Model:BITM: Difference between revisions

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{{Modeler information
|First name=Riccardo
|Last name=Masetti
|Type of contact=Model developer
|Institute / Organization=University of Bologna
|Postal address 1=V.le Risorgimento, 2
|Town / City=Bologna
|Postal code=40126
|State=NO STATE
|Country=Italy
|Email address=riccardo.masetti@tele2.it
}}
{{Additional modeler information
|Additional first name=Sergio
|Additional last name=Fagherazzi
|Additional type of contact=Project manager
}}
{{Additional modeler information
|Additional first name=Alberto
|Additional last name=Montanari
|Additional type of contact=Technical contact
}}
{{Model identity
|Model type=Single
|Categories=Coastal
|One-line model description=Barrier Island Translation model
|Extended model description=BIT Model aims to simulate the dynamics of the principal processes that govern the formation and evolution of a barrier island. The model includes sea-level oscillations and sediment distribution operated by waves and currents. Each process determines the deposition of a distinct sediment facies, separately schematized in the spatial domain. Therefore, at any temporal step, it is possible to recognize six different stratigraphic units: bedrock, transitional, overwash, shoreface aeolian and lagoonal.
}}
{{Model technical information
|Supported platforms=Windows
|Programming language=Fortran77, Fortran90
|Code optimized=Single Processor
|Start year development=2006
|Does model development still take place?=Yes
|Model availability=As code
|Source code availability=Through owner
|Program license type=Other
|Program license type other=Free
|OpenMI compliant=No but possible
|CCA component=No but possible
|IRF interface=No but possible
|Memory requirements=2GB
|Typical run time=hours
}}
{{Input - Output description
|Describe input parameters=Sea level curve; rate of lagoonal deposition; rate of overwash; initial shelf profile. The stratigraphic data are organized in a matrix of integers. Every matrix entry corresponds to a stratigraphic unit (bedrock, overwash, transitional, shoreface, aeolian and lagoonal).
|Input format=ASCII, Binary
|Describe output parameters=Resultant barrier island configuration and sediment distribution along the continental shelf as results of the effects of five different processes: reworking of the beach profile, inner-shelf sediment redistribution, overwash, laggonal deposition and aeolian sediment reworking.
|Output format=ASCII, Binary
|Pre-processing software needed?=No
|Post-processing software needed?=No
|Visualization software needed?=Yes
|If above answer is yes=Matlab
}}
{{Process description model
|Describe processes represented by the model=BIT Model takes into consideration five different processes:
* reworking of the beach profile. The model assumes that the wave action reworks the beach profile towards an equilibrium configuration described by the Dean's equation;
* inner-shelf sediment redistribution, which is the redistribution of sediments beyond the beach toe determined by the bottom shear stresses produced by wind waves;
* overwas, which is the erosion of sediment along the beach profile and its corresponding deposition on the top of the barrier island or in the back-barrier area. Overwash is related to storm surges produced bt extreme atmospheric events;
* lagoonal deposition, which is the deposition of fine sediments in the accomodation space between the barrier island and the mainland;
* aeolian sediment reworking, which represents the wind action on the subaerial part of the island.
|Describe key physical parameters and equations=The dynamics of erosion and deposition are schematized with a relationship, which represents a diffusion scheme that changes the bottom elevation at a rate linearly proportional to the difference between the current and the equilibrium profile, defined by the Dean's equation, and then redistributes the removed or deposited  material in equal parts between the contiguous inshore and offshore locations.<br>
The phenomenon of overwash is schematized assuming that the first shoreface element of the barrier island is eroded of a quantity, which is related to the frequency of hurricanes and severe storms and to the difference between the maximum elevation of the barrier and the mean sea level.
|Describe length scale and resolution constraints=Vertically: cm to m, Horizontally: 50 m to 30 km
|Describe time scale and resolution constraints=Millennial scale
|Describe any numerical limitations and issues=--
}}
{{Model testing
|Describe available calibration data sets=--
|Describe available test data sets=In order to verify the millennial-scale evolution of a barrier island, it is necessary to know the sea level curve, the rate of lagoonal deposition, the rate of overwash and the initial shelf profile. The BIT Model has been applied to the shelf profile in front of Sand Key, Florida.
|Describe ideal data for testing=It would be interesting to have grainsize data in addition to the other data.
}}
{{Users groups model
|Do you have current or future plans for collaborating with other researchers?=--
}}
{{Documentation model
|Provide key papers on model if any=Masetti, R., Fagherazzi, S., Montanari, A., 2008. Application of a barrier island translation model to the millennial-scale evolution of Sand Key, Florida. Continental Shelf Research 28, 1116-1126.
|Manual model available=No
}}
{{Additional comments model
|Comments=--
}}
{{Infobox Model
{{Infobox Model
|model name              = BITM
|model name              = BITM

