1. Visual Modflow Pro

Licensing Options Licensing Method Description Standalone Softkey Ideal for users requiring access on a single machine. A license file is generated u.

1. Licensing Options Licensing Method Description Standalone Softkey Ideal for users requiring access on a single machine. A license file is generated u.
2. Visual MODFLOW Premium is the proven standard for professional 3D groundwater flow and contaminant transport modeling using MODFLOW-2000, MODPATH, MT3DMS and RT3D.

Groundwater Flow & Contaminant Transport Modeling Software 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. Why Choose Visual MODFLOW Flex? Build models faster and more efficiently With integrated 3D conceptual modeling, you will never have to rebuild a model again. Model inputs and grid design can be updated at any point in the modeling process as modeling objectives change, more data are collected and a better understanding of the sub-surface is achieved. Simple, easy-to-use Since 1995, Visual MODFLOW has been recognized for its intuitive, easy-to-use interface.

With Visual MODFLOW Flex, modeling steps are conveniently presented in an intuitive, workflow-driven graphical user interface, allowing you to see what steps you’ve completed, your current step and what steps you need to finish to reach your modeling objectives. Save time and money Visual MODFLOW Flex provides both GIS-based 3D conceptual modeling and numerical modeling all within a single integrated software environment. This reduces the need to maintain costly 3rd party pre-processing tools and eliminates the error-prone process of transferring data back-and-forth between different software packages and data formats.

Visual Modflow Pro

Model with confidence The 3D conceptual modeling capabilities allow you to easily interpret and analyze raw GIS data in 2D, 3D and cross-sectional viewers. This provides a visual quality assurance of the data and allows you to gain a solid understanding of the subsurface before designing the numerical model. Build larger, more complex models Visual MODFLOW Flex is equipped to handle vast quantities of detailed, high resolution data. With 64-bit support, you can leverage the extra memory available on 64-bit computer and simulate large and complex regional-scale groundwater systems.

Build credible models With integrated modeling, model inputs and outputs can be easily visualized alongside raw GIS field data in 3D. This allows you to establish model credibility by demonstrating how numerical model data (model layers, flow parameters, recharge data) were generated from conceptual data (borehole logs, GIS data). Calculated heads and pathlines can also be displayed alongside conceptual model data to validate assumptions and further demonstrate model credibility. Easily compare multiple models Visual MODFLOW Flex’s unique design permits easy side-by-side comparisons of multiple models allowing you to assess alternative modeling scenarios, grid indiscretions and hydro-geologic interpretations. Get started fast Advance your technical knowledge and become an expert in no time with a wealth of learning and support resources including, and free webinars. SEAWAT – Added Support for SEAWAT v.4: Visual MODFLOW Flex now supports SEAWAT, a fully coupled flow, multi-species solute and heat transport model developed by the USGS, based on a combination of MODFLOW-2000 and MT3D-MS. Source Data courtesy U.S.

RT3D – Added Support for RT3D v2.5: Visual MODFLOW Flex now supports RT3D, an advanced reactive transport engine based on the popular MT3DMS transport engine. The following reaction modules are supported in Visual MODFLOW Flex:. Instantaneous aerobic degradation of BTEX. Six Species, First-Order, Rate-Limited, BTEX Degradation using Sequential Electron Acceptors. Rate-Limited Sorption. Double Monod Model.

Sequential First-Order Decay (up to 4 species, e.g., PCE/TCE/DCE/VC). Aerobic/Anaerobic PCE/TCE Dechlorination. Dynamic additions to visualization and settings. Cell Inspector – View and inspect structured and unstructured models at the cell-level using the new cell inspector, available in the workflow viewers. The cell inspector displays cell values for user-specified input and output data fields. Status Bar – Cell dimensions have been added to the status bar. Time-Picker – A time-picker is now available for unstructured grid workflow viewers.

Layer-Picker – A layer-picker is now available for unstructured grid workflow viewers. Easy Classic Importing: Import your Classic project into Visual MODFLOW Flex directly from the file menu. Import Classic Concentrations: Boundary condition concentrations are now imported from Classic Projects. Animate Relative times in 3D views: in 3D View animations, the time stamp label for heads can be specified in relative or absolute time.

Descriptive Title Bars for Settings Windows: settings windows now display descriptive window titles including the data layer and viewer the settings apply to. Rename Objects: Objects in the Data Explorer and most objects in the Model Explorer can be renamed.

Feedback Button: Added anonymous feedback buttons so that you can easily report what features you like or don’t like. SAMG Solver: Added a single-processor version of the SAMG solver for Visual MODFLOW PRO users. MODFLOW-2000, 2005, NWT The world standard for groundwater flow modeling MODFLOW-USG A finite volume version of MODFLOW that uses unstructured grids. Build your 3D conceptual model using existing GIS data and wells/boreholes. The grid-independent conceptual model gives you the flexibility to experiment with different grid types and simulators.

Cell locations and parameters are automatically calculated for you, reducing the need to define these manually on a cell-based level. From one conceptual model you can easily generate multiple numerical models of different grid types and modeling scenarios, and easily update or modify the model as needed. Learn more ».