Here are some application details:In the graphical user interface of FEFLOW the user has to load the plug-in, afterwards the following reference data have to be created:* Nodal - 'Neumann': the Neumann boundary conditions (unit is MPa) have to be assigned to an area of horizontal 3 or vertical 4 nodes.* Nodal - 'DirichletX': boundary condition for the displacement in x-direction (unit is m)* Nodal - 'DirichletY': boundary condition for the displacement in y-direction (unit is m)* Nodal - 'DirichletZ': boundary condition for the displacement in z-direction (unit is m)* Elemental 'Parameter1': Lamés first parameter λ (unit is MPa)* Elemental 'Parameter2': Lamés second parameter μ (unit is MPa)For generating VTK outputfiles which can be used to display the deformed 3D mesh a Time Series with the number 9999 has to be created and has to contain the times for which an output is wanted.For more complex Neumann boundary conditions and additional settings an input file (named settings.dat, stored in the FEFLOW Folder structure import+export) can be defined (still under development - get in touch if you are interested in this).FEFLOW and also the presented plug-in can be run under Microsoft Windows and Linux (32 bit and 64 bit). It is available in different feature levels to provide the functionality that match your project.Ffp/mcf - release 1.0 for FEFLOW 6.0 and 6.2 running in 64bit modeThere is a recent paper about this code available with details about the application, see those interested in using the FEFLOW plug-in please feel free to contact me for information. Develop your own plug-ins, or let us customise the software for you Increase reliability of your model results with FePEST, our tool for model calibration, uncertainty quantification and sensitivity analysisįEFLOW is designed to handle plug-ins for extended functionality or for automating workflows. Maximise your productivity and limit the time and effort spent for model setup, simulation runs and results evaluationįlexible meshing strategies and the option to include time-varying geometries allow for an accurate spatial representation of the geology The efficient user interface and unmatched range of functionality for groundwater modelling have made FEFLOW the tool of choice for leading consultants, government organisations, universities and research institutions all over the world over the last 35 years.įEFLOW is a completely integrated package from simulation engine to user interface. FEFLOW can simulate a multitude of processes involving fluid flow, groundwater age, contaminant and heat transport under fully or variably saturated conditions - from local to regional scale. FEFLOW is the most intuitive and comprehensive software package for groundwater and porous media modelling.
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