Microbial Fuel Cell (MFC) is a device that generates electricity from the metabolism of
bacteria simultaneously treats wastewater by decolourizing the azo dye in wastewater.
In this work, the effect of different external loads and bacterial loads were examined.
The maximum open circuit voltage generated was 390 mV by using 7 consortia of
bacteria while the maximum current generated was 50 µA using 10 Ω resistor. 97%
decolourization efficiency of 0.1 g/L of azo dye was achieved after 5 days of operation.
Besides, the maximum current density and power density achieved were 17.9 µA/cm2
and 460 µW/cm2
respectively. Polarization curve was plotted and Scanning Electron
Microscope was applied to visualize the bacterial community attachment onto the
graphite felt electrode. Cyclic voltammetry was applied to study the redox properties
of the Azo dye using microorganisms in MFC. Overall, these 7 bacterial strains used in
this work showed the capability in decolourizing the Azo dye simultaneously producing
electricity in MFC.