Wave Height Attenuation over a Nature-Based Breakwater of Floating Emergent Vegetation

Abstract: The nature-based breakwater of floating emergent vegetation (BFEV) provides protection for water banks and various engineering structures from wave erosion. Compared with the convenient hard breakwater, the BFEV is beneficial to the resilient and sustainable development of rivers, lakes, coasts, and marine areas because it is free of new pollution. As a new breakwater, the unrevealed effect and efficiency of the BFEV on wave attenuation are to be investigated through a set of 312 physical tests in a rectangula… Show more

“…Floating breakwaters effectively reduce wave energy and erosion. Research on different types of floating breakwaters, such as porous slope breakwaters [16], floating breakwaters for emergent vegetation [17], and floating breakwaters for wetlands [18], have been shown to be able to attenuate waves by a significant percentage of 38% and up to 96%. Factors that influence wave attenuation include wave orbital velocity, wave period, stem spacing, and the ratio of stem spacing to wave height.…”

Enhancing Hydrodynamic Performance of Floating Breakwaters Using Wing Plates

“…Floating breakwaters effectively reduce wave energy and erosion. Research on different types of floating breakwaters, such as porous slope breakwaters [16], floating breakwaters for emergent vegetation [17], and floating breakwaters for wetlands [18], have been shown to be able to attenuate waves by a significant percentage of 38% and up to 96%. Factors that influence wave attenuation include wave orbital velocity, wave period, stem spacing, and the ratio of stem spacing to wave height.…”

Enhancing Hydrodynamic Performance of Floating Breakwaters Using Wing Plates