Unsteady Dynamics of Free-Interface Gravitational Liquid Sheet Flows

14th WCCM-ECCOMAS Congress Pub Date : 2021-03-11 DOI:10.23967/WCCM-ECCOMAS.2020.351

Alessandro Della Pia, M. Chiatto, L. Luca

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Abstract

. Numerical simulations of gravitational planar liquid sheet ﬂows, interacting with unconﬁned gaseous environments located on both sides of the liquid phase, are performed through Volume-of-Fluid (VOF) technique. The global unsteady dynamics of the non-parallel ﬂow is analyzed by perturbing the initial steady conﬁguration by means of a Gaussian bump in the transverse velocity component of relatively very small amplitude, thereby exciting sinuous modes. Thanks to the development of a theoretical linear one-dimensional model, more physical insights are gained on the ﬂow system. It is found that surface tension plays a stabilizing role for the gravitational sheet, and for relatively high values of density ratio r ρ of gaseous-to-liquid phases it becomes unstable. An analogy is shown between the global unstable behavior exhibited by the liquid sheet as r ρ increases, and the shear-induced global instability found by Tammisola et al. [“Surface tension-induced global instability of planar jets and wakes”, J. Fluid Mech. 713 , 632–658 (2012)] for planar jet and wake ﬂows of two immiscible ﬂuids in the presence of surface tension.

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自由界面重力液片流动的非定常动力学

。利用流体体积(VOF)技术对重力平面液片流与液相两侧无约束气体环境相互作用进行了数值模拟。通过在横向速度分量中施加一个相对非常小振幅的高斯凸波扰动初始定常结构，从而激发正弦模态，分析了非平行流动的全局非定常动力学。由于理论线性一维模型的发展，对流动系统有了更多的物理认识。发现表面张力对重力片起稳定作用，当气液相密度比r ρ值较高时，引力片就变得不稳定。当r ρ增加时，液片表现出的全局不稳定行为与Tammisola等人发现的剪切引起的全局不稳定[“平面射流和尾迹的表面张力引起的全局不稳定”，J.流体力学，713,632-658(2012)]在存在表面张力的情况下，两种不混相流体的平面射流和尾迹流动。

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14th WCCM-ECCOMAS Congress

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