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Lagooning microbial fuel cells: A first approach by coupling electricity-producing microorganisms and algae

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  • Lobato, Justo
  • González del Campo, Araceli
  • Fernández, Francisco J.
  • Cañizares, Pablo
  • Rodrigo, Manuel A.

Abstract

The paper focused on the start-up and performance characterisation of a new type of microbial fuel cell (MFC), in which an algae culture was seeded in the cathodic chamber to produce the oxygen required to complete the electrochemical reactions of the MFC, thus circumventing the need for a mechanical aerator. The system did not use mediators or high cost catalysts and it can be started-up easily using a straightforward three-stage procedure. The start-up consists of the separate production of the electricity-producing microorganisms and the algae cultures (stage I), replacement of the mechanical aeration system by the algae culture (stage II) and a change in the light dosage from a continuous input to a dynamic day/night profile. The MFC was operated under a regime of 12h light and 12h dark and was also operated in batch and continuous substrate-feeding modes. The same cell voltage was achieved when the cathode compartment was operated with air supplied by aerators, which means that this configuration can perform as well as the traditional one. The results also show the influence of both the organic load and light irradiation on electricity production and demonstrate that this type MFC is a robust and promising technology that can be considered as a first approach to perform a lagooning wastewater treatment with microbial fuel cells.

Suggested Citation

  • Lobato, Justo & González del Campo, Araceli & Fernández, Francisco J. & Cañizares, Pablo & Rodrigo, Manuel A., 2013. "Lagooning microbial fuel cells: A first approach by coupling electricity-producing microorganisms and algae," Applied Energy, Elsevier, vol. 110(C), pages 220-226.
    • Handle: RePEc:eee:appene:v:110:y:2013:i:c:p:220-226
    DOI: 10.1016/j.apenergy.2013.04.010
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    References listed on IDEAS

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    Cited by:

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    5. ElMekawy, Ahmed & Hegab, Hanaa M. & Vanbroekhoven, Karolien & Pant, Deepak, 2014. "Techno-productive potential of photosynthetic microbial fuel cells through different configurations," Renewable and Sustainable Energy Reviews, Elsevier, vol. 39(C), pages 617-627.
    6. Kumar, Vikash & Nandy, Arpita & Das, Suparna & Salahuddin, M. & Kundu, Patit P., 2015. "Performance assessment of partially sulfonated PVdF-co-HFP as polymer electrolyte membranes in single chambered microbial fuel cells," Applied Energy, Elsevier, vol. 137(C), pages 310-321.
    7. Wetser, Koen & Sudirjo, Emilius & Buisman, Cees J.N. & Strik, David P.B.T.B., 2015. "Electricity generation by a plant microbial fuel cell with an integrated oxygen reducing biocathode," Applied Energy, Elsevier, vol. 137(C), pages 151-157.
    8. Maity, Jyoti Prakash & Hou, Chia-Peng & Majumder, Dip & Bundschuh, Jochen & Kulp, Thomas R. & Chen, Chien-Yen & Chuang, Lu-Te & Nathan Chen, Ching-Nen & Jean, Jiin-Shuh & Yang, Tsui-Chu & Chen, Chien-, 2014. "The production of biofuel and bioelectricity associated with wastewater treatment by green algae," Energy, Elsevier, vol. 78(C), pages 94-103.
    9. Massaglia, Giulia & Margaria, Valentina & Sacco, Adriano & Tommasi, Tonia & Pentassuglia, Simona & Ahmed, Daniyal & Mo, Roberto & Pirri, Candido Fabrizio & Quaglio, Marzia, 2018. "In situ continuous current production from marine floating microbial fuel cells," Applied Energy, Elsevier, vol. 230(C), pages 78-85.
    10. Jiang, Joe-Air & Su, Yu-Li & Shieh, Jyh-Cherng & Kuo, Kun-Chang & Lin, Tzu-Shiang & Lin, Ta-Te & Fang, Wei & Chou, Jui-Jen & Wang, Jen-Cheng, 2014. "On application of a new hybrid maximum power point tracking (MPPT) based photovoltaic system to the closed plant factory," Applied Energy, Elsevier, vol. 124(C), pages 309-324.
    11. Li, Yan & Williams, Isaiah & Xu, Zhiheng & Li, Baikun & Li, Baitao, 2016. "Energy-positive nitrogen removal using the integrated short-cut nitrification and autotrophic denitrification microbial fuel cells (MFCs)," Applied Energy, Elsevier, vol. 163(C), pages 352-360.
    12. Kokabian, Bahareh & Ghimire, Umesh & Gude, Veera Gnaneswar, 2018. "Water deionization with renewable energy production in microalgae - microbial desalination process," Renewable Energy, Elsevier, vol. 122(C), pages 354-361.
    13. Luciana Peixoto & Pier Parpot & Gilberto Martins, 2019. "Assessment of Electron Transfer Mechanisms during a Long-Term Sediment Microbial Fuel Cell Operation," Energies, MDPI, vol. 12(3), pages 1-13, February.
    14. Saba, Beenish & Christy, Ann D. & Yu, Zhongtang & Co, Anne C., 2017. "Sustainable power generation from bacterio-algal microbial fuel cells (MFCs): An overview," Renewable and Sustainable Energy Reviews, Elsevier, vol. 73(C), pages 75-84.
    15. Cai, Weiwei & Zhang, Zhaojing & Ren, Ge & Shen, Qiuxuan & Hou, Yanan & Ma, Anzhou & Deng, Ye & Wang, Aijie & Liu, Wenzong, 2016. "Quorum sensing alters the microbial community of electrode-respiring bacteria and hydrogen scavengers toward improving hydrogen yield in microbial electrolysis cells," Applied Energy, Elsevier, vol. 183(C), pages 1133-1141.
    16. Fischer, Fabian, 2018. "Photoelectrode, photovoltaic and photosynthetic microbial fuel cells," Renewable and Sustainable Energy Reviews, Elsevier, vol. 90(C), pages 16-27.

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