Research Article
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Year 2023, Volume: 6 Issue: 2, 142 - 150, 30.06.2023
https://doi.org/10.35208/ert.1286121

Abstract

References

  • R. A. Stein, J. E. Anderson, and T. J. Wallington, “An overview of the effects of ethanol-gasoline blends on SI engine performance, fuel efficiency, and emissions,” SAE International Journal of Engines, Vol. 6(1), pp. 470–487, 2013. [CrossRef]
  • J. Thamilarasan, V. Ravikumar, P. R. Yadav, J. Yarlagadda, A. Kumar, S. Ramasubramanian, P. Sambandam, C. P. Rudesh, and Y. Asres, “Sustainability improvement of ethanol blended gasoline fuelled spark ignition engine by nanoparticles,” Journal of Nanomaterials, Vol. 2022, Article 7793947, 2022. [CrossRef]
  • S. Venkata Mohan, P. Chiranjeevi, S. Dahiya, and A. Naresh Kumar, “Waste derived bioeconomy in India: A perspective,” New Biotechnology, Vol. 40, pp. 60–69, 2018. [CrossRef]
  • G. Venkatesh, “Circular Bio-economy—Paradigm for the Future: Systematic Review of Scientific Journal Publications from 2015 to 2021,” Circular Economy and Sustainability, Vol. 2(1), pp. 231–279, 2022. [CrossRef]
  • M. Ranjbari, Z. S. Esfandabadi, A. Ferraris, F. Quatraro, M. Rehan, A.-S. Nizami, V. K. Gupta, S. S. Lam, M. Aghbashlo, M. Tabatabaei, “Biofuel supply chain management in the circular economy transition: An inclusive knowledge map of the field,” Chemosphere, Vol. 296, Article 133968, 2022. [CrossRef]
  • M. Jayakumar, G. Tokuma Gindaba, K. B. Gebeyehu, S. Periyasamy, A. Jabesa, G. Baskar, B. I. John, A. Pugazhendhi, “Bioethanol production from agricultural residues as lignocellulosic biomass feedstock’s waste valorization approach: A comprehensive review,” Science of The Total Environment, Vol. 879, Article 163158, 2023. [CrossRef]
  • H. Bashir, I. Bibi, A. Jafar, N. Khan Niazi, F. Rasheed, N. Ghafoor, A. Saleem, M. M. Hussain, and Z.-U.-R. Farooqi, “Role of Biofuels in Building Circular Bioeconomy BT - Biofuels in Circular Economy,” S. A. Bandh and F. A. Malla, Eds. Singapore: Springer Nature Singapore, pp. 59–71, 2022. [CrossRef]
  • I. Gravalos, “Performance and emission characteristics of spark ignition engine fuelled with ethanol and methanol gasoline blended fuels,” D. Moshou, Ed. Rijeka: IntechOpen, Chapter 7, 2011. [CrossRef]
  • G. M. K. Jesus, D. Jugend, L. A. B. Paes, R. M. Siqueira, and M. A. Leandrin, “Barriers to the adoption of the circular economy in the Brazilian sugarcane ethanol sector,” Clean Technologies and Environmental Policy, Vol. 25, pp. 381395, 2021. [CrossRef]
  • B. Doğan, D. Erol, H. Yaman, and E. Kodanli, “The effect of ethanol-gasoline blends on performance and exhaust emissions of a spark ignition engine through exergy analysis,” Applied Thermal Engineering, Vol. 120, pp. 433–443, 2017. [CrossRef]
  • J. E. Tibaquirá, J. I. Huertas, S. Ospina, L. F. Quirama, and J. E. Niño, “The effect of using ethanol-gasoline blends on the mechanical, energy and environmental performance of in-use Vehicles,” Energies, vol. 11(1), pp. 1–17, 2018. [CrossRef]
  • H. Köten, Y. Karagöz, and Ö. Balcı, “Effect of different levels of ethanol addition on performance, emission, and combustion characteristics of a gasoline engine,” Advances in Mechanical Engineering, Vol. 12(7), pp. 1–13, 2020, [CrossRef]
  • A. S. Ramadhas, P. K. Singh, P. Sakthivel, R. Mathai, and A. K. Sehgal, “Effect of ethanol-gasoline blends on combustion and emissions of a passenger car engine at part load operations,” SAE Technical Paper, Vol. 2016, Article 0152. [CrossRef]
