Two-dimensional tidal flows within the Loxahatchee River estuary (Southeastern Florida) are simulated in order to assess the effects of incorporating the Atlantic Intracoastal Waterway (AICWW) versus including the surrounding tidal flats in the computational domain. The region of interest is modeled with three variations of an unstructured, finite-element mesh, including a localized mesh with and without tidal flats, and an extended mesh that describes the AICWW. Phase and amplitude errors between model output and historical data are quantified in terms of water surface elevations at five locations within the Loxahatchee River estuary to assess the relative performance of the various computational meshes. While it is shown that the surround...
A two-dimensional numerical model is developed to study the tidal propagation in the St. Lawrence Es...
The two-dimensional vertically averaged hydrodynamic equations solved by Leenderstee’s multi-operati...
A variable mesh finite element model of the Irish and Celtic Sea regions with/without the inclusion ...
Two-dimensional tidal flows within the Loxahatchee River estuary (Southeastern Florida) are simulate...
A two-dimensional, depth-integrated tidal model for the Loxahatchee River estuary (Southeastern Flor...
Recent cooperative efforts between the University of Central Florida, the Florida Department of Envi...
A large-scale hydrodynamic model is used to provide boundary conditions in support of a localized tr...
A high-resolution, finite element-based, shallow water equation model is developed to simulate the t...
A 3D numerical model is used to simulate the distortion of tidal hydrodynamics in the Ogeechee Estua...
Water surface elevations in the St. Johns River (Northeastern Florida) are simulated over a 122-day ...
An irregular mesh model of the west coast of Britain is used to examine the sensitivity of tidal res...
The research described in this paper is aimed at improving the predictive capability of numerical mo...
In this study, select riverine parameters are adjusted in a shallow water equations model of the Yel...
Proceedings of the Seventh International Conference on Hydroscience and Engineering, Philadelphia, P...
In this study, a hydro-environmental numerical model is utilised to further demonstrate the applicab...
A two-dimensional numerical model is developed to study the tidal propagation in the St. Lawrence Es...
The two-dimensional vertically averaged hydrodynamic equations solved by Leenderstee’s multi-operati...
A variable mesh finite element model of the Irish and Celtic Sea regions with/without the inclusion ...
Two-dimensional tidal flows within the Loxahatchee River estuary (Southeastern Florida) are simulate...
A two-dimensional, depth-integrated tidal model for the Loxahatchee River estuary (Southeastern Flor...
Recent cooperative efforts between the University of Central Florida, the Florida Department of Envi...
A large-scale hydrodynamic model is used to provide boundary conditions in support of a localized tr...
A high-resolution, finite element-based, shallow water equation model is developed to simulate the t...
A 3D numerical model is used to simulate the distortion of tidal hydrodynamics in the Ogeechee Estua...
Water surface elevations in the St. Johns River (Northeastern Florida) are simulated over a 122-day ...
An irregular mesh model of the west coast of Britain is used to examine the sensitivity of tidal res...
The research described in this paper is aimed at improving the predictive capability of numerical mo...
In this study, select riverine parameters are adjusted in a shallow water equations model of the Yel...
Proceedings of the Seventh International Conference on Hydroscience and Engineering, Philadelphia, P...
In this study, a hydro-environmental numerical model is utilised to further demonstrate the applicab...
A two-dimensional numerical model is developed to study the tidal propagation in the St. Lawrence Es...
The two-dimensional vertically averaged hydrodynamic equations solved by Leenderstee’s multi-operati...
A variable mesh finite element model of the Irish and Celtic Sea regions with/without the inclusion ...