The best hydrogeologic modeling software! Software from an Industry Leader

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1 Software from an Industry Leader GMS is developed by Aquaveo, an engineering services company with many years of experience developing groundwater modeling solutions. Step-by-step tutorials and how-to videos Online community forum and product documentation Phone and technical support Regularly scheduled training courses taught by expert modelers On-site training available Professional consulting services The best hydrogeologic modeling software! Get a quote now with ARRH: andre.rocci@arrh.com.br +55 (11) Reseller in Brazil

2 Speed up & simplify model building with the conceptual model approach in GMS For models with simple geometry and boundary conditions, use the grid approach and edit values directly in the grid. Grid modeling in GMS starting at $1,800 (including 3D visualization) True 3D visualization optimized for performance GMS is the most advanced software system available for performing groundwater simulations in a three-dimensional environment. Import a variety of data formats & imagery Worldwide projection support Raster images, topo maps & elevation data Borehole, stratigraphy and geophysical data Native MODFLOW and Visual MODFLOW files Import/export 2D/3D finite element meshes into/out of GMS using FEFLOW File Format.fem Groundwater Vistas and PM Win Web data services such as TerraServer ArcGIS geodatabases and shapefiles CAD files:.dwg,.dgn, and.dxf formats Import wizard for.txt files and spreadsheets. Advanced subsurface characterization Generate iso-surfaces from 3D data to visualize plumes Cut cross-sections anywhere through 3D data 2D & 3D geostatistics Kriging, IDW and Natural Neighbor Robust and fast algorithms to create solids from horizons

3 MODPATH Particle Tracking with MODFLOW & GMS MODPATH is a particle tracking code that is used in conjunction with MODFLOW. After running a MODFLOW simulation, the user can designate the location of a set of particles. The particles are then tracked through time assuming they are transported by advection using the flow field computed by MODFLOW. Particles can be tracked either forward in time or backward in time. Because of the user-friendly interface in GMS, an intimate knowledge of MODPATH is not required to effectively do particle tracking in GMS. Particle tracking analyses are particularly useful for delineating capture zones or areas of influence for wells. GMS provides a custom interface to the MODPATH model offering a simple way to set model parameters and a graphical user interface to run the model and visualize the results. Gather background data from a variety of sources from GIS to CAD and access online data from numerous databases of maps, images, and elevation data. GMS allows you to interact with models in true 3D taking advantage of optimized OpenGL graphics and to create photo -realistic renderings and animations for PowerPoint, print, and web presentations. MODPATH was developed by the U.S. Geological Survey. Version 5.0 of MODPATH is supported in GMS. The version of MODPATH distributed with GMS is the original public domain version distributed by the USGS, with minor modifications to accommodate GMS.

4 MT3DMS Transport Modeling with MODFLOW & GMS MT3DMS is a modular threedimensional transport model for the simulation of advection, dispersion, and chemical reactions of dissolved constituents in groundwater systems. MT3DMS uses a modular structure similar to the structure utilized by MODFLOW. MT3DMS is used in conjunction with MODFLOW in a two step flow and transport simulation. Heads and cell -by-cell flux terms are computed by MODFLOW during the flow simulation and are written to a specially formatted file. This file is then read by MT3DMS and utilized as the flow field for the transport portion of the simulation. GMS provides a custom interface to the MT3DMS model offering a simple way to set model parameters and a graphical user interface to run the model and visualize the results. Gather background data from a variety of sources from GIS to CAD and access online data from numerous databases of maps, images, and elevation data. GMS allows you to interact with models in true 3D taking advantage of optimized OpenGL graphics and to create photo -realistic renderings and animations for PowerPoint, print, and web presentations. MT3DMS is a newer version of the MT3D model distributed with earlier versions of GMS. MT3DMS differs from MT3D in that it allows for multi-species transport, supports additional solvers, and allows for cell-by-cell input of all model parameters.

5 RT3D Reactive Transport Modeling with GMS RT3D is a multi-species reactive transport model developed by the Battelle Pacific Northwest National Laboratory. RT3D is a modified version of MT3DMS that utilizes alternate Chemical Reaction packages. Numerous pre-defined reactions are available and an option is provided for creating user-defined reactions. RT3D is well-suited for simulating natural attenuation and bioremediation. SEAWAT 3D Variable-density Groundwater Flow Coupled with Multi-species Solute & Heat Transport SEAWAT is a three dimensional variable density groundwater flow and transport model developed by the USGS based on MODFLOW and MT3DMS. SEAWAT v4 is based on MODFLOW 2000 and MT3DMS 5.2. SEAWAT includes two additional packages: Variable -Density Flow (VDF) and Viscosity (VSC). GMS supports SEAWAT as a pre- and post-processor. The interface to SEAWAT relies on the interface to MODFLOW and MT3DMS. The input data for SEAWAT is generated by GMS and saved to a set of files including a MODFLOW model, an MT3D model if transport is used, and a SEAWAT model pointing to the MODFLOW and MT3D model's package files. These files are then read by SEAWAT and executed. SEAWAT uses the MODFLOW and MT3D interfaces for boundary condition display and for post-processing. GMS provides a custom interface to the RT3D and SEAWAT models offering a simple way to set model parameters and a graphical user interface to run the model and visualize the results. Gather background data from a variety of sources from GIS to CAD and access online data from numerous databases of maps, images, and elevation data. GMS allows you to interact with models in true 3D taking advantage of optimized OpenGL graphics and to create photo -realistic renderings and animations for PowerPoint, print, and web presentations.

