Potential of molasses substrate for bioelectricity production in microbial fuel cell with the help of active microbial community

Abstract: The present study investigated the potential of different concentrations of molasses wastewater to produce bioelectricity, reduction of chemical oxygen demand (COD) and functionally active microbial community in microbial fuel cells (MFCs). Five different MFC setups were compared in which three were fed with molasses (two at room and one at 35 C temperature), while fourth and fifth were used as control reactors fed with distilled water and acetate, respectively. During first, second and third phases of the exp… Show more

“…Plant residues in agricultural drainage sediments probably promoted the growth of these bacteria due to the SMFC's operation. Bhatti et al [73] reported that electricigens genus Romboutsia increased in microbial fuel cells with higher molasses and acetate, which might be a reason for the increased electricity production. The abundance of this genus would have supported electricity generation in our study.…”

Phosphorus Release from Agricultural Drainage Sediments with Iron-Added Sediment Microbial Fuel Cells

“…Plant residues in agricultural drainage sediments probably promoted the growth of these bacteria due to the SMFC's operation. Bhatti et al [73] reported that electricigens genus Romboutsia increased in microbial fuel cells with higher molasses and acetate, which might be a reason for the increased electricity production. The abundance of this genus would have supported electricity generation in our study.…”

Phosphorus Release from Agricultural Drainage Sediments with Iron-Added Sediment Microbial Fuel Cells

Combined effect of phosphorus, magnesium, yeast extract on lipid productivity of Yarrowia lipolytica grown with molasses

Algae a valuable biomass for bioethanol production