Assessment of Pollutant Emissions in an M2 Vehicle Fueled with Oxyhydrogen-Gasoline Blends Under Static Conditions

M. Estrella-Guayasamín; M. Gómez Berrezueta; J. Cáceres Moreira; M. Cofre Yanchaguano

doi:10.1007/978-3-031-88995-0_9

Assessment of Pollutant Emissions in an M2 Vehicle Fueled with Oxyhydrogen-Gasoline Blends Under Static Conditions

M. Estrella-Guayasamín
, M. Gómez Berrezueta
, J. Cáceres Moreira
, M. Cofre Yanchaguano

Grupo de Investigación en Movilidad Inteligente (GMOVINT)

Producción científica: Capítulo del libro/informe/acta de congreso › Contribución de conferencia › revisión exhaustiva

Resumen

Urban air pollution, primarily driven by industrial activities and vehicle traffic, is a pressing global concern. The automotive sector must urgently reduce CO₂ and CO emissions due to their significant impact on climate change and human health. In Latin America, the heavy reliance on fossil fuels exacerbates air quality degradation, highlighting the need for alternative fuel research. This study evaluates the impact of oxyhydrogen (HHO) gas-gasoline blends on the emissions of an M2 vehicle using static tests. A 2023 Cherry Practivan Karry 1.2L equipped with an HHO generator, featuring a wet cell with 316 stainless steel plates and a 1.5% KOH electrolyte, was used. Three HHO flow levels were tested and measured with an MF5712 mass flow meter, under idle (780 rpm) and 2500 rpm conditions. A Brain Bee AGS-680 gas analyzer assessed the emissions of CO, CO₂, and HC. The results demonstrated that blending HHO gas with 87-octane gasoline at a maximum flow of 1.7 slpm significantly reduced HC emissions, while CO₂ levels slightly increased. This research underscores the potential of HHO gas in reducing pollutants and the importance of ongoing optimization to balance emissions, contributing to global efforts in combating air pollution and climate change.

Idioma original	Inglés
Título de la publicación alojada	Congress on Research, Development and Innovation in Renewable Energies - Selected Papers from CIDiER 2024
Editores	Mayken Espinoza-Andaluz, Jordy Santana-Villamar, Brayan Ordóñez-Saca, Carlos Vallejo-Cervantes, Luis Rodríguez-Álava
Editorial	Springer Science and Business Media Deutschland GmbH
Páginas	111-120
Número de páginas	10
ISBN (versión impresa)	9783031889943
DOI	https://doi.org/10.1007/978-3-031-88995-0_9
Estado	Publicada - 2025
Evento	4th Congress on Research, Development, and Innovation in Renewable Energies, CIDiER 2024 - Guayaquil, Ecuador Duración: 23 sep. 2024 → 24 sep. 2024

Serie de la publicación

Nombre	Green Energy and Technology
ISSN (versión impresa)	1865-3529
ISSN (versión digital)	1865-3537

Conferencia

Conferencia	4th Congress on Research, Development, and Innovation in Renewable Energies, CIDiER 2024
País/Territorio	Ecuador
Ciudad	Guayaquil
Período	23/09/24 → 24/09/24

Nota bibliográfica

Publisher Copyright:
© The Author(s), under exclusive license to Springer Nature Switzerland AG 2025.

ODS de las Naciones Unidas

Este resultado contribuye a los siguientes Objetivos de Desarrollo Sostenible

ODS 3: Salud y bienestar
ODS 7: Energía asequible y no contaminante
ODS 11: Ciudades y comunidades sostenibles
ODS 13: Acción por el clima

Areas de Conocimiento del CACES

617A Diseño y construcción de vehículos, barcos y aeronaves motorizadas

Acceder al documento

10.1007/978-3-031-88995-0_9

Otros archivos y enlaces

Enlace a la publicación en Scopus

Generación de energía eólica aprovechando el flujo de aire del tráfico para impulsar la sostenibilidad y la autonomía energética
Fierro Jimenez, P. R. (Investigador Secundario), Ramirez Camba, R. F. (Investigador Secundario), Totoy Montero, P. H. (Investigador Secundario), Tapuy Benavides, D. P. (Investigador Secundario), Maldonado Ortega, J. L. (Investigador principal), Roche Intriago, C. W. (Investigador Secundario), Estrella Guayasamin, M. X. (Investigador Secundario), Camacho Vargas, J. L. (Investigador Secundario), Lopez Zambrano, F. A. (Estudiante Investigador), Vera Manzano, J. S. (Estudiante Investigador), Nieves Moreno, J. C. (Estudiante Investigador), Ruiz Diaz Espinoza, B. K. (Estudiante Investigador), Aviles Cervantes, L. A. (Investigador Secundario), Moyolema Lema, D. S. (Estudiante Investigador), Idrovo Urgiles, B. A. (Estudiante Investigador), Yambay Rodriguez, A. A. (Estudiante Investigador), Guaranga Cain, J. I. (Estudiante Investigador), Olivo Fernandez, E. R. (Estudiante Investigador) & Cevallos Cruz, R. A. (Estudiante Investigador)
1/03/25 → …
Proyecto: Investigación y Desarrollo