  • P. Sambandam, P. Murugesan, M. I. Shajahan, B. Sethuraman, and H. M. Abdelmoneam Hussein, “Sustainability and environmental impact of hydroxy addition on a light-duty generator powered with an ethanol–gasoline blend,” Journal of Renewable Energy and Environment, Vol. 9(2), pp. 82–92, 2022.
  • P. Bielaczyc, J. Woodburn, D. Klimkiewicz, P. Pajdowski, and A. Szczotka, “An examination of the effect of ethanol–gasoline blends’ physicochemical properties on emissions from a light-duty spark ignition engine,” Fuel Processing Technology, Vol. 107, pp. 50–63, 2013. [CrossRef]
  • M. Koç, Y. Sekmen, T. Topgül, and H. S. Yücesu, “The effects of ethanol–unleaded gasoline blends on engine performance and exhaust emissions in a spark-ignition engine,” Renewable Energy, Vol. 34(10), pp. 2101–2106, 2009. [CrossRef]
  • M. K. Mohammed, H. H. Balla, Z. M. H. Al-Dulaimi, Z. S. Kareem, and M. S. Al-Zuhairy, “Effect of ethanol-gasoline blends on SI engine performance and emissions,” Case Studies in Thermal Engineering, Vol. 25, Article 100891, 2021. [CrossRef]
  • S. Padmanabhan, K. Giridharan, B. Stalin, S. Kumaran, V. Kavimani, N. Nagaprasad, L. T. Jule, and R. Krishnaraj, “Energy recovery of waste plastics into diesel fuel with ethanol and ethoxy ethyl acetate additives on circular economy strategy,” Scientific Reports, Vol. 12(1), Article 5330, 2022. [CrossRef]
  • S. Padmanabhan, K. Giridharan, B. Stalin, V. Elango, J. Vairamuthu, P. Sureshkumar, L. T. Jule, and R. Krishnaraj. “Sustainability and environmental impact of ethanol and oxyhydrogen addition on nanocoated gasoline engine,” Bioinorganic Chemistry and Applications, Article 1936415, 2022. [CrossRef]
  • P. Sambandam, P. Murugesan, M. I. Shajahan, B. Sethuraman, and H. A. Hussein, “Sustainability and environmental impact of hydroxy addition on a light-duty generator powered with an ethanol gasoline blendJournal of Renewable Energy and Environment, Vol. 9(2), pp. 82–92, 2022.
  • T. Mizik, “Economic aspects and sustainability of ethanol production—a systematic literature review,” Energies, Vol. 14(19), Article 6137, 2021. [CrossRef]
  • T. S. Kumar, and B. Ashok, “Critical review on combustion phenomena of low carbon alcohols in SI engine with its challenges and future directions,” Renewable and Sustainable Energy Reviews, Vol. 152, Article 111702, 2021. [CrossRef]
  • D. Y. Dhande, C. S. Choudhari, D. P. Gaikwad, N. Sinaga, and K. B. Dahe, “Prediction of spark ignition engine performance with bioethanol-gasoline mixes using a multilayer perception model,” Petroleum Science and Technology, Vol. 40(12), pp. 1437–1461, 2022. [CrossRef]
  • M. Xu, M. Yang, H. Sun, M. Gao, Q. Wang, and C. Wu, “Bioconversion of biowaste into renewable energy and resources: A sustainable strategy,” Environmental Research, Vol. 214, Article 113929, 2022. [CrossRef]
  • H. Y. Leong, C.-K. Chang, K. S. Khoo, K. W. Chew, S. R. Chia, J. W. Lim, J.-S. Chang, and P. L. Show, “Waste biorefinery towards a sustainable circular bioeconomy: a solution to global issues,” Biotechnology for Biofuels and Bioproducts, Vol. 14(1), Article 87, 2021. [CrossRef]
  • O. M. Butt, M. S. Ahmad, H. S. Che, and N. A. Rahim, “Usage of on-demand oxyhydrogen gas as clean/renewable fuel for combustion applications: a review,” International Journal of Green Energy, Vol. 18(13), pp. 1405–1429, 2021. [CrossRef]

