Experimental and Simulation Investigation in Fractal Dimension of Supersonic Combustion

2008 The 9th International Conference for Young Computer Scientists Pub Date : 2008-12-12 DOI:10.1109/ICYCS.2008.245
Haiyan Wu, Hong-bo Wang, Mingbo Sun, Jin Zhou
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Abstract

To investigate the relationship among the fractal dimension, the combustion degree, and the stability of flame in supersonic combustion, photos of OHldr radicals spontaneity radiation were taken and the large Eddy simulation was used to calculate supersonic hydrogen combustion. As cavity is the flame holder in strongly turbulent supersonic combustion, different structural cavities were studied via experiments and simulations. Then nonlinear method of fractal was used to analyze the flow structure in cavity. The calculation results are consistent with experiments: high fractal dimension of flame goes along with mixing fuel sufficiently, combusting drastically, and holding flame easily.
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超声速燃烧分形维数的实验与仿真研究
为了研究超声速燃烧过程中分形维数与燃烧度、火焰稳定性之间的关系,采用OHldr自由基自发辐射照片和大涡模拟方法对超声速氢燃烧过程进行了数值模拟。由于腔体是强湍流超声速燃烧中的火焰保持器,通过实验和仿真研究了不同结构的腔体。然后采用非线性分形方法对空腔内流动结构进行了分析。计算结果与实验结果一致,火焰分形维数高,燃料混合充分,燃烧剧烈,火焰容易保持。
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2008 The 9th International Conference for Young Computer Scientists
2008 The 9th International Conference for Young Computer Scientists
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