期刊
ENERGY
卷 251, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.energy.2022.123697
关键词
Nano-fuel additives; Graphite; Tire pyrolysis oil; Exergy; Sustainability; Renewable energy; Biofuels
资金
- Khwaja Fareed University of Engineering and Information Technology (KFUEIT) , Rahim Yar Khan
- Universiti Sains Malaysia (USM)
- Ministry of Higher Education (MOHE) of Malaysia under the Fundamental Research Grant Scheme (FRGS) [FRGS/1/2019/TK07/USM/03/3]
- Universiti Sains Malaysia
- Taif University, Taif, Saudi Arabia [TURSP-2020/40]
Fossil fuels are the main energy source for industries worldwide, but their resources are finite and declining. This study explored the use of nanoparticles and tire pyrolysis oil as additives to reduce fuel consumption and harmful gas emissions. The results showed that adding nanoparticles to fossil fuel can increase engine efficiency and reduce emissions.
Fossil fuels are the primary source of energy for most industries worldwide. However, its resources are finite and declining day by day, and toxic gases are released due to their consumption which causes global warming and problems with the health of the living. Therefore, any alternatives to fossil fuels or any additives added to the fuel needed to be found to minimize fuel consumption and the emission of harmful gases. In this study, a spark-ignition engine fuelled with blends of petrol with different concentrations of graphite nanoparticles, Fe2O3 nanoparticles, and tire pyrolysis oil (TPO) were used to conduct energy, exergy, economic, and sustainability analyses, and the obtained results were compared with neat petrol. The blends of petrol with 40 mg/L, 80 mg/L, and 120 mg/L of graphite nanoparticles & Fe2O3 nanoparticles, as well as 5% & 10% TPO, were used in a single-cylinder, four-stroke, air-cooled SI engine in this study. The experiments were conducted on various engine loads of 2 Nm to 10 Nm with an increment of 2 Nm at a constant speed of 3500 rpm. The maximum exergy and energy efficiencies were obtained 23.05% and 21.94% at a load of 8 Nm when the testengine fired with the P120FO blend, respectively. A maximum sustainability index of 1.3 for the P120FO blend was obtained. A minimum exhaust energy rate of 0.03241 kW was obtained for P120FO. A minimum exhaust exergy rate of 0.005849 kW was obtained for P90T10. Best results in energy efficiency, exergy efficiency, sustainability index, and economic analysis were obtained for the P120FO blend compared to neat petrol. Finally, it was concluded that the addition of nanoparticles in fossil fuel increases the engine's efficiency, decreases fuel consumption, and reduces the emission of harmful gases. (c) 2022 Elsevier Ltd. All rights reserved.
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