2019
DOI: 10.3390/w11101971
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Experimental Investigation of Flood Energy Dissipation by Single and Hybrid Defense System

Abstract: In this study, a series of laboratory experiments were conducted to investigate the energy loss through the hybrid defense system (HDS) in the order of dike, moat, and emergent vegetation in steady subcritical flow conditions. The results of HDS were compared with a single defense system (SDS) comprising only vegetation (OV). The dimensions of dike were kept constant while two different shapes (trapezoidal and rectangular) of moat were considered. The impacts of vegetation of variable thickness and density wer… Show more

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Cited by 18 publications
(16 citation statements)
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“…However, the variation of relative backwater rise is very small against the selected range of Froude numbers as compared to backwater rise as shown in Figure 2b. It is resulted that the initial depth (ho) has a very small effect on backwater rise as similar results are reported previously (Ahmed & Ghumman, 2019;Anjum & Tanaka, 2019;Pasha & Tanaka, 2017).…”
Section: Effect Of Initial Froude Number (Fr O ) On Backwater Risesupporting
confidence: 88%
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“…However, the variation of relative backwater rise is very small against the selected range of Froude numbers as compared to backwater rise as shown in Figure 2b. It is resulted that the initial depth (ho) has a very small effect on backwater rise as similar results are reported previously (Ahmed & Ghumman, 2019;Anjum & Tanaka, 2019;Pasha & Tanaka, 2017).…”
Section: Effect Of Initial Froude Number (Fr O ) On Backwater Risesupporting
confidence: 88%
“…The density of vegetation can be defined by the ratio of spacing between two cylinders in the cross stream direction (B) to the diameter of cylinder (d) (Takemura & Tanaka, 2007) number of trees in a rectangle with a frontage of unit length along the bank of the river and depth equal to the width of vegetation (Wv) (Pasha & Tanaka, 2019). The selected spacing between the vegetation cylinders (D) are 1.88 cm and 1.25 cm for sparse and intermediate vegetation cases, respectively, same as used previously (Ahmed & Ghumman, 2019). The density (B/d) and thickness (d n ) of vegetation are kept constant for all sparse vegetation cases with angles 90 (90VS), 45 (45VS), and 30 (30VS) and also for all intermediate cases with angles 90 (90VI), 45 (45VI) and 30 (30VI), respectively.…”
Section: Vegetation Conditionsmentioning
confidence: 99%
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“…For example, such experimental studies have been conducted to quantify the reduction of velocity and fluid force of a tsunami wave behind a double layered vegetation [3,4], and to analyze in detail the energy dissipation through composite defense systems comprising of vegetation and backward facing steps [5,6]. Moreover, the combined effects of sea embankments and coastal forests has also been tested [7] against moats with and without vegetation [8] and a double embankment system has been studied experimentally by varying the spacing between the embankments to understand the energy dissipation through it [9]. Many other studies of composite defense structures [10,11] including the analysis of embankment and vegetation with moat [12], embankment upstream barriers [13] have been conducted, in the recent past.…”
Section: Introductionmentioning
confidence: 99%