4. Resultados

Publicaciones científico-técnicas

[1] S. Mateo, M. Rodrigo, L.P. Fonseca, P. Cañizares, F.J. Fernandez-Morales. Oxygen availability effect on the performance of air-breathing cathode microbial fuel cell. Biotechnology Progress, (2015) 31 (4), 900-907.
[2] A. Raschitor, G. Soreanu, C.M. Fernandez-Marchante, J. Lobato, P. Cañizares, I. Cretescu, M.A. Rodrigo. Bioelectro-Claus processes using MFC technology: Influence of co-substrate. Bioresource Technology 189 (2015) 94–98.
[3] Mateo, S., Gonzalez del Campo, A., Lobato, J., Rodrigo, M., Cañizares, P., Fernandez-Morales, F.J. Long-term effects of the transient COD concentration on the performance of microbial fuel cells. (2016) Biotechnology Progress, 32 (4), 883-890.
[4] E.D. Penteado, C.M. Fernández-Marchante, M. Zaiat, P.Cañizares, E.R. González and M.A Rodrigo. Energy recovery from winery wastewater using a dual chamber microbial fuel cell. Journal of Chemical Technology and Biotechnology (2016), 91, 1802-1808.
[5] C. Prestigiacomo, C.M. Fernandez-Marchante, F.J Fernández-Morales, P. Cañizares, O. Scialdone, M.A Rodrigo. New prototypes for the isolation of the anodic chambers in microbial fuel cells. Fuel (2016), 181, 704-710.
[6] Y. Asensio, C.M. Fernandez-Marchante, J. Lobato, P. Cañizares, M.A. Rodrigo. Influence of the ion-exchange membrane on the performance of double-compartment microbial fuel cells. Journal of Electroanalytical Chemistry DOI: 10.1016/j.jelechem.2017.06.018
[7] F.L. Souza, S. Cotillas, C. Sáez, P. Cañizares, M.R.V. Lanza, A. Seco and M.A. Rodrigo. Removal of algae from biological cultures: a challenge for electrocoagulation? Journal of Chemical Technology and Biotechnology, (2016) 91, 82-87.
[8] A. Fernandez, M.A. Sanromán, S. Marks, J. Makinia, A. Gonzalez del Campo, M. Rodrigo, F.J. Fernandez. A grey box model of glucose fermentation and syntrophic oxidation in microbial fuel cells Bioresource Technology, (2016) 200, 396-404.
[9] S. Mateo, A. Gonzalez del Campo, P. Cañizares, J. Lobato, M.A. Rodrigo, F.J. Fernández. Bioelectricity generation in a self-sustainable Microbial Solar Cell. Bioresource Technology 159 (2014) 451–454
[10] Y. Asensio, C.M. Fernández-Marchante, P. Cañizares, M.A. Rodrigo. Influence of the fuel and dosage on the performance of double-compartment microbial fuel cells. Water Research (2016) 99, 16-23.
[11] E. D. Penteado, C.M. Fernandez-Marchante, M. Zaiat, P. Cañizares, E.R. Gonzalez, M.A. Rodrigo. Influence of sludge age on the performance of MFC treating winery wastewater. Chemosphere 151 (2016) 163-170.
[12] Mateo, S., D’Angelo, A., Scialdone, O., Cañizares, P., Rodrigo, M.A., Fernandez-Morales, F.J. The influence of sludge retention time on mixed culture microbial fuel cell start-ups (2017) Biochemical Engineering Journal, 123, pp. 38-44.
[13] D’Angelo, A., Mateo, S., Scialdone, O., Cañizares, P., Fernandez-Morales, F.J., Rodrigo, M.A. Optimization of the performance of an air-cathode MFC by changing solid retention time (2017) Journal of Chemical Technology and Biotechnology, 92, 1746-1755.
[14] E.D. Penteado, C.M. Fernandez-Marchante, M. Zaiat, P. Cañizares, E.R. Gonzalez, M.A. Rodrigo. On the effects of ferricyanide as cathodic mediator on the performance of Microbial Fuel Cells. Electrocatalysis (2017) 8, 59-66.
[15] S. Mateo, F.J. Fernandez, P. Cañizares, M.A. Rodrigo. Influence of the cathode platinum loading and of the implementation of membranes on the performance of air-breathing microbial fuel cells. Electrocatalysis. DOI : 10.1007/s12678-017-0393-7
[16] Y. Asensio, E. Mansilla, C.M. Fernandez-Marchante, J. Lobato, P. Cañizares, M.A. Rodrigo. Towards the scale-up of bioelectrogenic technology: stacking microbial fuel cells to produce larger amounts of electricity. Journal of Applied Electrochemistry. DOI : 10.1007/s10800-017-1101-2
[17] E.D. Penteado, C.M. Fernández-Marchante, M. Zaiat, E.R. Gonzalez, M.A. Rodrigo. Optimization of the performance of Microbial fuel Cell using the ratio Electrode-Surface Area/Anode-Compartment Volume. Brazilian Journal of Chemical Engineering (2017) DOI BJCE.2016.0411.R1
[18] Y. Asensio, I.B. Montes, C.M. Fernández-Marchante, P. Cañizares, M.A. Rodrigo. Selection of cheap electrodes for two-compartment microbial fuel cells. Journal of Electroanalytical Chemistry 785 (2017) 235-240.
[19] E.D. Penteado, C.M. Fernández-Marchante, M. Zaiat, E.R. Gonzalez, M.A. Rodrigo. Influence of carbon electrode material on energy recovery from winery wastewater using a dual-chamber microbial fuel cell. Environmental Technology (2017) DOI 10.1080/09593330.2016.1226961
[20] Y. Asensio, C.M. Fernández-Marchante, J. Villaseñor, J. Lobato, P. Cañizares, M.A. Rodrigo. Algal biomass as fuel for stacked-MFCs for profitable, sustainable and carbon neutral bioenergy generation. Journal of Chemical Technology and Biotechnology. DOI: 10.1002/jctb.5354
[21] J. Villaseñor, L. Rodríguez, C.M. Fernández-Marchante, F.J. Fernández-Morales, M.A. Rodrigo, The salinity effects on the performance of a constructed wetland-microbial fuel cell. Ecological Engineering (2017) Ecological Engineering, 107, 1-7.

