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Site Map Layers

ÇöÀå Áöµµ¸¦ Àо ¿©·¯ºÐÀÇ ¸ðµ¨¿¡ ÁßøÇÒ ¼ö ÀÖ½À´Ï´Ù. Áö¿øµÇ´Â ÆÄÀÏ Çü½Ä ¿¹ - AutoCAD(.DXF), Shapefiles(.SHP), ·¡½ºÅÍ À̹ÌÁöµé(.BMP, .JPG, .GIF)

Calculated heads using MODFLOW

Grid Design

Visual MODFLOW´Â ¸ðµ¨ °ÝÀÚ¸¦ ÇöÀå Ư¼º°ú ÁöÇϼö È帧 ¹æÇâ°ú ÀÏÄ¡½ÃÅ°±â À§ÇØ ÇöÀå Áöµµ(.DXF ¶Ç´Â .BMP)¿¡ ´ëÇØ ¸ð¸á µµ¸ÞÀÎ(Domain)¸¦ ȸÀü½Ãų ¼ö ÀÖ½À´Ï´Ù. À¯ÇÑ Â÷ºÐ °ÝÀÚ¸¦ Ãß°¡, »èÁ¦, À̵¿ µî ÆíÁýÇÒ ¼ö ÀÖ°í Çà, ¿­ ±×¸®°í ·¹À̾îµéÀ» ÀÚµ¿À¸·Î Á¤Á¦(refine)ÇØÁÝ´Ï´Ù.

Automatic Grid Smothing

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Assigned hydrogeological properties to each grid cell

Importing Layer Elevations

´ëºÎºÐÀÇ ´ë¼öÃþ(aquifers)Àº 'ÆòÆòÇÑ' ·¹À̾ ¾Æ´Ï¹Ç·Î, Visual Studio´Â surface µ¥ÀÌÅ͸¦ ASCII(X, Y, Z), Surfer(GRD), USGS DEM(.DEM), ESRI(.GRD), MapInfo(.GRD) ÆÄÀϷκÎÅÍ ºÒ·¯ ¿Ã ¼ö ÀÖ½À´Ï´Ù.

XYZ ASCII ÆÄÀϵéµé(TXT), MS Access Database (MDB), MS Excel (XLS), ±×¸®°í ESRI Point Shape files (SHP)·ÎºÎÅÍ ·¹À̾î Ç¥°í µ¥ÀÌÅ͸¦ ºÒ·¯¿Í¼­ ³»»ðó¸®ÇÒ ¼ö ÀÖ½À´Ï´Ù.

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Import and interpolate layer elevations and property zones

Grid Cell Elevation Editor

ÀÌ ÅøÀº Array editor¸¦ ÀÌ¿ëÇÏ¿© °¢ ¼¿ÀÇ °³º° Ç¥°í(elevation)À» ÆíÁýÇÒ ¼ö ÀÖ°Ô ÇØÁÝ´Ï´Ù. µå·¡±× ¾Ø µå·Ó(Drag-and drop) ¹æ½ÄÀ» ÀÌ¿ëÇÏ¿© Ⱦ´Ü¸é¿¡¼­ ¼¿ Ç¥°íµéÀ» ÆíÁýÇÒ ¼ö Àִµ¥, ¼¿ µÎ±ú¸¦ ´ÃÀ̰ųª ¾ÐÃàÇÒ ¼ö ÀÖ½À´Ï´Ù. 

¿ì¹° ¾ç¼ö(Pumping Wells)

Á÷°üÀûÀÎ ¿ì¹° ÆíÁý±â(well edit tool)À» ÀÌ¿ëÇÏ¿© ¿ì¹° ¾ç¼ö ¶Ç´Â ÁÖÀÔÀ» Ãß°¡Çϰųª º¹»ç ¶Ç´Â Á¦°ÅÇÒ ¼ö ÀÖ°í, well screen °£°ÝÀ» ±×·¡ÇÈÀúÀ¸·Î À±°ûÀ» ±×¸®°Å³ª ASCII ÅؽºÆ® ÆÄÀϷκÎÅÍ ½Ç½Ã°£ ¾ç¼ö ½ºÄÉÁìÀ» ºÒ·¯ ¿Ã ¼ö ÀÖ½À´Ï´Ù. ¿ì¹° ¾ç¼ö°¡ ¸¹Àº »çÀÌÆ®ÀÇ °æ¿ì, Visual MODFLOW´Â ¾ç¼ö °ü·Ã ¸ðµç µ¥ÀÌÅ͵éÀ» ºÒ·¯ ¿Ã ¼ö ÀÖ½À´Ï´Ù.

