Numerical Simulation of the Large-Scale Huangtian (China) Landslide-Generated Impulse Waves by a GPU-Accelerated Three-Dimensional Soil-Water Coupled SPH Model

doi:10.1029/2022WR034157

IMECH-IR > 流固耦合系统力学重点实验室

	Numerical Simulation of the Large-Scale Huangtian (China) Landslide-Generated Impulse Waves by a GPU-Accelerated Three-Dimensional Soil-Water Coupled SPH Model
	Huang, Can ; Hu, Chao ; An Y(安翼); Shi CQ(石传奇); Feng C(冯春); Wang, Huaning ; Liu, Qingquan; Wang, Xiaoliang
发表期刊	WATER RESOURCES RESEARCH
	2023-06-01
卷号	59 期号:6 页码:e2022WR034157
ISSN	0043-1397
摘要	This work presents an improved soil.water coupling model to simulate landslide-generated impulse waves (LGIWs) in a unified smoothed particle hydrodynamics (SPH) framework, where both water flow and landslide motions are modeled by SPH using an interface coupling technique. Graphics processing unit technology based on an open-source platform DualSPHysics is chosen to employ the landslide dynamics and soil.water interface coupling to achieve the capability of large-scale simulation and high-resolution modeling for three-dimensional LGIW problems. A subaerial landslide-generated water waves, is simulated to demonstrate the accuracy and ability of this model. The Huangtian LGIW is then simulated to reproduce the entire disaster chain, including landslide dynamics, fluid-solid interaction, and surge wave generation. Particle resolution dependence is examined, giving a particle distance of 5.0 m, which can provide a converged landslide deposit and surge wave. The simulation shows that in the Huangtian LGIW, the landslide deposit volume was approximately 41.6 million m(3) (600 m width, 768 m length, and 400 m above the still water level), with an immersed landslide volume of 11.3 million m(3); for the surge wave, the maximum wave and run-up heights were 34.3 and 48 m, respectively. These results are within the estimated ranges of both the landslide and surge wave according to limited field survey data. The case study of the Huangtian LGIW provides a typical reference of how to reproduce a reliable whole process of large scale multi-physical and multiscale LGIW, including full information of landslide dynamics, interface coupling behavior, and surge wave characteristics. Plain Language Summary We developed a graphics processing unit accelerated soil-water coupled smoothed particle hydrodynamics solver to simulate very large-scale landslide generated impulse waves (LGIW). Taking Huangtian LGIW as an example, the validity of the present solver is shown to provide full information of both landslides and impulse waves which are comparable with field data, which could be helpful for large scale LGIW assessments.
关键词	landslide impulse waves SPH GPU convergence analysis large scale
DOI	10.1029/2022WR034157
收录类别	SCI ; EI
语种	英语
WOS记录号	WOS:001022774700001
WOS研究方向	Environmental Sciences & Ecology ; Marine & Freshwater Biology ; Water Resources
WOS类目	Environmental Sciences ; Limnology ; Water Resources
项目资助者	National Key Ramp ; D Program of China [2022YFC3003404] ; National Natural Science Foundation of China [12032005, 12172057]
论文分区	一类
力学所作者排名	3+
RpAuthor	Liu, QQ ; Wang, XL (corresponding author), Beijing Inst Technol, Sch Aerosp Engn, Dept Mech, Beijing, Peoples R China.
引用统计
文献类型	期刊论文
条目标识符	http://dspace.imech.ac.cn/handle/311007/92564
专题	流固耦合系统力学重点实验室
作者单位	1.{Huang, Can, Hu, Chao, Liu, Qingquan, Wang, Xiaoliang} Beijing Inst Technol, Sch Aerosp Engn, Dept Mech, Beijing, Peoples R China 2.{An, Yi, Shi, Chuanqi, Feng, Chun} Chinese Acad Sci, Inst Mech, Beijing, Peoples R China 3.{Wang, Huaning} Tongji Univ, Sch Aerosp Engn & Appl Mech, Shanghai, Peoples R China
推荐引用方式 GB/T 7714	Huang, Can,Hu, Chao,An Y,et al. Numerical Simulation of the Large-Scale Huangtian (China) Landslide-Generated Impulse Waves by a GPU-Accelerated Three-Dimensional Soil-Water Coupled SPH Model[J]. WATER RESOURCES RESEARCH,2023,59,6,:e2022WR034157.
APA	Huang, Can.,Hu, Chao.,安翼.,石传奇.,冯春.,...&Wang, Xiaoliang.(2023).Numerical Simulation of the Large-Scale Huangtian (China) Landslide-Generated Impulse Waves by a GPU-Accelerated Three-Dimensional Soil-Water Coupled SPH Model.WATER RESOURCES RESEARCH,59(6),e2022WR034157.
MLA	Huang, Can,et al."Numerical Simulation of the Large-Scale Huangtian (China) Landslide-Generated Impulse Waves by a GPU-Accelerated Three-Dimensional Soil-Water Coupled SPH Model".WATER RESOURCES RESEARCH 59.6(2023):e2022WR034157.

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