Analysis of Pressure Field on Wire-Wrapped Pin Bundle Surface for Concerns of FSI

Volume 1: Flow Manipulation and Active Control; Bio-Inspired Fluid Mechanics; Boundary Layer and High-Speed Flows; Fluids Engineering Education; Transport Phenomena in Energy Conversion and Mixing; Turbulent Flows; Vortex Dynamics; DNS/LES and Hybrid RANS/LES Methods; Fluid Structure Interaction; Fl Pub Date : 2018-07-15 DOI:10.1115/FEDSM2018-83521

L. Brockmeyer, A. Obabko, E. Merzari, Y. Hassan

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引用次数: 3

Abstract

Wire wrapped fuel pins, typical of sodium fast reactor designs, introduce a strong secondary rotational flow and enhanced mixing compared to bare pins found in many other nuclear reactor designs. The transverse flow is created by deflection off of the helical wires, exerting a force onto the wires. The resulting pressure field can be more intricate than found for bare fuel pins. There is an increased concern for fluid structure interactions such as twisting, bending, and vibration due to the fluid deflection and increased transverse flow. The present study uses LES to simulate the fluid flow in a wire-wrapped fuel pin bundle. The simulation is performed using Nek5000, a spectral element LES/DNS code. The time-dependent, fluctuating pressure field at the surface of select fuel pins are specifically captured for analysis. Statistical analysis is performed on the pressure data to find areas of persistent force or bending moment, which over large periods of time may result in deformation of the pins. Further, the pressure data is analyzed in search of areas with large fluctuations in pressure, which may result in flow induced vibrations. Frequency spectra of the force fluctuations are analyzed.

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考虑FSI的绕线销束表面压力场分析

金属丝包裹燃料销是钠快堆设计的典型，与许多其他核反应堆设计中的裸销相比，它引入了强大的二次旋转流和增强的混合。横向流动是由螺旋线的偏转产生的，对线施加了一个力。由此产生的压力场可能比裸燃料销更为复杂。由于流体偏转和横向流动增加，人们越来越关注流体结构的相互作用，如扭曲、弯曲和振动。本研究利用LES模拟了金属丝包裹燃料销束内的流体流动。模拟使用Nek5000(光谱元素LES/DNS代码)进行。选定燃料销表面随时间变化的波动压力场被专门捕获以供分析。对压力数据进行统计分析，以找到持续力或弯矩的区域，这些区域在很长一段时间内可能导致销钉变形。此外，对压力数据进行分析，寻找可能导致流动诱发振动的压力波动较大的区域。分析了力波动的频谱。

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 1: Flow Manipulation and Active Control; Bio-Inspired Fluid Mechanics; Boundary Layer and High-Speed Flows; Fluids Engineering Education; Transport Phenomena in Energy Conversion and Mixing; Turbulent Flows; Vortex Dynamics; DNS/LES and Hybrid RANS/LES Methods; Fluid Structure Interaction; Fl

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