Journal
FUEL
Volume 319, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.fuel.2022.123784
Keywords
Cyclopropane; Ignition delay time; Shock tube; Kinetic mechanism
Categories
Funding
- National Natural Science Foundation of China [91841301]
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This study investigated the autoignition characteristics of cyclopropane and found that temperature, pressure, and equivalence ratio have an impact on ignition delay time. Quantitative relationships were obtained through regression analysis, and a high-temperature combustion mechanism was developed. Reaction pathway and sensitivity analyses were conducted to determine key reactions affecting ignition delay time. Finally, comparisons and kinetic analyses were performed to interpret the ignition differences between cyclopropane and other fuels.
As the smallest cycloalkane, cyclopropane is a highly strained three-membered ring hydrocarbon that exhibits high reactivity. In this work, the autoignition characteristics of cyclopropane have been investigated behind reflected shock waves. Experiments were conducted at pressures of 2, 5, and 10 atm, equivalence ratios of 0.5, 1.0, and 2.0, and temperatures ranging from approximately 1100 to 1500 K. The effects of temperature, pressure and equivalence ratio on ignition delay time have been investigated. Quantitative relationships have been yielded by the regression analysis of the experimental data. A high-temperature combustion mechanism of cyclopropane based on NUIGMech1.1 has been developed, and the predicted results are in good agreement with the experimental results. Reaction pathway and sensitivity analyses have been carried to determine the signif-icant reaction pathways in the ignition process and key reactions that affect the ignition delay time. Finally, comparisons between the ignition delay time of cyclopropane and that of propene, cyclopentane, and cyclo-hexane have been conducted, and kinetic analyses have been performed to interpret the ignition difference between cyclopropane and the above-mentioned fuels.
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