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发表刊物：Combustion and Flame
关键字：Hydrogen, Thermodiffusive instability, NOx formation, Reaction path analysis, Flamelet modeling
摘要：In this work, the NOx formation mechanism in three-dimensional (3D) thermodiffusively unstable premixed hydrogen flames is investigated through direct numerical simulations (DNS) and a reaction path analysis based on the DNS dataset. In part I of this study (Wen et al., Combust. Flame, 2023), the characteristic patterns of the instabilities were studied using the same dataset. Here, first, the effects of the computational setup (2D vs. 3D) and curvature on the flux ratio are quantified. In addition, a new flamelet tabulation method is proposed to predict the formation of NOx in thermodiffusively unstable premixed hydrogen flames. The flamelet solutions are obtained from the premixed flamelet equations in composition space so that the wide range of curvatures associated with the strongly corrugated flame front can be considered. The performance of the new flamelet tabulation method in predicting the NOx species and the important radicals involved in the NOx formation pathways is evaluated through an a priori analysis. To investigate the effects of curvature on the NOx formation pathways and the performance of the composition space model, the positively- and negatively-curved regions in the DNS are studied separately. The results show that different from the 2D simulation, the NNH reaction pathway becomes dominant in the 3D simulation due to the increased range of curvature, which promotes the accumulation of the highly diffusive H radical in the positively-curved regions. The NNH reaction pathway is dominant in the positively-curved regions, while the N2 O reaction pathway is more important in the negatively-curved regions. The flamelet model based on the composition space solutions that consider the effects of curvature yield accurate predictions for the radicals that are sensitive to the effects of curvature.
第一作者：Xu Wen, Lukas Berger, Liming Cai, Alessandro Parente, Heinz Pitsch
论文类型：期刊论文
期号：265
页面范围：113497
是否译文：否
发表时间：2024-04-28
收录刊物：SCI
发布期刊链接：https://www.sciencedirect.com/science/article/pii/S0010218024002062