Numerical Simulation of Local Scour Around Square Artificial Reef

Mingda Yang, Yanli Tang, F. Zhao, Shiji Xu, Guangjie Fang
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引用次数: 1

Abstract

Artificial reefs (ARs) are one of the key man-made constructs to restore the offshore fishery resources and recover the ecological environment. However, it is found that many ARs lost their stability and function due to scour. In order to ensure the functional effect of ARs, it is of great significance to study the instability of ARs, like burying caused by scour in different flow conditions. The three-dimensional numerical model established by FLOW-3D is used to study the local scour characteristics around the AR in steady currents. The RANS equations, closed with the RNG k-ε turbulence model, are established for simulating a stable flow field around one AR. The simulation results are compared with previous experimental results and shows good agreement. Then, the effect of the opening number and the incident angles of ARs on the scour characteristics, the equilibrium scour depth and maximum scour volume are investigated. The results indicate that the scour depth and scour volume decrease with the increasing opening number. Moreover, the empirical equations of the effect of the opening number of the AR on the equilibrium scour depth and maximum scour volume are proposed based on the numerical results. The change of the incident angles will affect the change of bed shear stress at the most upstream corner of the AR. The greater bed shear stress results in a more intense scour. This study will provide theoretical support, and practical guidance for the optimized engineering design and construction of ARs.
方形人工鱼礁周围局部冲刷数值模拟
人工鱼礁是恢复近海渔业资源和恢复生态环境的关键人工设施之一。然而,我们发现许多ar由于冲刷而失去了稳定性和功能。为了保证活性氧的功能效果,研究不同流动条件下活性氧的不稳定性,如冲刷引起的埋地等具有重要意义。利用FLOW-3D软件建立的三维数值模型,研究了稳流条件下AR周围的局部冲刷特性。采用RNG k-ε湍流模型建立了RANS方程,并与实验结果进行了比较,结果与实验结果吻合较好。然后,研究了开口数和入射角对冲刷特性、平衡冲刷深度和最大冲刷体积的影响。结果表明:随着开孔数的增加,冲刷深度和冲刷体积减小;在此基础上,提出了开孔数对平衡冲刷深度和最大冲刷体积影响的经验方程。入射角的变化会影响喷砂坝最上游角床层剪应力的变化,床层剪应力越大,冲刷强度越大。本研究将为ar优化工程设计和施工提供理论支持和实践指导。
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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