Model:CVFEM Rift2D

CVFEM Rift2D

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

Incorporated models or components:

Spatial dimensions	2D
Spatial extent	Continental
Model domain	Hydrology, Geodynamic
One-line model description	multi-physics numerical model that simulates rock deformation, fluid flow, solute transport and heat transfer in response to ice sheet loading of multiple cycles
Extended model description	We have developed a hybrid numerical model at a continental scale via control volume finite element (finite volume) and regular finite element methods to evaluate the stress variation, pore pressure evolution, brine migration, solute transport and heat transfer in the subsurface formations in response to ice sheet loading of multiple glacial cycles.

Keywords:

Name	Yipeng Zhang
Type of contact	Model developer
Institute / Organization	New Mexico Institute of Mining and Technology
Postal address 1	PO Box 2255
Postal address 2	801 Leroy Place
Town / City	Socorro
Postal code	87801
State
Country	United States
Email address	zhangyipengjd@gmail.com
Phone	8147772015
Fax

Name	Mark Person
Type of contact	Project manager
Institute / Organization	New Mexico Institute of Mining and Technology
Postal address 1	Dept. of Earth and Environmental Sciences
Postal address 2
Town / City	Socorro
Postal code	87801
State	New Mexico
Country	United States
Email address	mark.person@nmt.edu
Phone
Fax

Supported platforms	Windows
Other platform
Programming language	Fortran77, Matlab
Other program language
Code optimized	Single Processor
Multiple processors implemented
Nr of distributed processors
Nr of shared processors
Start year development	2015
Does model development still take place?	Yes
If above answer is no, provide end year model development
Code development status	Active
When did you indicate the 'code development status'?	2020
Model availability	As code
Source code availability (Or provide future intension)	Through CSDMS repository
Source web address
Source csdms web address	https://github.com/csdms-contrib/CVFEM-Rift2D
Program license type	GPL v3
Program license type other
Memory requirements
Typical run time

Describe input parameters
Input format	ASCII
Other input format
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Output format	ASCII
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
Other visualization software	Tecplot

Describe processes represented by the model	The four primary components of our multi-physics code include geomechanical, hydrologic, solute transport and heat transfer modules. The geomechanical module calculates displacement of an elastic lithosphere disturbed by an ice sheet load. Transient geomechanical deformation is represented by one-dimensional (lateral) viscous asthenosphere flow. Our geomechanical module is partially coupled to the hydrologic module by providing the rate of change in the mean normal stress. Mean normal stress change rate is included as a source term in the groundwater flow equation driving flow. Flow is also influenced by changes in the top specified hydraulic head boundary condition. We implement two-way coupling between fluid flow, solute transport and heat transfer module via density and viscosity equations of state. Three additional modules in our multi-physics code calculate changes to the upper hydraulic and thermal boundary conditions or alter the hydraulic transport properties (permeability) due to hydrogeomechanical failure. These include ice sheet evolution, permafrost, and failure analysis modules. Ice sheet thickness determines both the vertical load in the geomechanical module as well as the hydraulic head boundary condition at the land surface in the hydrologic module. In this study we adopted a simple parabolic polynomial equation to represent the idealized geometry of an ice sheet’s cross section in the ice sheet evolution module. We solved for permafrost formation at and below the land surface using a suite of one-dimensional heat transfer models. We allowed for grid growth within the permafrost module to account for changes in ice sheet thickness. A failure analysis module was used to modify permeability due to hydromechanical failure. We adopted the effective Coulomb’s Failure Stress change criterion from Ge et al.(2009) to assess regions of failure during glaciations.
Describe key physical parameters and equations
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Describe any numerical limitations and issues

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Do you have current or future plans for collaborating with other researchers?

Is there a manual available?	No
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Comments

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OpenMI compliant	No but possible
BMI compliant	No but possible
WMT component	No but possible
PyMT component
Is this a data component

Can be coupled with:

Model info

Authors

Yipeng Zhang

Person

Source code

View in CSDMS GitHub repository

Model citations

Nr. of publications:	1
Total citations:	7
h-index:	1
m-quotient:	0.17

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CVFEM Rift2D

Introduction

History

References

Nr. of publications:	1
Total citations:	7
h-index:	1
m-quotient:	0.17

Featured publication(s)	Year	Model described	Type of Reference	Citations
Zhang, Yipeng; Person, Mark; Voller, Vaughan; Cohen, Denis; McIntosh, Jennifer; Grapenthin, Ronni; 2018. Hydromechanical Impacts of Pleistocene Glaciations on Pore Fluid Pressure Evolution, Rock Failure, and Brine Migration Within Sedimentary Basins and the Crystalline Basement. Water Resources Research, 54, 7577–7602. 10.1029/2017WR022464 (View/edit entry)	2018	CVFEM Rift2D	Model overview	7
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Input Files

Output Files