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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 DudekDone
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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 PérezDone
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[127] DISEÑO Y EVALUACIÓN DE UN CATALIZADOR HÍBRIDO QUÍMICO BIOCATALÍTICO EN EL TRATAMIENTO DE CIPROFLOXACINO EN AGUA
Fernando Pacheco TorresDone
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[091] Voltamperometric characterization of the reduction of dissolved oxygen to hydrogen peroxide
Danay Alexandra CharlesDone
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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 BarajasDone
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[128] Remoción de materia orgánica, nutrientes y coliformes en agua residual urbana por humedales electrogénicos. Efecto de la modalidad de operación.
Ana Valeria PizarroDone
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[123] Photocatalytic treatment of wastewater from a municipal slaughterhouse using TiO2 with LED lighting and sunlight.
Jorge Alexis Hurtado MartinDone
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[055] Removal of methylene blue using biochars obtained from corn residues
Aime Joselyn Garcia LugoDone
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[109] DEGRADACIÓN DE P-NITROFENOL EN CELDAS DE COMBUSTIBLE MICROBIANAS: PROCESO BIO-ELECTRO-FENTON.
Nancy Marimar Vinajera AlonzoDone
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[013] “Use of a biocoagulant produced from Opuntia robusta for the clarification of domestic wastewater”
Gloria Itzel Valdivia CabralDone
Actualmente soy estudiante de la maestría en Recursos Naturales y Ecología perteneciente a la Universidad Autónoma de Guerrero. Mi proyecto de investigación es Desempeño de membranas alcalinizantes en una celda de combustible microbiana tratando drenaje ácido de mina.
The goal of this study was to synthesize and evaluate the use of alkalizing membranes for acid mine drainage (AMD) treatment using microbial fuel cells (MFC). Two membranes with a concentration of 2% agar-agar, each with a concentration of 5 and 10 g/L of eggshell (ES) were synthesized, membrane 1 (M1) and membrane 2 (M2), respectively. The membranes were dehydrated at 70 °C during 24 hours up to reach a dehydration degree higher than 95 %. Afterwards, their performance was evaluated in a dual chamber MFC during three weeks by duplicated. Municipal wastewater was used as anolyte while AMD was used as catholyte. Additionally, the membranes were immersed in AMD during two months. The membranes did not increase their thickness when they were immersed in AMD. Also, no changes in its physic structure were observed. On the other hand, the two membranes evaluated in cell increased the pH of AMD from 2.2 to 2.6. This change of pH managed the precipitation of some metallic minerals, especially on the surface area of the membranes exposed to AMD. Moreover, ca. 47 and 66 % of SO42- were removed from the AMD for the cell equipped with the M1 and M2, respectively, whereas a NO3- removal value of 80 % was achieved in both cells. Finally, the MFC equipped with M2 reached the biggest volumetric power recorded, 88 mW/m3. Therefore, the alkalizing membranes synthesized with ES displayed encouraging results for the AMD treatment and could be considered as membranes for dual chamber MFCs.
https://zoom.us/j/98045583911?pwd=V3F4TkNuWEF0d3R0c1NKNEFkS0pydz09