Multi-Dimensional Flamelet Manifolds for Laminar Partially Premixed Flame

Chang Min Cao; Tao Hong Ye; Yu Xin Wu; Wei Wei

doi:10.4028/www.scientific.net/AMR.1092-1093.520

Paper Titles

Effects of Substitution Ratio on the Emission Characteristics of a Dual-Fuel Engine Fueled with Pilot Diesel Fuel and Methanol
p.504

Effects of λ on the Combustion Characteristics of HCCI Engine Fueled with N-Butanol
p.508

Experimental Study on Cooling Performance of Air Conditioning
p.512

Gas Analysis of Boiler Bottom Room above Water Seal
p.516

Multi-Dimensional Flamelet Manifolds for Laminar Partially Premixed Flame
p.520

Numerical Simulation of the Flow and Heat Transfer of Fractal Tree-Like Minichannel Heat Exchanger
p.525

Research on Thermal Properties of Two Phase in a Flue Gas Desulfurization Wet Scrubber
p.529

Thermal Response and Ablation Research of EPDM Thermal Protection Material in Ramjet
p.534

Thermal Analysis on Symmetric Rectangular Stackable Supercapacitors
p.539

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 1092-1093Multi-Dimensional Flamelet Manifolds for Laminar...

Multi-Dimensional Flamelet Manifolds for Laminar Partially Premixed Flame

Abstract:

The aim of this paper is to evaluate the performance of thermo-chemistry tabulation approaches for numerical simulation of laminar partially premixed flame by comparing with the results of detail chemistry. Two thermo-chemistry tabulation approaches are considered: the multidimensional flamelet manifolds (MFM) method and Flame Prolongation of Intrinsic low-dimensional manifold (FPI) method. The fuel streams with different equivalence ratios (Φ_F=1.8,Φ_F=2.464) are analyzed. In both of the equivalence ratios the results obtained from MFM method are in closer agreement with the direct calculation than FPI method. It is concluded that multi-dimensional flamelet manifolds can capture more precisely partially premixed characteristic of the multi-regime flame structure, comparing to single-dimensional flamelet model FPI.