Large–Eddy Simulation of the Flow Inside a Scour Hole Around a Circular Cylinder Using a Cut Cell Immersed Boundary Method

IF 2 3区 工程技术 Q3 MECHANICS Flow, Turbulence and Combustion Pub Date : 2022-11-02 DOI:10.1007/s10494-022-00379-x
Lukas Unglehrt, Ulrich Jenssen, Fabian Kurz, Wolfgang Schanderl, Johannes Kreuzinger, Florian Schwertfirm, Michael Manhart
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引用次数: 1

Abstract

We present a novel symmetry-preserving cut cell finite volume method which is a three-dimensional generalisation of the method by Dröge and Verstappen (Int J Numer Method Fluids 47:979–985, 2005). A colour-coding scheme for the three-dimensional cut momentum cell faces reduces the number of possible cut cell configurations. A cell merging strategy is employed to alleviate time step constraints. We demonstrate the energy conservation property of the convective and pressure gradient terms, and the second-order spatial convergence with suitable benchmark cases. We used the scheme to perform highly resolved large–eddy simulations of the flow inside a scour hole around a circular cylinder mounted vertically in a flume. The simulation results are extensively compared to a stereoscopic particle image velocimetry experiment of the same configuration performed by Jenssen and Manhart (Exp Fluids 61:217, 2020). We demonstrate that for the investigated Reynolds numbers (20,000 and 40,000) nearly converged solutions are obtained; however at large computational efforts (up to 2.35 billion cells for the higher Reynolds number). It turns out that the flow topology of the horseshoe vortex system is strongly dependent on the grid resolution. For simulation results obtained on the finest grid, the mean flow and turbulence quantities agree well with the experiment. We investigate the shape and turbulence structure of the horseshoe vortex based on three-dimensional fields, and discuss the distribution of the mean and standard deviation of the wall shear stress in the scour hole and the implications for the physics of the scouring process over a sand bed.

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用切胞浸入边界法模拟圆柱冲刷孔内大涡流动
我们提出了一种新的保持对称的切割单元有限体积方法,它是Dröge和Verstappen (Int J numerical method fluid 47:979-985, 2005)方法的三维推广。三维切割动量细胞表面的颜色编码方案减少了可能的切割细胞配置的数量。采用单元合并策略减轻了时间步长约束。在适当的基准情况下,我们证明了对流和压力梯度项的能量守恒性,以及二阶空间收敛性。我们使用该方案对垂直安装在水槽中的圆柱周围的冲刷孔内的流动进行了高分辨率的大涡模拟。模拟结果与Jenssen和Manhart进行的相同构型的立体颗粒图像测速实验(Exp fluid 61:217, 2020)进行了广泛的比较。我们证明了对于所研究的雷诺数(20,000和40,000),我们得到了近似收敛的解;然而,在大的计算工作量(高达23.5亿个细胞的高雷诺数)。结果表明,马蹄形涡系统的流动拓扑结构强烈依赖于网格分辨率。在最细网格上的模拟结果表明,平均流动和湍流量与实验结果吻合较好。研究了基于三维场的马蹄形涡的形状和湍流结构,讨论了冲刷孔壁面剪应力的均值和标准差分布及其对砂床冲刷过程的物理意义。
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来源期刊
Flow, Turbulence and Combustion
Flow, Turbulence and Combustion 工程技术-力学
CiteScore
5.70
自引率
8.30%
发文量
72
审稿时长
2 months
期刊介绍: Flow, Turbulence and Combustion provides a global forum for the publication of original and innovative research results that contribute to the solution of fundamental and applied problems encountered in single-phase, multi-phase and reacting flows, in both idealized and real systems. The scope of coverage encompasses topics in fluid dynamics, scalar transport, multi-physics interactions and flow control. From time to time the journal publishes Special or Theme Issues featuring invited articles. Contributions may report research that falls within the broad spectrum of analytical, computational and experimental methods. This includes research conducted in academia, industry and a variety of environmental and geophysical sectors. Turbulence, transition and associated phenomena are expected to play a significant role in the majority of studies reported, although non-turbulent flows, typical of those in micro-devices, would be regarded as falling within the scope covered. The emphasis is on originality, timeliness, quality and thematic fit, as exemplified by the title of the journal and the qualifications described above. Relevance to real-world problems and industrial applications are regarded as strengths.
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