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Performance and economic analysis of a direct injection spark ignition engine fueled with wet ethanol

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  • Lanzanova, Thompson Diórdinis Metzka
  • Dalla Nora, Macklini
  • Zhao, Hua

Abstract

The use of wet ethanol with higher water content than the conventionally used in internal combustion engines can reduce fuel production costs due to lower energy expense during the distillation phase. However, during its combustion the extra water content may result in the deterioration of fuel conversion efficiency and therefore a global energy evaluation should be considered. This research investigated the operation of a single cylinder direct injected spark ignition engine running with gasoline, anhydrous ethanol and several wet ethanol compositions (5–20% of water-in-ethanol volumetric content) under stoichiometric and lean air/fuel ratios. Two part load conditions of 3.1bar and 6.1bar indicated mean effective pressure were evaluated at 1500RPM. The impacts of increased water-in-ethanol content and lean operation on combustion and emissions were discussed. Higher water content affected the heat release rate, which increased the combustion duration and initial flame development phase. Lower nitrogen oxides emissions could be achieved with higher water-content ethanol at the expense of higher unburned hydrocarbon emission. An analysis of wet ethanol energy production costs and engine operation conditions was carried out. The lean engine operation with 10% (v/v) water-in-ethanol fuel showed global energy savings around 31% compared to anhydrous ethanol at stoichiometric conditions.

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  • Lanzanova, Thompson Diórdinis Metzka & Dalla Nora, Macklini & Zhao, Hua, 2016. "Performance and economic analysis of a direct injection spark ignition engine fueled with wet ethanol," Applied Energy, Elsevier, vol. 169(C), pages 230-239.
    • Handle: RePEc:eee:appene:v:169:y:2016:i:c:p:230-239
    DOI: 10.1016/j.apenergy.2016.02.016
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    5. Lanzanova, Thompson Diórdinis Metzka & Dalla Nora, Macklini & Martins, Mario Eduardo Santos & Machado, Paulo Romeu Moreira & Pedrozo, Vinícius Bernardes & Zhao, Hua, 2019. "The effects of residual gas trapping on part load performance and emissions of a spark ignition direct injection engine fuelled with wet ethanol," Applied Energy, Elsevier, vol. 253(C), pages 1-1.
    6. Awad, Omar I. & Mamat, R. & Ibrahim, Thamir K. & Hammid, Ali Thaeer & Yusri, I.M. & Hamidi, Mohd Adnin & Humada, Ali M. & Yusop, A.F., 2018. "Overview of the oxygenated fuels in spark ignition engine: Environmental and performance," Renewable and Sustainable Energy Reviews, Elsevier, vol. 91(C), pages 394-408.
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    10. Roso, Vinícius Rückert & Santos, Nathália Duarte Souza Alvarenga & Valle, Ramon Molina & Alvarez, Carlos Eduardo Castilla & Monsalve-Serrano, Javier & García, Antonio, 2019. "Evaluation of a stratified prechamber ignition concept for vehicular applications in real world and standardized driving cycles," Applied Energy, Elsevier, vol. 254(C).
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    13. Awad, Omar I. & Ali, Obed M. & Hammid, Ali Thaeer & Mamat, Rizalman, 2018. "Impact of fusel oil moisture reduction on the fuel properties and combustion characteristics of SI engine fueled with gasoline-fusel oil blends," Renewable Energy, Elsevier, vol. 123(C), pages 79-91.
    14. Fagundez, J.L.S. & Lanzanova, T.D.M. & Martins, M.E.S. & Salau, N.P.G., 2020. "Joint use of artificial neural networks and particle swarm optimization to determine optimal performance of an ethanol SI engine operating with negative valve overlap strategy," Energy, Elsevier, vol. 204(C).
    15. Zhang, Bo & Sarathy, S. Mani, 2016. "Lifecycle optimized ethanol-gasoline blends for turbocharged engines," Applied Energy, Elsevier, vol. 181(C), pages 38-53.
    16. Morganti, Kai & Al-Abdullah, Marwan & Alzubail, Abdullah & Kalghatgi, Gautam & Viollet, Yoann & Head, Robert & Khan, Ahmad & Abdul-Manan, Amir, 2017. "Synergistic engine-fuel technologies for light-duty vehicles: Fuel economy and Greenhouse Gas Emissions," Applied Energy, Elsevier, vol. 208(C), pages 1538-1561.
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