New Fuel Source: Lemon Waste in MFCs-SC for the Generation of Bioelectricity

Santiago M. Benites; Rojas Flores Segundo; Nazario Naveda Renny; Nélida Milly Otiniano; Daniel Delfín-Narciso; Cecilia V. Romero

doi:10.1007/978-3-031-59005-4_16

New Fuel Source: Lemon Waste in MFCs-SC for the Generation of Bioelectricity

Santiago M. Benites, Rojas Flores Segundo, Nazario Naveda Renny, Nélida Milly Otiniano, Daniel Delfín-Narciso, Cecilia V. Romero

General Studies

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

Waste originating from the agricultural industry has become a major global problem due to its exponential growth and the lack of adequate policies for its collection. Due to this, this research provides a novel solution for using lemon waste from the agro-industrial industry as fuel in single-chamber microbial fuel cells. The cells used showed maximum values of electric current and voltage 10.126 ± 0.093 mA and 0.816 ± 0.017 V, respectively; these values were obtained when the cells operated at pH 3 ± 0.12 and with an electrical conductivity of the substrate of 100.362 ± 7.810 mS. / cm, all this on the eighth day. Microbial fuel cells showed an internal resistance of 86.936 ± 14.505 Ω and a maximum power density of 384.365 ± 43.142 mW/cm2 for a current density of 5.266 A/cm2. Finally, the schematization of the light generation process through the cells was carried out, for which all the cells were placed in series, managing to generate 2.90 V, enough to make an LED (red) work.

Original language	English
Title of host publication	Green Energy and Technology
Pages	137-145
Number of pages	9
DOIs	https://doi.org/10.1007/978-3-031-59005-4_16
State	Published - 2024

Publication series

Name	Green Energy and Technology
Volume	2024
ISSN (Print)	1865-3529
ISSN (Electronic)	1865-3537

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1007/978-3-031-59005-4_16

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title = "New Fuel Source: Lemon Waste in MFCs-SC for the Generation of Bioelectricity",

abstract = "Waste originating from the agricultural industry has become a major global problem due to its exponential growth and the lack of adequate policies for its collection. Due to this, this research provides a novel solution for using lemon waste from the agro-industrial industry as fuel in single-chamber microbial fuel cells. The cells used showed maximum values of electric current and voltage 10.126 ± 0.093 mA and 0.816 ± 0.017 V, respectively; these values were obtained when the cells operated at pH 3 ± 0.12 and with an electrical conductivity of the substrate of 100.362 ± 7.810 mS. / cm, all this on the eighth day. Microbial fuel cells showed an internal resistance of 86.936 ± 14.505 Ω and a maximum power density of 384.365 ± 43.142 mW/cm2 for a current density of 5.266 A/cm2. Finally, the schematization of the light generation process through the cells was carried out, for which all the cells were placed in series, managing to generate 2.90 V, enough to make an LED (red) work.",

author = "Benites, {Santiago M.} and Segundo, {Rojas Flores} and Renny, {Nazario Naveda} and Otiniano, {N{\'e}lida Milly} and Daniel Delf{\'i}n-Narciso and Romero, {Cecilia V.}",

note = "Publisher Copyright: {\textcopyright} The Author(s).",

year = "2024",

doi = "10.1007/978-3-031-59005-4_16",

language = "English",

series = "Green Energy and Technology",

pages = "137--145",

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TY - CHAP

T1 - New Fuel Source

T2 - Lemon Waste in MFCs-SC for the Generation of Bioelectricity

AU - Benites, Santiago M.

AU - Segundo, Rojas Flores

AU - Renny, Nazario Naveda

AU - Otiniano, Nélida Milly

AU - Delfín-Narciso, Daniel

AU - Romero, Cecilia V.

PY - 2024

Y1 - 2024

N2 - Waste originating from the agricultural industry has become a major global problem due to its exponential growth and the lack of adequate policies for its collection. Due to this, this research provides a novel solution for using lemon waste from the agro-industrial industry as fuel in single-chamber microbial fuel cells. The cells used showed maximum values of electric current and voltage 10.126 ± 0.093 mA and 0.816 ± 0.017 V, respectively; these values were obtained when the cells operated at pH 3 ± 0.12 and with an electrical conductivity of the substrate of 100.362 ± 7.810 mS. / cm, all this on the eighth day. Microbial fuel cells showed an internal resistance of 86.936 ± 14.505 Ω and a maximum power density of 384.365 ± 43.142 mW/cm2 for a current density of 5.266 A/cm2. Finally, the schematization of the light generation process through the cells was carried out, for which all the cells were placed in series, managing to generate 2.90 V, enough to make an LED (red) work.

AB - Waste originating from the agricultural industry has become a major global problem due to its exponential growth and the lack of adequate policies for its collection. Due to this, this research provides a novel solution for using lemon waste from the agro-industrial industry as fuel in single-chamber microbial fuel cells. The cells used showed maximum values of electric current and voltage 10.126 ± 0.093 mA and 0.816 ± 0.017 V, respectively; these values were obtained when the cells operated at pH 3 ± 0.12 and with an electrical conductivity of the substrate of 100.362 ± 7.810 mS. / cm, all this on the eighth day. Microbial fuel cells showed an internal resistance of 86.936 ± 14.505 Ω and a maximum power density of 384.365 ± 43.142 mW/cm2 for a current density of 5.266 A/cm2. Finally, the schematization of the light generation process through the cells was carried out, for which all the cells were placed in series, managing to generate 2.90 V, enough to make an LED (red) work.

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U2 - 10.1007/978-3-031-59005-4_16

DO - 10.1007/978-3-031-59005-4_16

M3 - Chapter

AN - SCOPUS:85207169775

T3 - Green Energy and Technology

SP - 137

EP - 145

BT - Green Energy and Technology

ER -

New Fuel Source: Lemon Waste in MFCs-SC for the Generation of Bioelectricity

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