带阻尼挡板的储罐中粘性液体内部流动的结构

V. Kovalev, Wei Chenyu
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引用次数: 0

摘要

含有大量液体的现代运动物体需要确保运动轨迹的稳定性、操纵过程中的控制可靠性,以及预测和防止极端运动条件的能力。本文提供了关于粘性不可压缩流体在具有内部阻尼挡板的储罐中惯性流动的研究结果的综述材料。为了对液体侧的共振激励施加力,并补偿运动物体的不稳定性,对电流影响装置的合理结构进行了分析和设计。在最有效的阻尼方法中,应注意安装在储罐中的各种设计的刚性内部挡板,这些挡板最有可能发生共振流体运动的不稳定性和激励源。平面刚性隔板、异形可渗透阻尼表面、穿孔和保持元件、表面张力导致的液体奴役物等,都需要进行全面详细的研究和分析。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The structure of viscous liquid internal flows in tanks with damping baffles
Modern moving objects containing large volumes of liquid need to ensure stability on the movement trajectory, reliability of control during maneuvers, as well as the ability to predict and prevent extreme movement conditions. The presented article provides review materials devoted to the research results into inertial flows of viscous incompressible fluid in tanks with internal damping baffles. In order to exert force on resonant excitations from the liquid side and to compensate for the instabilities of moving objects, the analysis and design of rational structures of influence means on currents is carried out. Among the most effective means of damping should be noted rigid internal baffles of various designs installed in tanks in the most likely areas where instabilities and sources of excitation of resonant fluid movements may occur. Flat rigid partitions, profiled permeable damping surfaces, perforated and retaining elements, enslavers of liquid due to surface tension forces, etc., require comprehensive and detailed study and analysis.
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