Revision as of 15:25, 18 September 2009

Contact

Name Riccardo Masetti
Type of contact Model developer
Institute / Organization University of Bologna
Postal address 1 V.le Risorgimento, 2
Postal address 2
Town / City Bologna
Postal code 40126
State NO STATE
Country Italy
Email address riccardo.masetti@tele2.it
Phone
Fax


Name Sergio Fagherazzi
Type of contact Project manager
Institute / Organization
Postal address 1
Postal address 2
Town / City
Postal code
State
Country
Email address
Phone
Fax


Name Alberto Montanari
Type of contact Technical contact
Institute / Organization
Postal address 1
Postal address 2
Town / City
Postal code
State
Country
Email address
Phone
Fax



BITM


Metadata

Summary

Also known as
Model type Single
Model part of larger framework
Note on status model
Date note status model

Technical specs

Supported platforms
Windows
Other platform
Programming language

Fortran77, Fortran90

Other program language
Code optimized Single Processor
Multiple processors implemented
Nr of distributed processors
Nr of shared processors
Start year development 2006
Does model development still take place? Yes
If above answer is no, provide end year model development
Code development status
When did you indicate the 'code development status'?
Model availability As code
Source code availability
(Or provide future intension) 		Through owner"Through owner" is not in the list (Through web repository, Through CSDMS repository) of allowed values for the "Source code availability" property.
Source web address
Source csdms web address
Program license type Other
Program license type other Free
Memory requirements 2GB
Typical run time hours


In/Output

Describe input parameters Sea level curve; rate of lagoonal deposition; rate of overwash; initial shelf profile. The stratigraphic data are organized in a matrix of integers. Every matrix entry corresponds to a stratigraphic unit (bedrock, overwash, transitional, shoreface, aeolian and lagoonal).
Input format ASCII, Binary
Other input format
Describe output parameters Resultant barrier island configuration and sediment distribution along the continental shelf as results of the effects of five different processes: reworking of the beach profile, inner-shelf sediment redistribution, overwash, laggonal deposition and aeolian sediment reworking.
Output format ASCII, Binary
Other output format
Pre-processing software needed? No
Describe pre-processing software
Post-processing software needed? No
Describe post-processing software
Visualization software needed? Yes
If above answer is yes Matlab
Other visualization software


Process

Describe processes represented by the model BIT Model takes into consideration five different processes:
  • reworking of the beach profile. The model assumes that the wave action reworks the beach profile towards an equilibrium configuration described by the Dean's equation;
  • inner-shelf sediment redistribution, which is the redistribution of sediments beyond the beach toe determined by the bottom shear stresses produced by wind waves;
  • overwas, which is the erosion of sediment along the beach profile and its corresponding deposition on the top of the barrier island or in the back-barrier area. Overwash is related to storm surges produced bt extreme atmospheric events;
  • lagoonal deposition, which is the deposition of fine sediments in the accomodation space between the barrier island and the mainland;
  • aeolian sediment reworking, which represents the wind action on the subaerial part of the island.
Describe key physical parameters and equations The dynamics of erosion and deposition are schematized with a relationship, which represents a diffusion scheme that changes the bottom elevation at a rate linearly proportional to the difference between the current and the equilibrium profile, defined by the Dean's equation, and then redistributes the removed or deposited material in equal parts between the contiguous inshore and offshore locations.

The phenomenon of overwash is schematized assuming that the first shoreface element of the barrier island is eroded of a quantity, which is related to the frequency of hurricanes and severe storms and to the difference between the maximum elevation of the barrier and the mean sea level.

Describe length scale and resolution constraints Vertically: cm to m, Horizontally: 50 m to 30 km
Describe time scale and resolution constraints Millennial scale
Describe any numerical limitations and issues --


Testing

Describe available calibration data sets --
Upload calibration data sets if available:
Describe available test data sets In order to verify the millennial-scale evolution of a barrier island, it is necessary to know the sea level curve, the rate of lagoonal deposition, the rate of overwash and the initial shelf profile. The BIT Model has been applied to the shelf profile in front of Sand Key, Florida.
Upload test data sets if available:
Describe ideal data for testing It would be interesting to have grainsize data in addition to the other data.