Además de estos trabajos, en el momento de redactar el presente informe se encuentran en proceso de evaluación los siguientes trabajos:

[1] S. Mateo, P. Cañizares, M.A. Rodrigo, F.J. Fernandez-Morales. Carbonaceous anodes for microbial fuel cells, en evaluación en Journal of Chemical Technology and Biotechnology
[2] S. Mateo, P. Cañizares, M.A. Rodrigo, F.J. Fernandez-Morales. Performance of metal-doped carbonaceous anodes in air-breathing microbial fuel cells en Journal of Power Sources
[3] F. Vicari, Y. Asensio, C.M. Fernández-Marchante, J. Lobato, P. Cañizares, O. Scialdone, M.A. Rodrigo. Influence of the start-up conditions in the long term performance of double-compartment Microbial Fuel Cells. Enviado para su publicación a Bioelectrochemistry
[4] F. Vicari, S. Mateo, F.J. Fernandez, P. Cañizares, A. Galia, O. Scialdone, M.A. Rodrigo. Influence of the methodology of inoculation in the performance of air-breathing microbial fuel cells. Enviado para su publicación a Journal of Electroanalytical Chemistry
[5] S. Mateo, N. Zamorano-López, L. Borras, F.J. Fernandez, P. Cañizares, A. Seco, M.A. Rodrigo. Effect of sludge age on the bio-electrogenic populations developed in MFC. Enviado para su publicación a Journal of Chemical Technology and Biotechnology
[6] Y. Asensio, A. Santacruz, C.M. Fernandez-Marchante, J. Lobato, J. Villaseñor, P. Cañizares, M.A. Rodrigo. Influence of hydraulic retention time and carbon loading rate on the production of algae. En evaluación en la revista Fuel
[7] Y. Asensio, L.F. León, C.M. Fernández-Marchante, J. Lobato, P. Cañizares, M.A. Rodrigo. Use of thermally-treated alga suspensions as fuel for Microbial fuel cells.

