The behavior of a steam generator tube in a cross flow is examined by coupling the ABAQUS structural analysis code to Large-Eddy Simulation (LES) within the FLUENT Computational Fluid Dynamics solver.rnThe moving tube is assumed to be within an infinite staggered array of other tubes, the centers being separated in the streamwise direction by 1.31 times the tube diameter and in the cross-stream direction by 2.73 times the tube diameter of 0.688 inches. The Reynolds number based upon total mass flow and one tube diameter is 1.0 X 10~5, indicating a transcritical regime, meaning that the boundary layer is expected to be transitional.rnThe study begins with investigation of free two degree-of-freedom simulations of an individual tube, which are performed at low Reynolds number (3,800), where results are compared favorably to experimental results. High Reynolds number (3 X 10~6) two degree-of-freedom single tube simulations are also demonstrated. This is followed by a comparison between experiment and computation of flow past a stationary tube bank. Finally, in-phase free oscillation of the single row of tubes is simulated. System behavior in terms of oscillation frequency and amplitude, along with qualitative flow characteristics are discussed.
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机译:通过将ABAQUS结构分析代码与FLUENT计算流体力学求解器中的大涡模拟(LES)耦合,可以检查蒸汽发生器管在横流中的行为。管的中心沿流向分开为管径的1.31倍,沿横流方向分开为管径0.688英寸的2.73倍。基于总质量流量和一个管直径的雷诺数为1.0 X 10〜5,表明存在跨临界状态,这意味着边界层有望发生过渡。rn该研究从研究自由的两个自由度模拟开始一个单独的试管,以较低的雷诺数(3,800)进行,结果与实验结果相比具有优势。还演示了高雷诺数(3 X 10〜6)的两个自由度单管模拟。接下来是在实验和通过固定管束的流量计算之间的比较。最后,模拟了单排管的同相自由振荡。讨论了根据振荡频率和幅度的系统行为,以及定性的流动特性。
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