Other

Do you have current or future plans for collaborating with other researchers? --
Is there a manual available? No
Upload manual if available:
Model website if any
Model forum / discussion board
Comments --


BITM

Introduction

History

Papers

BITM Questionnaire

Contact Information

Model: BITM
Contact person: Riccardo Masetti
Institute: University of Bologna
City: Bologna
Country: Italy
Email: riccardo.masetti@tele2.it
2nd person involved: Sergio Fagherazzi (Project manager)
3rd person involved: Alberto Montanari (Technical contact)

Model description

Model type: Single model for the coastal domain.
Description: BIT Model aims to simulate the dynamics of the principal processes that govern the formation and evolution of a barrier island. The model includes sea-level oscillations and sediment distribution operated by waves and currents. Each process determines the deposition of a distinct sediment facies, separately schematized in the spatial domain. Therefore, at any temporal step, it is possible to recognize six different stratigraphic units: bedrock, transitional, overwash, shoreface aeolian and lagoonal.

Technical information

Supported platforms: Windows
Programming language: Fortran77, Fortran90
Model development started at: 2006 and development still takes place.
To what degree will the model become available: Source code will be available
Current license type: Free
Memory requirements: 2Gb
Typical run time: hours

Input / Output description

Input parameters: Sea level curve; rate of lagoonal deposition; rate of overwash; initial shelf profile. The stratigraphic data are organized in a matrix of integers. Every matrix entry corresponds to a stratigraphic unit (bedrock, overwash, transitional, shoreface, aeolian and lagoonal).
Input format: ASCII, Binary
Output parameters: Resultant barrier island configuration and sediment distribution along the continental shelf as results of the effects of five different processes: reworking of the beach profile, inner-shelf sediment redistribution, overwash, laggonal deposition and aeolian sediment reworking.
Output format: ASCII, Binary
Post-processing software (if needed): No
Visualization software (if needed): Yes, Matlab

Process description

Processes represented by model: BIT Model takes into consideration five different processes:
  • reworking of the beach profile. The model assumes that the wave action reworks the beach profile towards an equilibrium configuration described by the Dean's equation;
  • inner-shelf sediment redistribution, which is the redistribution of sediments beyond the beach toe determined by the bottom shear stresses produced by wind waves;
  • overwas, which is the erosion of sediment along the beach profile and its corresponding deposition on the top of the barrier island or in the back-barrier area. Overwash is related to storm surges produced bt extreme atmospheric events;
  • lagoonal deposition, which is the deposition of fine sediments in the accomodation space between the barrier island and the mainland;
  • aeolian sediment reworking, which represents the wind action on the subaerial part of the island.
Key physical parameters & equations: The dynamics of erosion and deposition are schematized with a relationship, which represents a diffusion scheme that changes the bottom elevation at a rate linearly proportional to the difference between the current and the equilibrium profile, defined by the Dean's equation, and then redistributes the removed or deposited material in equal parts between the contiguous inshore and offshore locations.

The phenomenon of overwash is schematized assuming that the first shoreface element of the barrier island is eroded of a quantity, which is related to the frequency of hurricanes and severe storms and to the difference between the maximum elevation of the barrier and the mean sea level.

Length scale & resolution constraints: Vertically: cm to m, Horizontally: 50 m to 30 km
Time scale & resolution constraints: Millennial scale
Numerical limitations and issues : --

Testing

Available calibration data sets: --
Available test data sets: In order to verify the millennial-scale evolution of a barrier island, it is necessary to know the sea level curve, the rate of lagoonal deposition, the rate of overwash and the initial shelf profile. The BIT Model has been applied to the shelf profile in front of Sand Key, Florida.
Ideal data for testing: It would be interesting to have grainsize data in addition to the other data.

User groups

Currently or plans for collaborating with: --

Documentation

Key papers of the model: Masetti, R., Fagherazzi, S., Montanari, A., 2008. Application of a barrier island translation model to the millennial-scale evolution of Sand Key, Florida. Continental Shelf Research 28, 1116-1126.
Is there a manual available: no
Model website if any: no

Additional comments

Comments: --

Issues

Help

Input Files

Output Files

Download

Source

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