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W4309574804 endingPage "126061" @default.
W4309574804 startingPage "126061" @default.
W4309574804 abstract "In this investigation, the mixing process of powder fuel transverse jet and supersonic airflow are discussed. The effects of particle size and induced shock wave on flow and mixing characteristics are also analyzed. The Eulerian-Lagrange method is utilized to simulate the gas-solid two-phase supersonic flow field. This numerical method has been verified using experimental data and simulation data from the open literature. The results reveal that the powder fuel transverse jet interacts violently with the supersonic airflow and forms complex shock wave structures in the flow field. The motion and distribution of particles are affected by their size and the interaction of shock wave/particle. The powder fuel composed of small size particles enhances mixing performance and has less impact on stagnation pressure loss. The existence of induced shock waves leads to part of the particles into the cavity and the stagnation pressure loss is large. With the increase of induced shock wave intensity, the mixing performance of the local region is continuously improved. The case with the inclination angle of 30° owns the best effect with improving the mixing efficiency by 28.33%, but the total pressure loss is increased by 33.88％." @default.
W4309574804 created "2022-11-28" @default.
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W4309574804 date "2023-01-01" @default.
W4309574804 modified "2023-10-15" @default.
W4309574804 title "Numerical investigation on flow and mixing characteristics of powder fuel under strong shear and shock wave interaction" @default.
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W4309574804 doi "https://doi.org/10.1016/j.energy.2022.126061" @default.
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