垂直和水平载荷作用下柱体槽内液体的强迫振动

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引用次数: 0

摘要

提出了一种研究液体在部分注入的刚性棱柱形容器中受迫振动的方法。假定液体是一种理想的不可压缩液体,它的运动是由外部影响引起的,是无旋的。在这些假设中,存在一个满足拉普拉斯方程的速度势。给出了该势的边值问题。在水箱的湿润表面选择非渗透条件。在液体的自由表面上,指定了运动和静态条件。静力条件是指自由表面的压力与大气表面的压力相等。液体压力由柯西-拉格朗日积分确定。为了表述运动条件,引入了一个描述自由曲面运动的附加未知函数。运动条件是液体的速度,用速度势来描述,和自由表面本身的速度相等。这些自由振动模态被用作解决油藏中受迫流体振动问题的基本函数系统。未知函数表示为一系列基本函数。这些级数的系数是广义坐标。考虑了作用在垂直和水平方向上的周期性激振力。如果研究垂直激励,这将导致额外加速度的出现。在这里,我们得到了一个无界的Mathieu型微分方程组。这使我们能够研究参数共振现象。当垂直激励频率等于液体振动自身频率的两倍时,考虑了参数共振的影响,得到了在水平力和垂直力的单独作用和相互作用下,自由表面水平随时间变化的依赖关系。给出了带共振指示的动态系统的相位图。该方法允许我们在油藏开采的设计阶段对不期望的激励频率进行调整,以防止稳定性的损失。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Forced liquid vibrations in prismatic tanks under vertical and horizontal loads
The method of studying forced vibrations of a liquid in rigid prismatic tanks partially filed by a liquid is offered. It is supposed that the liquid is an ideal and incompressible one, and its motion, caused by the action of external influences, is irrotational. In these assumptions, there exists a velocity potential that satisfies the Laplace equation. The boundary value problem for this potential is formulated. On the wetted surfaces of the tank the non-penetration conditions are chosen. On the free surface of the liquid, the kinematic and static conditions are specified. The static condition consists in the equality of pressure on the free surface to atmospheric one. The liquid pressure is determined from the Cauchy-Lagrange integral. To formulate the kinematic condition, an additional unknown function is introduced, which describes the motion of the free surface. The kinematic condition is the equality of the velocity of the liquid, which is described by the velocity potential, and the velocity of the free surface itself. These modes of free vibrations are used as a system of basic functions in solving problems of forced fluid vibrations in reservoirs. Unknown functions are presented as series of the basic functions. The coefficients of these series are generalized coordinates. Periodic excitation forces acting in the vertical and horizontal directions are considered. If vertical excitation is studied, this leads to appearance of additional acceleration. Here we obtain a system of unbounded differential equations of the Mathieu type. This allows us to investigate the phenomena of parametric resonance. The effect of parametrical resonance is considered when the vertical excitation frequency is equal to double own frequency of liquid vibrations Dependences of change in the level of free surface via time under both separate and mutual action of horizontal and, vertical forces of are obtained. The phase portraits of a dynamic system with indication of resonances are presented. The method allows us to carry out the adjustment of undesired excitation frequencies at the design stage at reservoir producing in order to prevent the loss of stability.
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