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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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[109] DEGRADACIÓN DE P-NITROFENOL EN CELDAS DE COMBUSTIBLE MICROBIANAS: PROCESO BIO-ELECTRO-FENTON.
Nancy Marimar Vinajera AlonzoDone
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[091] Voltamperometric characterization of the reduction of dissolved oxygen to hydrogen peroxide
Danay Alexandra CharlesDone
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[013] “Use of a biocoagulant produced from Opuntia robusta for the clarification of domestic wastewater”
Gloria Itzel Valdivia CabralDone
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[059] Comparación del tratamiento de agua residual doméstica y vinazas tequileras mediante sistemas de Lodos Activados y Reactor de Biopelícula de Lecho Móvil (MBBR)
Alejandra Beltrán PlascenciaDone
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[112] EFFECT OF ZIRCONIUM ON THE REMOVAL OF FLUORIDE BY ZR-HYDROTALCITE AND THEIR CALCINATION PRODUCTS
Gloribel VázquezDone
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[037] Alkalizing membranes performance for acid mine drainage treatment using microbial fuel cells
Rocío Lley García MesinoDone
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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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[123] Photocatalytic treatment of wastewater from a municipal slaughterhouse using TiO2 with LED lighting and sunlight.
Jorge Alexis Hurtado MartinDone
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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
Egresado de Ingeniería Ambiental por el Instituto Politécnico Nacional (2017– 2022), el cual conoce y domina las acciones a desarrollar para lograr un equilibrio entre las actividades humanas y la conservación del medio ambiente, siendo responsable con la sociedad dentro del marco normativo nacional e internacional para dar soluciones ambientales que los tiempos modernos necesitan.
Desde 2020 ha sido participante en distintos cursos de índole científico tales como: “Inventarios de emisiones de gases y compuestos de efecto invernadero”, “Almacenamiento y gestión de energía”, “Servicios ecosistémicos de los humedales”, “Pueblos mágicos, hacia un turismo y ordenamiento territorial sostenible”, “Diseño de programas de agua potable, drenaje y alcantarillado”, y “El derecho humano al agua”
En 2021 asistió a la “Escuela Nacional de Electroquímica en Procesos Ambientales”, y al 5to. Congreso Nacional de Investigación Interdisciplinaria por el Instituto Politécnico Nacional. Presentó la ponencia oral titulada “Aplicación de biocoagulante a base de Malva sylvestris para la clarificación de agua residual doméstica” en el Congreso Internacional de Ciencia, Tecnología e Investigación CYTI 2021.
De agosto de 2021 a la actualidad, se encuentra trabajando y desarrollando la tesis titulada “Elaboración y aplicación de biocoagulantes a base de malva común y cáscara de tuna para la clarificación de agua residual doméstica” en la Unidad Profesional Interdisciplinaria de Ingeniería Campus Zacatecas del Instituto Politécnico Nacional.
The use of conventional chemical coagulants for wastewater treatment, its harmful effects on the environment, and the risks associated with public health have attracted particular attention to develop biocoagulants obtained from the mucilage of plant species of interest. This project proposed using Malva sylvestris, a weed in different crops in the municipality of Chalchihuites (Zacatecas, Mexico), as raw material to produce biocoagulant by extracting the mucilage present in its leaves and its application in the clarification of domestic residual water. Through an experimental design 2^2 for this biocoagulant, the optimal pH (range 4 - 10) and optimal dose (range 50 - 450 mg/L) were determined to achieve the highest percentage of turbidity removal in the study water coagulation-flocculation processes using jar tests. The results allowed identifying the optimal conditions through a significant linear model, identifying that the maximum percentage of turbidity removal in the studied water was 73.71 %, whose optimal conditions were the dose of 50 mg/L a pH of 10 of the residual water used and with an average initial turbidity of 75.21 NTU for the wastewater used. For this reason, Malva sylvestris could be used as a raw material for the sustainable development of technologies for wastewater treatment since it does not generate toxic by-products, nor does its use represent a risk to the environment and human health and reduce the presence of this invasive species in the ecosystem
The use of conventional chemical coagulants for wastewater treatment, its harmful effects on the environment, and the risks associated with public health have attracted particular attention to develop biocoagulants obtained from the mucilage of plant species of interest. This project proposed using Malva sylvestris, a weed in different crops in the municipality of Chalchihuites (Zacatecas, Mexico), as raw material to produce biocoagulant by extracting the mucilage present in its leaves and its application in the clarification of domestic residual water. Through an experimental design 2^2 for this biocoagulant, the optimal pH (range 4 - 10) and optimal dose (range 50 - 450 mg/L) were determined to achieve the highest percentage of turbidity removal in the study water coagulation-flocculation processes using jar tests. The results allowed identifying the optimal conditions through a significant linear model, identifying that the maximum percentage of turbidity removal in the studied water was 73.71 %, whose optimal conditions were the dose of 50 mg/L a pH of 10 of the residual water used and with an average initial turbidity of 75.21 NTU for the wastewater used. For this reason, Malva sylvestris could be used as a raw material for the sustainable development of technologies for wastewater treatment since it does not generate toxic by-products, nor does its use represent a risk to the environment and human health and reduce the presence of this invasive species in the ecosystem
https://zoom.us/j/95510591650?pwd=ZG9JczAyNjIvODA1U0l4dzNkd0NQdz09