Effects of grain size on subaerial granular landslides and resulting impulse waves: experiment and multi-phase flow simulation

被引:0
作者
Cheng-Hsien Lee
Zhenhua Huang
机构
[1] National Sun Yat-sen University,Department of Marine Environment and Engineering
[2] University of Hawaii at Manoa,Department of Ocean and Resources Engineering, School of Ocean and Earth Science and Technology
来源
Landslides | 2022年 / 19卷
关键词
Multiphase flows; Subaerial landslides; Tsunamis; Water waves;
D O I
暂无
中图分类号
学科分类号
摘要
Subaerial landslides falling into a large body of water can generate large impulse waves (tsunamis). The wave generation by subaerial landslides involves sediment, water and air, and thus multi-phase flow models are most suitable for simulating the processes involved. This paper reports a laboratory and numerical study of impulse waves generated by subaerial landslides, with a focus on grain size effects. Four different grain sizes were examined in this study, ranging from fine sand to very coarse sand. A multi-phase flow model was used to perform the numerical simulations of the laboratory experiment. Both measured and simulated results have shown that the speed of the granular front and the height of the impulse wave increase with decreasing grains size. Possible explanations for the effects of grain size on the landslide process and the resulting waves are discussed.
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页码:137 / 153
页数:16
相关论文
共 204 条
[1]  
Abadie SM(2012)Numerical modeling of tsunami waves generated by the flank collapse of the Cumbre Vieja Volcano (La Palma, Canary Islands): Tsunami source and near field effects J Geophys Res 117 1-26
[2]  
Harris JC(2014)Effective wall slip in chutes and channels: experiments and discrete element simulations Granul Matter 16 377-382
[3]  
Grilli ST(2017)Wavenumber-frequency analysis of landslide-generated tsunamis at a conical island. Part II: EOF and modal analysis Coast Eng 128 84-91
[4]  
Fabre R(2020)Impact of fluidized granular flows into water: implications for tsunamis generated by pyroclastic flows J Geophys Res 125 e2019JB018954-16
[5]  
Artoni R(2020)Numerical modelling of tsunamis generated by iceberg calving validated with large-scale laboratory experiments Adv Water Resour 142 103647-452
[6]  
Santomaso A(2020)A comprehensive review of the worldwide existing tsunami databases J Earthq Tsunami 14 2040003-50
[7]  
Bellotti G(2009)Landslide-generated tsunamis runup at the coast of a conical island: new physical model experiments J Geophys Res 114 1-532
[8]  
Romano A(1989)The 1946 Mount Colonel Foster rock avalanche and associated displacement wave, Vancouver Island, British Columbia Can Geotech J 26 447-302
[9]  
Bougouin A(2019)Spatial impulse wave generation and propagation J Waterw Port Coast Ocean Eng 145 04019011-391
[10]  
Paris R(2003)Long-surface-wave instability in dense granular flows J Fluid Mech 486 21-155
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