A STUDY ON SUDDEN EXPANSION HYDRODYNAMIC PHENOMENA OCCURRING IN CYLINDRICAL PIPES

Q1 Engineering

Architecture and Engineering Pub Date : 2021-12-24 DOI:10.23968/2500-0055-2021-6-4-63-71

A. Sarukhanyan, G. Vermishyan

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Abstract

Introduction: This paper studies the frequency with which hydrodynamic parameters change in the sudden expansion section of axisymmetric pressure flow, based on the boundary layer equations. Methods: The suggested method reveals the regularity of changes in the hydrodynamic parameters of the flow in the transitional area, making it possible to obtain a velocity profile in any cross-section under common initial and boundary conditions. Based on the general solutions, we studied the hydrodynamic processes occurring in the transitional area of the effective sudden cross-section expansion within the axisymmetric pressure movement, in the following cases: a) when the velocity is constant at any point of the inlet face; b) when the velocity is distributed along the inlet face according to the parabolic law. Our calculations were carried out for different values of the expansion factor. Results: Based on the results of the computer-aided experimental study, we obtained velocity diagrams along the length of the transitional area with constant and parabolic velocity distributions for fluid inflowing into the expanded section. We also determined the patterns of pressure distribution along the length of the relevant section.

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圆柱管内突然膨胀水动力现象的研究

引言：本文基于边界层方程，研究了轴对称压力流突扩段水动力参数的变化频率。方法：所提出的方法揭示了过渡区流体动力学参数的变化规律，使在常见的初始和边界条件下获得任何截面的速度剖面成为可能。基于一般解，我们研究了轴对称压力运动中有效突然横截面膨胀过渡区发生的流体动力学过程，具体情况如下：a）当入口面任意点的速度恒定时；b）当速度根据抛物线定律沿入口面分布时。我们对膨胀系数的不同值进行了计算。结果：基于计算机辅助实验研究的结果，我们获得了流入膨胀段的流体沿过渡区长度的速度图，速度分布为常数和抛物线。我们还确定了沿相关截面长度的压力分布模式。

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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