Abstract
This research proposes an alternative for companies and farmers through the production of electricity using microbial fuel cells (MFCs) using waste from export products. Nine MFCs were manufactured with zinc and copper electrodes; and as substrates, pineapple, potato and tomato pulp wastes were used in the anode chamber, and residual sludge in the cathode chamber. It was observed that the MFCs with pineapple substrate generated higher values of the electrical parameters, resulting in voltage and current values of 0.3484 ± 0.003 V and 27.88 ± 0.23 mA, respectively. It was also observed that the maximum power density was 0.967 ± 0.059 W/cm2 at a current density of 0.04777 A/cm2 for the same substrate. Acid pH values were observed in the three samples, while the conductivity reached its maximum value on day 23 (69.47 ± 0.91 mS/cm) which declined until the last day of monitoring; the turbidity values increased abruptly after day 22 until the last day where a value of 200.3 ± 2.52 UNT was observed for the pineapple substrate. The scanning electron microscopy for the pineapple substrate MFC electrodes shows the formation of a porous biofilm on the zinc and copper electrodes. These results show that a new form of electricity production has been achieved by generating high voltage and current values, using low-cost materials.
Highlights
The life on the planet has been made easier by electricity, which is generated in large quantities and its access represents a high cost for the most remote and poorer communities
The great global demand for electricity has generated a demographic explosion that, together with industrialization, has entailed to an imminent depletion of the planet’s fossil sources, generating a severe impact on the environment, as a result of which the scientific community has been forced to look for other unconventional energy sources such as renewable resources (Taparia et al, 2016)
This work successfully demonstrates the generation of electricity using organic waste obtained from La Hermelinda Market, Trujillo, Peru, by manufacturing lowcost microbial fuel cells
Summary
The life on the planet has been made easier by electricity, which is generated in large quantities and its access represents a high cost for the most remote and poorer communities. The hydroelectric energy is currently the most important source for the generation of electrical energy (Ferraço et al, 2018). This type of energy represents approximately 87 % of the renewable energy worldwide (Serrano Guzmán et al, 2017). Bioenergy appears as a substitute for energy produced from non-renewable resources. Bioenergy can be used to produce electricity, and it is expected that in the future it will become the main source of energy generated by biomass with residues from forestry and agriculture, together with the organic waste the main source of fuel. By 2050, the contribution of bioenergy is expected to be approximately 20 % of supply of the global energy and 10 % of the global electricity production (Elum et al, 2017)
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