Study the Effect of Air Pulsation on the Flame Characteristics

M. Magdy, M. Kamal, A. Hamed, A. E. Hussin, Walid Aboelsoud Torky
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引用次数: 2

Abstract

Pulsating combustion is used in a lot of industrial applications like conveyer drying, spray, boilers of commercial scale because its great role in increasing combustion efficiency and producing environmentally friendly combustion products. This paper evaluates how different frequencies (100, 200, 300, 400 and 500) rad/s applied to air velocity view a lot of improvements in the combustion and flow variables (v, T, NO and turbulent kinetic energy) and the effect of adding cross excess air to air pulsation with 500 rad/s frequency on the same flow variables. The performance of pulsating flames was numerically modulated by using Ansys Fluent 16 commercial package by building a 2D combustion chamber of Harwell standard furnace boundary condition on Ansys geometry and divided it into 61000 elements in Ansys meshing 16. Eddy Dissipation Model (EDM) is used to solve transient numerical combustion equations and Detached Eddy Simulation (DES) as viscous model. Converged numerical results have shown that increasing frequency from 100 to 500 rad/s increase average velocities of combustion products and turbulent kinetic energy by 22% and 80 respectively. The pollutant NO decrease by 60% and the time average temperature decrease from 1900 k to 1000 k.
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空气脉动对火焰特性影响的研究
脉动燃烧在许多工业应用中都有应用,如输送带干燥、喷雾、商业规模的锅炉,因为它在提高燃烧效率和生产环保燃烧产品方面发挥着重要作用。本文评估了应用于空气速度的不同频率(100、200、300、400和500)rad/s如何看待燃烧和流量变量(v、T、NO和湍流动能)的许多改进,以及在相同流量变量上添加500 rad/s频率的交叉过量空气到空气脉动的影响。通过使用Ansys Fluent 16商业软件包,在Ansys几何结构上构建Harwell标准炉膛边界条件的2D燃烧室,并在Ansys网格16中将其划分为61000个单元,对脉动火焰的性能进行了数值调制。涡流耗散模型(EDM)用于求解瞬态数值燃烧方程,分离涡流模拟(DES)作为粘性模型。收敛的数值结果表明,从100到500 rad/s的频率增加,燃烧产物的平均速度和湍流动能分别增加了22%和80%。污染物NO下降60%,时间平均温度从1900k下降到1000k。
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CiteScore
1.70
自引率
8.30%
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