The paper began with a literature review of liquid jet breakup mechanism and nozzle internal flow which was helpful in identifying the relative importance of phenomena such as cavitation.
本文首先阐述了射流破碎机制、喷孔内部的高速流动及气穴现象。
参考来源 - 喷油系统气穴流动及燃油特性分析·2,447,543篇论文数据,部分数据来源于NoteExpress
It is also found that the size of breakup of a liquid jet is always larger than the most unstable wavelength given by linear instability theory.
液体射流的实际破碎尺寸要大于线性稳定性理论的预测结果。
In supersonic flow, results indicate that the disintegration of the jet column is caused by the surface waves induced by aerodynamic forces and the breakup point is at the wave trough.
结果表明:在超声速气流中,射流柱破碎是由迎风面的表面波引起的,破碎点位于表面波的波谷。
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