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[076] "Evaluación de la remoción de materia orgánica y nutrientes en un humedal electroquímico operado en corto circuito"
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[073] "Cinética de Adsorción de Cobre en Residuos de Café Químicamente Modificados"
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[100] Acumulación de sólidos gruesos, un problema que afecta la eficiencia de las PTAR con caudales mayores a 1 m3/s
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[066] Slaughterhouse wastewater treatment in an anaerobic biofilm system using polyurethane/graphite/carbon nanofibers as carriers
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[003] Production of a natural coagulant based on animal biomass for the removal of turbidity in the wastewater of a fish farm
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[043] Evaluación del proceso biológico de una Planta Tratadora de Aguas Residuales usando el software GPS-X
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[089] "PROCESO BIOLÓGICO ACOPLADO A FOTÓLISIS PARA LA REMOCIÓN DE FÁRMACOS ÁCIDOS"
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[138] "VALORISATION OF WASTEWATER FROM TILAPIA AQUACULTURE BY CO-DIGESTION WITH FOOD WASTE THROUGH BIOCHEMICAL HYDROGEN PRODUCTION"
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[096] Factibilidad de retención de nanoplásticos en sistemas de tratamiento de agua con carbones activados granulares
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![[070] Determination of Henry's law constant and air/silicone oil partition coefficient of VMS for its application in the design of biogas purification systems](/web/image/event.track/102/image/96x0/%5B070%5D%20Determination%20of%20Henry%27s%20law%20constant%20and%20air-silicone%20oil%20partition%20coefficient%20of%20VMS%20for%20its%20application%20in%20the%20design%20of%20biogas%20purification%20systems?unique=b98eacc)
Laura has BSc and MSc Degrees in Environmental Engineering from ECCI University (Bogotá, Colombia) and Universidad Autónoma Metropolitana (Mexico City), respectively. She is currently a PhD student of the Environmental Engineering Program at the UNAM-Engineering Institute, Juriquilla Academic Unit. Her research focuses on the development of biotechnologies for the removal of volatile methyl siloxanes from biogas.
Biogas, a product of the anaerobic decomposition of organic matter contained in wastewater and it is an important renewable energy source. The presence of traces of volatile methyl siloxanes (VMS) in biogas produces irreversible damages to devices used to generate electrical or thermal energy from biogas such as engines and turbines. VMS are highly recalcitrant compounds, their high hydrophobicity and the consequent mass transfer limitations between the gas and liquid phases is the main drawback for VMS removal via biotechnological processes. In the present work, we experimentally determined the Henry’s law constant for the most common siloxanes found in biogas: octamethylcyclotetrasiloxane (D4) and decamethylcyclopentasiloxane (D5). Despite being indispensable for the design of biological systems for their elimination, the Henry’s law constant (H) values reported in the literature for D4 and D5 are scarce and highly inconsistent among them. Likewise, there is a lack of information on the solubility of VMS in liquid solvents that can be used for enhancing the biological removal performance of VMS, such as silicone oil. Therefore, the air/silicone oil partition coefficient (K) was also determined experimentally for D4 and D5. Both parameters H and K are of paramount relevance for the design and optimization of biological VMS removal systems.
https://zoom.us/j/97326842828?pwd=cXFmNUw3eHFLamxPUFRmMTd2QWdCQT09