Improved portable generator performance with bio-ethanol fuel and its impact on bio-sustainability

Year 2023, Volume: 6 Issue: 2, 142 - 150, 30.06.2023
https://doi.org/10.35208/ert.1286121

Abstract

Clean air, renewable energy, climate change, safe environments, and the opportunity to live in a healthy community are just a few of the many issues that fall under the umbrella of environmental sustainability. The creation of bioenergy and biomaterials has the potential to retain the energy-environment relationship while simultaneously fostering cleaner, lower-carbon settings. Scientists are investigating renewable energy sources like ethanol to enhance sustainability and the planet›s health. Fuel ethanol is a feasible alternative to gasoline since it has a lower carbon footprint and a higher energy density. This research summarizes ethanol›s potential as a bio-sustainable fuel option for portable generators in India. Bio-ethanol testing was done on a portable generator with an ethanol-gasoline blend, and the findings are presented in this study. Compared to using standard gasoline, the results show 9% to 25% increased thermal efficiency and 6% to 28% decreased fuel usage. The results showed a decrease of 6%–23% in carbon monoxide and 3%–11% in unburned hydrocarbon emissions.

References

  • R. A. Stein, J. E. Anderson, and T. J. Wallington, “An overview of the effects of ethanol-gasoline blends on SI engine performance, fuel efficiency, and emissions,” SAE International Journal of Engines, Vol. 6(1), pp. 470–487, 2013. [CrossRef]
  • J. Thamilarasan, V. Ravikumar, P. R. Yadav, J. Yarlagadda, A. Kumar, S. Ramasubramanian, P. Sambandam, C. P. Rudesh, and Y. Asres, “Sustainability improvement of ethanol blended gasoline fuelled spark ignition engine by nanoparticles,” Journal of Nanomaterials, Vol. 2022, Article 7793947, 2022. [CrossRef]
  • S. Venkata Mohan, P. Chiranjeevi, S. Dahiya, and A. Naresh Kumar, “Waste derived bioeconomy in India: A perspective,” New Biotechnology, Vol. 40, pp. 60–69, 2018. [CrossRef]
  • G. Venkatesh, “Circular Bio-economy—Paradigm for the Future: Systematic Review of Scientific Journal Publications from 2015 to 2021,” Circular Economy and Sustainability, Vol. 2(1), pp. 231–279, 2022. [CrossRef]
  • M. Ranjbari, Z. S. Esfandabadi, A. Ferraris, F. Quatraro, M. Rehan, A.-S. Nizami, V. K. Gupta, S. S. Lam, M. Aghbashlo, M. Tabatabaei, “Biofuel supply chain management in the circular economy transition: An inclusive knowledge map of the field,” Chemosphere, Vol. 296, Article 133968, 2022. [CrossRef]
  • M. Jayakumar, G. Tokuma Gindaba, K. B. Gebeyehu, S. Periyasamy, A. Jabesa, G. Baskar, B. I. John, A. Pugazhendhi, “Bioethanol production from agricultural residues as lignocellulosic biomass feedstock’s waste valorization approach: A comprehensive review,” Science of The Total Environment, Vol. 879, Article 163158, 2023. [CrossRef]
  • H. Bashir, I. Bibi, A. Jafar, N. Khan Niazi, F. Rasheed, N. Ghafoor, A. Saleem, M. M. Hussain, and Z.-U.-R. Farooqi, “Role of Biofuels in Building Circular Bioeconomy BT - Biofuels in Circular Economy,” S. A. Bandh and F. A. Malla, Eds. Singapore: Springer Nature Singapore, pp. 59–71, 2022. [CrossRef]
  • I. Gravalos, “Performance and emission characteristics of spark ignition engine fuelled with ethanol and methanol gasoline blended fuels,” D. Moshou, Ed. Rijeka: IntechOpen, Chapter 7, 2011. [CrossRef]
  • G. M. K. Jesus, D. Jugend, L. A. B. Paes, R. M. Siqueira, and M. A. Leandrin, “Barriers to the adoption of the circular economy in the Brazilian sugarcane ethanol sector,” Clean Technologies and Environmental Policy, Vol. 25, pp. 381395, 2021. [CrossRef]
  • B. Doğan, D. Erol, H. Yaman, and E. Kodanli, “The effect of ethanol-gasoline blends on performance and exhaust emissions of a spark ignition engine through exergy analysis,” Applied Thermal Engineering, Vol. 120, pp. 433–443, 2017. [CrossRef]
