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Effect of emulsification and blending on the oxygenation and substitution of diesel fuel for compression ignition engine

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  • Hagos, Ftwi Y.
  • Ali, Obed M.
  • Mamat, Rizalman
  • Abdullah, Abdul A.

Abstract

Global emission standards are getting more stringent in which the existing diesel engine technologies are on the brink of losing their permit to operate. While there are successful engine side researches that can target the current emission norms, their implementation in existing engines will not be possible due to their higher price tag. With this respect, fuel side improvement with no or minimal modification to engine hardware is the best way to address the issue in the existing engines. The commonly used fuel oxygenators in diesel engines are water, alcohol, biodiesel and the combinations of these. The method of oxygenation and their corresponding results on the combustion, performance and emissions that have been reported in the literatures are widely varied. The current review article targets the blending and emulsification techniques used in the oxygenation and fuel substitution of diesel. Based on the misconceptions about the stability of emulsions, many researchers are found to use the term blending even though the technique they have used is emulsification. While blending of fuels is convenient for fuels which have relatively similar boiling temperature, emulsification technique should be followed for fuel mixtures of varied boiling temperature so that the benefit of micro-explosion can be reflected in the fuel atomization. Secondary atomization resulting from the micro-explosion phenomenon of emulsified fuels and fuel oxygenation are responsible for the improvement of combustion, performance and CO and PM emissions. Latent heat of vaporization is found to be responsible for the reduction of NOx emissions.

Suggested Citation

  • Hagos, Ftwi Y. & Ali, Obed M. & Mamat, Rizalman & Abdullah, Abdul A., 2017. "Effect of emulsification and blending on the oxygenation and substitution of diesel fuel for compression ignition engine," Renewable and Sustainable Energy Reviews, Elsevier, vol. 75(C), pages 1281-1294.
    • Handle: RePEc:eee:rensus:v:75:y:2017:i:c:p:1281-1294
    DOI: 10.1016/j.rser.2016.11.113
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    2. Adeniyi, Oladapo Martins & Azimov, Ulugbek & Burluka, Alexey, 2018. "Algae biofuel: Current status and future applications," Renewable and Sustainable Energy Reviews, Elsevier, vol. 90(C), pages 316-335.
    3. Ä°smet Sezer, 2020. "A review study on using diethyl ether in diesel engines: Effects on fuel properties, injection, and combustion characteristics," Energy & Environment, , vol. 31(2), pages 179-214, March.
    4. Awad, Omar I. & Mamat, R. & Ali, Obed M. & Sidik, N.A.C. & Yusaf, T. & Kadirgama, K. & Kettner, Maurice, 2018. "Alcohol and ether as alternative fuels in spark ignition engine: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 82(P3), pages 2586-2605.
    5. Leng, Lijian & Li, Hui & Yuan, Xingzhong & Zhou, Wenguang & Huang, Huajun, 2018. "Bio-oil upgrading by emulsification/microemulsification: A review," Energy, Elsevier, vol. 161(C), pages 214-232.

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