NUMERICAL SIMULATION OF BOILING LIQUID OUTFLOWS PROCESS

IF 0.2 Q4 MATHEMATICS

International Journal of Mathematics and Physics Pub Date : 2021-06-01 DOI:10.26577/ijmph.2021.v12.i1.06

S. Maussumbekova, A. Duysenali

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引用次数: 0

Abstract

. Computational algorithm was developed based on the well-known ANSYS Fluent software package for studying unsteady wave outflow of a saturated liquid from high-pressure pipelines during emergency depressurization. The unsteady processes of the outflow of liquid, boiling as a result of depressurization of high-pressure vessels, have been investigated. The system of equations for the conservation of mass, momentum, and energy in a two-dimensional coordinate system is used in order to create mathematical model this process. The features of the formation of jets of boiling liquid at various equilibrium initial states of water in a high-pressure vessel under conditions close to the experiments carried out by the authors [10] have been studied. The spatial distributions of pressure, temperature and velocity of the forming jet are obtained. Numerical results have shown that, over time, the character of the velocity distribution acquires a conical shape. With an increase in the initial temperature and pressure, this distribution is preserved, and the opening angle increases. The results are in qualitative agreement with the experimental data.

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沸腾液体流出过程的数值模拟

基于著名的ANSYS Fluent软件包开发了计算算法，用于研究紧急降压过程中饱和液体从高压管道中的非定常波流出。研究了高压容器减压引起的液体流出和沸腾的非稳态过程。为了创建这一过程的数学模型，使用了二维坐标系中的质量、动量和能量守恒方程组。已经研究了在与作者[10]进行的实验接近的条件下，在高压容器中，在水的各种平衡初始状态下形成沸腾液体射流的特征。得到了成形射流的压力、温度和速度的空间分布。数值结果表明，随着时间的推移，速度分布的特征呈现圆锥形。随着初始温度和压力的增加，这种分布得到了保留，开口角也增加了。结果与实验数据在质量上一致。

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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来源期刊

International Journal of Mathematics and Physics Multiple-

CiteScore

0.30

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