Mingxin Zheng scite author profile

Mingxin Zheng

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Aero Engine Corporation of China (China)

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Influence of dual-axial swirler configuration on hydrodynamic stability in combustor

Xing

Zheng

et al. 2023

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To improve hydrodynamic stability in combustor, an unsteady flow analysis method is needed, the proper-orthogonal-decomposition (POD) method based on a large eddy simulation (LES) unsteady flow field and experimental verification were used to analyse and evaluate the influence of the precession vortex core (PVC) motion law on the pulsation downstream of different swirler configurations. The pulsation results of the unsteady simulation are in good agreement with the experimental results, and both show that the pulsation quantity of Case 1 is maximum. The analysis results by POD show that the pulsation energy is mainly concentrated in the first two modes. The results of motion state, regularity of the time coefficient and frequency characteristics also show that the characteristics of PVC in the combustor are consistent with those in modes 1 and 2. There is an optimum value of swirl number, which is 0.72, for which the influence on the flow field's stability is minimum. In addition, the stability of the airfoil vane is higher than that of the straight vane. The mean flow field and the coherent flow field in the pulsation flow field of Case 3 are most favourable to combustion stability, and the unstable factors of the transition flow field and the turbulent flow field are the smallest in shape and energy. The experimental results prove that there is no typical frequency of pulsation within 5000 Hz in Case 3.

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Simulation of Moving Bed Erosion Based on the Weakly Compressible Smoothed Particle Hydrodynamics-Discrete Element Coupling Method

Zeng¹,

Zheng²,

Huang³

2023

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Mingxin Zheng

Influence of dual-axial swirler configuration on hydrodynamic stability in combustor

Simulation of Moving Bed Erosion Based on the Weakly Compressible Smoothed Particle Hydrodynamics-Discrete Element Coupling Method

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