Title of article
Effect of turbulence and radiation models on combustion characteristics in propane–hydrogen diffusion flames
Author/Authors
Y?lmaz، نويسنده , , ?lker and Ta?tan، نويسنده , , Murat and ?lba?، نويسنده , , Mustafa and Tarhan، نويسنده , , Nural Cevahir، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2013
Pages
8
From page
179
To page
186
Abstract
This paper presents numerical simulation results of propane, propane–hydrogen blending diffusion flames in a combustion chamber. The numerical simulations using Fluent CFD code were carried out by changing fuel blending from pure propane (100% C3H8) to propane–hydrogen blending including 90% C3H8–10% H2, 80% C3H8–20% H2, 10% C3H8–90% H2, 20% C3H8–80% H2 by volume. A two-dimensional axis-symmetric numerical model was solved to investigate the effects of the turbulence and radiation models on the combustion characteristics such as temperature, and gas concentration distributions. The combustion reaction scheme in the flame region was modeled using eddy dissipation model with global reaction scheme. The effects of two turbulence models including RNG k–ε, and Reynolds Stress Model, RSM, and two different radiation models including P–I and discrete transfer model were examined on combustion characteristics. The predictions are validated and compared with the published experimental and simulation results. Numerical results show that the velocity profiles, temperature gradients, CO2 and O2 concentrations profiles are overall agreement with published measurement and simulation results in the literature.
Keywords
Turbulence , radiation , Diffusion flame , Propane–hydrogen blending , SIMULATION
Journal title
Energy Conversion and Management
Serial Year
2013
Journal title
Energy Conversion and Management
Record number
2336879
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