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Pregled bibliografske jedinice broj: 1217253

Wave Attenuation by Vegetation: Model Implementation and Validation Study

Abdolali, Ali; Hesser, Tyler J.; Anderson Bryant, Mary; Roland, Aron; Khalid, Arslaan; Smith, Jane; Ferreira, Celso; Mehra, Avichal; Dutour Sikirić, Mathieu
Wave Attenuation by Vegetation: Model Implementation and Validation Study // Frontiers in built environment, 8 (2022), 891612, 13 doi:10.3389/fbuil.2022.891612 (međunarodna recenzija, članak, znanstveni)

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Naslov
Wave Attenuation by Vegetation: Model Implementation and Validation Study

Autori
Abdolali, Ali ; Hesser, Tyler J. ; Anderson Bryant, Mary ; Roland, Aron ; Khalid, Arslaan ; Smith, Jane ; Ferreira, Celso ; Mehra, Avichal ; Dutour Sikirić, Mathieu

Izvornik
Frontiers in built environment (2297-3362) 8 (2022); 891612, 13

Vrsta, podvrsta i kategorija rada
Radovi u časopisima, članak, znanstveni

Ključne riječi
wave-vegetation interaction ; spectral wave model WAVEWATCH III ; wetland hydrodynamics ; hurricane ; marshland

Sažetak
Wave–vegetation interaction is implemented in the WAVEWATCH III (WW3) model. The vegetation sink term followed the early formulations of Dalrymple et al. (Journal of Waterway, Port, Coastal, and Ocean Engineering, 1984, 110, 67–79), which focused on monochromatic waves and vegetation approximated as an array of rigid, vertical cylinders, and was later expanded by Mendez and Losada (Coastal Engineering, 2004, 51, 103–118) for random wave transformations over mildly sloping vegetation fields under breaking and nonbreaking conditions assuming a Rayleigh distribution of wave heights. First, validation is carried out for 63 laboratory cases (Anderson and Smith, 2014) with homogeneous vegetation fields for single and double-peak wave spectra. Then, a field case application is conducted to assess the wave attenuation in a wetland environment with spatially variable vegetation fields during stormy conditions. The case study uses data collected at the Magothy Bay located in the Chesapeake Bay, United States, during Hurricanes Jose and Maria in 2017. The domain decomposition parallelization and the implicit scheme have been used for the simulations to efficiently resolve complex shorelines and high-gradient wave zones, incorporating dominant physics in the complicated coastal zone, including wave breaking, wave–current interaction, bottom friction and scattering, wave–vegetation interaction, and nonlinearity (Abdolali et al., 2020). The lab validation and field application demonstrate that WW3 is an effective tool for evaluating the capacity of wetland natural or nature-based features to attenuate wave energy to achieve coastal flood risk reduction.

Izvorni jezik
Engleski

Znanstvena područja
Interdisciplinarne prirodne znanosti



POVEZANOST RADA

Ustanove:
Institut "Ruđer Bošković", Zagreb

Profili:

Avatar Url Mathieu Dutour Sikirić (autor)

Poveznice na cjeloviti tekst rada:

doi www.frontiersin.org doi.org fulir.irb.hr

Citiraj ovu publikaciju:

Abdolali, Ali; Hesser, Tyler J.; Anderson Bryant, Mary; Roland, Aron; Khalid, Arslaan; Smith, Jane; Ferreira, Celso; Mehra, Avichal; Dutour Sikirić, Mathieu
Wave Attenuation by Vegetation: Model Implementation and Validation Study // Frontiers in built environment, 8 (2022), 891612, 13 doi:10.3389/fbuil.2022.891612 (međunarodna recenzija, članak, znanstveni)
Abdolali, A., Hesser, T., Anderson Bryant, M., Roland, A., Khalid, A., Smith, J., Ferreira, C., Mehra, A. & Dutour Sikirić, M. (2022) Wave Attenuation by Vegetation: Model Implementation and Validation Study. Frontiers in built environment, 8, 891612, 13 doi:10.3389/fbuil.2022.891612.
@article{article, author = {Abdolali, Ali and Hesser, Tyler J. and Anderson Bryant, Mary and Roland, Aron and Khalid, Arslaan and Smith, Jane and Ferreira, Celso and Mehra, Avichal and Dutour Sikiri\'{c}, Mathieu}, year = {2022}, pages = {13}, DOI = {10.3389/fbuil.2022.891612}, chapter = {891612}, keywords = {wave-vegetation interaction, spectral wave model WAVEWATCH III, wetland hydrodynamics, hurricane, marshland}, journal = {Frontiers in built environment}, doi = {10.3389/fbuil.2022.891612}, volume = {8}, issn = {2297-3362}, title = {Wave Attenuation by Vegetation: Model Implementation and Validation Study}, keyword = {wave-vegetation interaction, spectral wave model WAVEWATCH III, wetland hydrodynamics, hurricane, marshland}, chapternumber = {891612} }
@article{article, author = {Abdolali, Ali and Hesser, Tyler J. and Anderson Bryant, Mary and Roland, Aron and Khalid, Arslaan and Smith, Jane and Ferreira, Celso and Mehra, Avichal and Dutour Sikiri\'{c}, Mathieu}, year = {2022}, pages = {13}, DOI = {10.3389/fbuil.2022.891612}, chapter = {891612}, keywords = {wave-vegetation interaction, spectral wave model WAVEWATCH III, wetland hydrodynamics, hurricane, marshland}, journal = {Frontiers in built environment}, doi = {10.3389/fbuil.2022.891612}, volume = {8}, issn = {2297-3362}, title = {Wave Attenuation by Vegetation: Model Implementation and Validation Study}, keyword = {wave-vegetation interaction, spectral wave model WAVEWATCH III, wetland hydrodynamics, hurricane, marshland}, chapternumber = {891612} }

Časopis indeksira:


  • Web of Science Core Collection (WoSCC)
    • Emerging Sources Citation Index (ESCI)
  • Scopus

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