Simulating channel bifurcation flows with weirs for flood risk reduction
Weir is widely used for controlling the flow discharges and water levels of a bifurcated river for flood risk reduction. The effects of weir on the bifurcation flow properties and hydrodynamic processes were not systematically studied by previous research, some of these have limitations and only sho...
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Research Laboratory in Subterranean and Surface Hydraulics, University of Biskra
2022
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my.utm.1027562023-09-20T03:50:00Z http://eprints.utm.my/id/eprint/102756/ Simulating channel bifurcation flows with weirs for flood risk reduction Ng, Kai Jia Tan, Cha Yao Selvarajoo, Anurita Mohd. Haniffah, Mohd. Ridza Kasiman, Erwan Hafizi Lai, Sai Hin Yuan, Dekui Teo, Fang Yenn TA Engineering (General). Civil engineering (General) Weir is widely used for controlling the flow discharges and water levels of a bifurcated river for flood risk reduction. The effects of weir on the bifurcation flow properties and hydrodynamic processes were not systematically studied by previous research, some of these have limitations and only showed that the discharge ratios were varied by the changes of weir height. Thus, there is a need to further explore on the effect of overall weir geometry and weir location on flow properties. In this study, an one-dimensional (1D) numerical model of Hydrological Engineering Centre-River Analysis System (HEC-RAS) has been applied to simulate an idealised channel with the applications of a variety of weir geometries at various locations. The model has been set to simulate a U-shaped main channel with two identical U-shaped bifurcated channels. Simulations have been undertaken for the weirs with cross-sectional shapes of rectangular, Cipolletti (trapezoidal), and V-notch (triangular). Comparisons of velocity profiles and water elevations with different Froude numbers have been undertaken. The results present the relationships of the outlet discharge ratio and velocity ratio to weir height, crest length, and crest angle ratio with different cross-sectional shapes and locations of weir. The findings show that flood risks could be potentially reduced by understanding the flow behaviours of channel bifurcation with presence of weirs as controlled structure. Research Laboratory in Subterranean and Surface Hydraulics, University of Biskra 2022 Article PeerReviewed Ng, Kai Jia and Tan, Cha Yao and Selvarajoo, Anurita and Mohd. Haniffah, Mohd. Ridza and Kasiman, Erwan Hafizi and Lai, Sai Hin and Yuan, Dekui and Teo, Fang Yenn (2022) Simulating channel bifurcation flows with weirs for flood risk reduction. Larhyss Journal, 2022 (49). pp. 181-196. ISSN 1112-3680 http://larhyss.net/ojs/index.php/larhyss/article/view/820 NA |
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TA Engineering (General). Civil engineering (General) Ng, Kai Jia Tan, Cha Yao Selvarajoo, Anurita Mohd. Haniffah, Mohd. Ridza Kasiman, Erwan Hafizi Lai, Sai Hin Yuan, Dekui Teo, Fang Yenn Simulating channel bifurcation flows with weirs for flood risk reduction |
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Weir is widely used for controlling the flow discharges and water levels of a bifurcated river for flood risk reduction. The effects of weir on the bifurcation flow properties and hydrodynamic processes were not systematically studied by previous research, some of these have limitations and only showed that the discharge ratios were varied by the changes of weir height. Thus, there is a need to further explore on the effect of overall weir geometry and weir location on flow properties. In this study, an one-dimensional (1D) numerical model of Hydrological Engineering Centre-River Analysis System (HEC-RAS) has been applied to simulate an idealised channel with the applications of a variety of weir geometries at various locations. The model has been set to simulate a U-shaped main channel with two identical U-shaped bifurcated channels. Simulations have been undertaken for the weirs with cross-sectional shapes of rectangular, Cipolletti (trapezoidal), and V-notch (triangular). Comparisons of velocity profiles and water elevations with different Froude numbers have been undertaken. The results present the relationships of the outlet discharge ratio and velocity ratio to weir height, crest length, and crest angle ratio with different cross-sectional shapes and locations of weir. The findings show that flood risks could be potentially reduced by understanding the flow behaviours of channel bifurcation with presence of weirs as controlled structure. |
| format |
Article |
| author |
Ng, Kai Jia Tan, Cha Yao Selvarajoo, Anurita Mohd. Haniffah, Mohd. Ridza Kasiman, Erwan Hafizi Lai, Sai Hin Yuan, Dekui Teo, Fang Yenn |
| author_facet |
Ng, Kai Jia Tan, Cha Yao Selvarajoo, Anurita Mohd. Haniffah, Mohd. Ridza Kasiman, Erwan Hafizi Lai, Sai Hin Yuan, Dekui Teo, Fang Yenn |
| author_sort |
Ng, Kai Jia |
| title |
Simulating channel bifurcation flows with weirs for flood risk reduction |
| title_short |
Simulating channel bifurcation flows with weirs for flood risk reduction |
| title_full |
Simulating channel bifurcation flows with weirs for flood risk reduction |
| title_fullStr |
Simulating channel bifurcation flows with weirs for flood risk reduction |
| title_full_unstemmed |
Simulating channel bifurcation flows with weirs for flood risk reduction |
| title_sort |
simulating channel bifurcation flows with weirs for flood risk reduction |
| publisher |
Research Laboratory in Subterranean and Surface Hydraulics, University of Biskra |
| publishDate |
2022 |
| url |
http://eprints.utm.my/id/eprint/102756/ http://larhyss.net/ojs/index.php/larhyss/article/view/820 |
| _version_ |
1778160776903655424 |
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13.211869 |