Performance and Emission Characteristics Using Dual Injection System of Gasoline and Ethanol

Q2 Engineering Automotive Experiences Pub Date : 2023-05-20 DOI:10.31603/ae.8070

Bambang Sulistyo, Herminarto Sofyan, Thomas Sukardi, Agus Widyianto

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Abstract

This study successfully investigated the engine performance and emission characteristics of a dual injection system that uses both gasoline and ethanol fuels. The study utilized a microcontroller-based control system (PGM-FI) to substitute ethanol fuel injection for gasoline injection. Ethanol fuel was injected at the inlet with three different pressures: 1.0 bar, 1.2 bar, and 1.4 bar, while gasoline injector pressure was fixed at 2 bar. Results showed that substituting ethanol injection with a pressure of 1 bar resulted in a slight decrease in torque and power, but it was the best compared to the other pressures tested. The study found that the use of ethanol injection resulted in improved fuel economy at an ethanol injector pressure of 1 bar with a reduction in SFC of 8.89%. Exhaust emissions were also reduced, with a maximum reduction in CO emissions of 42.54% occurring at a pressure of 1 bar. Similarly, the lowest HC content in exhaust gas was observed at a pressure of 1 bar, which was reduced by 44.48%. However, the results highlighted that ethanol injection pressure could significantly reduce fuel consumption for case A-04 and increase the air-fuel ratio.

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汽油和乙醇双喷射系统的性能和排放特性

这项研究成功地研究了使用汽油和乙醇燃料的双喷射系统的发动机性能和排放特性。该研究利用基于微控制器的控制系统(PGM-FI)来代替汽油喷射乙醇燃料。乙醇燃料以1.0 bar、1.2 bar和1.4 bar三种不同的压力注入进气道，汽油喷油器压力固定为2bar。结果表明，以1 bar的压力替代乙醇注射，扭矩和功率略有下降，但与其他测试压力相比效果最好。研究发现，在乙醇喷油器压力为1 bar时，使用乙醇喷油器可以提高燃油经济性，SFC降低8.89%。废气排放也有所减少，在压力为1bar时CO排放量最大减少42.54%。同样，在压力为1 bar时，废气中HC含量最低，降低了44.48%。然而，结果表明，乙醇喷射压力可以显著降低A-04的燃油消耗，并提高空燃比。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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