Model help:CEM
CEM
Model Introduction
The CEM model, the Coastline Evolution Model, simulates the evolution of a shoreline due to gradients in breaking-wave-driven alongshore sediment transport.
Extended model introduction
The CEM model assumes that the coast consists of a high percentage of mobile sediment and its other assumptions are more applicable at shoreline lengths of km’s and larger. The model was initially designed to investigate an instability in the shape of the coast caused by waves approaching with ‘high’ angles (with the angle between deepwater crests and the coast > 45 degrees).
Although a number of wave (and geometry) parameters can be entered, the most vital input control for CEM is the wave climate. The current version of the CEM is driven by simplified directional wave climate controlled by two main input parameters: the asymmetry of the incoming waves angle and the proportion of high-angle waves. This model is not designed to accurately simulate a specific geographic location in detail but rather to more generally represent how a shoreline with highly mobile sediment may respond to varying wave angles. The value in this model is in the breadth it offers in representing how different wave climates can result in different potentially interesting shoreline configurations. Ashton and Murray (2006b) present a more thorough description of the model parameters and theoretical underpinning.
Model input parameters
CEM does not need input files from the user, its input is entirely specified in the CMT graphical user interface. One can set the ‘site prefix’ and the ‘case prefix’ to identify model experiments. These prefixes are used throughout the CMT and allow users to organize their simulations according to geographic setting (site prefix) and simulation scenario (case prefix). The fields do need to be filled in, in this project these two fields determine the name of the output files.run duration = total time span of run [scale dependent] | ||||||||
Shoreface Slope | = Longitudinal Slope of the Shoreface | [m/m] | Shoreface Depth | = Depth threshold for definition of the Shoreface | [m]
}
Simulations will use the shoreface depth as an effective erosion depth, but deposition can take place to deeper depths if the shoreface is accreting on a deeper shelf. |
Shelf Slope | = Longitudinal Slope of the Shelf | [m/m] |
Model output parameters
output variable1 | variable description1 | variable units1 |
variable2 | description2 | units2 |
Coupling parameters
Uses ports
This will be something that the CSDMS facility will add
Provides ports
This will be something that the CSDMS facility will add
Main equations
A list of the key equations. HTML format is supported; latex format will be supported in the future
Numerical scheme
Output variable
Notes
Any notes, comments, you want to share with the user
Examples
An example run with input parameters as well as a figure / movie of the output
Follow the next steps to include images / movies of simulations:
- Upload file: http://csdms.colorado.edu/wiki/Special:Upload
- Create link to the file on your page: [[Image:<file name>]].
See also: Help:Images or Help:Movies
Developer(s)
Name of the module developer(s)
References
Key papers
External links
Any link, eg. to the model questionnaire, the e-book that is on the CSDMS web, Gary Parkers website....