Asistencia a congresos, conferencias o workshops relacionados con el proyecto

[1] A. González del Campo, J. Lobato, P. Cañizares, M.A. Rodrigo, F.J. Fernández. Anodic optimization of a MFC for energy recovery from industrial wastewater. 10th European Symposium on Electrochemical Engineering. Sardinia, Italy, Septiembre 2014. (póster)
[2] A. Raschitor, C.M. Fernández-Marchante, J. Llanos, J. Lobato, P. Cañizares, M.A. Rodrigo. Influencia del co-sustrato en celdas de combustible microbianas: proceso bioelectro-Claus. XXXVI Reunión del Grupo de Electroquímica. XVII Encontro Ibérico de Electroquímica Vigo. Julio 2015 (oral)
[3] E.D. Penteado, C.M. Fernández-Marchante, M. Zaiat, P. Cañizares, E. R. González, M.A. Rodrigo. Influence of ferricianyde concentration in cathode on microbial fuel cell performance treating winery wastewater. Reunión del Grupo de Electroquímica. XVII Encontro Ibérico de Electroquímica. Vigo. Julio 2015 (póster)
[4] S. Mateo, P. Cañizares, M.A. Rodrigo, F.J. Fernández. Coupling Anodic Denitrification and Electrogenesis in Microbial Fuel Cells. IWA Nutrient removal and Recovery: moving innovation into practice. Gdansk, Polonia, 18 mayo – 21 mayo de 2015 (Póster)
[5] Y. Asensio, E.D. Penteado. I.B. Montes, C.M. Fernández-Marchante, J. Lobato, P. Cañizares, M.A.Rodrigo. Influence of carbonaceous electrode material on microbial fuel cells treating a synthetic wastewater. XXXV Reunión de la RSEQ, A Coruña, Julio 2015 (oral)
[6] S. Mateo, M. A. Rodrigo, P. Cañizares, F. J. Fernández. Effect of polarizing the anode on the performance of a microbial fuel cell. 10th European Congress on Chemical Engineering, Niza, Francia Septiembre 2015 (oral)
[7] M.A: Rodrigo, C.M: Fernández-Marchante, J. Llanos, F.J. Fernández, C. Sáez, J. Lobato, J. Villaseñor, P. Cañizares. Electrochemical technology at the E3L-UCLM: main expertise and activities. 10th European Congress on Chemical Engineering, Niza, Septiembre 2015 (oral)
[8] S. Mateo, P. Cañizares, M.A. Rodrigo and F.J. Fernandez.Effect of the industrial wastewater discharges on the performance of a microbial fuel cell. 10th European Congress on Chemical Engineering, Niza, Francia Septiembre 2015 (póster)
[9] C.M. Fernandez Marchante, Y. Asensio, E. Penteado, I.B. Montes, M. Zaiat, J. Lobato, P. Cañizares, E. Gonzalez, M.A. Rodrigo Influence of electrode material on microbial fuel cell treating a synthetic and a winery wastewater. 66th Annual meeting of the International Society of Electrochemistry, Taipei, Taiwan, Octubre 2015. (oral)
[10] E.D. Penteado, C.M. Fernández-Marchante, M. Zaiat, P. Cañizares, E. R. González, M.A. Rodrigo Influence of sludge age on the performance of microbial fuel cell treating winery wastewater. ISMET 2015, Tempe, Estados Unidos, 2015 (oral).
[11] Y. Asensio, C.M. Fernandez-Marchante, J. Lobato, P. Cañizares, M.A. Rodrigo. Effects of cationic and anionic membranes on the behaviour of microbial fuel cells. Congreso Iberoamericano de Hidógeno y Pilas de Combustible, Torremolinos, España 2016 (oral)
[12] S. Mateo, M.A. Rodrigo, P. Cañizares, F.J. Fernández. Effect of anodic poised potential on the performance of microbial fuel cells. The 13th IWA Leading Edge Conference on Water and Wastewater Technologies. Jerez, Junio 2016. (poster)
[13] S. Mateo, Y. Asensio, H. Zamora, C.M. Fernandez-Marchante, F.J Fernández, J.Villaseñor, J. Lobato, P. Cañizares, M.A. Rodrigo. Producción de energía en el tratamiento de aguas residuales. Celdas microbiológicas. XII Reunión de la mesa española de tratamiento de aguas Madrid, España, Junio 2016 (oral).
