GenCade:Model Capabilities: Difference between revisions

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{{DISPLAYTITLE:GenCade Model Capabilities}}
{{DISPLAYTITLE:GenCade Model Capabilities}}


GenCade has the following capabilities while modeling:
GenCade has the following capabilities:


* Internal wave transformation module
* Internal wave transformation module
* Almost arbitrary numbers of groins, detached breakwaters, beach fills & seawalls
* Arbitrary numbers of groins, detached breakwaters, beach fills & seawalls
* Almost any combination of structures & beach fills
* Almost any combination of structures & beach fills
* Bypassing & transmission of sand at groins & jetties
* Bypassing & transmission of sand at groins & jetties
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* Algorithm for variable, time-dependent transmission coefficient
* Algorithm for variable, time-dependent transmission coefficient


GenCade can account for the vertical and cross-shore distributions of longshore sand transport at groins and jetties in an empirical fashion. It does not, however, account for the full vertical and horizontal water and sand circulation, making it incapable, for example, of describing transport by rip currents, undertow, or other three-dimensional fluid and transport processes.
GenCade can account for the vertical and cross-shore distributions of longshore sand transport at groins and jetties in an empirical fashion. It does not, however, account for the full vertical and horizontal water and sand circulation, making it incapable, for example, of describing transport by rip currents, undertow, or other three-dimensional transport processes.


GenCade incorporates the Inlet Reservoir Model (Kraus 2000) to describe sediment storage and transfer at coastal inlets. The user provides each morphological unit (shoal) initial and equilibrium volumes for fixed hydrodynamic and sediment conditions.
GenCade incorporates the Inlet Reservoir Model (Kraus 2000) to describe sediment storage and transfer at coastal inlets. The user provides initial morphological unit (shoal) and equilibrium volumes for fixed hydrodynamic and sediment conditions.
 
== References ==
 
Kraus, N. C. 2000. Reservoir model of ebb-tidal shoal evolution and sand bypassing.
 
Journal of Waterway, Port, Coastal and Ocean Engineering, 126(6), 305-313.
 
== References ==
 
For all GenCade references, please see:
[[GenCade References| GenCade References]]


== Useful Links ==  
== Useful Links ==  

Latest revision as of 20:48, 6 February 2023


GenCade has the following capabilities:

  • Internal wave transformation module
  • Arbitrary numbers of groins, detached breakwaters, beach fills & seawalls
  • Almost any combination of structures & beach fills
  • Bypassing & transmission of sand at groins & jetties
  • Multiple diffraction from structures
  • Multiple wave trains
  • Wave transmission through detached breakwaters
  • Tombolo development inside detached breakwaters
  • Sediment transport from breaking waves combined with other currents
  • Accounts for pre-specified stable regional or local contours
  • Algorithm for variable, time-dependent transmission coefficient

GenCade can account for the vertical and cross-shore distributions of longshore sand transport at groins and jetties in an empirical fashion. It does not, however, account for the full vertical and horizontal water and sand circulation, making it incapable, for example, of describing transport by rip currents, undertow, or other three-dimensional transport processes.

GenCade incorporates the Inlet Reservoir Model (Kraus 2000) to describe sediment storage and transfer at coastal inlets. The user provides initial morphological unit (shoal) and equilibrium volumes for fixed hydrodynamic and sediment conditions.

Useful Links

GenCade References

GenCade Home Page

GenCade Documentation Portal