Numerical research of premixed combustion of diluted methane in a tubular flame burner

2013 International Conference on Materials for Renewable Energy and Environment Pub Date : 2013-08-01 DOI:10.1109/ICMREE.2013.6893788

N. Gao, D. Zhao, X. H. Wang, H. Yang, L. Zhang, W. Yang

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Abstract

This paper presents numerical simulations of premixed combustion of low calorific value gases (LCVGs), providing a description of the flame characteristics in a tubular flame burner. The investigated gaseous fuels were methane diluted with nitrogen, simulating LCVGs with different heat values by regulating quantity of nitrogen. The flame shape and thermal field are consistent with experimental results. It consists of two segments of different feature, the lengths of which dependent on inlet velocity. Comparative study of flow fields at cold and thermal states were carried out with an aim to gain further understanding of the flow/flame interaction in the tubular burner. Heat release from combustion diverts the main pressure gradient to axial direction, thereby tangential velocity drop tends to close with axis of swirling, and axial velocity distribution changes to be trapezoid-shaped. Changing in low heat values influences the burning positively, while the flow does not exert an apparent effect.

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稀甲烷在管式火焰燃烧器内预混燃烧的数值研究

本文对低热值气体预混燃烧进行了数值模拟，描述了管式火焰燃烧器的火焰特性。所研究的气体燃料是用氮气稀释的甲烷，通过调节氮气的量来模拟不同热值的lcvg。火焰形状和热场与实验结果一致。它由两个不同特征的段组成，其长度取决于入口速度。为了进一步了解管状燃烧器内的流动/火焰相互作用，对冷态和热态流场进行了对比研究。燃烧释放热量使主压力梯度向轴向转移，切向速度降趋于与旋流轴闭合，轴向速度分布变为梯形。低热值的变化对燃烧有积极的影响，而流量对燃烧的影响不明显。

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2013 International Conference on Materials for Renewable Energy and Environment

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