Photosynthetic microbial fuel cell with polybenzimidazole membrane: synergy between bacteria and algae for wastewater removal and biorefinery

Photosynthetic microbial fuel cell with polybenzimidazole membrane: synergy between bacteria and algae for wastewater removal and biorefinery

Here, we demonstrate a very efficient simultaneous approach of bioenergy generation from wastewater and added-value compounds production by using a photosynthetic microalgae microbial fuel cells (PMFC), based on polybenzimidazole (PBI) composite membrane as separator. The use of PBI was proved to be...

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Main Authors: S. Angioni, L. Millia, P. Mustarelli, E. Doria, M.E. Temporiti, B. Mannucci, F. Corana, E. Quartarone
Format: Article
Language:English
Published: Elsevier 2018-03-01
Series:Heliyon
Subjects:
Energy
Online Access:http://www.sciencedirect.com/science/article/pii/S2405844018302159
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spelling doaj-285b291c456b47b69128fe1c38cf628f2020-11-25T02:20:01ZengElsevierHeliyon2405-84402018-03-0143e00560Photosynthetic microbial fuel cell with polybenzimidazole membrane: synergy between bacteria and algae for wastewater removal and biorefineryS. Angioni0L. Millia1P. Mustarelli2E. Doria3M.E. Temporiti4B. Mannucci5F. Corana6E. Quartarone7Dept. of Chemistry and INSTM, University of Pavia, Via Taramelli 12, 27100 Pavia, ItalyDept. of Chemistry and INSTM, University of Pavia, Via Taramelli 12, 27100 Pavia, ItalyDept. of Chemistry and INSTM, University of Pavia, Via Taramelli 12, 27100 Pavia, ItalyDept. of Biology and Biotechnology, University of Pavia, Via Ferrata 9, 27100 Pavia, ItalyDept. of Biology and Biotechnology, University of Pavia, Via Ferrata 9, 27100 Pavia, ItalyCentro Grandi Strumenty, University of Pavia, Via Bassi 21, 27100 Pavia, ItalyCentro Grandi Strumenty, University of Pavia, Via Bassi 21, 27100 Pavia, ItalyDept. of Chemistry and INSTM, University of Pavia, Via Taramelli 12, 27100 Pavia, Italy; Corresponding author.Here, we demonstrate a very efficient simultaneous approach of bioenergy generation from wastewater and added-value compounds production by using a photosynthetic microalgae microbial fuel cells (PMFC), based on polybenzimidazole (PBI) composite membrane as separator. The use of PBI was proved to be very promising, even more convenient than Nafion™ in terms of energy performances as well as cost and sustainability. This polymer is also easily autoclavable, so allowing a re-use of the separator with a consequent beneficial cost effect. Two PMFCs were investigated: 1) Pt electrocatalysed and 2) Pt-free. They were operated as microbial carbon capture (MCC) device under continuous illumination, by using a domestic wastewater as anolyte and Scenedesmus acutus strain in the catholyte. The Pt-based cell allowed to generate higher volumetric power density (∼400 mW m−3) after more than 100 operating days. This resulted in an improved wastewater treatment efficiency, determined in terms of normalised energy recovery (NER > 0.19 kWh kgCOD−1 in case of Pt). The CO2 fixation of the PMFC-grown microalgae leaded to a high accumulation of added-value products, namely pigments and fatty acids. A significant quantity of lutein was observed as well as a relevant amount of other valuable carotenoids, as violaxanthin, astaxanthin and cantaxanthin. The lipids were even excellently accumulated (49%dw). Their profile was mainly composed by fatty acids in the range C16-18, which are particularly indicated for the biofuel production. These results demonstrate the feasibility and the implemented sustainability of such PMFCs as a great potential technology for the wastewater treatment and the simultaneous production of valuable products.http://www.sciencedirect.com/science/article/pii/S2405844018302159Energy
collection DOAJ
language English
format Article
sources DOAJ
author S. Angioni
L. Millia
P. Mustarelli
E. Doria
M.E. Temporiti
B. Mannucci
F. Corana
E. Quartarone
spellingShingle S. Angioni
L. Millia
P. Mustarelli
E. Doria
M.E. Temporiti
B. Mannucci
F. Corana
E. Quartarone
Photosynthetic microbial fuel cell with polybenzimidazole membrane: synergy between bacteria and algae for wastewater removal and biorefinery
Heliyon
Energy
author_facet S. Angioni
L. Millia
P. Mustarelli
E. Doria
M.E. Temporiti
B. Mannucci
F. Corana
E. Quartarone
author_sort S. Angioni
title Photosynthetic microbial fuel cell with polybenzimidazole membrane: synergy between bacteria and algae for wastewater removal and biorefinery
title_short Photosynthetic microbial fuel cell with polybenzimidazole membrane: synergy between bacteria and algae for wastewater removal and biorefinery
title_full Photosynthetic microbial fuel cell with polybenzimidazole membrane: synergy between bacteria and algae for wastewater removal and biorefinery
title_fullStr Photosynthetic microbial fuel cell with polybenzimidazole membrane: synergy between bacteria and algae for wastewater removal and biorefinery
title_full_unstemmed Photosynthetic microbial fuel cell with polybenzimidazole membrane: synergy between bacteria and algae for wastewater removal and biorefinery
title_sort photosynthetic microbial fuel cell with polybenzimidazole membrane: synergy between bacteria and algae for wastewater removal and biorefinery
publisher Elsevier
series Heliyon
issn 2405-8440
publishDate 2018-03-01
description Here, we demonstrate a very efficient simultaneous approach of bioenergy generation from wastewater and added-value compounds production by using a photosynthetic microalgae microbial fuel cells (PMFC), based on polybenzimidazole (PBI) composite membrane as separator. The use of PBI was proved to be very promising, even more convenient than Nafion™ in terms of energy performances as well as cost and sustainability. This polymer is also easily autoclavable, so allowing a re-use of the separator with a consequent beneficial cost effect. Two PMFCs were investigated: 1) Pt electrocatalysed and 2) Pt-free. They were operated as microbial carbon capture (MCC) device under continuous illumination, by using a domestic wastewater as anolyte and Scenedesmus acutus strain in the catholyte. The Pt-based cell allowed to generate higher volumetric power density (∼400 mW m−3) after more than 100 operating days. This resulted in an improved wastewater treatment efficiency, determined in terms of normalised energy recovery (NER > 0.19 kWh kgCOD−1 in case of Pt). The CO2 fixation of the PMFC-grown microalgae leaded to a high accumulation of added-value products, namely pigments and fatty acids. A significant quantity of lutein was observed as well as a relevant amount of other valuable carotenoids, as violaxanthin, astaxanthin and cantaxanthin. The lipids were even excellently accumulated (49%dw). Their profile was mainly composed by fatty acids in the range C16-18, which are particularly indicated for the biofuel production. These results demonstrate the feasibility and the implemented sustainability of such PMFCs as a great potential technology for the wastewater treatment and the simultaneous production of valuable products.
topic Energy
url http://www.sciencedirect.com/science/article/pii/S2405844018302159
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