The three-dimensional (3-D) modelling of water systems involving double-diffusive processes is challenging due to the large computation times required to solve the flow and transport of constituents. In systems that approach axisymmetry around a central location, computation times can be reduced by applying a quasi 3-D axisymmetric model setup. This article applies the Navier-Stokes equations described in cylindrical coordinates, and integrates them to guarantee mass and momentum conservation. The discretized equations are presented in a way that a Cartesian finite volume model can be easily extended to this quasi 3-D framework, which is demonstrated by the implementation into a non-hydrostatic free-surface flow model. This model employs te...
A three-dimensional numerical model system was developed to predict circulation and water quality in...
A coupled surface and subsurface flow and transport model is developed and applied to simulations of...
The numerical modeling by using high-speed digital computers has become a powerful tool in simulatin...
The three-dimensional (3-D) modelling of water systems involving double-diffusive processes is chall...
An axisymmetric hydrodynamic modelling approach was developed and implemented for a salt and heat tr...
In three-dimensional simulations of free-surface flow where the vertical velocities are relevant, su...
An axisymmetric hydrodynamic modelling approach was developed and implemented for a salt and heat tr...
This paper presents the development and application of an integrated surface water and groundwater m...
In the early 90’ the research institute Deltares began the development of a non-hydrostatic extensio...
An integrated horizontally two- and fully three-dimensional numerical model system has been develop...
A finite-volume method has been developed that can deal accurately with complicated, curved boundari...
An algorithm for solution of three-dimensional Navier-Stokes equations for incompressible free surfa...
This paper presents the mathematical formulation of an integrated surface-subsurface-overland model ...
This paper presents the mathematical formulation of an integrated surface-subsurface-overland model ...
A three-dimensional, non-hydrostatic pressure, numerical model for free surface flows is presented. ...
A three-dimensional numerical model system was developed to predict circulation and water quality in...
A coupled surface and subsurface flow and transport model is developed and applied to simulations of...
The numerical modeling by using high-speed digital computers has become a powerful tool in simulatin...
The three-dimensional (3-D) modelling of water systems involving double-diffusive processes is chall...
An axisymmetric hydrodynamic modelling approach was developed and implemented for a salt and heat tr...
In three-dimensional simulations of free-surface flow where the vertical velocities are relevant, su...
An axisymmetric hydrodynamic modelling approach was developed and implemented for a salt and heat tr...
This paper presents the development and application of an integrated surface water and groundwater m...
In the early 90’ the research institute Deltares began the development of a non-hydrostatic extensio...
An integrated horizontally two- and fully three-dimensional numerical model system has been develop...
A finite-volume method has been developed that can deal accurately with complicated, curved boundari...
An algorithm for solution of three-dimensional Navier-Stokes equations for incompressible free surfa...
This paper presents the mathematical formulation of an integrated surface-subsurface-overland model ...
This paper presents the mathematical formulation of an integrated surface-subsurface-overland model ...
A three-dimensional, non-hydrostatic pressure, numerical model for free surface flows is presented. ...
A three-dimensional numerical model system was developed to predict circulation and water quality in...
A coupled surface and subsurface flow and transport model is developed and applied to simulations of...
The numerical modeling by using high-speed digital computers has become a powerful tool in simulatin...