On the Morphodynamics of a Wide Class of Large Scale Meandering Rivers: Insights Gained by Coupling LES With Sediment Dynamics

doi:10.1029/2022MS003257

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	On the Morphodynamics of a Wide Class of Large Scale Meandering Rivers: Insights Gained by Coupling LES With Sediment Dynamics
	Khosronejad, Ali ; Limaye, AjayB.B.; Zhang, Zexia ; Kang, Seokkoo 2; Yang XL(杨晓雷); Sotiropoulos, Fotis 4
发表期刊	JOURNAL OF ADVANCES IN MODELING EARTH SYSTEMS
	2023-03
卷号	15 期号:3
摘要	In meandering rivers, interactions between flow, sediment transport, and bed topography affect diverse processes, including bedform development and channel migration. Predicting how these interactions affect the spatial patterns and magnitudes of bed deformation in meandering rivers is essential for various river engineering and geoscience problems. Computational fluid dynamics simulations can predict river morphodynamics at fine temporal and spatial scales but have traditionally been challenged by the large scale of natural rivers. We conducted coupled large eddy simulation and bed morphodynamics simulations to create a unique database of hydro morphodynamic data sets for 42 meandering rivers with a variety of planform shapes and large scale geometrical features that mimic natural meanders. For each simulated river, the database includes (a) bed morphology, (b) three dimensional mean velocity field, and (c) bed shear stress distribution under bankfull flow conditions. The calculated morphodynamics results at dynamic equilibrium revealed the formation of scour and deposition patterns near the outer and inner banks, respectively, while the location of point bars and scour regions around the apexes of the meander bends is found to vary as a function of the radius of curvature of the bends to the width ratio. A new mechanism is proposed that explains this seemingly paradoxical finding. The high fidelity simulation results generated in this work provide researchers and scientists with a rich numerical database for morphodynamics and bed shear stress distributions in large scale meandering rivers to enable systematic investigation of the underlying phenomena and support a range of river engineering applications.
关键词	large eddy simulation morphodynamics meandering river sediment transport turbulence
DOI	10.1029/2022MS003257
收录类别	SCI
语种	英语
WOS记录号	WOS:000951090000001
WOS研究方向	Meteorology & Atmospheric Sciences
WOS类目	Meteorology & Atmospheric Sciences
项目资助者	National Science Foundation Hydrology and Geomorphology and Land use Dynamics Program [EAR 0120914, EAR 1823530] ; U.S. Department of Energy's Office of Energy Efficiency and Renewable Energy (EERE) under Water Power Technologies Office (WPTO) [DE EE0009450] ; Institute for Advanced Computational Sciences at Stony Brook University
论文分区	一类
力学所作者排名	3+
RpAuthor	Khosronejad, A (corresponding author), SUNY Stony Brook, Civil Engn Dept, Stony Brook, NY 11794 USA.
引用统计	被引频次：3[WOS] [WOS记录] [WOS相关记录]
文献类型	期刊论文
条目标识符	http://dspace.imech.ac.cn/handle/311007/91797
专题	非线性力学国家重点实验室
作者单位	1.SUNY Stony Brook, Civil Engn Dept, Stony Brook, NY 11794 USA 2.Limaye, Ajay B. B.] Univ Virginia, Dept Environm Sci, Charlottesville, VA USA 3.Hanyang Univ, Dept Civil & Environm Engn, Seoul, South Korea 4.Chinese Acad Sci, Inst Mech, State Key Lab Nonlinear Mech, Beijing, Peoples R China 5.Virginia Commonwealth Univ, Dept Mech & Nucl Engn, Richmond, VA USA
推荐引用方式 GB/T 7714	Khosronejad, Ali,Limaye, AjayB.B.,Zhang, Zexia,et al. On the Morphodynamics of a Wide Class of Large Scale Meandering Rivers: Insights Gained by Coupling LES With Sediment Dynamics[J]. JOURNAL OF ADVANCES IN MODELING EARTH SYSTEMS,2023,15,3,.
APA	Khosronejad, Ali,Limaye, AjayB.B.,Zhang, Zexia,Kang, Seokkoo,杨晓雷,&Sotiropoulos, Fotis.(2023).On the Morphodynamics of a Wide Class of Large Scale Meandering Rivers: Insights Gained by Coupling LES With Sediment Dynamics.JOURNAL OF ADVANCES IN MODELING EARTH SYSTEMS,15(3).
MLA	Khosronejad, Ali,et al."On the Morphodynamics of a Wide Class of Large Scale Meandering Rivers: Insights Gained by Coupling LES With Sediment Dynamics".JOURNAL OF ADVANCES IN MODELING EARTH SYSTEMS 15.3(2023).

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