SPH Simulation of Hydraulic Jump on Corrugated Riverbeds

Gu, Shenglong; Bo, Fuping; Luo, Min; Kazemi, Ehsan; Zhang, Yunyun; Wei, Jiahua

doi:10.3390/app9030436

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SPH Simulation of Hydraulic Jump on Corrugated Riverbeds

Shenglong Gu, Fuping Bo, Min Luo

, Ehsan Kazemi, Yunyun Zhang, Jiahua Wei

Applied Sciences, Volume: 9, Issue: 3, Start page: 436

Swansea University Author: Min Luo

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DOI (Published version): 10.3390/app9030436

Abstract

This paper presents a numerical study of the hydraulic jump on corrugated riverbed using the Smoothed Particle Hydrodynamics (SPH) method. By simulating an experimental benchmark example, the SPH model is demonstrated to predict the wave profile, velocity field, and energy dissipation rate of hydrau...

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Published in:	Applied Sciences
ISSN:	2076-3417
Published:	MDPI AG 2019
Online Access:	Check full text
URI:	https://cronfa.swan.ac.uk/Record/cronfa48815

first_indexed	2019-02-13T18:50:53Z
last_indexed	2020-10-20T02:58:50Z
id	cronfa48815
recordtype	SURis
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spelling	2020-10-19T17:47:00.4063139 v2 48815 2019-02-13 SPH Simulation of Hydraulic Jump on Corrugated Riverbeds 91e3463c73c6a9d1f5c025feebe4ad0f 0000-0002-6688-9127 Min Luo Min Luo true false 2019-02-13 This paper presents a numerical study of the hydraulic jump on corrugated riverbed using the Smoothed Particle Hydrodynamics (SPH) method. By simulating an experimental benchmark example, the SPH model is demonstrated to predict the wave profile, velocity field, and energy dissipation rate of hydraulic jump with good accuracy. Using the validated SPH model, the dynamic evolvement of the hydraulic jump on corrugated riverbed is studied focusing on the vortex pattern, jump length, water depth after hydraulic jump, and energy dissipation rate. In addition, the influences of corrugation height and length on the characteristics of hydraulic jump are parametrically investigated. Journal Article Applied Sciences 9 3 436 MDPI AG 2076-3417 SPH; hydraulic jump; corrugated riverbed; energy dissipation 31 12 2019 2019-12-31 10.3390/app9030436 COLLEGE NANME COLLEGE CODE Swansea University 2020-10-19T17:47:00.4063139 2019-02-13T14:06:32.7047519 Faculty of Science and Engineering School of Aerospace, Civil, Electrical, General and Mechanical Engineering - General Engineering Shenglong Gu 1 Fuping Bo 2 Min Luo 0000-0002-6688-9127 3 Ehsan Kazemi 4 Yunyun Zhang 5 Jiahua Wei 6 0048815-13022019141046.pdf gu2019.pdf 2019-02-13T14:10:46.3530000 Output 6331966 application/pdf Version of Record true 2019-02-13T00:00:00.0000000 Distributed under the terms of a Creative Commons Attribution 4.0 (CC-BY) License. true eng https://creativecommons.org/licenses/by/4.0/
title	SPH Simulation of Hydraulic Jump on Corrugated Riverbeds
spellingShingle	SPH Simulation of Hydraulic Jump on Corrugated Riverbeds Min Luo
title_short	SPH Simulation of Hydraulic Jump on Corrugated Riverbeds
title_full	SPH Simulation of Hydraulic Jump on Corrugated Riverbeds
title_fullStr	SPH Simulation of Hydraulic Jump on Corrugated Riverbeds
title_full_unstemmed	SPH Simulation of Hydraulic Jump on Corrugated Riverbeds
title_sort	SPH Simulation of Hydraulic Jump on Corrugated Riverbeds
author_id_str_mv	91e3463c73c6a9d1f5c025feebe4ad0f
author_id_fullname_str_mv	91e3463c73c6a9d1f5c025feebe4ad0f_***_Min Luo
author	Min Luo
author2	Shenglong Gu Fuping Bo Min Luo Ehsan Kazemi Yunyun Zhang Jiahua Wei
format	Journal article
container_title	Applied Sciences
container_volume	9
container_issue	3
container_start_page	436
publishDate	2019
institution	Swansea University
issn	2076-3417
doi_str_mv	10.3390/app9030436
publisher	MDPI AG
college_str	Faculty of Science and Engineering
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hierarchy_top_id	facultyofscienceandengineering
hierarchy_top_title	Faculty of Science and Engineering
hierarchy_parent_id	facultyofscienceandengineering
hierarchy_parent_title	Faculty of Science and Engineering
department_str	School of Aerospace, Civil, Electrical, General and Mechanical Engineering - General Engineering{{{_:::_}}}Faculty of Science and Engineering{{{_:::_}}}School of Aerospace, Civil, Electrical, General and Mechanical Engineering - General Engineering
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description	This paper presents a numerical study of the hydraulic jump on corrugated riverbed using the Smoothed Particle Hydrodynamics (SPH) method. By simulating an experimental benchmark example, the SPH model is demonstrated to predict the wave profile, velocity field, and energy dissipation rate of hydraulic jump with good accuracy. Using the validated SPH model, the dynamic evolvement of the hydraulic jump on corrugated riverbed is studied focusing on the vortex pattern, jump length, water depth after hydraulic jump, and energy dissipation rate. In addition, the influences of corrugation height and length on the characteristics of hydraulic jump are parametrically investigated.
published_date	2019-12-31T13:46:49Z
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score	11.048171

SPH Simulation of Hydraulic Jump on Corrugated Riverbeds

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