EXPERIMENTS WITH FLAME PROPAGATION IN A CHANNEL WITH A SINGLE OBSTACLE AND PREMIXED STOICHIOMETRIC H_2-AIR

Andre Vagner Gaathaug; Dag Bjerketvedt; Knut Vaagsaether

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EXPERIMENTS WITH FLAME PROPAGATION IN A CHANNEL WITH A SINGLE OBSTACLE AND PREMIXED STOICHIOMETRIC H_2-AIR

机译：单障碍和化学计量比的H_2-空气混合通道中火焰蔓延的实验

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Results of an experimental study of flame propagation in a 100 mm by 100 mm cross section and 1500 mm long open channel with a single obstacle (BR = 0.9) are presented. The gas mixture in the experiments were 30%vol H_2 in air. Both perpendicular and angular light were used for schlieren photography. The study included how point and distributed ignition source affected the flame propagation and pressure buildup. The main objective was to investigate whether the flame propagation could be simplified with a two-dimensional assumption for CFD simulation purposes. Flame front inversion was seen in the experiments, and after inversion it never turned back to the original shape again. After the inversion the flame could not be considered two-dimensional A visible boundary layer grew in front of the flame as it inverted.

机译：给出了火焰在100 mm×100 mm横截面和1500 mm长的带单个障碍物（BR = 0.9）的明渠中传播的实验结果。实验中的气体混合物为空气中30％vol的H_2。垂直光和角光均用于schlieren摄影。该研究包括点点火源和分布式点火源如何影响火焰传播和压力累积。主要目的是研究是否可以通过二维假设简化火焰传播，以进行CFD模拟。在实验中看到了火焰前沿反转，并且在反转之后再也没有回到原始形状。反转后，火焰不能视为二维的。火焰反转时，在火焰前面生长了一个可见的边界层。

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《Combustion Science and Technology》 |2010年第12期|p.1693-1706|共14页
作者
Andre Vagner Gaathaug; Dag Bjerketvedt; Knut Vaagsaether;
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Faculty of Technology, Telemark University College, Kjolnes ring 56, 3918 Porsgrunn, Norway;

Faculty of Technology, Telemark University College, Porsgrunn, Norway;

Faculty of Technology, Telemark University College, Porsgrunn, Norway;

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EXPERIMENTS WITH FLAME PROPAGATION IN A CHANNEL WITH A SINGLE OBSTACLE AND PREMIXED STOICHIOMETRIC H_2-AIR

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