关于两相流系统中出现的静态热不稳定性的分析

IF 3.6 2区 工程技术 Q1 MECHANICS
C. Taber Wanstall , Gabriel Ferraiuolo , Abdeel Román
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引用次数: 0

摘要

在本研究中,我们研究了发生在两相流动系统中的一种新型静态热不稳定性。经理论和实验证实,这种不稳定性发生在流动沸腾微通道情景和流动冷凝情景中。所提出的理论与蒸发器的几何形状以及流动沸腾/冷凝情况无关。采用雷诺输运法推导出了适用于两相泵送回路(TPPL)系统蒸发器的稳定性标准。然后,使用包含平行微通道蒸发器的 TPPL 对该理论进行了实验验证。在蒸发器出口处采集的压力、温度和空隙率测量值证实了不稳定性。研究结果表明,在同时增加热量和降低系统饱和温度的情况下(反之亦然),会出现静态热不稳定性。热不稳定性的影响导致蒸发器热通量的急剧变化,以及从分层层流到高空隙率的剧烈湍流的流动转变。通过识别额外的不稳定机制,这项工作有助于提高 TPPL 系统的可靠性和可预测性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

On the analysis of static thermal instabilities occurring in two-phase flow systems

On the analysis of static thermal instabilities occurring in two-phase flow systems

In this study, we investigate a novel type of static thermal instability that occurs in two-phase flow systems. The instability is theoretically and experimentally confirmed to occur for flow boiling micro-channel scenarios and flow condensing scenarios. The theory presented is independent of the evaporator geometry as well as flow boiling/condensing situations. A stability criteria is derived using a Reynolds Transport approach applied to the evaporator of a two-phase pumped loop (TPPL) system. The theory is then validated experimentally using a TPPL containing a parallel micro-channel evaporator. The instability is confirmed with pressure, temperature, and void fraction measurements acquired at the exit of the evaporator. The findings reveal that static thermal instabilities can arise when simultaneous heat addition and reduction in system saturation temperature occurs (or vice versa). The implications of the thermal instability result in dramatic changes in evaporator heat flux, as well as a flow transition from stratified laminar flow to vigorous turbulent flow with high void fractions. By identifying the additional instability mechanisms, this work contributes to enhancing system reliability and predictability of TPPL systems.

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来源期刊
CiteScore
7.30
自引率
10.50%
发文量
244
审稿时长
4 months
期刊介绍: The International Journal of Multiphase Flow publishes analytical, numerical and experimental articles of lasting interest. The scope of the journal includes all aspects of mass, momentum and energy exchange phenomena among different phases such as occur in disperse flows, gas–liquid and liquid–liquid flows, flows in porous media, boiling, granular flows and others. The journal publishes full papers, brief communications and conference announcements.
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