Flame speed in diffusion dominated premixed flames

IF 1.9 4区工程技术 Q4 ENERGY & FUELS

Combustion Theory and Modelling Pub Date : 2022-11-12 DOI:10.1080/13647830.2022.2143428

F. Vance, J. van Oijen, L. D. de Goey

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引用次数: 0

Abstract

Development of a premixed flame theory that includes the effects of flame stretch and curvature has been at the forefront of combustion research. Diffusion dominated flames such as highly curved flame balls present a challenging flame structure that has not been included in current flame stretch theory so far. In such flames, the relationship between consumption speed and negative displacement speed usually marks the boundary of what flame stretch theory can predict. In this work, our objective is to derive a general formulation which naturally includes this relationship. We use flamelet equations derived using a mass based stretch rate and show that if the diffusion flux at the unburnt side is not ignored, as is normally done in flame stretch theory, a formulation that can describe the propagation of different types of premixed flames can be derived. Based on the thin reaction zone assumption, solutions from theory are verified against numerical results for 1D ideal flame balls. Further verification is done for multi-dimensional ball-like flames, where both convection and diffusion dominated regions are present for highly curved flames. It is shown that the extended theory is able to predict the flame kinematics in a better way by describing the diffusion dominated flame propagation as well.

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扩散过程中火焰速度主导预混火焰

考虑火焰拉伸和曲率影响的预混燃烧理论的发展一直是燃烧研究的前沿。以扩散为主导的火焰，如高弯曲的火焰球，是一种具有挑战性的火焰结构，目前还没有包括在火焰拉伸理论中。在这种火焰中，消耗速度与负位移速度之间的关系通常标志着火焰拉伸理论可以预测的边界。在这项工作中，我们的目标是推导一个自然包含这种关系的一般公式。我们使用基于质量拉伸率的小火焰方程，并表明如果不忽略未燃烧侧的扩散通量，就像火焰拉伸理论中通常做的那样，可以推导出一个可以描述不同类型预混火焰传播的公式。在薄反应区假设的基础上，对一维理想火焰球的理论解与数值结果进行了验证。进一步验证了多维球状火焰，其中对流和扩散主导区域存在于高度弯曲的火焰中。结果表明，该推广理论能够较好地描述以扩散为主的火焰传播过程，从而预测火焰的运动特性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Combustion Theory and Modelling 工程技术-工程：化工

CiteScore

3.00

自引率

7.70%

发文量

审稿时长

6 months

期刊介绍： Combustion Theory and Modelling is a leading international journal devoted to the application of mathematical modelling, numerical simulation and experimental techniques to the study of combustion. Articles can cover a wide range of topics, such as: premixed laminar flames, laminar diffusion flames, turbulent combustion, fires, chemical kinetics, pollutant formation, microgravity, materials synthesis, chemical vapour deposition, catalysis, droplet and spray combustion, detonation dynamics, thermal explosions, ignition, energetic materials and propellants, burners and engine combustion. A diverse spectrum of mathematical methods may also be used, including large scale numerical simulation, hybrid computational schemes, front tracking, adaptive mesh refinement, optimized parallel computation, asymptotic methods and singular perturbation techniques, bifurcation theory, optimization methods, dynamical systems theory, cellular automata and discrete methods and probabilistic and statistical methods. Experimental studies that employ intrusive or nonintrusive diagnostics and are published in the Journal should be closely related to theoretical issues, by highlighting fundamental theoretical questions or by providing a sound basis for comparison with theory.