6 PHT3D Reactive Transport Modeling with GMS PHT3D is a multicomponent transport model for threedimensional reactive transport in saturated porous media. PHT3D is a combination of MT3DMS and PHREEQC-2. The PHREEQC component allows for a variety of low temperature aqueous geochemical reactions. SEAM3D Reactive Transport Modeling with GMS SEAM3D is a reactive transport model used to simulate complex biodegradation problems involving multiple substrates and multiple electron acceptors. It is based on the MT3DMS code. In addition to the regular MT3DMS modules, SEAM3D includes a Biodegradation package and NAPL Dissolution package. SEAM3D was developed by Mark Widdowson at Virginia Tech University. MOADEM Analytic Element Modeling with GMS The MODAEM model is developed by Vic Kelson of Wittman Hydro Planning Associates in Bloomington, Indiana. Unlike finite difference and finite element models, analytic element models do not require a discretization of the problem domain. Rather the model is completely defined by boundary conditions, source/sink terms, and material property zones represented by points, polylines (arcs), and polygons. Since GMS users are already in the habit of building conceptual models in the Map Module using points, arcs, and polygons, analytic element modeling is a natural fit for GMS.

7 FEFLOW Finite Element Groundwater Flow & Transport in GMS Import and export 2D and 3D finite element meshes into and out of GMS using the FEFLOW ASCII Model File Format (*.fem). This makes it possible to build a mesh in GMS and export it so it can be used to build a model in FEFLOW. Also, the mesh from a FEFLOW model can be exported from FEFLOW and imported into GMS for viewing, examination and post-processing. FEMWATER Finite Element Groundwater Flow & Contaminant Transport in GMS GMS provides a custom interface to the FEMWATER model offering a simple way to set model parameters and a graphical user interface to run the model and visualize the results. Gather background data from a variety of sources from GIS to CAD and access online data from numerous databases of maps, images, and elevation data. GMS allows you to interact with models in true 3D taking advantage of optimized OpenGL graphics and to create photo-realistic renderings and animations for PowerPoint, print, and web presentations. SEEP2D Earth Dam and Levee Analysis with GMS SEEP2D is a two-dimensional finite element groundwater model developed by Fred Tracy of the U.S. Army Engineer Waterways Experiment Station (WES). SEEP2D is designed to be used on profile models (XZ models) such as cross-sections of earth dams or levees. SEEP2D can be used for either confined or unconfined steady state flow models. For unconfined models, both saturated and unsaturated flow is simulated. The phreatic surface can be displayed by plotting the contour line at where pressure head equals zero. Contours of total head (equipotential lines) and flow vectors can be plotted. An option is also available for computing flow potential values at the nodes. These values can be used to plot flow lines. Together with the equipotential lines, the flow lines can be used to plot a flow net.

8 GMS 10.3 Editions & Pricing Community MODFLOW I MODFLOW II MODFLOW III Premium GMS Core Components - Ferramentas de Grid 3D * - Ferramentas de Animação 3D - Ferramentas de Modelagem Conceitual - Mapas Online Add-on - Ferramentas de GIS - CAD / Imagens / Suporte a DEM - Ferramentas de Anotações - Instalação 32 ou 64-bit MODFLOW Modeling Traditional Grid - Modelo & Interface MODFLOW * - Modelo & Interface MODFLOW-LGR Add-on - ZoneBudget Utility - Modelo & Interface MODPATH - Modelo & Interface MT3DMS - Modelo & Interface MT3D-USGS - Modelo & Interface RT3D Add-on - Modelo & Interface SEAWAT Add-on - Modelo & Interface PHT3D Add-on - Modelo & Interface SEAM3D Add-on Add-on Add-on Unstructured Grid - Modelo & Interface MODFLOW-USG - mod-path3du Model & Interface MODFLOW Utilities - PEST - Single Core Add-on PEST Paralelo - Multi Core Add-on - Solucionador SAMG Std. & USG (serie) Add-on Add-on Solucionador SAMG Std. & USG (paralelo) Add-on Add-on Site Characterization - Geoestatistica & Ferrramentas para Dados Dispersos Add-on - Ferramentas para Caracterização do Subssolo Add-on Add-on Ferramentas para Modelagem Estocástica Add-on Add-on T-PROGS Add-on Add-on Additional Models - Modelo & Interface MODAEM Add-on Add-on Add-on - Ferramentas para Malha de Elementos Finitos Add-on Add-on Add-on Modelo & Interface FEMWATER Add-on Add-on Add-on Modelo & Interface SEEP2D Add-on Add-on Add-on ArcGIS Extensions - Analisador de Águas Aubsterrâneas para ArcGIS - Analisador de MODFLOW para ArcGIS Add-on Add-on - Analisador de Subssolo para ArcGIS Add-on Add-on Add-on * Limitado por tamanho do grid períodos de estresse. GMS 10.3 System Requirements Operating System: Windows XP (Limited support), Windows Vista, Windows 7, Windows 8/8.1 or Windows 10 RAM: 4 GB (8GB or more recommended) CPU: GMS software is CPU intensive. We recommend the fastest CPU your budget allows. Graphics Card: For all display features to be enabled, OpenGL 1.5 or higher must be supported. The use of a dedicated graphics card is strongly recommended. Integrated graphics cards are often problematic. Display Resolution: 1920 x 1080 or greater

9 The best hydrogeologic modeling software! Get a quote now with ARRH: andre.rocci@arrh.com.br +55 (11) Reseller in Brazil