Eco-friendly Generation of Electricity Using the Bacteria Proteus Vulgaris as a Catalyst

Santiago M. Benites; Rojas Flores Segundo; De La Cruz Noriega Magaly; Nazario Naveda Renny; Nélida Milly Otiniano; Daniel Delfín-Narciso

doi:10.1007/978-3-031-59005-4_17

Eco-friendly Generation of Electricity Using the Bacteria Proteus Vulgaris as a Catalyst

Santiago M. Benites
, Rojas Flores Segundo
, De La Cruz Noriega Magaly
, Nazario Naveda Renny
, Nélida Milly Otiniano
, Daniel Delfín-Narciso

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

Resumen

The increase in the human population has generated the search for new ways to generate sustainable electrical energy in various ways, among which microbial fuel cell technology has been investigated. In this research, the main objective was to generate electrical energy using Proteus vulgaris bacteria as a biocatalyst in a physiologically sterile saline solution. This bacterium was molecularly identified and obtained from tomato waste. It has been possible to generate current and voltage peaks of 0.368 ± 0.0556 mA and 0.9545 ± 0.0399 V, respectively, with an optimum operating pH of approximately 5.884 ± 0.07 on the eleventh day, while the power density found was 85.76 mW/m2 at a current density of 215.53 mA/m2 with an internal resistance of 51.113 ± 4.375 Ω. The micrographs show the presence of biofilms formed on the anode electrode, which appear rough and porous. Finally, the three monitored microbial fuel cells were connected in series, turning on a red LED light. This research helps to publicize the potential of this bacterium as a fuel source to generate bioelectricity without polluting the environment.

Idioma original	Inglés
Páginas (desde-hasta)	147-158
Número de páginas	12
Publicación	Green Energy and Technology
Volumen	2024
DOI	https://doi.org/10.1007/978-3-031-59005-4_17
Estado	Publicada - 1 ene. 2024

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title = "Eco-friendly Generation of Electricity Using the Bacteria Proteus Vulgaris as a Catalyst",

abstract = "The increase in the human population has generated the search for new ways to generate sustainable electrical energy in various ways, among which microbial fuel cell technology has been investigated. In this research, the main objective was to generate electrical energy using Proteus vulgaris bacteria as a biocatalyst in a physiologically sterile saline solution. This bacterium was molecularly identified and obtained from tomato waste. It has been possible to generate current and voltage peaks of 0.368 ± 0.0556 mA and 0.9545 ± 0.0399 V, respectively, with an optimum operating pH of approximately 5.884 ± 0.07 on the eleventh day, while the power density found was 85.76 mW/m2 at a current density of 215.53 mA/m2 with an internal resistance of 51.113 ± 4.375 Ω. The micrographs show the presence of biofilms formed on the anode electrode, which appear rough and porous. Finally, the three monitored microbial fuel cells were connected in series, turning on a red LED light. This research helps to publicize the potential of this bacterium as a fuel source to generate bioelectricity without polluting the environment.",

author = "Benites, \{Santiago M.\} and Segundo, \{Rojas Flores\} and Magaly, \{De La Cruz Noriega\} and Renny, \{Nazario Naveda\} and Otiniano, \{N{\'e}lida Milly\} and Daniel Delf{\'i}n-Narciso",

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

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doi = "10.1007/978-3-031-59005-4\_17",

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AU - Benites, Santiago M.

AU - Segundo, Rojas Flores

AU - Magaly, De La Cruz Noriega

AU - Renny, Nazario Naveda

AU - Otiniano, Nélida Milly

AU - Delfín-Narciso, Daniel

PY - 2024/1/1

Y1 - 2024/1/1

N2 - The increase in the human population has generated the search for new ways to generate sustainable electrical energy in various ways, among which microbial fuel cell technology has been investigated. In this research, the main objective was to generate electrical energy using Proteus vulgaris bacteria as a biocatalyst in a physiologically sterile saline solution. This bacterium was molecularly identified and obtained from tomato waste. It has been possible to generate current and voltage peaks of 0.368 ± 0.0556 mA and 0.9545 ± 0.0399 V, respectively, with an optimum operating pH of approximately 5.884 ± 0.07 on the eleventh day, while the power density found was 85.76 mW/m2 at a current density of 215.53 mA/m2 with an internal resistance of 51.113 ± 4.375 Ω. The micrographs show the presence of biofilms formed on the anode electrode, which appear rough and porous. Finally, the three monitored microbial fuel cells were connected in series, turning on a red LED light. This research helps to publicize the potential of this bacterium as a fuel source to generate bioelectricity without polluting the environment.

AB - The increase in the human population has generated the search for new ways to generate sustainable electrical energy in various ways, among which microbial fuel cell technology has been investigated. In this research, the main objective was to generate electrical energy using Proteus vulgaris bacteria as a biocatalyst in a physiologically sterile saline solution. This bacterium was molecularly identified and obtained from tomato waste. It has been possible to generate current and voltage peaks of 0.368 ± 0.0556 mA and 0.9545 ± 0.0399 V, respectively, with an optimum operating pH of approximately 5.884 ± 0.07 on the eleventh day, while the power density found was 85.76 mW/m2 at a current density of 215.53 mA/m2 with an internal resistance of 51.113 ± 4.375 Ω. The micrographs show the presence of biofilms formed on the anode electrode, which appear rough and porous. Finally, the three monitored microbial fuel cells were connected in series, turning on a red LED light. This research helps to publicize the potential of this bacterium as a fuel source to generate bioelectricity without polluting the environment.

UR - https://www.scopus.com/pages/publications/85207230427

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DO - 10.1007/978-3-031-59005-4_17

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AN - SCOPUS:85207230427

SN - 1865-3529

VL - 2024

SP - 147

EP - 158

JO - Green Energy and Technology

JF - Green Energy and Technology

ER -

Eco-friendly Generation of Electricity Using the Bacteria Proteus Vulgaris as a Catalyst

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