2022
DOI: 10.3390/fermentation8060256
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Golden Berry Waste for Electricity Generation

Abstract: The environmental problems caused by the excessive use of fossil fuels for electricity generation have led to the development of new technologies. Microbial fuel cells constitute a technology that uses organic sources for electricity generation. This research gives a novel means of using Golden Berry waste as fuel for electricity generation through microbial fuel cells made at low cost, achieving current and voltage peaks of 4.945 ± 0.150 mA and 1.03 ± 0.02 V, respectively. Conductivity values increased up to … Show more

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Cited by 19 publications
(13 citation statements)
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“…Many microorganisms that generate electricity use carbohydrates and different types of compounds for their proliferation, which is why there would be a direct relationship where, when increasing the values of the voltage and electric current, it would be due to the increase in the percentage of sucrose [27,28]. It has been observed in some works of the literature that the use of metallic materials produces high values of currents and voltage, but it is also counterproductive for the proliferation of microorganisms and therefore for the generation of electric currents [25,29]. Figure 2c shows the monitored pH values of the microbial fuel cells for thirty days, demonstrating that the values increased from the first day to the last, although these increases were slight in all the MFCs that were kept in the acidic region naturally, without adding chemical compounds.…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…Many microorganisms that generate electricity use carbohydrates and different types of compounds for their proliferation, which is why there would be a direct relationship where, when increasing the values of the voltage and electric current, it would be due to the increase in the percentage of sucrose [27,28]. It has been observed in some works of the literature that the use of metallic materials produces high values of currents and voltage, but it is also counterproductive for the proliferation of microorganisms and therefore for the generation of electric currents [25,29]. Figure 2c shows the monitored pH values of the microbial fuel cells for thirty days, demonstrating that the values increased from the first day to the last, although these increases were slight in all the MFCs that were kept in the acidic region naturally, without adding chemical compounds.…”
Section: Resultsmentioning
confidence: 99%
“…The generated voltage and current values were monitored using a multimeter (Prasek Premium PR-85) for 30 days with an external resistance of 100 Ω, while the current density (CD) and the power density (PD) were calculated using the method of Segundo et al (2022), where the A (area) of the cathode had an approximate value of 78.54 cm 2 and external resistances (R ext .) of 0.3 ± 0.1, 0.6 ± 0.18, 1 ± 0.3, 1.5 ± 0.31, 3 ± 0.6, 10 ± 1.3, 20 ± 6.5, 50 ± 8.7, 60 ± 8.2, 100 ± 9.3, 120 ± 9.8, 220 ± 13, 240 ± 15.6, 330 ± 20.3, 390 ± 24.5, 460 ± 23.1, 531 ± 26.8, 700 ± 40.5, and 1000 ± 50.6 Ω [25]. The changes in conductivity (CD-4301 conductivity meter) and pH (Oakton Series 110 pH-meter) were also measured.…”
Section: Characterization Of Microbial Fuel Cellsmentioning
confidence: 96%
“…Daily current and voltage monitoring was performed using a Prasek Premium PR-85 multimeter and an external resistor of 100 Ω. On the other hand, current density (CD) and power density (PD) values were obtained using external resistors 10 ± 0.2, 40 ± 2.3, 50 ± 2.7, 100 ± 3.2, 300 ± 6.2, 390 ± 7.2, 560 ± 10, 680 ± 12.3, 820 ± 14.5, 1000 ± 20.5 Ω; by the formula CD = I/A and PD = IV/A (Segundo et al, 2022), where I is the current with different external resistors, V is the voltage of open-circuit cells, and A is the area (144 ± 5.2 cm 2 ). Conductivity (conductivity meter CD-4301) and pH (pH meter 110 Series Oakton) changes were also measured, and the resistance values of MFCs were measured using an energy sensor (Vernier ± 30V and ± 1000 mA).…”
Section: Characterization Of Microbial Fuel Cellsmentioning
confidence: 99%
“…Various wastewaters from food industry are used in MFCs research, depending on availability (depending on the world region, type of crops or on the type/advancement of the food industry). For research are used the wastewater from production from fruits and vegetables processing, e.g., brewery wastewater [64,65], waste of papaya [56], banana [66], golden berry [67], blueberry [68], onion [69], as well as yeast wastewater [57][58].…”
Section: Introductionmentioning
confidence: 99%