Moreno, Dorance
dc.contributor.advisor.none.fl_str_mv	Machuca-Martínez, Fiderman Barajas Solano, andres F
dc.contributor.author.none.fl_str_mv	Becerra Moreno, Dorance
dc.subject.lemb.none.fl_str_mv	Lixiviados Rellenos sanitarios Proceso de oxidación avanzada (POA) Tratamientos biológicos Ozonización catalítica Reactor anaerobio de flujo ascendente (UASB)
topic	Lixiviados Rellenos sanitarios Proceso de oxidación avanzada (POA) Tratamientos biológicos Ozonización catalítica Reactor anaerobio de flujo ascendente (UASB)
description	This research addresses the treatment of landfill leachates by integrating advanced oxidation processes (AOPs) and biological treatments to enhance contaminant removal efficiency and reduce effluent toxicity. For this purpose, catalytic ozonation with magnetite, its coupling with an up-flow anaerobic sludge blanket (UASB) reactor, and the integration of microalgae as a post-treatment stage were evaluated. Experimental studies were conducted using leachates from two landfills with contrasting characteristics: one located in a municipality with predominantly agricultural activities (La Madera, Ocaña) and another in a city with industrial activity (El Guayabal, Cúcuta), allowing for a broader application of the results. The study determined that catalytic ozonation with magnetite optimizes organic matter degradation and improves leachate biodegradability, achieving chemical oxygen demand (COD) reductions of 85.3% in El Guayabal and 75.8% in La Madera. Process optimization established optimal operating conditions with an ozone dose of 6 g/h, a magnetite concentration of 2.5 g/L, and a pH of 9, maximizing process efficiency while minimizing ozone consumption. However, a progressive decrease in catalyst efficiency was observed after successive reuse cycles, highlighting the need for regeneration strategies to maintain performance. The coupling of catalytic ozonation with the UASB reactor improved the stability of the biological system, increasing the BOD₅/COD ratio from 0.26 to 0.38 in El Guayabal and from 0.23 to 0.32 in La Madera, facilitating the anaerobic biodegradation of organic matter. The UASB reactor, operating at a hydraulic retention time of 24 hours, achieved COD removals between 60% and 75%, with more excellent stability in leachates with higher concentrations of biodegradable compounds. However, ammoniacal nitrogen removal was limited, with residual concentrations reaching up to 546.1 mg/L, indicating the need for additional treatment to comply with discharge standards. Microalgae as a post-treatment allowed for the removal of up to 65% of total nitrogen and 70% of phosphorus, demonstrating its potential as a final stage in landfill leachate treatment. However, its efficiency in organic matter removal was lower tan that of the UASB reactor, suggesting that its application should focus primarily on nutrient reduction and improving final effluent quality. This study's conclusions confirm that combining catalytic ozonation with magnetite, anaerobic treatment, and microalgae is a viable and efficient alternative for treating landfill leachates with different characteristics. The treatment configuration plays a crucial role in overall process efficiency, with catalytic ozonation being more effective as a pretreatment to facilitate subsequent biological degradation. The need to integrate additional nitrogen removal and catalyst regeneration strategies is emphasized, and the economic and energy feasibility of the process for large-scale implementation is assessed. From a scientific perspective, this thesis contributes to advancing knowledge in landfill leachate treatment by developing optimization models for catalytic ozonation, evaluating catalyst stability during reuse cycles, studying the impact of ozonation on leachate biodegradability, and demonstrating the synergy between advanced oxidation processes and biological systems.