.txt, .vc, .shp, .xls, .mdb ÆÄÀϵé·ÎºÎÅÍ ºÒ·¯ ¿Ã ¼ö ÀÖ½À´Ï´Ù.

Multiple well screens for a single well are easily accommodated while the pumping rate distribution between layers is automatically calculated based on the transmissivity of the layers through which it is screened.

Observation Wells

Visual MODFLOW Pro is the only MODFLOW modeling environment that allows you to assign multi-level observation wells, just like ones you have in the field. In addition, Visual MODFLOW is the only modeling software package that allows you to group the observation points into one or more observation groups. This grouping feature is used for interpreting the calibration data for an isolated section(s) of your model domain.

Properties

Visual MODFLOW Pro separates the model properties into two distinct categories:

Flow Properties

Those physical model properties affecting the groundwater flow simulation. Flow properties include; hydraulic conductivity (Kx, Ky, and Kz), specific storage (Ss), specific yield (Sy), porosity and initial heads.

Transport Properties

Those physical and chemical model properties affecting the fate, migration and degradation of a contaminant plume in groundwater, or adsorbed to the soil. Transport properties include; dispersion (Dx, Dy and Dz), bulk density, distribution coefficient (Kd), decay constants, initial concentrations.

Import property zones from ESR1 polygon (.SHP) files.

Properties can be interpolated from XYZ ASCII files (TXT), MS Access Database (MDB), MS Excel (XLS), and ESRI Point Shape files (SHP). Interpolation options include Natural Neighbor, Kriging, and Inverse Distance.

Boundary Conditions

MODFLOW boundary conditions supported by Visual MODFLOW Pro include both steady-state and transient Constant Heads, Rivers, General Heads, Drains, Recharge and Evapotranspiration. The Horizontal Flow Barrier package is also supported.

Visual MODFLOW Pro also supports all contaminant transport boundary conditions available for the latest versions of MT3D including MT3DMS for multi-species transport, and RT3D for reactive transport and natural attenuation simulation. These include constant, recharge, or evapotranspiration concentration, and point source.

For transient simulations, real-time schedules of boundary condition values can be entered directly or imported into the time schedule from an ASCII text file. Recharge and evapotranspiration boundary conditions can be imported from ESRI polygon shapefiles.

Particles

Forward or backward tracking particles can be easily assigned for determining advective transport, preferred flow pathways and delineating well capture zones. Visual MODFLOW Pro¡¯s intuitive graphical tools allow you to easily assign single particles, lines of particles and a circle of particles anywhere in your model domain.

Zone Budget

The Zone Budget package allows you to produce zone-to-zone flow summaries for regions of interest in your model domain. Define zone budget flow observations, such as baseflow to a stream, or flux across a boundary, which can be used for calibrating the groundwater flow model against data other than just head measurements. Zone budget observations can be included in WinPEST.

Enviro-Base Pro

Visual MODFLOW Pro now integrates Enviro-Base Pro - an all-in-one database designed to house a variety of referenced property information used when developing groundwater models. Enviro-Base Pro enables you to consolidate your technical references into one package that can be easily launched, searched and updated.

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Visual MODFLOW¸¦ ÀÌ¿ëÇÏ¿©, ¿©·¯ ¸ðµ¨µéÀ» ¿¬¼ÓÇؼ­ ½ÇÇàÇϱâ À§ÇÑ ¹èÄ¡ ÆÄÀÏÀ» ½±°Ô ¼³Á¤ÇÒ ¼ö ÀÖ½À´Ï´Ù. ÀÌ·¯ÇÑ °­·ÂÇÑ ±â´ÉÀ» ÀÌ¿ëÇÏ¿© µ¿ÀÏ ¸ðµ¨¿¡ ´ëÇØ ¿©·¯ ¹öÀüÀ» ¸¸µé¾î ½ÇÇàÇϸ鼭 ´Ù¸¥ ÀÛ¾÷À» ÇÒ ¼ö ÀÖ½À´Ï´Ù.

