ASYMMETRIC PHENOMENON OF FLICKERING FLAME UNDER DIFFERENT CO-FLOW VELOCITIES

Wenhua Liu; Mo Yang; Yuwen Zhang; Guiliang Liu; Liang Ling; Xuchen Ying

doi:10.5098/hmt.20.15

ASYMMETRIC PHENOMENON OF FLICKERING FLAME UNDER DIFFERENT CO-FLOW VELOCITIES

Wenhua Liu
, Mo Yang
, Yuwen Zhang
, Guiliang Liu
, Liang Ling
, Xuchen Ying

University of Shanghai for Science and Technology
University of Missouri
Shanghai Jian Qiao University

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

In this study, numerical investigations are performed on a partially premixed flame of methane and air in two-and three-dimensional models. Nonlinear method is adopted to illustrate the asymmetric phenomenon that affects the flame stability under various co-flow velocities. According to the results, the mathematical relationship between the flame flickering frequency Stanton number and the dimensionless velocity Froude number has been summarized as St=0.7Fr^-0.46 . The bifurcation phenomena under different Reynold numbers are found to have significant influence on the system stability. Two critical bifurcation points, which is when Re=300 and Re=1200, are determined as the onset of breaking the flame symmetry and the onset of chaotic state, respectively. The research on flame flicker characteristics provides valuable reference for engineering applications in stable combustion and other related fields.

Original language	English
Journal	Frontiers in Heat and Mass Transfer
Volume	20
DOIs	https://doi.org/10.5098/hmt.20.15
State	Published - 2023
Externally published	Yes

Keywords

Asymmetric phenomenon
Flickering flame
Nonlinear characteristics
Stable combustion

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10.5098/hmt.20.15

Cite this

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title = "ASYMMETRIC PHENOMENON OF FLICKERING FLAME UNDER DIFFERENT CO-FLOW VELOCITIES",

abstract = "In this study, numerical investigations are performed on a partially premixed flame of methane and air in two-and three-dimensional models. Nonlinear method is adopted to illustrate the asymmetric phenomenon that affects the flame stability under various co-flow velocities. According to the results, the mathematical relationship between the flame flickering frequency Stanton number and the dimensionless velocity Froude number has been summarized as St=0.7Fr-0.46 . The bifurcation phenomena under different Reynold numbers are found to have significant influence on the system stability. Two critical bifurcation points, which is when Re=300 and Re=1200, are determined as the onset of breaking the flame symmetry and the onset of chaotic state, respectively. The research on flame flicker characteristics provides valuable reference for engineering applications in stable combustion and other related fields.",

keywords = "Asymmetric phenomenon, Flickering flame, Nonlinear characteristics, Stable combustion",

author = "Wenhua Liu and Mo Yang and Yuwen Zhang and Guiliang Liu and Liang Ling and Xuchen Ying",

year = "2023",

doi = "10.5098/hmt.20.15",

language = "英语",

volume = "20",

journal = "Frontiers in Heat and Mass Transfer",

issn = "2151-8629",

publisher = "Tech Science Press",

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TY - JOUR

T1 - ASYMMETRIC PHENOMENON OF FLICKERING FLAME UNDER DIFFERENT CO-FLOW VELOCITIES

AU - Liu, Wenhua

AU - Yang, Mo

AU - Zhang, Yuwen

AU - Liu, Guiliang

AU - Ling, Liang

AU - Ying, Xuchen

PY - 2023

Y1 - 2023

N2 - In this study, numerical investigations are performed on a partially premixed flame of methane and air in two-and three-dimensional models. Nonlinear method is adopted to illustrate the asymmetric phenomenon that affects the flame stability under various co-flow velocities. According to the results, the mathematical relationship between the flame flickering frequency Stanton number and the dimensionless velocity Froude number has been summarized as St=0.7Fr-0.46 . The bifurcation phenomena under different Reynold numbers are found to have significant influence on the system stability. Two critical bifurcation points, which is when Re=300 and Re=1200, are determined as the onset of breaking the flame symmetry and the onset of chaotic state, respectively. The research on flame flicker characteristics provides valuable reference for engineering applications in stable combustion and other related fields.

AB - In this study, numerical investigations are performed on a partially premixed flame of methane and air in two-and three-dimensional models. Nonlinear method is adopted to illustrate the asymmetric phenomenon that affects the flame stability under various co-flow velocities. According to the results, the mathematical relationship between the flame flickering frequency Stanton number and the dimensionless velocity Froude number has been summarized as St=0.7Fr-0.46 . The bifurcation phenomena under different Reynold numbers are found to have significant influence on the system stability. Two critical bifurcation points, which is when Re=300 and Re=1200, are determined as the onset of breaking the flame symmetry and the onset of chaotic state, respectively. The research on flame flicker characteristics provides valuable reference for engineering applications in stable combustion and other related fields.

KW - Asymmetric phenomenon

KW - Flickering flame

KW - Nonlinear characteristics

KW - Stable combustion

UR - https://www.scopus.com/pages/publications/85152240792

U2 - 10.5098/hmt.20.15

DO - 10.5098/hmt.20.15

M3 - 文章

AN - SCOPUS:85152240792

SN - 2151-8629

VL - 20

JO - Frontiers in Heat and Mass Transfer

JF - Frontiers in Heat and Mass Transfer

ER -

ASYMMETRIC PHENOMENON OF FLICKERING FLAME UNDER DIFFERENT CO-FLOW VELOCITIES

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Keywords

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