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Experimental determination of counterflow ignition temperatures and laminar flame speeds of C_2-C_3 hydrocarbons at atmospheric and elevated pressures

机译：逆流点火温度和大气压升压C_2-C_3烃的逆流点火温度和层状火焰速度的实验测定

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Experimental data were acquired for: (1) the ignition temperatures of nitrogen-diluted ethylene and propylene by counterflowing heated air for various strain rates and system pressures up to 7 atm; (2) the laminar flame speeds of mixtures of air with acetylene, ethylene, ethane, propylene, and propane, deduced from an outwardly propagating spherical flame in a constant-pressure chamber, for extensive ranges of lean-to-rich equivalence ratio and system pressure up to 5 atm. These data, respectively, relevant for low- to intermediate-temperature ignition chemistry and high-temperature flame chemistry, were subsequently compared with calculated results using a literature C_1-C_3 mechanism and an ethylene mechanism. Noticeable differences were observed in the comparison for both mechanisms, and sensitivity analyses were conducted to identify the reactions of importance.

机译：获得实验数据：（1）通过对抗加热空气进行各种应变速率和系统压力的氮稀乙烯和丙烯的点火温度，高达7atm; （2）用乙炔，乙烯，乙烷，丙烯和丙烷的空气混合物的层状火焰速度从恒压室中向外传播的球形火焰推导出来，用于富益浓度的等效比和系统的广泛范围压力高达5个atm。这些数据分别与低至中间温度点火化学和高温火焰化学相关，随后与使用文献C_1-C_3机制和乙烯机制的计算结果进行比较。在两种机制的比较中观察到明显的差异，并进行敏感性分析以识别重要性的反应。

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《International Symposium on Combustion》|2005年||共8页
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作者
G. Jomaas; X.L. Zheng; D.L. Zhu; C.K. Law;
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正文语种
中图分类理论;
关键词
ignition temperature; laminar flame speed; reaction mechanism;

机译：点火温度;层状火焰速度;反应机制;

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Experimental determination of counterflow ignition temperatures and laminar flame speeds of C_2-C_3 hydrocarbons at atmospheric and elevated pressures

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