Flow oscillation fade-out and pool water level effect experiments on open loop passive cooling system

IF 1.9 3区工程技术 Q1 NUCLEAR SCIENCE & TECHNOLOGY

Nuclear Engineering and Design Pub Date : 2025-04-25 DOI:10.1016/j.nucengdes.2025.114087

Joonas Telkkä, Vesa Riikonen, Antti Räsänen, Eetu Kotro, Juhani Hyvärinen

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Abstract

The stable operating conditions for an open loop passive containment heat removal system were identified through testing conducted with the PASI test facility, a half-height wall condenser model at LUT University, Finland. Previous tests have shown that open loop systems tend to operate in a quasi-steady oscillatory mode characterized by geysering and flashing. The cessation of flow oscillations depends on the sparger structure. When flooding of the riser pipeline is prevented, the oscillation fade-out and steady two-phase natural circulation is reached quickly after the system reaches saturation conditions. Conversely, if flooding is allowed, the oscillations disappear only at heating power large enough to meet the countercurrent flow limitation (CCFL) criterion in the riser. The impact of gravity head on the system behavior was also examined. The amplitude of two-phase flow oscillations decreased along the lowering of the pool water level. When the water level decreased below the pressure balancing hole, the flow behavior changed since the riser flooding ended. Additionally, the riser boil-out was tested. The results show that the open-loop natural circulation system can effectively remove heat as long as there is water inventory inside the loop, even if the pool is empty of water. The containment pressure rises only when boiling initiates in the heat exchanger.

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开环被动冷却系统流动振荡淡出及池水位效应试验

通过芬兰LUT大学的半高壁式冷凝器模型PASI测试设施进行的测试，确定了开环被动容器排热系统的稳定运行条件。先前的测试表明，开环系统倾向于以间歇泉和闪烁为特征的准稳定振荡模式运行。流动振荡的停止取决于分散器的结构。防止隔水管淹水后，系统达到饱和状态后，振荡逐渐消失，迅速达到稳定的两相自然循环。相反，如果允许溢流，只有在加热功率大到足以满足立管逆流限制（CCFL）标准时，振荡才会消失。研究了重力头对系统性能的影响。两相流振荡幅值随池水位的降低而减小。当水位下降到压力平衡孔以下时，隔水管注水结束后，流动特性发生变化。此外，还测试了立管沸出。结果表明，开环自然循环系统可以有效地去除热量，只要循环内有水库存，即使池中的水是空的。只有当热交换器中开始沸腾时，容器压力才会上升。

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

Nuclear Engineering and Design 工程技术-核科学技术

CiteScore

3.40

自引率

11.80%

发文量

377

审稿时长

5 months

期刊介绍： Nuclear Engineering and Design covers the wide range of disciplines involved in the engineering, design, safety and construction of nuclear fission reactors. The Editors welcome papers both on applied and innovative aspects and developments in nuclear science and technology. Fundamentals of Reactor Design include: • Thermal-Hydraulics and Core Physics • Safety Analysis, Risk Assessment (PSA) • Structural and Mechanical Engineering • Materials Science • Fuel Behavior and Design • Structural Plant Design • Engineering of Reactor Components • Experiments Aspects beyond fundamentals of Reactor Design covered: • Accident Mitigation Measures • Reactor Control Systems • Licensing Issues • Safeguard Engineering • Economy of Plants • Reprocessing / Waste Disposal • Applications of Nuclear Energy • Maintenance • Decommissioning Papers on new reactor ideas and developments (Generation IV reactors) such as inherently safe modular HTRs, High Performance LWRs/HWRs and LMFBs/GFR will be considered; Actinide Burners, Accelerator Driven Systems, Energy Amplifiers and other special designs of power and research reactors and their applications are also encouraged.