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[079] "Butanol recovery from a synthetic fermentation broth by vacuum distillation in rotating packed bed for improving the water reuse"
Karol DudekHecho
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[099] CUANTIFICACIÓN DE ESPECIES REACTIVAS DE OXÍGENO Y REMOCIÓN DE METOPROLOL EN AGUA MEDIANTE FOTOCATÁLISIS HETEROGÉNEA
Sandra Ortiz GómezHecho
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[126] Evaluation of the effect of reaction time (RT) on the production of volatile fatty acids and hydrogen-rich biogas, in a dark fermentation process with suspended biomass from mezcal vinasses.
Sergio Alberto Díaz BarajasHecho
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[127] DISEÑO Y EVALUACIÓN DE UN CATALIZADOR HÍBRIDO QUÍMICO BIOCATALÍTICO EN EL TRATAMIENTO DE CIPROFLOXACINO EN AGUA
Fernando Pacheco TorresHecho
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[091] Voltamperometric characterization of the reduction of dissolved oxygen to hydrogen peroxide
Danay Alexandra CharlesHecho
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[055] Removal of methylene blue using biochars obtained from corn residues
Aime Joselyn Garcia LugoHecho
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[031] “Clarification of domestic wastewater using a biocoagulant based on Malva sylvestris”
Oswaldo Emmanuel Robles MirandaHecho
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[123] Photocatalytic treatment of wastewater from a municipal slaughterhouse using TiO2 with LED lighting and sunlight.
Jorge Alexis Hurtado MartinHecho
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[153] Síntesis verde de nanopartículas de óxido de hierro y zinc sobre residuo de café, para tratamiento de agua con colorante índigo carmín proveniente del teñido textil
Jazmin Aydee Reyes PérezHecho
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[112] EFFECT OF ZIRCONIUM ON THE REMOVAL OF FLUORIDE BY ZR-HYDROTALCITE AND THEIR CALCINATION PRODUCTS
Gloribel VázquezHecho
![[109] DEGRADACIÓN DE P-NITROFENOL EN CELDAS DE COMBUSTIBLE MICROBIANAS: PROCESO BIO-ELECTRO-FENTON.](/web/image/event.track/104/image/96x0/%5B109%5D%20DEGRADACI%C3%93N%20DE%20P-NITROFENOL%20EN%20CELDAS%20DE%20COMBUSTIBLE%20MICROBIANAS:%20PROCESO%20BIO-ELECTRO-FENTON.?unique=8ad52d9)
Nancy Marimar Vinajera Alonzo estudió Ingeniería Ambiental en el Instituto Tecnológico de Mérida. Actualmente estudia la Maestría en Ingeniería Ambiental en la UNAM. Su tema de interés y su campo de conocimiento son el tratamiento de aguas residuales municipales e industriales por procesos biológicos convencionales y no convencionales y los sistemas bioelectroquímicos como los son las Celdas de Combustible Microbianas es especial el proceso BioelectroFenton para la remoción de contaminantes recalcitrantes y producción de electricidad.
Advanced oxidation processes (AOPs) have been extensively studied for the removal of recalcitrant contaminants such as p-nitrophenol. This is due to the strong oxidative capacity of hydroxyl radicals. One of the emerging AOPs that has gained interest are the bio-electro-Fenton (BEF) which can generate hydroxyl radicals’ in-situ in the cathodic chamber of one microbial fuel cell (MFC). In this study, the degradation of p-nitrophenol through of cathodic reactions in two-chamber MFC was evaluated using carbon brush as anodes and carbon felt as cathodes. The cathode was impregnated with different nano-particles (Fe2O3, zero valent iron and graphene/Fe2O3) used as the source of iron needed to carry out the BEF reactions. The best removal efficiencies were found at pH 3 and pH 7 using graphene/Fe2O3 as nano-catalyst, obtaining in 24 h the complete removal of p-nitrophenol and total organic carbon (TOC). Simultaneously, the MFC generated a maximum power density of 250 mW/m2. During the degradation of p-nitrophenol, the hydrogen peroxide production generate was up to 2 mg/L indicated that the mechanisms of the two and four electrons were carried out within the MFC.
https://zoom.us/j/93479672002?pwd=WjkxcTBhM0Y5a3U1RGd6ZmdOWDNmZz09