Premixed flame ignition: Theoretical development

IF 32 1区 工程技术 Q1 ENERGY & FUELS
Dehai Yu , Zheng Chen
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引用次数: 0

Abstract

Premixed flame ignition is a fundamental issue in combustion. A basic understanding of this phenomenon is crucial for fire safety control and for the development of advanced combustion engines. Significant efforts have been devoted to understanding the mechanisms of ignition and determining critical ignition conditions, such as critical flame radius, minimum ignition energy, and minimum ignition power, which have remained challenging research topics for centuries. This review provides an in-depth investigation of the forced-ignition of laminar premixed flames in a quiescent flammable mixture, with emphasis on theoretical developments, particularly those based on activation energy analysis. First, the fundamental concepts are overviewed, including spark ignition, characteristic time scales, and critical ignition conditions. Then, the chronological development of premixed flame ignition theories is discussed, including homogeneous explosion, thermal ignition theory, flame ball theory, quasi-steady ignition theory, and, more importantly, transient ignition theory. Premixed flame ignition consists of three stages: flame kernel formation, flame kernel expansion, and transition to a self-sustaining flame. These stages are profoundly affected by the coupling of positive stretch with preferential diffusion, characterized by the Lewis number. Specifically, positive stretch makes the expanding ignition kernel weaker at larger Lewis numbers, consequently increasing the critical ignition radius and MIE. The premixed flame ignition process is dominated by flame propagation dynamics. Both quasi-steady and transient ignition theories demonstrate that the critical flame radius for premixed ignition differs from either flame thickness (by thermal ignition theory) or flame ball radius (by flame ball theory). Particularly, the transient ignition theory appropriately acknowledges the “memory effect” of external heating, offering the most accurate description of the evolution of the ignition kernel and the most sensible evaluation of minimum ignition energy. In addition, the effects of transport and chain-branching reactions of radicals, finite droplet vaporization, and repetitive heating pulses on premixed flame ignition are discussed. Finally, a summary of major advances is provided, along with comments on the applications of premixed flame ignition theory in ignition enhancement. Suggested directions for future research are presented.

预混合火焰点火:理论发展
预混合火焰点火是燃烧中的一个基本问题。对这一现象的基本了解对于火灾安全控制和先进内燃机的开发至关重要。数百年来,人们一直致力于了解点火机理和确定临界点火条件,如临界火焰半径、最小点火能量和最小点火功率,而这些问题一直是具有挑战性的研究课题。本综述深入探讨了静止可燃混合物中层流预混火焰的强制点火问题,重点关注理论发展,特别是基于活化能分析的理论发展。首先,概述了基本概念,包括火花点火、特征时间尺度和临界点火条件。然后,按时间顺序讨论了预混火焰点火理论的发展,包括均质爆炸、热点火理论、火焰球理论、准稳态点火理论,以及更重要的瞬态点火理论。预混合火焰点火包括三个阶段:焰芯形成、焰芯膨胀和过渡到自持火焰。这些阶段受到以路易斯数为特征的正拉伸与优先扩散耦合的深刻影响。具体来说,正拉伸会使膨胀的点火核在较大的路易斯数下变得较弱,从而增加临界点火半径和 MIE。预混合火焰的点火过程受火焰传播动力学的支配。准稳态点火理论和瞬态点火理论都证明,预混火焰点火的临界火焰半径不同于火焰厚度(热点火理论)或火焰球半径(火焰球理论)。特别是,瞬态点火理论恰当地承认了外部加热的 "记忆效应",对点火内核的演变提供了最准确的描述,并对最小点火能量进行了最合理的评估。此外,还讨论了自由基的传输和链支化反应、有限液滴汽化以及重复加热脉冲对预混合火焰点火的影响。最后,对主要研究进展进行了总结,并对预混火焰点火理论在点火增强中的应用进行了评论。还提出了未来研究的方向建议。
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来源期刊
Progress in Energy and Combustion Science
Progress in Energy and Combustion Science 工程技术-工程:化工
CiteScore
59.30
自引率
0.70%
发文量
44
审稿时长
3 months
期刊介绍: Progress in Energy and Combustion Science (PECS) publishes review articles covering all aspects of energy and combustion science. These articles offer a comprehensive, in-depth overview, evaluation, and discussion of specific topics. Given the importance of climate change and energy conservation, efficient combustion of fossil fuels and the development of sustainable energy systems are emphasized. Environmental protection requires limiting pollutants, including greenhouse gases, emitted from combustion and other energy-intensive systems. Additionally, combustion plays a vital role in process technology and materials science. PECS features articles authored by internationally recognized experts in combustion, flames, fuel science and technology, and sustainable energy solutions. Each volume includes specially commissioned review articles providing orderly and concise surveys and scientific discussions on various aspects of combustion and energy. While not overly lengthy, these articles allow authors to thoroughly and comprehensively explore their subjects. They serve as valuable resources for researchers seeking knowledge beyond their own fields and for students and engineers in government and industrial research seeking comprehensive reviews and practical solutions.
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