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Effects of Wall Heat Loss on Swirl-Stabilized Nonpremixed Flames With Localized Extinction.

Authors :
Huangwei Zhang
Source :
Journal of Engineering for Gas Turbines & Power. Dec2018, Vol. 140 Issue 12, p1-12. 12p.
Publication Year :
2018

Abstract

Large eddy simulation (LES) with three-dimensional conditional moment closure (CMC) subgrid model for combustion is applied to simulate a swirl-stabilized nonpremixed methane flame with localized extinction, with special focus on the effects of heat loss to the burner surface. The convective wall heat loss is modeled through introducing a source term in the conditionally filtered total enthalpy equation for the CMC cells adjacent to the wall. The mean heat flux is high on the middle surface of the bluff body, but relatively low near its edges. The turbulent heat flux based on the gradient of the resolved temperature is relatively low compared to the laminar counterpart, but increases with the turbulent intensity. The heat loss facilitates the occurrences of extinction and re-ignition for the CMC cells immediately adjacent to the wall, evidenced by comparing flame structures in the near-wall CMC cells. This can be directly linked to the increase of the mean conditional scalar dissipation near the wall in the heat loss case. Furthermore, the degree of local extinction near the bluff body measured by conditional reactedness at stoichiometry is intensified due to the wall heat loss. However, the results also show that there is negligible influence of wall heat loss on the probability density function (PDF) of the lift-off height, demonstrating the dominance of aerodynamic effects on flame stabilization. The results are in reasonable agreement with experimental measurements. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
07424795
Volume :
140
Issue :
12
Database :
Academic Search Index
Journal :
Journal of Engineering for Gas Turbines & Power
Publication Type :
Academic Journal
Accession number :
135050276
Full Text :
https://doi.org/10.1115/1.4040516