A bio-anodic filter facilitated entrapment, decomposition and in situ oxidation of algal biomass in wastewater effluent

H. Mohammadi Khalfbadam, K.Y. Cheng, R. Sarukkalige, Anna Kaksonen, A.S. Kayaalp, M.P. Ginige

    Research output: Contribution to journalArticle

    5 Citations (Scopus)

    Abstract

    © 2016 Elsevier Ltd.This study examined for the first time the use of bioelectrochemical systems (BES) to entrap, decompose and oxidise fresh algal biomass from an algae-laden effluent. The experimental process consisted of a photobioreactor for a continuous production of the algal-laden effluent, and a two-chamber BES equipped with anodic graphite granules and carbon-felt to physically remove and oxidise algal biomass from the influent. Results showed that the BES filter could retain ca. 90% of the suspended solids (SS) loaded. A coulombic efficiency (CE) of 36.6% (based on particulate chemical oxygen demand (PCOD) removed) was achieved, which was consistent with the highest CEs of BES studies (operated in microbial fuel cell mode (MFC)) that included additional pre-treatment steps for algae hydrolysis. Overall, this study suggests that a filter type BES anode can effectively entrap, decompose and in situ oxidise algae without the need for a separate pre-treatment step.
    Original languageEnglish
    Pages (from-to)529-536
    JournalBioresource Technology
    Volume216
    DOIs
    Publication statusPublished - 2016

      Fingerprint

    Cite this

    Mohammadi Khalfbadam, H., Cheng, K. Y., Sarukkalige, R., Kaksonen, A., Kayaalp, A. S., & Ginige, M. P. (2016). A bio-anodic filter facilitated entrapment, decomposition and in situ oxidation of algal biomass in wastewater effluent. Bioresource Technology, 216, 529-536. https://doi.org/10.1016/j.biortech.2016.05.080