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Constructed wetland, an eco-technology for wastewater treatment: A review on various aspects of microbial fuel cell integration, low temperature strategies and life cycle impact of the technology

Author

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  • Kataki, S.
  • Chatterjee, S.
  • Vairale, M.G.
  • Sharma, S.
  • Dwivedi, S.K.
  • Gupta, D.K.

Abstract

Constructed wetland (CW), a robust eco-technology used for wastewater reclamation can be considered as an ideal synergism among water security, energy harvesting and environmental services. The technology as an alternative to existing energy and chemical intensive treatments has attained maturity for treating contaminants from range of waste streams, under wide range of climates and conditions. Recent trend shows additional research interventions for better expansion of the technology such as energy harvesting to make the system a net energy producer by coupling CW to microbial fuel cell (CW-MFC) and improved operation under climatically challenged condition. The assessment discusses treatment efficiency, bioelectricity production, improved electrode efficiency, performance variation w.r.t. Macrophyte, emerging pollutant removal and microbial community structure in CW-MFC, which reveal that carefully designed integrated CW-MFC with optimized system elements (electrode, spacing, separator, macrophyte, C source, rhizosphere microbes) are necessary for its more profitable futuristic application. Further, low temperature challenges of the technology and the strategies to achieve satisfactory low temperature performance were assessed. Successful implementation of the technology in cold climate calls for design of CW with incorporation of appropriate heat preservation method, active macrophyte or microbial consortia to work effectively under low temperature. Comparative evaluation of the technology with other treatment processes using Life cycle assessment (LCA) with cradle to grave approach (considering alternative substrates, energy harvesting, macrophyte use and disposal options) would further boost the technology penetration. Potential research areas that appear to be worth pursuing in future to obtain further gains in CW performance are also discussed.

Suggested Citation

  • Kataki, S. & Chatterjee, S. & Vairale, M.G. & Sharma, S. & Dwivedi, S.K. & Gupta, D.K., 2021. "Constructed wetland, an eco-technology for wastewater treatment: A review on various aspects of microbial fuel cell integration, low temperature strategies and life cycle impact of the technology," Renewable and Sustainable Energy Reviews, Elsevier, vol. 148(C).
    • Handle: RePEc:eee:rensus:v:148:y:2021:i:c:s1364032121005487
    DOI: 10.1016/j.rser.2021.111261
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    References listed on IDEAS

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    1. Farhad Yazdandoost & Seyyed Ali Yazdani, 2019. "A New Integrated Portfolio Based Water-Energy-Environment Nexus in Wetland Catchments," Water Resources Management: An International Journal, Published for the European Water Resources Association (EWRA), Springer;European Water Resources Association (EWRA), vol. 33(9), pages 2991-3009, July.
    2. Lars Peter Nielsen & Nils Risgaard-Petersen & Henrik Fossing & Peter Bondo Christensen & Mikio Sayama, 2010. "Electric currents couple spatially separated biogeochemical processes in marine sediment," Nature, Nature, vol. 463(7284), pages 1071-1074, February.
    3. Alexandros I. Stefanakis, 2019. "The Role of Constructed Wetlands as Green Infrastructure for Sustainable Urban Water Management," Sustainability, MDPI, vol. 11(24), pages 1-19, December.
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    1. María J. López-Serrano & Fida Hussain Lakho & Stijn W.H. Van Hulle & Ana Batlles-delaFuente, 2023. "Life cycle cost assessment and economic analysis of a decentralized wastewater treatment to achieve water sustainability within the framework of circular economy," Oeconomia Copernicana, Institute of Economic Research, vol. 14(1), pages 103-133, March.
    2. Renata Toczyłowska-Mamińska & Mariusz Ł. Mamiński, 2022. "Wastewater as a Renewable Energy Source—Utilisation of Microbial Fuel Cell Technology," Energies, MDPI, vol. 15(19), pages 1-14, September.
    3. Ngoc-Dan Cao, Thanh & Mukhtar, Hussnain & Yu, Chang-Ping & Bui, Xuan-Thanh & Pan, Shu-Yuan, 2022. "Agricultural waste-derived biochar in microbial fuel cells towards a carbon-negative circular economy," Renewable and Sustainable Energy Reviews, Elsevier, vol. 170(C).
    4. Kamali, Mohammadreza & Guo, Yutong & Aminabhavi, Tejraj M. & Abbassi, Rouzbeh & Dewil, Raf & Appels, Lise, 2023. "Pathway towards the commercialization of sustainable microbial fuel cell-based wastewater treatment technologies," Renewable and Sustainable Energy Reviews, Elsevier, vol. 173(C).
    5. Maria G. Savvidou & Pavlos K. Pandis & Diomi Mamma & Georgia Sourkouni & Christos Argirusis, 2022. "Organic Waste Substrates for Bioenergy Production via Microbial Fuel Cells: A Key Point Review," Energies, MDPI, vol. 15(15), pages 1-53, August.
    6. Joanna Kazimierowicz & Marcin Dębowski & Marcin Zieliński, 2022. "Microbial Granule Technology—Prospects for Wastewater Treatment and Energy Production," Energies, MDPI, vol. 16(1), pages 1-26, December.

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