高温下氢原子与一氧化氮的复合

Peter Glarborg , Martin Østberg , Maria U. Alzueta , Kim Dam-Johansen , James A. Miller
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引用次数: 29

摘要

在不同NO量扰动的CO/O2/H2O/N2体系上,通过流动反应器实验,确定了在1000 ~ 1170k温度范围内H+NO+N2反应(R1,N2)的速率常数。该体系的起始温度对R1反应高度敏感,R1反应是一氧化氮催化脱除氢原子的速率控制步骤。根据流动反应器结果和文献报道的有限数据,确定了H+NO+N2反应的速率常数4.0×1020T−1.75 cm6/(mol2s)。这个值与Allen和Dryer最近在1000K下的结果很好地一致,但在高温下明显低于Tsang和Herron的建议。最近确定的ΔHf,298 (HNO)值为26.0 kcal/mol,比先前的估计高2 kcal/mol,我们的结果对应于1000-2500 K范围内HNO+N2解离反应的速率常数为1.7×1019T−1.5 exp(−23,400/T) cm3/(mol s)。流动反应器结果表明H+NO+M在高温下的速率常数急剧下降,这一结论得到了文献中关于NO掺杂H2/O2/N2火焰数据的重新解释的支持。从理论上考虑,这种效应可归因于弱碰撞效应。
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The recombination of hydrogen atoms with nitric oxide at high temperatures

The rate constant for the H+NO+N2 reaction (R1,N2) has been determined in the temperature range 1000–1170K from flow-reactor experiments on the CO/O2/H2O/N2 system perturbed with different amounts of NO. The initiation temperature of this system is highly sensitive to reaction R1, which is the rate-controlling step in the nitric oxide catalyzed removal of hydrogen atoms. Based on the flow-reactor results and the limited amount of data reported in literature, a rate constant for the H+NO+N2 reaction of 4.0×1020T−1.75 cm6/(mol2s) was determined. This value is in good agreement with the recent result of Allen and Dryer at 1000K but significantly lower at high temperatures than the recommendation of Tsang and Herron. With the recently determined value of ΔHf,298 (HNO) of 26.0 kcal/mol, which is 2 kcal/mol higher than previous estimates, our results correspond to a rate constant of 1.7×1019T−1.5 exp(−23,400/T) cm3/(mol s) for the HNO+N2 dissociation reaction in the 1000–2500 K range. The sharp drop-off in the rate constant for H+NO+M at high temperatures suggested by the flow-reactor results are supported by reinterpretation of data reported in literature on H2/O2/N2 flames doped with NO. Theoretical considerations suggest that the effect can be attributed to weak-collision effects.

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