Numerical investigations on the performance and emissions of a turbocharged engine using an ethanol-gasoline blend

Firas Basim Ismail*, Ammar Al-Bazi, Islam Gamal Aboubakr

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

Due to a scarcity of fossil fuel supplies and concerns about pollution, the use of ethanol in gasoline has become a priority in the automobile industry. This paper aims to investigate the effect of different ethanol-gasoline fuel blend ratios, namely E20 (% ethanol + % gasoline), E50 (% ethanol + % gasoline), and E75 (75% ethanol + 25% gasoline) on a 1.6 L turbocharged, 4-cylinder, 2017 Proton Preve Premium CFE CVT engine, where E0 (pure gasoline) is taken as reference fuel. In addition, different speed intervals, which include 1000 RPM, 2000 RPM, and 5000 RPM, are employed for each fuel blend. The production of four major emissions, NOx, CO, CO2, and HC, and performance parameters such as thermal efficiency, volumetric efficiency, and brake-specific fuel consumption, are evaluated using SolidWorks for CAD modelling. This then is transferred to ANSYS for emission and performance analysis. According to the findings, increasing ethanol concentration and engine speed increases volumetric efficiency and brake-specific fuel consumption by up to 12.89% and 6.59%, respectively. It was also discovered that ethanol and increasing engine speed had an 11.39% reduction in thermal efficiency. Furthermore, the addition of ethanol occurs, along with an increase in speed, exhaust gas emissions are reduced by up to 21.74% compared to pure gasoline.

Original languageEnglish
Article number102366
Number of pages12
JournalCase Studies in Thermal Engineering
Volume39
Issue number12
Early online date24 Aug 2022
DOIs
Publication statusPublished - 6 Sept 2022

Bibliographical note

Funding Information:
This research was financially supported by Universiti Tenaga Nasional, Malaysia through BOLD refresh publication fund (J510050002-BOLDRefresh2025-Centre of Excellence).

Publisher Copyright:
© 2022 The Author(s).

Keywords

  • ANSYS
  • Efficiency
  • Emissions
  • Ethanol
  • Gasoline
  • SolidWorks

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