publishDate	2025
dc.date.accessioned.none.fl_str_mv	2025-08-22T16:45:19Z
dc.date.available.none.fl_str_mv	2025-08-22T16:45:19Z
dc.date.issued.none.fl_str_mv	2025
dc.type.spa.fl_str_mv	Trabajo de grado - Doctorado
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dc.identifier.uri.none.fl_str_mv	https://hdl.handle.net/10893/36128
url	https://hdl.handle.net/10893/36128
dc.language.iso.none.fl_str_mv	eng
language	eng
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dc.format.extent.none.fl_str_mv	1 recurso en línea (191 páginas)
dc.format.mimetype.none.fl_str_mv	application/pdf
dc.publisher.spa.fl_str_mv	Universidad del Valle
dc.publisher.place.spa.fl_str_mv	Colombia
dc.publisher.faculty.spa.fl_str_mv	FACULTAD DE INGENIERÍA
dc.publisher.program.spa.fl_str_mv	DOCTORADO EN INGENIERÍA - ÉNFASIS INGENIERÍA SANITARIA Y AMBIENTAL
dc.publisher.branch.none.fl_str_mv	Sede Cali
institution	Universidad del Valle
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spelling	Machuca-Martínez, Fidermanvirtual::1683-1Barajas Solano, andres Fvirtual::1684-1Becerra Moreno, Dorancevirtual::1685-12025-08-22T16:45:19Z2025-08-22T16:45:19Z2025https://hdl.handle.net/10893/36128This research addresses the treatment of landfill leachates by integrating advanced oxidation processes (AOPs) and biological treatments to enhance contaminant removal efficiency and reduce effluent toxicity. For this purpose, catalytic ozonation with magnetite, its coupling with an up-flow anaerobic sludge blanket (UASB) reactor, and the integration of microalgae as a post-treatment stage were evaluated. Experimental studies were conducted using leachates from two landfills with contrasting characteristics: one located in a municipality with predominantly agricultural activities (La Madera, Ocaña) and another in a city with industrial activity (El Guayabal, Cúcuta), allowing for a broader application of the results. The study determined that catalytic ozonation with magnetite optimizes organic matter degradation and improves leachate biodegradability, achieving chemical oxygen demand (COD) reductions of 85.3% in El Guayabal and 75.8% in La Madera. Process optimization established optimal operating conditions with an ozone dose of 6 g/h, a magnetite concentration of 2.5 g/L, and a pH of 9, maximizing process efficiency while minimizing ozone consumption. However, a progressive decrease in catalyst efficiency was observed after successive reuse cycles, highlighting the need for regeneration strategies to maintain performance. The coupling of catalytic ozonation with the UASB reactor improved the stability of the biological system, increasing the BOD₅/COD ratio from 0.26 to 0.38 in El Guayabal and from 0.23 to 0.32 in La Madera, facilitating the anaerobic biodegradation of organic matter. The UASB reactor, operating at a hydraulic retention time of 24 hours, achieved COD removals between 60% and 75%, with more excellent stability in leachates with higher concentrations of biodegradable compounds. However, ammoniacal nitrogen removal was limited, with residual concentrations reaching up to 546.1 mg/L, indicating the need for additional treatment to comply with discharge standards. Microalgae as a post-treatment allowed for the removal of up to 65% of total nitrogen and 70% of phosphorus, demonstrating its potential as a final stage in landfill leachate treatment. However, its efficiency in organic matter removal was lower tan that of the UASB reactor, suggesting that its application should focus primarily on nutrient reduction and improving final effluent quality. This study's conclusions confirm that combining catalytic ozonation with magnetite, anaerobic treatment, and microalgae is a viable and efficient alternative for treating landfill leachates with different characteristics. The treatment configuration plays a crucial role in overall process efficiency, with catalytic ozonation being more effective as a pretreatment to facilitate subsequent biological degradation. The need to integrate additional nitrogen removal and catalyst regeneration strategies is emphasized, and the economic and energy feasibility of the process for large-scale implementation is assessed. From a scientific perspective, this thesis contributes to advancing knowledge in landfill leachate treatment by developing optimization models for catalytic ozonation, evaluating catalyst stability during reuse cycles, studying the impact of ozonation on leachate biodegradability, and demonstrating the synergy between advanced oxidation processes and biological systems.La presente investigación aborda el tratamiento de lixiviados de rellenos sanitarios mediante la integración de procesos avanzados de