Agricultural wastes for electricity generation using microbial fuel cells
Date
2020Author(s)
Rojas Flores, SegundoNazario Naveda, Renny
Abanto Paredes, Evelyn
Alza Orbegoso, Jessica
Cruz Céspedes, Tiffany
Rodríguez Salvatierra, Angie
Sánchez Rodríguez, Milagros
Metadata
Show full item recordAbstract
Background:
Microbial Fuel Cells (MFCs) are promising devices that enable the employment of discarded organic matter, typically gathered around food supply
chains, to generate electricity.
Aims:
In this work, low-cost MFCs in the absence of a proton exchange membrane were fabricated.
Methods:
They were built on polyvinyl chloride (PVC) plastic tubes with square acrylic sheets at the ends serving as a framework of anode/cathode
chambers and using zinc (Zn) and copper (Cu) metals as electrodes. Tomatoes, onions, and potatoes were used as substrates in MFCs and
monitored for 21 days. Variables of interest such as voltage, current, pH, and volume were measured through a 100 Ω resistor.
Results:
The voltage measurements for the onion-based cell showed an upward trend that reaches a peak of 1.01 volts on the last day. Moreover, the
greatest current generation was observed in onion cells, in which the current gradually increases from 10.2 to 24.7 mA on the last day. On the other
hand, in all substrates, pH ranged from 7.5 and 10, which indicates the slightly alkaline behavior of the solutions.
Conclusion:
A reduction in the volume of the substrate was observed during the voltage generation. Finally, during the last day, MFCs were connected in series
which allowed for the successful generation of 2.35 volts, and consequently, illumination of LED light.