Rapid climate change and the corresponding estimated sea level rise can affect the performance of the coastal defense structures such as breakwaters, seawalls, and dikes. In order to improve these coastal defenses, a detailed understanding of the processes which contribute to wave run-up and overtopping over the coastal defenses needs to be established. Following the exponential growth of computing capacity around 1970’s, a wide variety of computational models were developed to study fluid flow. Traditionally, three computational paradigms have existed in order to study wave transformation and surf zone hydrodynamics: phase averaged models, phase resolving models, and Computational Fluid Dynamics (CFD) models. Limitations posed by the under...
This research uses physical and numerical experiments to investigate the wave overtopping of a verti...
Wave overtopping is one of the most important processes for the design of seawalls. During the past ...
Kobayashi, NobuhisaThe numerical cross-shore model CSHORE is extended to predict irregular wave run...
Wave run-up and overtopping of coastal structures have been extensively studied over the last 30 yea...
The flow discharge induced by wave overtopping the nearshore coastal defence structures, such as sho...
The main objective of Workpackage 5 is to use numerical simulation of wave overtopping in order to s...
Climate change has tremendous economic and environmental impacts on coastal areas and threatens huma...
The primary function of seawalls and embankments is to protect against damage and injury caused by f...
Wave overtopping nearshore coastal structures, such as shore-parallel breakwaters, can significantly...
Wave breaking is an important coastal process, influencing hydro-morphodynamic processes such as tur...
A one-dimensional high-resolution finite volume model capable of simulating storm waves propagating ...
The surf zone dynamics are governed by important processes such as turbulence generation , nearshore...
This paper presents a study of run-up/overtopping over a smooth impermeable dike with promenade usi...
Quantitative assessments of wind effects on wave overtopping are carried out using CFD simulations w...
<p>Submerged breakwaters avoid the generation of major reflected waves that affect the beach. They a...
This research uses physical and numerical experiments to investigate the wave overtopping of a verti...
Wave overtopping is one of the most important processes for the design of seawalls. During the past ...
Kobayashi, NobuhisaThe numerical cross-shore model CSHORE is extended to predict irregular wave run...
Wave run-up and overtopping of coastal structures have been extensively studied over the last 30 yea...
The flow discharge induced by wave overtopping the nearshore coastal defence structures, such as sho...
The main objective of Workpackage 5 is to use numerical simulation of wave overtopping in order to s...
Climate change has tremendous economic and environmental impacts on coastal areas and threatens huma...
The primary function of seawalls and embankments is to protect against damage and injury caused by f...
Wave overtopping nearshore coastal structures, such as shore-parallel breakwaters, can significantly...
Wave breaking is an important coastal process, influencing hydro-morphodynamic processes such as tur...
A one-dimensional high-resolution finite volume model capable of simulating storm waves propagating ...
The surf zone dynamics are governed by important processes such as turbulence generation , nearshore...
This paper presents a study of run-up/overtopping over a smooth impermeable dike with promenade usi...
Quantitative assessments of wind effects on wave overtopping are carried out using CFD simulations w...
<p>Submerged breakwaters avoid the generation of major reflected waves that affect the beach. They a...
This research uses physical and numerical experiments to investigate the wave overtopping of a verti...
Wave overtopping is one of the most important processes for the design of seawalls. During the past ...
Kobayashi, NobuhisaThe numerical cross-shore model CSHORE is extended to predict irregular wave run...