微重力条件下低刘易斯数逆流中零星火焰行为的 DMD 分析

IF 5.3 2区 工程技术 Q2 ENERGY & FUELS
Takaki Akiba , Akira Tsunoda , Takuya Tezuka , Youhi Morii , Hisashi Nakamura , Kaoru Maruta
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引用次数: 0

摘要

为了加深对逆流场中低刘易斯数(Le)混合物接近贫化极限时的准稳态火焰行为的理解,对零星火焰进行了实验和数值分析。在微重力环境下,利用飞机抛物线飞行对 Le 0.3 和 0.5 的混合物进行了实验,以消除低拉伸条件下的浮力影响。利用简化的扩散热模型进行了三维数值模拟,以研究零星火焰的三维结构。实验观察表明,零星火焰的条件随 Le 的变化而变化。与 Le 0.5 的零星火焰相比,Le 0.3 的零星火焰可以在更贫瘠的条件下观察到,并能承受更高的拉伸环境。数值模拟也再现了这一趋势,并证明 Le 在零星火焰的条件中起着重要作用。为了解零星火焰的特征结构,我们进行了动态模式分解(DMD)分析。通过分析,确定了三种特征结构模式--平面、径向和环形。分解后的模式表明,逆流场域可分为两部分:在逆流轴附近形成零星火焰的区域和在逆流场外侧分裂和输送火焰碎片的区域。此外,还利用快速傅立叶变换(FFT)对特征长度尺度进行了分析。FFT 分析量化了径向和环向分解模式的特征长度尺度。结果还发现,径向和角向的特征长度尺度具有相同的值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
DMD analysis on sporadic flame behaviors in low-Lewis-number counterflow under microgravity

In order to deepen the understanding on the quasi-steady flame behaviors in counterflow field involving mixtures with low-Lewis number (Le) near lean limit, the experimental and numerical analyses for sporadic flames were carried out. The experiment was conducted with the mixture of Le 0.3 and 0.5 under microgravity environment using parabolic flights of an airplane to eliminate the effect of buoyancy for low-stretch conditions. Three-dimensional numerical simulation with simplified diffusive thermal model was carried out to investigate the three-dimensional structure of sporadic flames. The experimental observations showed the change in the conditions for sporadic flames with changes in Le. The sporadic flames of Le 0.3 could be observed under leaner conditions and endured higher stretch circumstances compared to those observed with Le 0.5. The numerical simulation also reproduced this trend and proved that Le has an important role in the conditions for sporadic flames. To understand the characteristic structure of sporadic flames, the analysis with dynamic mode decomposition (DMD) was conducted. Through this analysis, three characteristic structure modes—planar, radial, and circular—were identified. The decomposed modes showed that the domain of counterflow field could be divided into two; the area forming sporadic flames near the counterflow axis and the area splitting and transporting flame pieces at outer part of the counterflow field. The characteristic length scale was also analyzed using fast Fourier transform (FFT). FFT analysis quantified the characteristic length scale of the decomposed mode of radial and circular. It was also found that the characteristic length scale in radial and angular direction had the same value.

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来源期刊
Proceedings of the Combustion Institute
Proceedings of the Combustion Institute 工程技术-工程:化工
CiteScore
7.00
自引率
0.00%
发文量
420
审稿时长
3.0 months
期刊介绍: The Proceedings of the Combustion Institute contains forefront contributions in fundamentals and applications of combustion science. For more than 50 years, the Combustion Institute has served as the peak international society for dissemination of scientific and technical research in the combustion field. In addition to author submissions, the Proceedings of the Combustion Institute includes the Institute''s prestigious invited strategic and topical reviews that represent indispensable resources for emergent research in the field. All papers are subjected to rigorous peer review. Research papers and invited topical reviews; Reaction Kinetics; Soot, PAH, and other large molecules; Diagnostics; Laminar Flames; Turbulent Flames; Heterogeneous Combustion; Spray and Droplet Combustion; Detonations, Explosions & Supersonic Combustion; Fire Research; Stationary Combustion Systems; IC Engine and Gas Turbine Combustion; New Technology Concepts The electronic version of Proceedings of the Combustion Institute contains supplemental material such as reaction mechanisms, illustrating movies, and other data.
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