Improved streambank countermeasures: the Des Moines River (USA) case study
In the Midwestern USA, bank erosion is a common hazard due to the high erodibility of the bank soils. In this paper, an improved methodology aimed at identifying the optimal countermeasures to control bank erosion was developed and applied in two sites of the Des Moines River (USA). In situ flow mea...
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| Published in | International journal of river basin management Vol. 12; no. 1; pp. 69 - 86 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
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Abingdon
Taylor & Francis
02.01.2014
Taylor & Francis Ltd |
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| Abstract | In the Midwestern USA, bank erosion is a common hazard due to the high erodibility of the bank soils. In this paper, an improved methodology aimed at identifying the optimal countermeasures to control bank erosion was developed and applied in two sites of the Des Moines River (USA). In situ flow measurements, bed bathymetry and soil properties were collected for providing boundary conditions and parameters of the two-dimensional, depth-averaged hydrodynamic finite element surface water modeling system (FESWMS) model. The model was used to compare the hydraulic performances of four streambank countermeasures: riprap lining (referred to as S1); a series of barbs (S2); alternating barbs and spurs (S3); and the combination of barbs with lining (S4). A key feature of FESWMS was its ability to simulate the wetting/drying conditions of mesh elements, which allowed the simulations of unsubmerged or partially submerged structures for different hydraulic conditions. This research showed that the combination of alternating barbs and spurs (S3) was the only design which provided protection during overbank flows at a competitive cost compared to the other designs analysed. The uniqueness of this methodology is found in the coupling of field measurements and theoretical approaches for depth-averaged velocity profiles to calibrate and validate a hydrodynamic model; and in the proposed design to protect streambanks from severe erosion. |
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| AbstractList | In the Midwestern USA, bank erosion is a common hazard due to the high erodibility of the bank soils. In this paper, an improved methodology aimed at identifying the optimal countermeasures to control bank erosion was developed and applied in two sites of the Des Moines River (USA). In situ flow measurements, bed bathymetry and soil properties were collected for providing boundary conditions and parameters of the two-dimensional, depth-averaged hydrodynamic finite element surface water modeling system (FESWMS) model. The model was used to compare the hydraulic performances of four streambank countermeasures: riprap lining (referred to as S1); a series of barbs (S2); alternating barbs and spurs (S3); and the combination of barbs with lining (S4). A key feature of FESWMS was its ability to simulate the wetting/drying conditions of mesh elements, which allowed the simulations of unsubmerged or partially submerged structures for different hydraulic conditions. This research showed that the combination of alternating barbs and spurs (S3) was the only design which provided protection during overbank flows at a competitive cost compared to the other designs analysed. The uniqueness of this methodology is found in the coupling of field measurements and theoretical approaches for depth-averaged velocity profiles to calibrate and validate a hydrodynamic model; and in the proposed design to protect streambanks from severe erosion. [PUBLICATION ABSTRACT] In the Midwestern USA, bank erosion is a common hazard due to the high erodibility of the bank soils. In this paper, an improved methodology aimed at identifying the optimal countermeasures to control bank erosion was developed and applied in two sites of the Des Moines River (USA). In situ flow measurements, bed bathymetry and soil properties were collected for providing boundary conditions and parameters of the two-dimensional, depth-averaged hydrodynamic finite element surface water modeling system (FESWMS) model. The model was used to compare the hydraulic performances of four streambank countermeasures: riprap lining (referred to as S1); a series of barbs (S2); alternating barbs and spurs (S3); and the combination of barbs with lining (S4). A key feature of FESWMS was its ability to simulate the wetting/drying conditions of mesh elements, which allowed the simulations of unsubmerged or partially submerged structures for different hydraulic conditions. This research showed that the combination of alternating barbs and spurs (S3) was the only design which provided protection during overbank flows at a competitive cost compared to the other designs analysed. The uniqueness of this methodology is found in the coupling of field measurements and theoretical approaches for depth-averaged velocity profiles to calibrate and validate a hydrodynamic model; and in the proposed design to protect streambanks from severe erosion. |
| Author | Bressan, Filippo Wilson, Christopher George Papanicolaou, A.N. Thanos |
| Author_xml | – sequence: 1 givenname: Filippo surname: Bressan fullname: Bressan, Filippo organization: Postdoctoral Research Associate, IIHR - Hydroscience & Engineering, University of Iowa – sequence: 2 givenname: Christopher George surname: Wilson fullname: Wilson, Christopher George organization: Assistant Research Professor, Department of Civil & Environmental Engineering, The University of Tennessee – sequence: 3 givenname: A.N. Thanos surname: Papanicolaou fullname: Papanicolaou, A.N. Thanos email: tpapanic@utk.edu organization: Professor and Goodrich Chair of Excellence, Department of Civil & Environmental Engineering, The University of Tennessee |
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| Snippet | In the Midwestern USA, bank erosion is a common hazard due to the high erodibility of the bank soils. In this paper, an improved methodology aimed at... |
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| SubjectTerms | Bank erosion barbs Computational fluid dynamics Countermeasures depth-averaged numerical model Design engineering Earth sciences Earth, ocean, space Exact sciences and technology Fluid flow Freshwater Hydrology Hydrology. Hydrogeology lining Marine and continental quaternary Mathematical models Military technology performance evaluation Rivers spurs Streambanks Surface water Surficial geology |
| Title | Improved streambank countermeasures: the Des Moines River (USA) case study |
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