Effects of Power Oscillations on Natural Circulation Flow Instability With a Neutronic-Thermo-Hydraulic Loop

Xianbing Chen, Chengyi Long, Dongbao Zhu, P. Gao, Xiaming Kong, Lu Yao
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Abstract

Nuclear power in a water-cooled reactor changes with reactivity under the influence of temperature and void fraction. Effects of power oscillations on natural circulation are experimentally investigated with a neutronic-thermo-hydraulic loop to better understand neutronic-thermo-hydraulic effects. Heating power can be precisely controlled by a DC power supply. Both stable natural circulation flow and flow instability experiments are conducted. Amplitude of flow oscillations increases with the increase of amplitude of power oscillations for the stable natural circulation flow. Period and amplitude of power oscillations are compared with those of flow oscillations. Period of flow oscillations corresponds with the period of power oscillations due to the relative balance between driving force and resistance. Amplitude and period of power oscillations are changed to obtain stability boundary by keeping other parameters constant. Experimental results indicated that small amplitude and short period power oscillations has little influence of the stability boundary. However, power oscillations cause the premature of flow instability when period and amplitude of power oscillations are further increased. The destabilizing effects of power oscillations on natural circulation flow depend on the period and amplitude. The stability region reduces with the increase of amplitude and period of power oscillation in this experimental loop.
功率振荡对中子-热-液压回路自然循环流动不稳定性的影响
在温度和空隙率的影响下,水冷堆中的核电功率随反应性的变化而变化。为了更好地理解中子-热-液压效应,利用中子-热-液压回路实验研究了功率振荡对自然循环的影响。加热功率可以通过直流电源精确控制。进行了稳定自然循环流动和不稳定流动实验。对于稳定的自然循环流,随着功率振荡幅值的增大,流量振荡幅值也随之增大。比较了功率振荡和流量振荡的周期和幅值。由于动力与阻力的相对平衡,流量振荡周期与功率振荡周期相对应。在保持其他参数不变的情况下,改变功率振荡的幅值和周期,得到稳定边界。实验结果表明,小幅度、短周期的功率振荡对稳定边界的影响较小。但功率振荡周期和振幅的进一步增大,会导致流动失稳过早发生。电力振荡对自然环流的破坏作用取决于周期和振幅。随着功率振荡幅度和周期的增大,稳定区减小。
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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