PECULIARITIES OF FLOW AND MIXTURE FORMATION IN MICROIET BURNER DEVICES WITH ASYMMETRIC FUEL DISTRIBUTION

N. Fialko, Ju.V. Sherenkovskyi, N. Meranova, S. A. Alioshko, K. Rokytko
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Abstract

The purpose of the work is to establish the regularities of the isothermal flow and the mixture formation of the fuel gas and oxidant in the microjet burner devices with an asymmetric fuel supply. The main tasks of the work are the analysis of the effects of the influence of the value of excess air factor on the flow structure and the features of the mixing of fuel and oxidant. As a method of research, the CFD modeling method using the FLUENT code was used. According to the results of the studies carried out in the relatively wide limits of the change in the excess air factor (1.5 ≤ α ≤ 4.0), the regularities of the effect of the value of this factor on such flow characteristics in the burners studied as the length of the reverse current zone behind the flame stabilizer, which is responsible for the combustion stability, the location of main vortex in this zone, the values of the mean-square velocity pulsations, and so on. The features of the mixture formation in the variation of the α value in the burner devices under investigation are revealed. The dependence on the mean α of the methane concentration in the reciprocal zone is established and given its interpretation, taking into account a number of competing factors.
燃料分布不对称的微型燃烧器内流动和混合气形成的特性
本文的目的是建立不对称燃料供给的微射流燃烧器装置内等温流动和燃气与氧化剂混合形成的规律。本工作的主要任务是分析过量空气因子的取值对流动结构的影响以及燃料与氧化剂混合的特性。作为研究方法,采用FLUENT代码的CFD建模方法。根据研究结果进行了相对较宽范围的过量空气系数的变化(1.5≤α≤4.0),规律的影响价值的因素等在燃烧器流动特性研究背后的反向电流带的长度火焰稳定器,负责燃烧稳定,主要涡的位置区,的值均方速度脉动,等等。揭示了所研究燃烧器内α值变化时混合气形成的特征。考虑到许多相互竞争的因素,建立了对倒数区甲烷浓度平均α的依赖关系,并给出了其解释。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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