oxidación (PAOs) y tratamientos biológicos, con el fin de mejorar la eficiencia en la remoción de contaminantes y reducir la toxicidad del efluente. Para ello, se evaluó la ozonización catalítica con magnetita, su acople con un reactor anaerobio de flujo ascendente (UASB) y la integración de microalgas como etapa de postratamiento. Se llevaron a cabo estudios experimentales con lixiviados de dos rellenos sanitarios con características contrastantes: uno ubicado en un municipio con predominio de actividades agrícolas (La Madera, Ocaña) y otro en un municipio con actividad industrial (El Guayabal, Cúcuta), lo que permitió ampliar el ámbito de aplicación de los resultados. El estudio determinó que la ozonización catalítica con magnetita optimiza la degradación de materia orgánica y mejora la biodegradabilidad del lixiviado, alcanzando reducciones de demanda química de oxígeno (DQO) del 85.3 % en El Guayabal y 75.8 % en La Madera. La optimización del proceso estableció condiciones operativas óptimas con una dosis de ozono de 6 g/h, una concentración de magnetita de 2.5 g/L y un pH de 9, lo que permitió maximizar la eficiencia del proceso con un consumo mínimo de ozono. Sin embargo, se observó una disminución progresiva en la eficiencia del catalizador tras sucesivos ciclos de reutilización, lo que plantea la necesidad de estrategias de regeneración para mantener su desempeño. El acoplamiento de la ozonización catalítica con el reactor UASB permitió mejorar la estabilidad del sistema biológico, aumentando la relación DBO5/DQO de 0.26 a 0.38 en El Guayabal y de 0.23 a 0.32 en La Madera, lo que facilitó la biodegradación anaerobia de la materia orgánica. El reactor UASB, operando con un tiempo de retención hidráulica de 24 horas, logró remociones de DQO entre el 60 % y el 75 %, con una mayor estabilidad en los lixiviados con mayor concentración de compuestos biodegradables. Sin embargo, la remoción de nitrógeno amoniacal fue limitada, con concentraciones residuales de hasta 546.1 mg/L, lo que evidencia la necesidad de un tratamiento adicional para el cumplimiento de los estándares de descarga. El uso de microalgas como postratamiento permitió la remoción de hasta el 65 % del nitrógeno total y el 70 % del fósforo, evidenciando su potencial como una etapa final en el tratamiento de lixiviados. No obstante, su eficiencia en la eliminación de materia orgánica fue inferior a la del reactor UASB, por lo que su aplicación debe orientarse principalmente a la reducción de nutrientes y la mejora de la calidad del efluente final. Las conclusiones de este estudio confirman que la combinación de ozonización catalítica con magnetita, tratamiento anaerobio y microalgas es una alternativa viable y eficiente para el tratamiento de lixiviados de rellenos sanitarios con diferentes características. La configuración de tratamiento influye en la eficiencia global del proceso, siendo más efectiva la aplicación de ozonización catalítica como pretratamiento para facilitar la posterior degradación biológica. Se destaca la necesidad de integrar estrategias adicionales para la remoción de nitrógeno y la regeneración del catalizador, así como la evaluación de la viabilidad económica y energética del proceso para su implementación a gran escala. Desde el punto de vista científico, esta tesis contribuye al avance del conocimiento en el campo del tratamiento de lixiviados mediante el desarrollo de modelos de optimización para la ozonización catalítica, la evaluación de la estabilidad del catalizador en ciclos de reutilización, el estudio del impacto de la ozonización sobre la biodegradabilidad del lixiviado y la demostración de la sinergia entre los procesos avanzados de oxidación y los sistemas biológicos.DoctoradoDOCTOR(A) EN INGENIERÍA - ÉNFASIS INGENIERÍA SANITARIA Y AMBIENTAL1 recurso en línea (191 páginas)application/pdfengUniversidad del ValleColombiaFACULTAD DE INGENIERÍADOCTORADO EN INGENIERÍA - ÉNFASIS INGENIERÍA SANITARIA Y AMBIENTALSede Calihttps://creativecommons.org/licenses/by-nc-nd/4.0/info:eu-repo/semantics/openAccessAtribución-NoComercial-SinDerivadas 4.0 Internacional (CC BY-NC-ND 4.0)http://purl.org/coar/access_right/c_abf2Integration of advanced oxidation processes (ozone/magnetite) and biological treatments (up-flow anaerobic sludge blanket reactor - uasb and microalgae) for the treatment of landfill leachatesTrabajo de grado - Doctoradohttp://purl.org/coar/resource_type/c_db06Textinfo:eu-repo/semantics/doctoralThesishttp://purl.org/redcol/resource_type/TDinfo:eu-repo/semantics/publishedVersionhttp://purl.org/coar/version/c_970fb48d4fbd8a85LixiviadosRellenos sanitariosProceso de oxidación avanzada (POA)Tratamientos biológicosOzonización