3-D and 1-D dynamics of slender liquid jets: linear analysis with electric field and accuracy of 1-D models near the breakup

1999 Annual Report Conference on Electrical Insulation and Dielectric Phenomena (Cat. No.99CH36319) Pub Date : 1999-10-17 DOI:10.1109/CEIDP.1999.804659

F. García, A. Castellanos

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引用次数: 3

Abstract

In a previous paper [Phys. Fluids, vol. 6, 2676 (1994)], the authors derived four 1-D models (Lee, Cosserat, averaged, and parabolic models) for slender axisymmetric liquid jets from the Navier-Stokes equations. The error of these 1-D models was calculated for small perturbations, in the absence of electric field. Here, we extend the linear error analysis to both perfectly insulating liquid jets in a tangential electric field and perfectly conducting liquid jets in a radial electric field. The accuracy of these models for studying the breakup, when nonlinear effects are no longer negligible, is also tested in the absence of electric field. A comparison of numerical 3-D solutions with results from 1-D models is made. A formulation of the energy conservation in 1-D models allows identifying and correcting a numerical instability of the averaged model near the breakup. It also explains why the Cosserat model overestimates the breakup time for moderate or large viscosity. Good agreement between 1-D and 3-D numerical results is found.

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细长液体射流的三维和一维动力学:电场线性分析及破裂附近一维模型的精度

在之前的一篇论文中[物理学]。《流体》，vol. 6, 2676(1994)]，作者从Navier-Stokes方程推导出细长轴对称液体射流的四个一维模型(Lee, Cosserat，平均模型和抛物线模型)。在没有电场的情况下，计算了这些一维模型的误差。在这里，我们将线性误差分析扩展到切向电场中完全绝缘的液体射流和径向电场中完全导电的液体射流。当非线性效应不可忽略时，这些模型用于研究破裂的准确性也在没有电场的情况下进行了测试。并将三维数值解与一维模型结果进行了比较。一维模型中的能量守恒公式允许识别和纠正平均模型在破裂附近的数值不稳定性。这也解释了为什么Cosserat模型高估了中等或大粘度的破裂时间。一维和三维数值结果吻合较好。

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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1999 Annual Report Conference on Electrical Insulation and Dielectric Phenomena (Cat. No.99CH36319)

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