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Estrella-Guayasamín, M., Gómez Berrezueta, M., Cáceres Moreira, J., & Cofre Yanchaguano, M. (2025). Assessment of Pollutant Emissions in an M2 Vehicle Fueled with Oxyhydrogen-Gasoline Blends Under Static Conditions. En M. Espinoza-Andaluz, J. Santana-Villamar, B. Ordóñez-Saca, C. Vallejo-Cervantes, & L. Rodríguez-Álava (Eds.), Congress on Research, Development and Innovation in Renewable Energies - Selected Papers from CIDiER 2024 (pp. 111-120). (Green Energy and Technology). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/978-3-031-88995-0_9

Estrella-Guayasamín, M. ; Gómez Berrezueta, M. ; Cáceres Moreira, J. et al. / Assessment of Pollutant Emissions in an M2 Vehicle Fueled with Oxyhydrogen-Gasoline Blends Under Static Conditions. Congress on Research, Development and Innovation in Renewable Energies - Selected Papers from CIDiER 2024. editor / Mayken Espinoza-Andaluz ; Jordy Santana-Villamar ; Brayan Ordóñez-Saca ; Carlos Vallejo-Cervantes ; Luis Rodríguez-Álava. Springer Science and Business Media Deutschland GmbH, 2025. pp. 111-120 (Green Energy and Technology).

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title = "Assessment of Pollutant Emissions in an M2 Vehicle Fueled with Oxyhydrogen-Gasoline Blends Under Static Conditions",

abstract = "Urban air pollution, primarily driven by industrial activities and vehicle traffic, is a pressing global concern. The automotive sector must urgently reduce CO2 and CO emissions due to their significant impact on climate change and human health. In Latin America, the heavy reliance on fossil fuels exacerbates air quality degradation, highlighting the need for alternative fuel research. This study evaluates the impact of oxyhydrogen (HHO) gas-gasoline blends on the emissions of an M2 vehicle using static tests. A 2023 Cherry Practivan Karry 1.2L equipped with an HHO generator, featuring a wet cell with 316 stainless steel plates and a 1.5\% KOH electrolyte, was used. Three HHO flow levels were tested and measured with an MF5712 mass flow meter, under idle (780 rpm) and 2500 rpm conditions. A Brain Bee AGS-680 gas analyzer assessed the emissions of CO, CO2, and HC. The results demonstrated that blending HHO gas with 87-octane gasoline at a maximum flow of 1.7 slpm significantly reduced HC emissions, while CO2 levels slightly increased. This research underscores the potential of HHO gas in reducing pollutants and the importance of ongoing optimization to balance emissions, contributing to global efforts in combating air pollution and climate change.",

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Estrella-Guayasamín, M, Gómez Berrezueta, M, Cáceres Moreira, J & Cofre Yanchaguano, M 2025, Assessment of Pollutant Emissions in an M2 Vehicle Fueled with Oxyhydrogen-Gasoline Blends Under Static Conditions. En M Espinoza-Andaluz, J Santana-Villamar, B Ordóñez-Saca, C Vallejo-Cervantes & L Rodríguez-Álava (eds.), Congress on Research, Development and Innovation in Renewable Energies - Selected Papers from CIDiER 2024. Green Energy and Technology, Springer Science and Business Media Deutschland GmbH, pp. 111-120, 4th Congress on Research, Development, and Innovation in Renewable Energies, CIDiER 2024, Guayaquil, Ecuador, 23/09/24. https://doi.org/10.1007/978-3-031-88995-0_9

Assessment of Pollutant Emissions in an M2 Vehicle Fueled with Oxyhydrogen-Gasoline Blends Under Static Conditions. / Estrella-Guayasamín, M.; Gómez Berrezueta, M.; Cáceres Moreira, J. et al.
Congress on Research, Development and Innovation in Renewable Energies - Selected Papers from CIDiER 2024. ed. / Mayken Espinoza-Andaluz; Jordy Santana-Villamar; Brayan Ordóñez-Saca; Carlos Vallejo-Cervantes; Luis Rodríguez-Álava. Springer Science and Business Media Deutschland GmbH, 2025. p. 111-120 (Green Energy and Technology).

