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Wave transmission and drag coefficients through dense cylinder arrays: Implications for designing structures for mangrove restoration
Gijón Mancheño, A.; Jansen, W.; Uijttewaal, W.S.J.; Reniers, A.J.H.M.; van Rooijen, A.A.; Suzuki, T.; Etminan, V.; Winterwerp, J.C. (2021). Wave transmission and drag coefficients through dense cylinder arrays: Implications for designing structures for mangrove restoration. Ecol. Eng. 165: 106231. https://hdl.handle.net/10.1016/j.ecoleng.2021.106231
In: Ecological Engineering. Elsevier: Amsterdam; London; New York; Tokyo. ISSN 0925-8574; e-ISSN 1872-6992, more
Peer reviewed article  

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Keywords
    Coastal protection > Coastal safety against extreme storms > Soft coastal defences
    Physical modelling
Author keywords
    Building with nature; Mangrove restoration; Bamboo structure; Wave dissipation; Wave reflection; Drag coefficient; Dense cylinder arrays; Flume experiments

Project Top | Authors 
  • Supervision internship student on SWASH-VEG model development, more

Authors  Top 
  • Gijón Mancheño, A.
  • Jansen, W.
  • Uijttewaal, W.S.J.
  • Reniers, A.J.H.M.
  • van Rooijen, A.A.
  • Suzuki, T., more
  • Etminan, V.
  • Winterwerp, J.C., more

Abstract
    Mangrove vegetation constitutes a natural coastal defence against waves and erosion. Despite their protective role, mangrove ecosystems have experienced continuous degradation over the last decades due to human causes. At retreating mangrove coastlines, bamboo structures are built to create new habitat for mangrove colonization. Existing structures have experienced mixed rates of success due to the lack of a scientific basis in their design. Optimizing future structure designs requires investigating the effect of the bamboo poles on waves. We consequently conducted laboratory experiments to measure wave transformation, hydrodynamic forces, and flow velocities inside cylinder arrays, mimicking bamboo poles, with varying cylinder configurations and orientations. The experiments provided relationships for wave transmission, wave reflection, and the drag coefficients for configurations with volumetric porosities between n = 0.64 ? 0.9. Configurations with a small lateral spacing (causing higher blockage) and a relatively longer streamwise spacing (causing less sheltering) exhibit larger forces and dissipation per element. Such arrangements enable optimizing wave dissipation at locations where the wave direction has low variability over the year. Placing the poles horizontally instead of vertically increases the forces and wave dissipation per element in relatively deeper water. Based on the experiments, we developed a conceptual analytical model that predicts wave reflection and dissipation through cylinder arrays, including blockage and sheltering. The model can reproduce the influence of cylinder arrangement on wave transformation, and it suggests that accurate predictions of sheltering and wave reflection are important to find optimal designs. Overall, these results provide useful insights on how to model and optimize the design of structures for mangrove restoration.

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