Improvement of Wastewater Treatment Performance and Power Generation in Microbial Fuel Cells by Enhancing Hydrolysis and Acidogenesis, and by Reducing Internal Losses

Improvement of Wastewater Treatment Performance and Power Generation in Microbial Fuel Cells by Enhancing Hydrolysis and Acidogenesis, and by Reducing Internal Losses

In this study, biodegradation performance and power generation in MFCs were improved. Domestic wastewater was biodegraded in a dual-chamber MFC system equipped with a DupontTM Nafion® 117 proton exchange membrane, graphite electrodes (8.0 cm × 2.5 cm × 0.2 cm) in both cha...

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Main Authors: Miguel Ángel López Zavala, Pamela Renée Torres Delenne, Omar Israel González Peña
Format: Article
Language:English
Published: MDPI AG 2018-09-01
Series:Energies
Subjects:
acidogenesis
electrochemical active microorganisms
free-oxygen conditions
hydrolysis
internal losses
methanogenesis
mixing conditions
Online Access:http://www.mdpi.com/1996-1073/11/9/2309
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spelling doaj-bcf1f9290c874a79a2ea836a3017595a2020-11-24T22:31:41ZengMDPI AGEnergies1996-10732018-09-01119230910.3390/en11092309en11092309Improvement of Wastewater Treatment Performance and Power Generation in Microbial Fuel Cells by Enhancing Hydrolysis and Acidogenesis, and by Reducing Internal LossesMiguel Ángel López Zavala0Pamela Renée Torres Delenne1Omar Israel González Peña2Tecnológico de Monterrey, Water Center for Latin America and the Caribbean. Av. Eugenio Garza Sada Sur No. 2501, Col. Tecnológico, Monterrey 64849, MexicoTecnológico de Monterrey, Water Center for Latin America and the Caribbean. Av. Eugenio Garza Sada Sur No. 2501, Col. Tecnológico, Monterrey 64849, MexicoTecnológico de Monterrey, Water Center for Latin America and the Caribbean. Av. Eugenio Garza Sada Sur No. 2501, Col. Tecnológico, Monterrey 64849, MexicoIn this study, biodegradation performance and power generation in MFCs were improved. Domestic wastewater was biodegraded in a dual-chamber MFC system equipped with a DupontTM Nafion® 117 proton exchange membrane, graphite electrodes (8.0 cm × 2.5 cm × 0.2 cm) in both chambers and an external electric circuit with a 100 Ω resistor. Experiments were conducted using an anaerobic inoculum that was prepared onsite by acclimating mixed liquor from municipal wastewater. Aqueous hydrochloric acid (0.1 M HCl, pH 1.82) was used as the electrolyte in the cathode chamber. Free-oxygen conditions were promoted in both chambers by means of a vacuum (77.3 kPa). Low pH (< 5) and mixing conditions were maintained in the anode chamber and all the tests were carried out at 25 ± 1 °C. These conditions enhanced the hydrolysis and acidogenesis, inhibited the methanogenesis and reduced the internal losses. All of them together contributed to improve the treatment performance and power generation of the MFCs. Results of batch tests show COD reductions of up to 95%, voltages peaks of 0.954 V, maximum power densities on the order of 2.1 W·m−2 and 36.9 W·m−3, and energy generation peaks of 99.4 J·mg−1 COD removed. These values are greater than those reported in the MFCs’ literature for municipal wastewater (26 mW·m−2–146 mW·m−2), industrial wastewater (419 mW·m−2) and culture medium solutions (1.17 W·m−2), and similar to those of glucose (3.6 W·m−2). Thus, these results can contribute to further enhancing the energy generated in MFCs and moving forward to make the MFCs more ready for practical applications of bioenergy production.http://www.mdpi.com/1996-1073/11/9/2309acidogenesiselectrochemical active microorganismsfree-oxygen conditionshydrolysisinternal lossesmethanogenesismixing conditions
collection DOAJ
language English
format Article
sources DOAJ
author Miguel Ángel López Zavala
Pamela Renée Torres Delenne
Omar Israel González Peña
spellingShingle Miguel Ángel López Zavala
Pamela Renée Torres Delenne
Omar Israel González Peña
