Add to ORKGThis paper presents the application of the open source non-hydrostatic wave-flow model SWASH to wave propagation over a fringing reef, and the results are discussed and compared with observations obtained from a laboratory experiment subjected to various incident wave conditions. This study focus not only on wave breaking, bottom friction, and wave-induced setup and runup, but also on the generation and propagation of infragravity waves beyond the reef crest. Present simulations demonstrate the overall predictive capabilities of the model for a typical coral reef with steep slopes and extended reef flats.Hydraulic EngineeringCivil Engineering and Geoscience
©2019. American Geophysical Union. All Rights Reserved. Wave transformation across reef platforms st...
The accurate prediction of extreme wave run-up is important for effective coastal engineering design...
The prediction of wave transformation and associated hydrodynamics is essential in the design and co...
This paper presents the application of the open source non-hydrostatic wave-flow model SWASH to wave...
This paper presents the application of the open source non-hydrostatic wave-flow model SWASH to wave...
[[abstract]]The shock-capturing non-hydrostatic model NHWAVE is used to study infragravity wave proc...
Peláez-Zapata, D.S.; Montoya, R.D., and Osorio, A.F., 2018. Numerical study of run-up oscillations o...
This paper presents numerical modelling of the nearshore transformation of infragravity waves induce...
Wave breaking on the steep fore-reef slopes of shallow fringing reefs can be effective at dissipatin...
This paper presents numerical modelling of the nearshore transformation of infragravity waves induce...
This thesis reported a comprehensive study of the wave dynamics over fringing coral reefs, including...
This paper presents numerical modelling of the nearshore transformation of infragravity waves induce...
This paper presents the application of the open source non-hydrostatic wave-flow model SWASH to prop...
Reef systems are prevalent along most of the world's coastlines (up to 80%). However, only...
As waves interact with the slopes of coral reefs and other steep bathymetry profiles, plunging break...
©2019. American Geophysical Union. All Rights Reserved. Wave transformation across reef platforms st...
The accurate prediction of extreme wave run-up is important for effective coastal engineering design...
The prediction of wave transformation and associated hydrodynamics is essential in the design and co...
This paper presents the application of the open source non-hydrostatic wave-flow model SWASH to wave...
This paper presents the application of the open source non-hydrostatic wave-flow model SWASH to wave...
[[abstract]]The shock-capturing non-hydrostatic model NHWAVE is used to study infragravity wave proc...
Peláez-Zapata, D.S.; Montoya, R.D., and Osorio, A.F., 2018. Numerical study of run-up oscillations o...
This paper presents numerical modelling of the nearshore transformation of infragravity waves induce...
Wave breaking on the steep fore-reef slopes of shallow fringing reefs can be effective at dissipatin...
This paper presents numerical modelling of the nearshore transformation of infragravity waves induce...
This thesis reported a comprehensive study of the wave dynamics over fringing coral reefs, including...
This paper presents numerical modelling of the nearshore transformation of infragravity waves induce...
This paper presents the application of the open source non-hydrostatic wave-flow model SWASH to prop...
Reef systems are prevalent along most of the world's coastlines (up to 80%). However, only...
As waves interact with the slopes of coral reefs and other steep bathymetry profiles, plunging break...
©2019. American Geophysical Union. All Rights Reserved. Wave transformation across reef platforms st...
The accurate prediction of extreme wave run-up is important for effective coastal engineering design...
The prediction of wave transformation and associated hydrodynamics is essential in the design and co...