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Co-evaporative multi-component fuel design for in-cylinder PLIF measurement and application in gasoline direct injection research

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  • Ma, Xiao
  • He, Xu
  • Wang, Jian-xin
  • Shuai, Shijin

Abstract

For in-cylinder fuel mixture distribution measurement, a method for designing a multi-component fuel for planar laser-induced fluorescence (PLIF) experiments is developed based on thermal gravity analysis and vapor-liquid equilibrium calculation. The goal is to create fuel that has a volatility similar to real gasoline and good co-evaporation ratios (near 1.0) with tracers. Acetone, toluene, and trimethylbenzene are chosen as tracers for light, medium, and heavy fractions, respectively, and a five-component test fuel is developed. The test fuel is used to study the influence of components and temperature on co-evaporation ratios. Any variation in tracer or fuel component proportions affects all co-evaporation ratios, but a variation within 5% is considered acceptable. Results show that acetone presents the most significant influence on co-evaporation ratios. Temperature is also a key factor. Saturated vapor pressure and activity coefficient of the tracer and components in a fraction group affect co-evaporation optimization substantially, indicating that these values are a primary consideration in tracer selection. Finally, the test fuel is applied to an in-cylinder gasoline direct injection fuel mixture distribution measurement using PLIF. Differences between light, medium, and heavy fraction groups are studied under different strategies. Cycle-to-cycle variation analysis shows that the influence of absorption attenuation of the aromatic is distinct in a typical stratified strategy. In the area near the spark plug, cycle-to-cycle variation decreases as injection is delayed.

Suggested Citation

  • Ma, Xiao & He, Xu & Wang, Jian-xin & Shuai, Shijin, 2011. "Co-evaporative multi-component fuel design for in-cylinder PLIF measurement and application in gasoline direct injection research," Applied Energy, Elsevier, vol. 88(8), pages 2617-2627, August.
  • Handle: RePEc:eee:appene:v:88:y:2011:i:8:p:2617-2627
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    Cited by:

    1. Chitsaz, Iman & Saidi, Mohammad Hassan & Mozafari, Ali Asghar & Hajialimohammadi, Alireza, 2013. "Experimental and numerical investigation on the jet characteristics of spark ignition direct injection gaseous injector," Applied Energy, Elsevier, vol. 105(C), pages 8-16.
    2. Ma, Xiao & Xu, Hongming & Jiang, Changzhao & Shuai, Shijin, 2014. "Ultra-high speed imaging and OH-LIF study of DMF and MF combustion in a DISI optical engine," Applied Energy, Elsevier, vol. 122(C), pages 247-260.
    3. Zeraati-Rezaei, Soheil & Al-Qahtani, Yasser & Herreros, Jose M. & Xu, Hongming, 2020. "Investigation of the effects of split-injection on particle emissions from a Dieseline CI engine," Applied Energy, Elsevier, vol. 262(C).

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