Numerical Simulation for Premixed Combustion of Multiple Ejection/ Tangential Burner

Jiang Rong Xu; Xiang Xiang Chen; Guan Qing Wang

doi:10.4028/www.scientific.net/AMM.709.74

Paper Titles

Vertical Assembled Sprayer for Supplying Water and Liquid Fertilizer
p.52

Rotating Detonation Instabilities in Hydrogen-Oxygen Mixture
p.56

Dynamic Characteristics Optimization of Joint Interface of Machine Tool Based on Porous Oily Materials
p.63

Modeling Analysis and Experiment Research on Rotary Motor Buffer Overflow Valve
p.68

Numerical Simulation for Premixed Combustion of Multiple Ejection/ Tangential Burner
p.74

Simulation Research of the Effect of Compression Ratios on Combustion and Emission for Methanol/Diesel Dual Fuel Engine
p.78

Experimental Research on Premixed Porous Media Combustion in Multiple Ejection/Tangential Burner
p.83

Design of Pocket Dies for Metal Extrusion Using the Finite Element Method
p.87

About Experience of Determining Stiffness and Strength Characteristics of Structural Joints for Modeling Nonlinear Processes of Deformation and Failure of Long Span Structures
p.97

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 709Numerical Simulation for Premixed Combustion of...

Numerical Simulation for Premixed Combustion of Multiple Ejection/ Tangential Burner

Abstract:

The methane combustion air coefficient is expected to reach nearly or over 1.2 drawn from previous studies, through rationally allocating the position of the Venturi tube when rotation angle in the 16-18° and tilt angle between 7-7.5°. This paper carries on the numerical simulation of combustion in porous media based on previous work by selecting the optimum conditions, in order to provide certain references for the improvement of porous burner.

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Periodical:

Applied Mechanics and Materials (Volume 709)

Pages:

74-77

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.709.74

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Online since:

December 2014

Authors:

Jiang Rong Xu, Xiang Xiang Chen*, Guan Qing Wang

Keywords:

Multiple Ejection, Numerical Simulation, Porous Medium, Premixed Combustion

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