Mathematical modeling for flood mitigation: Effect of bifurcation angles in river flowrates

Mathematical modeling for flood mitigation: Effect of bifurcation angles in river flowrates

This paper investigates the river flowrate at two branches of bifurcated river. The mathematical model fro m the literature is formulated based on momentum principle and mass continuity to cope with river flowrate at different bifurcation angles. The hydraulic variables, geometric properties of trap...

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Main Authors: Zawawi I.S.M., Abdullah N.L., Aris H., Jaafar B.A., Norwaza N.A.H., Mohd Yunos M.H.F.
Other Authors: 55671668500
Format: Article
Published: Horizon Research Publishing 2023
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Institution: Universiti Tenaga Nasional
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spelling my.uniten.dspace-242622023-05-29T15:22:29Z Mathematical modeling for flood mitigation: Effect of bifurcation angles in river flowrates Zawawi I.S.M. Abdullah N.L. Aris H. Jaafar B.A. Norwaza N.A.H. Mohd Yunos M.H.F. 55671668500 55142427500 13608397500 57213194761 57213195071 57213195802 This paper investigates the river flowrate at two branches of bifurcated river. The mathematical model fro m the literature is formulated based on momentum principle and mass continuity to cope with river flowrate at different bifurcation angles. The hydraulic variables, geometric properties of trapezoidal cross-sectional river and other physical characteristics of bifurcated river are provided, which may be assumed to be given beforehand for practical applications. An example of river bifurcation problem is given by UTM Centre for Industrial and Applied Mathematics (UTM-CIAM), Universiti Teknologi Malaysia. Maple software is used to implement the proposed model equation and generate the results. The amount of bifurcated river flowrate with different bifurcation angles is determined, resulting in a reasonable discussion. It is shown that for specific bifurcation angles, the river flowrates after the bifurcated junction are less than the critical flowrate. Finally, the results of applied problem indicate that the right-angled river bifurcation would be preferable to mitigate flood. � 2019 by authors, all rights reserved. Final 2023-05-29T07:22:29Z 2023-05-29T07:22:29Z 2019 Article 10.13189/cea.2019.071406 2-s2.0-85077693311 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85077693311&doi=10.13189%2fcea.2019.071406&partnerID=40&md5=d26d620e5fb21b1be445a2f02cf0c5bc https://irepository.uniten.edu.my/handle/123456789/24262 7 6 50 57 All Open Access, Gold Horizon Research Publishing Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
description This paper investigates the river flowrate at two branches of bifurcated river. The mathematical model fro m the literature is formulated based on momentum principle and mass continuity to cope with river flowrate at different bifurcation angles. The hydraulic variables, geometric properties of trapezoidal cross-sectional river and other physical characteristics of bifurcated river are provided, which may be assumed to be given beforehand for practical applications. An example of river bifurcation problem is given by UTM Centre for Industrial and Applied Mathematics (UTM-CIAM), Universiti Teknologi Malaysia. Maple software is used to implement the proposed model equation and generate the results. The amount of bifurcated river flowrate with different bifurcation angles is determined, resulting in a reasonable discussion. It is shown that for specific bifurcation angles, the river flowrates after the bifurcated junction are less than the critical flowrate. Finally, the results of applied problem indicate that the right-angled river bifurcation would be preferable to mitigate flood. � 2019 by authors, all rights reserved.
author2 55671668500
author_facet 55671668500
Zawawi I.S.M.
Abdullah N.L.
Aris H.
Jaafar B.A.
Norwaza N.A.H.
Mohd Yunos M.H.F.
format Article
author Zawawi I.S.M.
Abdullah N.L.
Aris H.
Jaafar B.A.
Norwaza N.A.H.
Mohd Yunos M.H.F.
spellingShingle Zawawi I.S.M.
Abdullah N.L.
Aris H.
Jaafar B.A.
Norwaza N.A.H.
Mohd Yunos M.H.F.
Mathematical modeling for flood mitigation: Effect of bifurcation angles in river flowrates
author_sort Zawawi I.S.M.
title Mathematical modeling for flood mitigation: Effect of bifurcation angles in river flowrates
title_short Mathematical modeling for flood mitigation: Effect of bifurcation angles in river flowrates
title_full Mathematical modeling for flood mitigation: Effect of bifurcation angles in river flowrates
title_fullStr Mathematical modeling for flood mitigation: Effect of bifurcation angles in river flowrates
title_full_unstemmed Mathematical modeling for flood mitigation: Effect of bifurcation angles in river flowrates
title_sort mathematical modeling for flood mitigation: effect of bifurcation angles in river flowrates
publisher Horizon Research Publishing
publishDate 2023
_version_ 1806426174827528192

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