Abstract
The combustion and cycletocycle variation characteristics of Fischer-Tropsch (F-T) diesel and ChinaⅥ 0# diesel were investigated to improve the efficiency of F-T diesel on a high pressure common rail diesel engine under the full load conditions of 1 200, 2 000 and 2 800 r/min. Then the correlation between them was discussed. The results showed that the incylinder pressure, heat release rate and pressure rise rate of F-T diesel were lower than that of 0# diesel, but the phases of their peaks advanced. The ignition delay shortened by 0.7°CA~1.2°CA, the combustion duration increased by 6°CA, CA50 advanced by 2°CA, and the brake thermal efficiency increased by 0.7%~1.5% after using F-T diesel. Besides, the cycle-to-cycle variation of FT diesel reduced and got the minimum at 2 000 r/min. The incylinder peak pressure increased linearly with the increase of ignition delay and decreased with the increase of combustion duration. At a certain range, shortening the ignition delay and prolonging the combustion duration could improve the cycle-to-cycle variation. The ignition delay had a higher Pearson's correlation with incylinder peak pressure than combustion duration and hence produced a greater influence on cycle-to-cycle variation.
Key words
combustion parameter /
cycle-to-cycle variation /
diesel engine /
correlation /
F-T diesel
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ZHANG Peng.
Correlation between Cycle-to-Cycle Variation and Combustion Parameters of Diesel Engine[J]. Vehicle Engine. 2020, 0(5): 15-20 https://doi.org/10.3969/j.issn.1001-2222.2020.05.003
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