[14] S. Mateo, M.A. Rodrigo, P. Cañizares, F.J. Fernández. Effect of sludge age on Microbial Fuel Cell performance. 3rd Specialized International Conference Ecotechnologies for wastewater treatment 2016. Cambridge, UK, Junio 2016. (oral)
[15] S. Cotillas, E. Mena, M.J. Martín de Vidales, C.M. Fernández, J. Llanos, C. Sáez, F.J. Fernández, J. Lobato, L. Rodríguez, J. Villaseñor, M.A. Rodrigo y P. Cañizares. Líneas de Investigación en Tratamiento de Aguas en el Grupo TEQUIMA-UCLM, Laboratorio de Ingeniería Electroquímica y Ambiental (E3L). XII Reunión de la mesa española de tratamiento de aguas. Madrid, Junio, 2016. (póster)
[16] Y. Asensio, C.M. Fernandez-Marchante, J. Lobato, P. Cañizares, M.A. Rodrigo. Uso de biomasa algal como combustible en celdas electromicrobianas. XXXVII Reunión del Grupo de Electroquímica-RSEQ, Alicante, España, Julio 2016 (oral).
[17] Y. Asensio, C.M. Fernandez-Marchante, J. Lobato, P. Cañizares, M.A. Rodrigo. Evaluación de la energía generada y de la capacidad de depuración en el escalado de Celdas de Combustible Microbianas (CCMs) conectadas en serie. XXXVII Reunión del Grupo de Electroquímica- RSEQ, Alicante, España. Julio 2016 (oral).
[18] Y. Asensio, C.M. Fernandez-Marchante, J. Lobato, P. Cañizares, M.A. Rodrigo Influence of the fuel and dosage on the perfomance of double-compartment microbial fuel cells. 67th Annual Meeting of the International Society of Electrochemistry, The Hague, La Haya, Holanda, Agosto 2016 (poster).
[19] Y. Asensio, C.M. Fernandez-Marchante, J. Lobato, P. Cañizares, M.A. Rodrigo.Influence of the electrode material on double-compartment microbial fuel cells fed with acetate. 67th Annual Meeting of the International Society of Electrochemistry, The Hague, Holanda, Agosto 2016 (póster).
[20] Y. Asensio, S. Mateo, C.M. Fernandez-Marchante, F. J. Fernández, J. Lobato, P. Cañizares, M.A. Importance of the cathodic chamber configuration in the performance of Microbial Fuel Cells. 2nd E3 Mediterranean Symposium: Electrochemistry for Environment and Energy, Gargnano, Italia, Septiembre, 2016 (poster).
[21] Y. Asensio, S. Mateo, C.M. Fernández-Marchante, F.J. Fernández, P. Cañizares, J. Lobato, M.A. Rodrigo. Influence of stacked Microbial Fuel Cells (MFC) in energy generation and organic matter removal. 2nd E3 Mediterranean Symposium: Electrochemistry for Environment and Energy, Gargnano, Septiembre, 2016. (oral)
[22] J. Lobato, Y. Asensio, C.M. Fernández-Marchante, P. Cañizares,M.A. Rodrigo. First approach to develop self-sustainable photomicroabial fuel cells (PMC). 2nd E3 Mediterranean Symposium: Electrochemistry for Environment and Energy, Gargnano, Septiembre, 2016. (oral)
[23] S. Mateo, M.A. Rodrigo, P. Cañizares, F.J. Fernández-Morales. Importance of sludge age in the optimization of microbial fuel cells. 6th EuCheMS, Sevilla, Septiembre 2016 (short oral)

Otras publicaciones

[1] F.J. Fernández, J. Lobato, J. Villaseñor, M.A. Rodrigo and P. Cañizares. Microbial Fuel Cell: the definitive technological approach for valorizing organic wastes in The Handbook of Environmental Chemistry Vol. 32. Environment, Energy and Climate Change I. (E. Jimenez, B. Cabañas and G. Lefebrve Editors). Springer International Publishing Switzerland, 2015 ISBN 978-3-319-12906-8

CTQ2013-49748-EXP