Producción científica: Capítulo del libro/informe/acta de congreso › Contribución de conferencia › revisión exhaustiva

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AU - Estrella-Guayasamín, M.

AU - Gómez Berrezueta, M.

AU - Cáceres Moreira, J.

AU - Cofre Yanchaguano, M.

N1 - Publisher Copyright: © The Author(s), under exclusive license to Springer Nature Switzerland AG 2025.

PY - 2025

Y1 - 2025

N2 - Urban air pollution, primarily driven by industrial activities and vehicle traffic, is a pressing global concern. The automotive sector must urgently reduce CO2 and CO emissions due to their significant impact on climate change and human health. In Latin America, the heavy reliance on fossil fuels exacerbates air quality degradation, highlighting the need for alternative fuel research. This study evaluates the impact of oxyhydrogen (HHO) gas-gasoline blends on the emissions of an M2 vehicle using static tests. A 2023 Cherry Practivan Karry 1.2L equipped with an HHO generator, featuring a wet cell with 316 stainless steel plates and a 1.5% KOH electrolyte, was used. Three HHO flow levels were tested and measured with an MF5712 mass flow meter, under idle (780 rpm) and 2500 rpm conditions. A Brain Bee AGS-680 gas analyzer assessed the emissions of CO, CO2, and HC. The results demonstrated that blending HHO gas with 87-octane gasoline at a maximum flow of 1.7 slpm significantly reduced HC emissions, while CO2 levels slightly increased. This research underscores the potential of HHO gas in reducing pollutants and the importance of ongoing optimization to balance emissions, contributing to global efforts in combating air pollution and climate change.

AB - Urban air pollution, primarily driven by industrial activities and vehicle traffic, is a pressing global concern. The automotive sector must urgently reduce CO2 and CO emissions due to their significant impact on climate change and human health. In Latin America, the heavy reliance on fossil fuels exacerbates air quality degradation, highlighting the need for alternative fuel research. This study evaluates the impact of oxyhydrogen (HHO) gas-gasoline blends on the emissions of an M2 vehicle using static tests. A 2023 Cherry Practivan Karry 1.2L equipped with an HHO generator, featuring a wet cell with 316 stainless steel plates and a 1.5% KOH electrolyte, was used. Three HHO flow levels were tested and measured with an MF5712 mass flow meter, under idle (780 rpm) and 2500 rpm conditions. A Brain Bee AGS-680 gas analyzer assessed the emissions of CO, CO2, and HC. The results demonstrated that blending HHO gas with 87-octane gasoline at a maximum flow of 1.7 slpm significantly reduced HC emissions, while CO2 levels slightly increased. This research underscores the potential of HHO gas in reducing pollutants and the importance of ongoing optimization to balance emissions, contributing to global efforts in combating air pollution and climate change.

KW - Oxyhydrogen-gasoline blends

KW - Pollutant emissions

KW - Wet-cell HHO

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T3 - Green Energy and Technology

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BT - Congress on Research, Development and Innovation in Renewable Energies - Selected Papers from CIDiER 2024

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Estrella-Guayasamín M, Gómez Berrezueta M, Cáceres Moreira J, Cofre Yanchaguano M. Assessment of Pollutant Emissions in an M2 Vehicle Fueled with Oxyhydrogen-Gasoline Blends Under Static Conditions. En Espinoza-Andaluz M, Santana-Villamar J, Ordóñez-Saca B, Vallejo-Cervantes C, Rodríguez-Álava L, editores, Congress on Research, Development and Innovation in Renewable Energies - Selected Papers from CIDiER 2024. Springer Science and Business Media Deutschland GmbH. 2025. p. 111-120. (Green Energy and Technology). doi: 10.1007/978-3-031-88995-0_9

Assessment of Pollutant Emissions in an M2 Vehicle Fueled with Oxyhydrogen-Gasoline Blends Under Static Conditions

Resumen

Serie de la publicación

Conferencia

Nota bibliográfica

ODS de las Naciones Unidas

Areas de Conocimiento del CACES

Acceder al documento

Otros archivos y enlaces

Proyectos

Generación de energía eólica aprovechando el flujo de aire del tráfico para impulsar la sostenibilidad y la autonomía energética

Citar esto