Numerical study on wave attenuation of extreme waves by emergent rigid vegetation patch

“…In the vertical direction, 40 σ-mesh layers are applied. As suggested by Jiang et al [75] and Qu et al [63], the drag coefficient (C D ) is set as 1.2 for all computational runs. Figure 5 depicts the spatial distributions of the averaged wave heights under different parameter setups.…”

“…In the real-harsh coastal environment, although the focused waves often occur unexpectedly, their large wave heights can cause massive damages to the coast [59] and impose huge impacting loads at coastal infrastructures, i.e., cylinders [60], seawall [61], and bridges [62]. Recently, complicated interactions between the focused wave groups and emergent rigid vegetation patch on the flat bed were investigated by Qu et al [63]. However, influences of coastal vegetation on the wave runup processes of the focused wave group have not been well understood.…”

Numerical Analysis on Influences of Emergent Vegetation Patch on Runup Processes of Focused Wave Groups

“…In the vertical direction, 40 σ-mesh layers are applied. As suggested by Jiang et al [75] and Qu et al [63], the drag coefficient (C D ) is set as 1.2 for all computational runs. Figure 5 depicts the spatial distributions of the averaged wave heights under different parameter setups.…”

“…In the real-harsh coastal environment, although the focused waves often occur unexpectedly, their large wave heights can cause massive damages to the coast [59] and impose huge impacting loads at coastal infrastructures, i.e., cylinders [60], seawall [61], and bridges [62]. Recently, complicated interactions between the focused wave groups and emergent rigid vegetation patch on the flat bed were investigated by Qu et al [63]. However, influences of coastal vegetation on the wave runup processes of the focused wave group have not been well understood.…”

Numerical Analysis on Influences of Emergent Vegetation Patch on Runup Processes of Focused Wave Groups

“…In more recent studies, Shu et al (2023) [8] studied wave energy reduced by artificial bamboo fences in the laboratory scales, concluding the effect of wave transmission on the wave steepness and the nonlinearity, but the fence's thickness on wave transmission is still hindered. Mancheno et al (2023) [9] and Qu et al (2023) [10] applied the open-source non-hydrostatic model to study wave attenuation over emergent rigid cylinders, which consider wooden fences and vegetations, respectively. While Qu et al (2023) focused on using a numerical model (NHWAVE) to get a further understanding of vegetation densities and width on wave transmission, Mancheno et al (2023) then used the SWASH model to study the effect of distance between cylinders on wave reductions.…”

Effect analysis of wooden fence width on wave transmission by SWASH model

Experimental investigation of wave attenuation and bulk drag coefficient in mangrove forest with complex root morphology