  • J. E. Tibaquirá, J. I. Huertas, S. Ospina, L. F. Quirama, and J. E. Niño, “The effect of using ethanol-gasoline blends on the mechanical, energy and environmental performance of in-use Vehicles,” Energies, vol. 11(1), pp. 1–17, 2018. [CrossRef]
  • H. Köten, Y. Karagöz, and Ö. Balcı, “Effect of different levels of ethanol addition on performance, emission, and combustion characteristics of a gasoline engine,” Advances in Mechanical Engineering, Vol. 12(7), pp. 1–13, 2020, [CrossRef]
  • A. S. Ramadhas, P. K. Singh, P. Sakthivel, R. Mathai, and A. K. Sehgal, “Effect of ethanol-gasoline blends on combustion and emissions of a passenger car engine at part load operations,” SAE Technical Paper, Vol. 2016, Article 0152. [CrossRef]
  • P. Sambandam, P. Murugesan, M. I. Shajahan, B. Sethuraman, and H. M. Abdelmoneam Hussein, “Sustainability and environmental impact of hydroxy addition on a light-duty generator powered with an ethanol–gasoline blend,” Journal of Renewable Energy and Environment, Vol. 9(2), pp. 82–92, 2022.
  • P. Bielaczyc, J. Woodburn, D. Klimkiewicz, P. Pajdowski, and A. Szczotka, “An examination of the effect of ethanol–gasoline blends’ physicochemical properties on emissions from a light-duty spark ignition engine,” Fuel Processing Technology, Vol. 107, pp. 50–63, 2013. [CrossRef]
  • M. Koç, Y. Sekmen, T. Topgül, and H. S. Yücesu, “The effects of ethanol–unleaded gasoline blends on engine performance and exhaust emissions in a spark-ignition engine,” Renewable Energy, Vol. 34(10), pp. 2101–2106, 2009. [CrossRef]
  • M. K. Mohammed, H. H. Balla, Z. M. H. Al-Dulaimi, Z. S. Kareem, and M. S. Al-Zuhairy, “Effect of ethanol-gasoline blends on SI engine performance and emissions,” Case Studies in Thermal Engineering, Vol. 25, Article 100891, 2021. [CrossRef]
  • S. Padmanabhan, K. Giridharan, B. Stalin, S. Kumaran, V. Kavimani, N. Nagaprasad, L. T. Jule, and R. Krishnaraj, “Energy recovery of waste plastics into diesel fuel with ethanol and ethoxy ethyl acetate additives on circular economy strategy,” Scientific Reports, Vol. 12(1), Article 5330, 2022. [CrossRef]
  • S. Padmanabhan, K. Giridharan, B. Stalin, V. Elango, J. Vairamuthu, P. Sureshkumar, L. T. Jule, and R. Krishnaraj. “Sustainability and environmental impact of ethanol and oxyhydrogen addition on nanocoated gasoline engine,” Bioinorganic Chemistry and Applications, Article 1936415, 2022. [CrossRef]
  • P. Sambandam, P. Murugesan, M. I. Shajahan, B. Sethuraman, and H. A. Hussein, “Sustainability and environmental impact of hydroxy addition on a light-duty generator powered with an ethanol gasoline blendJournal of Renewable Energy and Environment, Vol. 9(2), pp. 82–92, 2022.
  • T. Mizik, “Economic aspects and sustainability of ethanol production—a systematic literature review,” Energies, Vol. 14(19), Article 6137, 2021. [CrossRef]
  • T. S. Kumar, and B. Ashok, “Critical review on combustion phenomena of low carbon alcohols in SI engine with its challenges and future directions,” Renewable and Sustainable Energy Reviews, Vol. 152, Article 111702, 2021. [CrossRef]
  • D. Y. Dhande, C. S. Choudhari, D. P. Gaikwad, N. Sinaga, and K. B. Dahe, “Prediction of spark ignition engine performance with bioethanol-gasoline mixes using a multilayer perception model,” Petroleum Science and Technology, Vol. 40(12), pp. 1437–1461, 2022. [CrossRef]
  • M. Xu, M. Yang, H. Sun, M. Gao, Q. Wang, and C. Wu, “Bioconversion of biowaste into renewable energy and resources: A sustainable strategy,” Environmental Research, Vol. 214, Article 113929, 2022. [CrossRef]
  • H. Y. Leong, C.-K. Chang, K. S. Khoo, K. W. Chew, S. R. Chia, J. W. Lim, J.-S. Chang, and P. L. Show, “Waste biorefinery towards a sustainable circular bioeconomy: a solution to global issues,” Biotechnology for Biofuels and Bioproducts, Vol. 14(1), Article 87, 2021. [CrossRef]
  • O. M. Butt, M. S. Ahmad, H. S. Che, and N. A. Rahim, “Usage of on-demand oxyhydrogen gas as clean/renewable fuel for combustion applications: a review,” International Journal of Green Energy, Vol. 18(13), pp. 1405–1429, 2021. [CrossRef]
There are 26 citations in total.

