Effect of Rolling Motion on Flow Instability of Parallel Rectangular Channels of Natural Circulation

Volume 5: Advanced Reactors and Fusion Technologies; Codes, Standards, Licensing, and Regulatory Issues Pub Date : 2018-07-22 DOI:10.1115/ICONE26-81849

Xiao-Yun Wang, Siyang Huang, W. Tian, Lie Chen, S. Qiu, G. Su

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Abstract

In order to study the effect of rolling motion on flow instability of parallel rectangular channels of natural circulation, the natural circulation reactor simulation system is used for physical prototype. And theory analysis model of parallel rectangular channels of natural circulation system under rolling motion is established and coded by Fortran. The results of the program are verified to the experiments, and the results are in good agreement. The flow instability boundaries of different pressure under static and rolling motion are calculated respectively. The results show that: 1) under static condition, with the increase of the pressure, the instability boundary line changes, and the system becomes more stable; 2) under rolling conditions, the heating power of instability boundary decreases comparing to the stable conditions. The instability occurs earlier; 3) the stability of the system decreases with the increasing of rolling amplitude and frequency.

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滚动运动对自然循环平行矩形通道流动不稳定性的影响

为了研究滚动运动对自然循环平行矩形通道流动不稳定性的影响，采用自然循环反应器模拟系统进行物理样机研究。建立了滚动运动下自然循环系统平行矩形通道的理论分析模型，并用Fortran进行了编码。该程序的计算结果与实验结果吻合较好。分别计算了静、滚动运动下不同压力下的流动不稳定边界。结果表明:1)静态条件下，随着压力的增大，不稳定边界线发生变化，系统变得更加稳定;2)在轧制条件下，不稳定边界的发热功率比稳定条件下减小。不稳定发生得更早;3)系统稳定性随滚动幅值和频率的增加而降低。

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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Volume 5: Advanced Reactors and Fusion Technologies; Codes, Standards, Licensing, and Regulatory Issues

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