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Journal of Porous Media
インパクトファクター: 1.49 5年インパクトファクター: 1.159 SJR: 0.43 SNIP: 0.671 CiteScore™: 1.58

ISSN 印刷: 1091-028X
ISSN オンライン: 1934-0508

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Journal of Porous Media

DOI: 10.1615/JPorMedia.v17.i2.40
pages 129-142

NUMERICAL STUDY ON TURBULENCE EFFECTS IN POROUS BURNERS

Majid E. Nimvari
Faculty of Engineering Technologies, Amol University of Special Modern Technologies, Amol, Iran
Mehdi Maerefat
Department of Mechanical Engineering, Tarbiat Modares University, P.O. Box 14115-143, Tehran, Iran
M. K. El-Hossaini
Energy Research Centre, Research Institute of Petroleum Industry, P.O. Box 14665-137, Tehran, Iran
Nima F. Jouybari
Division of Fluid Mechanics, Lulea University of Technology, 971 87 Lulea, Sweden; Department of Mechanical Engineering, Tarbiat Modares University, P.O. Box 14115-143, Tehran, Iran

要約

This paper presents numerical simulation of combustion of air/methane mixture in a cylindrical porous burner while the turbulence between the pores of porous medium has been considered via an explicit model. Results of both laminar and turbulence models are presented and compared for different equivalence ratios and several pore diameters. The turbulent kinetic energy increases along the burner due to the turbulence created by the solid matrix with a sudden jump at the flame front due to the thermal expansion. Also, because of the higher diffusion due to the turbulence, the reactants become more preheated, leading to an increase in the burning speed in comparison to the laminar results. Higher burning speed in turbulence cases decreases the flame temperature and shifts the maximum temperature location toward downstream of the burner. It is found that at higher equivalence ratios, the effects of turbulence become more significant. Taking into account the turbulence effects results in burning speeds which are in good agreement with the experimental data. Although the increase of pore diameter in the laminar model decreases the burning speed due to lower volumetric heat transfer between the phases, higher effective diffusion results in higher burning speed in the turbulence model.