Details

Primary Language English
Subjects Environmentally Sustainable Engineering, Energy Systems Engineering (Other)
Journal Section Research Articles
Authors

Katuri Ramya Sri 0009-0004-9969-4555

Padmanabhan Sambandam 0000-0003-4813-975X

Balaji Boopathi 0000-0001-8544-1291

Deepak James Raj 0000-0001-8323-0773

Ekhlas Edan Kader 0000-0001-5995-6910

Publication Date June 30, 2023
Submission Date April 20, 2023
Acceptance Date June 10, 2023
Published in Issue Year 2023 Volume: 6 Issue: 2

Cite

APA Ramya Sri, K., Sambandam, P., Boopathi, B., James Raj, D., et al. (2023). Improved portable generator performance with bio-ethanol fuel and its impact on bio-sustainability. Environmental Research and Technology, 6(2), 142-150. https://doi.org/10.35208/ert.1286121
AMA Ramya Sri K, Sambandam P, Boopathi B, James Raj D, Kader EE. Improved portable generator performance with bio-ethanol fuel and its impact on bio-sustainability. ERT. June 2023;6(2):142-150. doi:10.35208/ert.1286121
Chicago Ramya Sri, Katuri, Padmanabhan Sambandam, Balaji Boopathi, Deepak James Raj, and Ekhlas Edan Kader. “Improved Portable Generator Performance With Bio-Ethanol Fuel and Its Impact on Bio-Sustainability”. Environmental Research and Technology 6, no. 2 (June 2023): 142-50. https://doi.org/10.35208/ert.1286121.
EndNote Ramya Sri K, Sambandam P, Boopathi B, James Raj D, Kader EE (June 1, 2023) Improved portable generator performance with bio-ethanol fuel and its impact on bio-sustainability. Environmental Research and Technology 6 2 142–150.
IEEE K. Ramya Sri, P. Sambandam, B. Boopathi, D. James Raj, and E. E. Kader, “Improved portable generator performance with bio-ethanol fuel and its impact on bio-sustainability”, ERT, vol. 6, no. 2, pp. 142–150, 2023, doi: 10.35208/ert.1286121.
ISNAD Ramya Sri, Katuri et al. “Improved Portable Generator Performance With Bio-Ethanol Fuel and Its Impact on Bio-Sustainability”. Environmental Research and Technology 6/2 (June 2023), 142-150. https://doi.org/10.35208/ert.1286121.
JAMA Ramya Sri K, Sambandam P, Boopathi B, James Raj D, Kader EE. Improved portable generator performance with bio-ethanol fuel and its impact on bio-sustainability. ERT. 2023;6:142–150.
MLA Ramya Sri, Katuri et al. “Improved Portable Generator Performance With Bio-Ethanol Fuel and Its Impact on Bio-Sustainability”. Environmental Research and Technology, vol. 6, no. 2, 2023, pp. 142-50, doi:10.35208/ert.1286121.
Vancouver Ramya Sri K, Sambandam P, Boopathi B, James Raj D, Kader EE. Improved portable generator performance with bio-ethanol fuel and its impact on bio-sustainability. ERT. 2023;6(2):142-50.