Add to ORKGA new mathematical model for prediction of a two-dimensional wave motion in shallow water is presented herein. It can be applied to investigate shoaling, diffraction, refraction, breaking, bottom friction and wave run-up on a beach, as well as mass transport and orbital motion. The model also includes an oblique wave approach to the shore and irregular bottom topography. Such engineering constructions as seawalls, breakwaters and groins are simulated numerically. Simple results of computations, shown in graphic form, indicate possible practical applications of the model
We derive a two-dimensional depth-averaged model for coastal waves with both dispersive and dissipat...
We derive a two-dimensional depth-averaged model for coastal waves with both dispersive and dissipat...
This thesis covers the subject of deriving and solving the system of partial differential equations ...
In this paper a coastal wave transformation model is presented. The implementation of different wave...
The necessity of numerical modeling of the mechanisms of formation of the field of suspension and se...
The necessity of numerical modeling of the mechanisms of formation of the field of suspension and se...
The necessity of numerical modeling of the mechanisms of formation of the field of suspension and se...
The necessity of numerical modeling of the mechanisms of formation of the field of suspension and se...
76-81In this paper a coastal wave transformation model is presented. The implementation of different...
One of the most influential in determining the characteristic of beach morphology is the information...
The dynamics of shallow-water waves at the surface of an inviscid and incompressible fluid over a ba...
We derive a two-dimensional depth-averaged model for coastal waves with both dispersive and dissipat...
This thesis covers the subject of deriving and solving the system of partial differential equations ...
One-dimensional long waves approaching a beach face are investigated herein. In particular, flow vel...
This thesis covers the subject of deriving and solving the system of partial differential equations ...
We derive a two-dimensional depth-averaged model for coastal waves with both dispersive and dissipat...
We derive a two-dimensional depth-averaged model for coastal waves with both dispersive and dissipat...
This thesis covers the subject of deriving and solving the system of partial differential equations ...
In this paper a coastal wave transformation model is presented. The implementation of different wave...
The necessity of numerical modeling of the mechanisms of formation of the field of suspension and se...
The necessity of numerical modeling of the mechanisms of formation of the field of suspension and se...
The necessity of numerical modeling of the mechanisms of formation of the field of suspension and se...
The necessity of numerical modeling of the mechanisms of formation of the field of suspension and se...
76-81In this paper a coastal wave transformation model is presented. The implementation of different...
One of the most influential in determining the characteristic of beach morphology is the information...
The dynamics of shallow-water waves at the surface of an inviscid and incompressible fluid over a ba...
We derive a two-dimensional depth-averaged model for coastal waves with both dispersive and dissipat...
This thesis covers the subject of deriving and solving the system of partial differential equations ...
One-dimensional long waves approaching a beach face are investigated herein. In particular, flow vel...
This thesis covers the subject of deriving and solving the system of partial differential equations ...
We derive a two-dimensional depth-averaged model for coastal waves with both dispersive and dissipat...
We derive a two-dimensional depth-averaged model for coastal waves with both dispersive and dissipat...
This thesis covers the subject of deriving and solving the system of partial differential equations ...