catalíticaReactor anaerobio de flujo ascendente 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jecuta públicamente en forma digital la Obra o cualquier Obra Derivada u Obra Colectiva, Usted debe mantener intacta toda la información de derecho de autor de la Obra y proporcionar, de forma razonable según el medio o manera que Usted esté utilizando: (i) el nombre del Autor Original si está provisto (o seudónimo, si fuere aplicable), y/o (ii) el nombre de la parte o las partes que el Autor Original y/o el Licenciante hubieren designado para la atribución (v.g., un instituto patrocinador, editorial, publicación) en la información de los derechos de autor del Licenciante, términos de servicios o de otras formas razonables; el título de la Obra si está provisto; en la medida de lo razonablemente factible y, si está provisto, el Identificador Uniforme de Recursos (Uniform Resource Identifier) que el Licenciante especifica para ser asociado con la Obra, salvo que tal URI no se refiera a la nota sobre los derechos de autor o a la información sobre el licenciamiento de la Obra; y en el caso de una Obra Derivada, atribuir el crédito identificando el uso de la Obra en la Obra Derivada (v.g., "Traducción Francesa de la Obra del Autor Original," o "Guión Cinematográfico basado en la Obra original del Autor Original"). Tal crédito puede ser implementado de cualquier forma razonable; en el caso, sin embargo, de Obras Derivadas u Obras Colectivas, tal crédito aparecerá, como mínimo, donde aparece el crédito de cualquier otro autor comparable y de una manera, al menos, tan destacada como el crédito de otro autor comparable.</li>
      <li>
        Para evitar toda confusión, el Licenciante aclara que, cuando la obra es una composición musical:
        <ol type="i">
          <li>Regalías por interpretación y ejecución bajo licencias generales. El Licenciante se reserva el derecho exclusivo de autorizar la ejecución pública o la ejecución pública digital de la obra y de recolectar, sea individualmente o a través de una sociedad de gestión colectiva de derechos de autor y derechos conexos (por ejemplo, SAYCO), las regalías por la ejecución pública o por la ejecución pública digital de la obra (por ejemplo Webcast) licenciada bajo licencias generales, si la interpretación o ejecución de la obra está primordialmente orientada por o dirigida a la obtención de una ventaja comercial o una compensación monetaria privada.</li>
          <li>Regalías por Fonogramas. El Licenciante se reserva el derecho exclusivo de recolectar, individualmente o a través de una sociedad de gestión colectiva de derechos de autor y derechos conexos (por ejemplo, los consagrados por la SAYCO), una agencia de derechos musicales o algún agente designado, las regalías por cualquier fonograma que Usted cree a partir de la obra (“versión cover”) y distribuya, en los términos del régimen de derechos de autor, si la creación o distribución de esa versión cover está primordialmente destinada o dirigida a obtener una ventaja comercial o una compensación monetaria privada.</li>
        </ol>
      </li>
      <li>Gestión de Derechos de Autor sobre Interpretaciones y Ejecuciones Digitales (WebCasting). Para evitar toda confusión, el Licenciante aclara que, cuando la obra sea un fonograma, el Licenciante se reserva el derecho exclusivo de autorizar la ejecución pública digital de la obra (por ejemplo, webcast) y de recolectar, individualmente o a través de una sociedad de gestión colectiva de derechos de autor y derechos conexos (por ejemplo, ACINPRO), las regalías por la ejecución pública digital de la obra (por ejemplo, webcast), sujeta a las disposiciones aplicables del régimen de Derecho de Autor, si esta ejecución pública digital está primordialmente dirigida a obtener una ventaja comercial o una compensación monetaria privada.</li>
    </ol>
  </li>
  <br/>
  <li>
    Representaciones, Garantías y Limitaciones de Responsabilidad.
    <p>A MENOS QUE LAS PARTES LO ACORDARAN DE OTRA FORMA POR ESCRITO, EL LICENCIANTE OFRECE LA OBRA (EN EL ESTADO EN EL QUE SE ENCUENTRA) “TAL CUAL”, SIN BRINDAR GARANTÍAS DE CLASE ALGUNA RESPECTO DE LA OBRA, YA SEA EXPRESA, IMPLÍCITA, LEGAL O CUALQUIERA OTRA, INCLUYENDO, SIN LIMITARSE A ELLAS, GARANTÍAS DE TITULARIDAD, COMERCIABILIDAD, ADAPTABILIDAD O ADECUACIÓN A PROPÓSITO DETERMINADO, AUSENCIA DE INFRACCIÓN, DE AUSENCIA DE DEFECTOS LATENTES O DE OTRO TIPO, O LA PRESENCIA O AUSENCIA DE ERRORES, SEAN O NO DESCUBRIBLES (PUEDAN O NO SER ESTOS DESCUBIERTOS). ALGUNAS JURISDICCIONES NO PERMITEN LA EXCLUSIÓN DE GARANTÍAS IMPLÍCITAS, EN CUYO CASO ESTA EXCLUSIÓN PUEDE NO APLICARSE A USTED.</p>
  </li>
  <br/>
  <li>
    Limitación de responsabilidad.
