Waterloo Hydrogeologic Visual MODFLOW Flex 11.0

Visual MODFLOW Flex 11.0, the latest version of the popular graphical user interface that brings together industry-standard codes for groundwater flow and contaminant transport, essential analysis and calibration tools, and stunning 3D visualization capabilities in a single environment.

Model and grid import
Importing models has been massively overhauled in Visual MODFLOW Flex 11.0. Model import now uses a new, proprietary Python library based on FloPy, significantly improving flexibility and stability when importing external models.
– During installation, Visual MODFLOW Flex now creates a dedicated Conda environment running Python 3.12 and installs the FlexPy and FloPy libraries
– MODFLOW-6 models can now be imported
– SEAWAT models may now be imported
– Model grids in the DIS and DISV format can now be imported without importing other model elements
– Flow properties (such as hydraulic conductivity and storage) in LPF, NPF, and UPW formats can now be imported independent of the model import step
– Flow property package settings can be brought in during import
– Most common boundary conditions (CHD, RIV, GHB, DRN, RCH, and EVT) can now be imported independently
– Solver settings (IMS, PCG, GMG, SIP, WHS, SAMG) may now be imported
– Output control settings may now be imported
Working with unstructured grids
Unstructured grids can now be imported into Visual MODFLOW Flex and unstructured grids can now be created outside of the conceptual modeling workflow.
– Unstructured MODFLOW-6 models using DISV grids may now be imported
– DISV unstructured grids may now be imported independently
– Unstructured grids (Voronoi, quadtree) may now be created directly in the numerical modeling workflow
– 3D unstructured gridded data (such as heads or concentration results) may now be imported
– 3D unstructured gridded data can be used to set model properties such as initial heads and initial concentrations
TIN surfaces
Triangular irregular network (TIN) surfaces can now be used with your Visual MODFLOW Flex projects. The following functionalities are now supported:
– Import TINs from point shapefiles (.shp) and from Triangle .node or .ele files
– Generate TINs from existing point data objects, using linear or kriging interpolation schemes
– Generate TINs from model layers
– Use TINs to define model horizons
– Use TINs in the expression builder of other data objects
– Use TINs to define boundary condition parameters and model properties in the numerical modeling workflow

Visual MODFLOW Flex is more than just a graphical user interface for MODFLOW groundwater simulations. Visual MODFLOW Flex brings together industry-standard codes for groundwater flow and contaminant transport, essential analysis and calibration tools, and stunning 3D visualization capabilities in a single, easy-to-use software environment. With Visual MODFLOW Flex, groundwater modelers have all the tools required for addressing local to regional-scale water quality, groundwater supply, and source water protection issues.

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