Salvador Villamizar scite author profile

This article had the one and only objective of consolidating the couplings of advanced oxidation processes and biological in the decontamination of wastewater with pesticide content reported in the Scopus and Web of Science databases, through a critical analysis of which have been the most used, what methodologies have been implemented to develop them, identify the objectives of each work, determine the success of the research and where the main niches of knowledge are, which can lead to the generation of new scientific knowledge as well as future trends. A co-occurrence analysis was carried out through the VOSViewer software, to determine the most associated key words with the treatment configurations described above. Fenton and Photo-Fenton processes, heterogeneous photocatalysis TiO2/UV, electrocatalysis, ozonization and a particular case of hydrodynamic-ozone cavitation as main advanced oxidation processes, together with advanced biological processes such as SBR, MBR, MBBR; biodegradability and toxicity tests with bacterial strains and surface wetlands, whose treatment philosophy is activated sludge. The main future trends are the reuse of treated wastewater, the analysis and control of costs towards the efficient use of resources and the primary study of the byproducts generated in advanced oxidation to improve the efficiencies in the coupling.

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Leachate decontamination through biological processes coupled to advanced oxidation: A review

Villamizar

Cordoba

Soto

2022

Journal of the Air & Waste Management Association

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Scoping acoplado a la metodología de Conesa para la evaluación ambiental de un sistema avanzado de descontaminación de lixiviado de relleno sanitario

Villamizar¹,

Soto-Verjel²,

Cordoba³

et al. 2022

inycomp

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Los lixiviados de rellenos sanitarios son efluentes generados por la degradación de los residuos sólidos y la percolación del agua lluvia, que arrastra las sustancias orgánicas e inorgánicas y que esta caracterizado por ser un líquido de color oscuro con compuestos tóxicos, peligrosos, patogénicos, entre otras. Es importante mencionar, que de no recibir un adecuado tratamiento tienen la capacidad de afectar negativamente el medio ambiente. No obstante, se ha demostrado que al utilizar procesos de oxidación avanzada acoplados a tratamientos biológicos se logra reducir la carga contaminante de este líquido residual. Con el objetivo de determinar los impactos sobre los componente biótico, abiótico y socioeconómico, en la actual investigación se llevó a cabo un “Scoping”, que sirvió como insumo para la cuantificación del impacto ambiental realizada a través de la metodología de Conesa. Como resultado principal se obtuvo que las fugas de lixiviado durante le procesos de tratamiento afectan notoriamente la calidad del agua y a su vez alteran el equilibrio del ecosistema con el que entran en contacto. Como medida correctiva se planteó, ejercer medidas de control sobre las tuberías y el flujo del sistema para evitar esta contingencia. Positivamente se destaca el cumplimiento de los Objetivos de Desarrollo Sostenible y el aumento de la disponibilidad del recurso hídrico gracias a la efectividad del tratamiento realizado.

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