Derivation of “double-loop” Theory and Mechanism of Cavitation-vortex Interaction in Turbulent Cavitation Boundary Layer

Journal of Fluids Engineering Pub Date : 2024-01-25 DOI:10.1115/1.4064532

Weiwei Jin

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Abstract

“Double-loop” theory was determined by deriving a correlation between turbulent fluctuating kinetic energy and water vapor volume fraction from the momentum equation, which further logically revealed the mystery of cavitation breaking around a three-dimensional symmetry hydrofoil based on the numerical results of large eddy simulation and Zwart-Gerber-Belamri cavitation model. When the second-order fluctuation moment V'xV'x and the streamwise velocity Vx are depleted, a vortex is generated, leading to alternating cavitation interface fluctuations. In one state, cavitation naturally breaks outward from the inner zone, triggering an up-and-down fluctuation in the normal velocity in the gap vortex and transferring external energy to the inner zone. In another state, it triggers a rise in an upward normal velocity in the attached vortex, creating an exchange of energy through the wake. Cavitation collapse caused by a reentrant jet stagnates the reverse Vx so that V'xV'x tends to zero. The pressure implosion resulting from the Shrinkage of the “Like-Rayleigh-Plesset” cavity at cavitation onset is stronger than the pressure implosion created by the vortex field during cavitation breaking.

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湍流空化边界层中空化-涡流相互作用的 "双环 "理论和机制推导

通过动量方程推导出湍流波动动能与水汽体积分数之间的相关性，确定了 "双环 "理论，并根据大涡模拟和 Zwart-Gerber-Belamri 气蚀模型的数值结果，进一步从逻辑上揭示了三维对称水翼周围气蚀破裂的奥秘。当二阶波动力矩V'xV'x和流向速度Vx耗尽时，会产生涡流，导致交替的空化界面波动。在一种状态下，空化自然从内区向外扩散，引发间隙涡流法向速度的上下波动，并将外部能量传递到内区。在另一种状态下，气蚀会引发附着涡旋的法向速度上升，通过尾流产生能量交换。重入射流引起的气蚀坍塌会使反向 Vx 停滞，从而使 V'xV'x 趋于零。空化开始时，"Like-Rayleigh-Plesset "空腔收缩产生的压力内爆强于空化破裂时涡流场产生的压力内爆。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Fluids Engineering

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