Ammonium-based polymer ionic liquid membrane for wastewater treatment and bioenergy production
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Addi, Hasna; Mateo Ramírez, Francisco; Salar García, María José; Ortiz Martínez, Víctor Manuel; Hernández Fernández, Francisco José; [et al.]Grupo de investigación
INQUIPROÁrea de conocimiento
Ingeniería QuímicaPatrocinadores
This work was partially supported by the Spanish Ministry ofEconomy and Competitiveness by the FEDER (Fondo Europeode Desarrollo Regional), ref. ENE2014-54506-C2-2-R, and bythe SENECA Foundation 18975/JLI/2013 grants. Ortiz-Martı ́-nez (Grant FPU AP2012-5444) and Salar-Garcı ́a (Grant FPIBES-2012-055350) thank the Spanish Education Ministry andEconomy and Competitiveness Ministry for supporting theirdoctoral theses.Fecha de publicación
2017-11-30Editorial
WileyCita bibliográfica
Addi, H., Mateo-Ramírez, F., Salar-García, M.J., Ortiz-Martínez, V.M., Hernández-Fernández, F.J., de los Ríos, A.P., Godínez, C., Lotfi, E.M., Mahi, M.E. and Lozano-Blanco, L.J. (2018), Ammonium-Based Polymer Ionic Liquid Membrane for Wastewater Treatment and Bioenergy Production. Chem. Eng. Technol., 41: 379-384. https://doi.org/10.1002/ceat.201700367Revisión por pares
siPalabras clave
BioenergyIonic liquid
Microbial fuel cell
Polymer inclusion membrane
Wastewater treatment
Resumen
Air-breathing cathode microbial fuel cells (MFCs) fed with citrus juice processing wastewater were employed for bioenergy production and simultaneously for wastewater treatment. Polymer inclusion membranes based on the ionic liquid methyltrioctylammonium chloride were tested as separator in this microbial fuel cell assembly. Regarding the wastewater treatment capacity, the evolution of the chemical oxygen demand (COD) removal over time reaches a maximum value of 45 %. In addition to COD removal, an electrochemical characterization of the wastewater before and after being treated was also performed. Despite this type of feedstock not being ideal for bioenergy production in air-breathing cathode MFCs due to the acidity of the substrate, enough amount of bioenergy is produced to consider this technology a suitable alternative for reusing citrus juice processing wastewater.
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