Improvement of Wastewater Treatment Performance and Power Generation in Microbial Fuel Cells by Enhancing Hydrolysis and Acidogenesis, and by Reducing Internal Losses
Energies
acidogenesis
electrochemical active microorganisms
free-oxygen conditions
hydrolysis
internal losses
methanogenesis
mixing conditions
author_facet Miguel Ángel López Zavala
Pamela Renée Torres Delenne
Omar Israel González Peña
author_sort Miguel Ángel López Zavala
title Improvement of Wastewater Treatment Performance and Power Generation in Microbial Fuel Cells by Enhancing Hydrolysis and Acidogenesis, and by Reducing Internal Losses
title_short Improvement of Wastewater Treatment Performance and Power Generation in Microbial Fuel Cells by Enhancing Hydrolysis and Acidogenesis, and by Reducing Internal Losses
title_full Improvement of Wastewater Treatment Performance and Power Generation in Microbial Fuel Cells by Enhancing Hydrolysis and Acidogenesis, and by Reducing Internal Losses
title_fullStr Improvement of Wastewater Treatment Performance and Power Generation in Microbial Fuel Cells by Enhancing Hydrolysis and Acidogenesis, and by Reducing Internal Losses
title_full_unstemmed Improvement of Wastewater Treatment Performance and Power Generation in Microbial Fuel Cells by Enhancing Hydrolysis and Acidogenesis, and by Reducing Internal Losses
title_sort improvement of wastewater treatment performance and power generation in microbial fuel cells by enhancing hydrolysis and acidogenesis, and by reducing internal losses
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2018-09-01
description In this study, biodegradation performance and power generation in MFCs were improved. Domestic wastewater was biodegraded in a dual-chamber MFC system equipped with a DupontTM Nafion® 117 proton exchange membrane, graphite electrodes (8.0 cm × 2.5 cm × 0.2 cm) in both chambers and an external electric circuit with a 100 Ω resistor. Experiments were conducted using an anaerobic inoculum that was prepared onsite by acclimating mixed liquor from municipal wastewater. Aqueous hydrochloric acid (0.1 M HCl, pH 1.82) was used as the electrolyte in the cathode chamber. Free-oxygen conditions were promoted in both chambers by means of a vacuum (77.3 kPa). Low pH (< 5) and mixing conditions were maintained in the anode chamber and all the tests were carried out at 25 ± 1 °C. These conditions enhanced the hydrolysis and acidogenesis, inhibited the methanogenesis and reduced the internal losses. All of them together contributed to improve the treatment performance and power generation of the MFCs. Results of batch tests show COD reductions of up to 95%, voltages peaks of 0.954 V, maximum power densities on the order of 2.1 W·m−2 and 36.9 W·m−3, and energy generation peaks of 99.4 J·mg−1 COD removed. These values are greater than those reported in the MFCs’ literature for municipal wastewater (26 mW·m−2–146 mW·m−2), industrial wastewater (419 mW·m−2) and culture medium solutions (1.17 W·m−2), and similar to those of glucose (3.6 W·m−2). Thus, these results can contribute to further enhancing the energy generated in MFCs and moving forward to make the MFCs more ready for practical applications of bioenergy production.
topic acidogenesis
electrochemical active microorganisms
free-oxygen conditions
hydrolysis
internal losses
methanogenesis
mixing conditions
url http://www.mdpi.com/1996-1073/11/9/2309
work_keys_str_mv AT miguelangellopezzavala improvementofwastewatertreatmentperformanceandpowergenerationinmicrobialfuelcellsbyenhancinghydrolysisandacidogenesisandbyreducinginternallosses
AT pamelareneetorresdelenne improvementofwastewatertreatmentperformanceandpowergenerationinmicrobialfuelcellsbyenhancinghydrolysisandacidogenesisandbyreducinginternallosses
AT omarisraelgonzalezpena improvementofwastewatertreatmentperformanceandpowergenerationinmicrobialfuelcellsbyenhancinghydrolysisandacidogenesisandbyreducinginternallosses
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