The Using Lime (Citrus × aurantiifolia), Orange (Citrus × sinensis), and Tangerine (Citrus reticulata) Waste as a Substrate for Generating Bioelectricity Using lime (Citrus × aurantiifolia), orange (Citrus × sinensis), and tangerine (Citrus reticulata) waste as a substrate for generating bioelectricity

Segundo J. Rojas Flores; De La Cruz-Noriega M.; Cabanillas-Chirinos L. Chirinos L.; Santiago M. Benites; Silva-Palacios F. Palacios F.; Altamirano-León Rosa Altamirano-León Rosa; Altamirano-León Zoilita Altamirano-León Zoilita; Angelats-Silva Luis Luis

首页> 外文期刊>Environmental Research, Engineering and Management >The Using Lime (Citrus × aurantiifolia), Orange (Citrus × sinensis), and Tangerine (Citrus reticulata) Waste as a Substrate for Generating Bioelectricity Using lime (Citrus × aurantiifolia), orange (Citrus × sinensis), and tangerine (Citrus reticulata) waste as a substrate for generating bioelectricity

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The Using Lime (Citrus × aurantiifolia), Orange (Citrus × sinensis), and Tangerine (Citrus reticulata) Waste as a Substrate for Generating Bioelectricity Using lime (Citrus × aurantiifolia), orange (Citrus × sinensis), and tangerine (Citrus reticulata) waste as a substrate for generating bioelectricity

机译：使用石灰（柑橘×sinensia），橙（柑橘×sinensis）和橘子（柑橘keticulata）废物作为使用石灰（柑橘×aurantifolia），橙色（柑橘×sinensis）和橘子（柑橘reticulata）产生生物电性的基材废物作为产生生物电性的基材

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This paper focuses on using lime, orange, and tangerine waste as fuel for the generation of bioelectricity. The tangerine microbial fuel cell evidenced a maximum voltage peak of 1.1 V on day 13, while displaying abrupt voltage losses on the following days and throughout the remaining period of substrate monitoring. On the other hand, orange-based fuel denotes lower current generation during these 28 days with values close to 1.6 mA and 0.25 mA on the first and last day, respectively. Still, orange generated 3.5 mA on the first day with values sharply declining in the following days until reaching 0.91 mA on the last day. In general, substrate volumes in the microbial fuel cells diminished over time, which is consistent with the voltage and current values reported. In addition, pH values increased from day 1 for all substrates, reaching acidic pH values on the last day of measurement due to the consumption of carbon sources. Tangerine reported the highest current density (CD) at 72 mW/cm2 and a maximum voltage of 1.06 volts, while orange generated a CD of 62.5 mW/cm2 and 0.94 volts.

机译：本文侧重于利用石灰，橙色和橘子作为生物电解的燃料。橘子微生物燃料电池在第13天执行1.1V的最大电压峰，同时在下面的几天内显示突然的电压损耗，并在整个衬底监测期间。另一方面，橙色的燃料在这28天内表示较低的电流发电，分别在第一天和最后一天接近1.6 mA和0.25 mA的值。然而，橙色在第一天生成3.5 mA，在下面的几天内急剧下降，直到最后一天达到0.91 mA。通常，微生物燃料电池中的衬底体积随时间的推移减弱，这与报告的电压和电流值一致。此外，pH值从所有基材的第1天增加，由于碳源的消耗，在测量的最后一天达到酸性pH值。橘子报告的最高电流密度（CD）为72mW / cm2，最大电压为1.06伏，而橙色产生62.5mW / cm2和0.94伏的CD。

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《Environmental Research, Engineering and Management》 |2020年第3期|共11页
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Segundo J. Rojas Flores; De La Cruz-Noriega M.; Cabanillas-Chirinos L. Chirinos L.; Santiago M. Benites; Silva-Palacios F. Palacios F.; Altamirano-León Rosa Altamirano-León Rosa; Altamirano-León Zoilita Altamirano-León Zoilita; Angelats-Silva Luis Luis;
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Microbial Fuel CellsVoltageCurrentAcidsOrganic Waste and Bioelectricity;

机译：微生物燃料电池耐药丙烯酰胺杂交和生物电性;

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