| Abstract | In the present study a closed incubator, designed for biofilm growth on artificial substrata, was used to grow three isolates of biofilm-forming heterocytous cyanobacteria using an artificial wastewater secondary effluent as the culture medium. We evaluated biofilm efficiency in removing phosphorus, by simulating biofilm-based tertiary wastewater treatment and coupled this process with biodiesel production from the developed biomass. The three strains were able to grow in the synthetic medium and remove phosphorus in percentages, between 6 and 43%, which varied between strains and also among each strain according to the biofilm growth phase. Calothrix sp. biofilm turned out to be a good candidate for tertiary treatment, showing phosphorus reducing capacity (during the exponential biofilm growth) at the regulatory level for the treated effluent water being discharged into natural water systems. Besides phosphorus removal, the three cyanobacterial biofilms produced high quality lipids, whose profile showed promising chemical stability and combustion behavior. Further integration of the proposed processes could include the integration of oil extracted from these cyanobacterial biofilms with microalgal oil known for high monounsaturated fatty acids content, in order to enhance biodiesel cold flow characteristics. |
| Text | 376506 2016 10.1080/15226514.2016.1156640 Scopus 2 s2.0 85009951566 ISI Web of Science WOS WOS 000377993600004 Cyanobacterial biofilms; phosphorus removal; biodiesel production; Fatty Acid Methyl Esters FAMEs profile; biodiesel properties; flow lane incubator system Phosphorus removal coupled to bioenergy production by three cyanobacterial isolates in a biofilm dynamic growth system Gismondi A.; Di Pippo F.; Bruno L.; Antonaroli S.; Congestri R. LBA Laboratory of Biology of Algae, Department of Biology, University of Rome Tor Vergata , Rome, , Italy; CNR IAMC, National Research Council, Institute for Coastal Marine Environment, Localita Sa Mardini, Torregrande, Oristano, , Italy; CNR IRSA, National Research Council, Water Research Institute, Area della Ricerca di Roma 1, Monterotondo stazione, Rome, , , Italy; CNR IRSA, National Research Council, Water Research Institute, Area della Ricerca di Roma 1, Monterotondo stazione, Rome, , , Italy; Department of Chemical Sciences and Technologies, University of Rome Tor Vergata , via della Ricerca Scientifica snc, Rome, , Italy In the present study a closed incubator, designed for biofilm growth on artificial substrata, was used to grow three isolates of biofilm forming heterocytous cyanobacteria using an artificial wastewater secondary effluent as the culture medium. We evaluated biofilm efficiency in removing phosphorus, by simulating biofilm based tertiary wastewater treatment and coupled this process with biodiesel production from the developed biomass. The three strains were able to grow in the synthetic medium and remove phosphorus in percentages, between 6 and 43%, which varied between strains and also among each strain according to the biofilm growth phase. Calothrix sp. biofilm turned out to be a good candidate for tertiary treatment, showing phosphorus reducing capacity during the exponential biofilm growth at the regulatory level for the treated effluent water being discharged into natural water systems. Besides phosphorus removal, the three cyanobacterial biofilms produced high quality lipids, whose profile showed promising chemical stability and combustion behavior. Further integration of the proposed processes could include the integration of oil extracted from these cyanobacterial biofilms with microalgal oil known for high monounsaturated fatty acids content, in order to enhance biodiesel cold flow characteristics. 18 Published version http //www.scopus.com/record/display.url eid=2 s2.0 85009951566 origin=inward Articolo in rivista CRC Press, 1522 6514 International journal of phytoremediation International journal of phytoremediation Int J Phytoremediation International journal of phytoremediation. francesca.dipippo DI PIPPO FRANCESCA |