    <p>A MENOS QUE LO EXIJA EXPRESAMENTE LA LEY APLICABLE, EL LICENCIANTE NO SERÁ RESPONSABLE ANTE USTED POR DAÑO ALGUNO, SEA POR RESPONSABILIDAD EXTRACONTRACTUAL, PRECONTRACTUAL O CONTRACTUAL, OBJETIVA O SUBJETIVA, SE TRATE DE DAÑOS MORALES O PATRIMONIALES, DIRECTOS O INDIRECTOS, PREVISTOS O IMPREVISTOS PRODUCIDOS POR EL USO DE ESTA LICENCIA O DE LA OBRA, AUN CUANDO EL LICENCIANTE HAYA SIDO ADVERTIDO DE LA POSIBILIDAD DE DICHOS DAÑOS. ALGUNAS LEYES NO PERMITEN LA EXCLUSIÓN DE CIERTA RESPONSABILIDAD, EN CUYO CASO ESTA EXCLUSIÓN PUEDE NO APLICARSE A USTED.</p>
  </li>
  <br/>
  <li>
    Término.
    <ol type="a">
      <li>Esta Licencia y los derechos otorgados en virtud de ella terminarán automáticamente si Usted infringe alguna condición establecida en ella. Sin embargo, los individuos o entidades que han recibido Obras Derivadas o Colectivas de Usted de conformidad con esta Licencia, no verán terminadas sus licencias, siempre que estos individuos o entidades sigan cumpliendo íntegramente las condiciones de estas licencias. Las Secciones 1, 2, 5, 6, 7, y 8 subsistirán a cualquier terminación de esta Licencia.</li>
      <li>Sujeta a las condiciones y términos anteriores, la licencia otorgada aquí es perpetua (durante el período de vigencia de los derechos de autor de la obra). No obstante lo anterior, el Licenciante se reserva el derecho a publicar y/o estrenar la Obra bajo condiciones de licencia diferentes o a dejar de distribuirla en los términos de esta Licencia en cualquier momento; en el entendido, sin embargo, que esa elección no servirá para revocar esta licencia o que deba ser otorgada , bajo los términos de esta licencia), y esta licencia continuará en pleno vigor y efecto a menos que sea terminada como se expresa atrás. La Licencia revocada continuará siendo plenamente vigente y efectiva si no se le da término en las condiciones indicadas anteriormente.</li>
    </ol>
  </li>
  <br/>
  <li>
    Varios.
    <ol type="a">
      <li>Cada vez que Usted distribuya o ponga a disposición pública la Obra o una Obra Colectiva, el Licenciante ofrecerá al destinatario una licencia en los mismos términos y condiciones que la licencia otorgada a Usted bajo esta Licencia.</li>
      <li>Si alguna disposición de esta Licencia resulta invalidada o no exigible, según la legislación vigente, esto no afectará ni la validez ni la aplicabilidad del resto de condiciones de esta Licencia y, sin acción adicional por parte de los sujetos de este acuerdo, aquélla se entenderá reformada lo mínimo necesario para hacer que dicha disposición sea válida y exigible.</li>
      <li>Ningún término o disposición de esta Licencia se estimará renunciada y ninguna violación de ella será consentida a menos que esa renuncia o consentimiento sea otorgado por escrito y firmado por la parte que renuncie o consienta.</li>
      <li>Esta Licencia refleja el acuerdo pleno entre las partes respecto a la Obra aquí licenciada. No hay arreglos, acuerdos o declaraciones respecto a la Obra que no estén especificados en este documento. El Licenciante no se verá limitado por ninguna disposición adicional que pueda surgir en alguna comunicación emanada de Usted. Esta Licencia no puede ser modificada sin el consentimiento mutuo por escrito del Licenciante y Usted.</li>
    </ol>
  </li>
  <br/>
</ol>


Integration of advanced oxidation processes (ozone/magnetite) and biological treatments (up-flow anaerobic sludge blanket reactor - uasb and microalgae) for the treatment of landfill leachates

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