换热器管破裂动力学建模

IF 2.35
Ahmed Harhara, M.M. Faruque Hasan
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引用次数: 3

摘要

热交换器发生的一个故障是管道破裂,即高压流体流入低压区域的超压情况。这是一个严重的安全问题,可能会导致重大损害。准确预测破裂后的压力积聚对于确定减压装置的适当尺寸和避免超过允许的压力限制至关重要。本文描述了一种基于模型的分步方法,用于预测液-液、汽-液和闪烁液-液系统在管道破裂期间的动态压力分布。考虑了溢流阀的瞬态效应。为了准确地预测最大压力,还必须考虑堵塞流的影响。通过无量纲分析,压力比和密度比对事故的严重程度有显著影响。结果表明,汽液系统产生最大的压力波动。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Dynamic modeling of heat exchanger tube rupture

Dynamic modeling of heat exchanger tube rupture

One fault that occurs with heat exchangers is a tube rupture, an overpressure scenario in which high pressure fluid flows into the low pressure region. It is a serious safety concern that may lead to significant damage. Accurate prediction of the pressure build-up after a rupture is critical to determine the appropriate size of a relief device and avoid exceeding allowable pressure limits. This paper describes a model-based step-by-step methodology to predict dynamic pressure profiles during tube rupture for liquid-liquid, vapor-liquid, and flashing liquid-liquid systems. The transient effects of the relief valve are considered. The effects of choked flow must also be considered for accurate maximum pressure predictions. Using a dimensionless analysis, the pressure ratio and density ratio are shown to significantly impact the severity of this incident. Results show that vapor-liquid systems result in the highest pressure surges.

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