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Bioelectricity production using shade macrophytes in constructed wetlands-microbial fuel cells

Oscar Guadarrama‐Pérez, Karen Yarely Bahena-Rabadan, Ulises Dehesa-Carrasco, Victor Hugo Guadarrama Pérez, Edson Baltazar Estrada‐Arriaga

2020Environmental Technology27 citationsDOI

Abstract

The coupling of constructed wetlands (CW) to microbial fuel cells (MFC) has become a promising hybrid technology due to its high compatibility to generate electricity and remove pollutants from wastewater. In the present study, the bioelectricity production generated from constructed wetlands-microbial fuel cells (CW-MFCs) was evaluated using four species of shade macrophytes: Aglaonema commutatum, Epipremnum aureum, Dranacaena braunni, and Philodendron cordatum. The CW-MFCs were operated in a continuous upflow mode with a hydraulic retention time (HRT) of 4 d. The systems were fed with synthetic water without an external carbon source. The bioelectrochemical systems were operated under diffuse radiation conditions (shadow). Philodendron cordatum was the macrophyte species that produced a maximum voltage of 103 mV, with a power density of 12.5 mW/m2. High voltages were obtained when the diffuse radiation in the CW-MFCs was 3000–4000 µmol.m2/s. The maximum production of root exudates was 20.6 mg/L as total organic carbon for the Philodendron cordatum species. Philodendron cordatum was the macrophyte species that obtained high conversion efficiency (0.0014%), compared to other macrophyte species (< 0.0008%). In the CW-MFCs systems it was observed that the bioelectricity production was mainly due to the quantity of the root exudates released into the rhizospheres of the plants.

Topics & Concepts

MacrophyteMicrobial fuel cellConstructed wetlandPeriphytonWastewaterWetlandEnvironmental scienceChemistryEnvironmental engineeringBotanyBiologyAlgaeEcologyElectrodePhysical chemistryAnodeMicrobial Fuel Cells and BioremediationConstructed Wetlands for Wastewater TreatmentWastewater Treatment and Nitrogen Removal