超音速横流中煤油射流的雾化特性研究

IF 2.9 3区 工程技术 Q2 ENGINEERING, MECHANICAL Advances in Aerodynamics Pub Date : 2024-02-18 DOI:10.1186/s42774-023-00164-y
Yi Zhang, Jialing Le, Ye Tian
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引用次数: 0

摘要

喷气发动机的燃烧性能基于其燃料的两相混合过程。为了阐明超音速气流中喷射雾化的机理,我们对超音速横流中的液体喷射雾化进行了数值模拟。气相采用欧拉法计算,液相采用拉格朗日粒子跟踪法计算。使用 Reitz 波模型模拟液体射流的第一次破裂,使用 Kelvin-Helmholtz/Rayleigh-Taylor 混合破裂模型模拟液滴的第二次破裂。讨论了液体/气体动量通量比和射流直径对雾化特性的影响。结果表明,穿透深度随着喷嘴直径和液体/气体动量通量比的增加而增加。液体/气体动量通量比越大的射流破裂速度越快,其萨氏平均直径也越小。液滴的萨特平均直径随着喷嘴直径的减小而减小。在喷嘴下游 30 毫米处,所有射流基本雾化,射流的萨特平均直径约为 10 微米。与液体/气体动量通量比相比,喷嘴直径对射流穿透深度的影响更大。
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Study on atomization characteristics of a kerosene jet in a supersonic crossflow
The combustion performance of a scramjet engine is based on a two-phase mixing process of its fuel. To elucidate the mechanism of jet atomization in supersonic airflows, a numerical simulation of liquid jet atomization in a supersonic crossflow is carried out. The Euler method is used to calculate the gas phase, while the Lagrangian particle tracking method is used to calculate the liquid phase. The Reitz wave model is used to simulate the first breakup of the liquid jet, and the Kelvin-Helmholtz/Rayleigh-Taylor hybrid breakup model is used to simulate the second breakup of the droplets. The influence of the liquid/gas momentum flux ratio and the diameter of the jet on the atomization characteristics is discussed. The results show that the penetration depth increases with increasing nozzle diameter and liquid/gas momentum flux ratio. A jet with a larger liquid/gas momentum flux ratio breaks faster, and its Sauter mean diameter is smaller. The Sauter mean diameter of a droplet decreases with decreasing nozzle diameter. At 30 mm downstream of the nozzle, all jets are basically atomized, and the SMD of the jet is around 10 μm. The nozzle diameter has a greater influence on the jet penetration depth than does the liquid/gas momentum flux ratio.
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来源期刊
CiteScore
4.50
自引率
4.30%
发文量
35
审稿时长
11 weeks
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