共 23 条
Super-resolution reconstruction of flow field of hydrogen-fueled scramjet under self-ignition conditions
被引:35
作者:
Guo, Mingming
[1
]
Chen, Erda
[1
]
Tian, Ye
[1
]
Chen, Hao
[1
]
Le, Jialing
[2
]
Zhang, Hua
[1
]
Zhong, Fuyu
[2
]
机构:
[1] Southwest Univ Sci & Technol, Mianyang 621000, Peoples R China
[2] China Aerodynam Res & Dev Ctr, Mianyang 621000, Peoples R China
关键词:
Air - Combustion - Combustors - Convolutional neural networks - Deep learning - Heptane - Hydrogen - Hydrogen fuels - Optical resolving power - Oscillating flow - Ramjet engines - Shear flow - Signal to noise ratio - Wind tunnels;
D O I:
10.1063/5.0092256
中图分类号:
O3 [力学];
学科分类号:
08 ;
0801 ;
摘要:
This paper reports experiments on a hydrogen-fueled scramjet performed at different equivalence ratios in a ground pulse combustion wind tunnel with a Mach-2.5 incoming flow. In the non-chemical reaction flow before the fuel was ignited, the flow field was oscillatory, and from the pressure monitor, the oscillation period was 0.07 s and the oscillation amplitude was 0.035 MPa. Schlieren and flame self-luminescence images of the combustor flow were obtained synchronously, and the flow-field structure was stable with the flame concentrated in the shear layer. Deep learning was used to subject the low-resolution combustion flow field to super-resolution analysis to reconstruct a high-resolution flow field. To improve the spatial resolution of the flow field during self-ignition of the hydrogen-fueled scramjet and study the flow mechanism and coupling rule of turbulent fluctuations in the ignition process, a multipath asymmetric residual network (MARN) is proposed based on a single-path super-resolution convolutional neural network (SRCNN) and a residual network model (ResNet_16). The experimental results show that compared with SRCNN and ResNet_16, MARN has the best precision and performance regarding the super-resolution flow field in the self-ignition of hydrogen fuel in terms of the mean peak signal-to-noise ratio, mean structural similarity, and average correlation coefficient as well as being the least complicated. The proposed method offers the possibility of developing light-weight super-resolution models for the flow fields in supersonic combustors; it shows enormous potential for revealing the physical flow of the fuel and air mixture, and it offers accurate forecasts of self-ignition times. Published under an exclusive license by AIP Publishing.
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页数:15
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