M. Chen scite author profile

The stabilization mechanism of lifted turbulent jet diffusion flames is a test problem for models of partially premixed turbulent combustion. In these flames, combustion processes occur in both the nonpremixed and the premixed mode. For the flame stabilization process, however, flame propagation of the premixed branches seems to play a crucial role. In this paper, a flamelet model for partially premixed turbulent combustion is presented that combines flamelet models for non-premixed and premixed combustion. A new model for the turbulent burning velocity in partially premixed flows is proposed. It is based on a formulation for a conditional turbulent burning velocity which depends on mixture fraction. The effect of partially premixing is taken into account by using the presumed probability density function (pdf) approach in terms of the mixture fraction. Mean scalar quantities on both sides of the premixed flame front are calculated in the same way. From a computational point of view, the model has the advantage that the calculation of the chemical processes can be decoupled from the flow calculation, allowing for simulations of realistic configurations, yet retaining detailed chemistry. The model is used to simulate the stabilization process of turbulent methane/air and propane/air jet diffusion flames. The calculated lift-off heights compare favorably with experimental data from various authors.

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Numerische Simulation einer teilweise vorgemischten Wasserstoffflamme

Birtigh

Gutsch

Binninger

et al. 1997

Chemie Ingenieur Technik

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Flame Microstructure and Propagation Behavior of Premixed Methane-Air Mixture When Induced by Double-Point Ignitions

Chen¹,

Zhang²,

Song³

et al. 2012

adv sci lett

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Modeling partially premixed turbulent combustion

Herrmann

Chen

Binninger

et al. 2001

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M. Chen

Unsteady flamelet modeling of turbulent hydrogen-air diffusion flames

Flamelet modeling of lifted turbulent methane/air and propane/air jet diffusion flames

Numerische Simulation einer teilweise vorgemischten Wasserstoffflamme

Flame Microstructure and Propagation Behavior of Premixed Methane-Air Mixture When Induced by Double-Point Ignitions

Modeling partially premixed turbulent combustion

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