¡Ü Initial head estimates (import from ASCII or Surfer, or previous run). Option to calculate VCONT from ground elevation or initial heads

¡Ü Number of time-steps and time-step multiplier

¡Ü Solver selection and convergence settings

¡Ü Recharge layer settings

¡Ü Layer-types (e.g. confined, unconfined)

¡Ü Rewetting options, including option to maintain a minimum saturated thickness for dry cells and to specify a head value in these cells equivalent to the cell bottom elevation.

¡Ü Anisotropy option

MT3D run settings include:

¡Ü Initial concentrations (import from ASCII or Surfer)

¡Ü Solver and advection package settings (UFD, TVD, MOC, MMOC, HMOC)

¡Ü Simulation output times

Advanced Settings

For the advanced users of MODFLOW, you can substitute your own manually created input data files for any MODFLOW by using the Advanced Settings. The Advanced Settings allows you to specify which files you will use from Visual MODFLOW Pro, and which files you will substitute.

Batch Runs

Visual MODFLOW Pro also now allows you to easily set up a batch file to run several models in succession. This is a very powerful feature that allows you to create several versions of the same model and then run the models while you are doing other tasks.

The Win32 MODFLOW Suite

Visual MODFLOW Pro includes the Win32 MODFLOW Suite with MODFLOW-2000, MODPATH, Zone Budget, MT3DMS and RT3D compiled to run as true Windows, 32-Bit applications. This unique and powerful modeling utility actually provides you with the ability to control the numerical solution process by manipulating the solver parameters and convergence criteria while the solution is in progress. In addition, it provides a real-time graphical display of the solution convergence data and a detailed graphical summary of the Zone Budget results.

After each successful run has completed, the Win32 MODFLOW Suite automatically produces all of the necessary files required for you to analyze and interpret the results, and produce full-color, report-quality graphical presentations using Visual MODFLOW Pro¡¯s post-processing graphical features.

Power Features

USGS SEAWAT v.4

SEAWAT is a generic MODFLOW/MT3DMS-based computer program designed to simulate three-dimensional variable-density groundwater flow coupled with multi-species solute and heat transport. The program has been used for a wide variety of groundwater studies including those focused on brine migration in continental aquifers as well as those focused on saltwater intrusion in coastal aquifers. SEAWAT uses the familiar structure of MODFLOW and MT3DMS. Thus, most of the commonly used pre and post-processors can be used to create SEAWAT datasets and visualize results.

SEAWAT Version 4 is backward compatible with datasets created for SEAWAT-2000 and, therefore, SEAWAT-2000 is no longer supported or maintained.

MGO - Modular Groundwater Optimizer

Modular Groundwater Optimizer is a simulation optimization software system, that can be used to reduce the costs associated with installing and operating a pump-and-treat remediation system. MGO code can be applied with no or minor modification to a variety of groundwater resource management issues and other types of remediation systems such as bioremediation, optimization of groundwater pump-and-treat systems.

GMG Solver Implementation

The new Geometric Multigrid Solver (GMG) solver from USGS has been integrated with the MODFLOW-2000 and SEAWAT-2000 Engines. GMG is based on the geometric multigrid solver method. The GMG solver has been demonstrated to greatly reduce model run times relative to other solvers using a comparable amount of memory.

MNW - Multi-Node Well

The simulation of pumpage by wells is a fundamental and widely used feature of ground-water models such as MODFLOW. Visual MODFLOW¡¯s new addition, the Multi-Node Well Package, is designed to help simulate wells with well screens that span multiple layers. Now you can accurately simulate pumping wells screened in multiple aquifers.

Add-on Packages

MIKE 11

MIKE 11, developed by DHI, is a world-recognized surface water modeling package designed for simulating the hydrodynamic conditions found in rivers, lakes, reservoirs, and irrigation canals. Visual MODFLOW Pro and MIKE 11 are now available as a fully coupled, groundwater and surface water simulation environment. This impressive combination represents the only truly conjunctive groundwater/surface water model combining USGS MODFLOW 2000and DHI¡¯s MIKE 11. Ideally suited for:

¡Ü Analyzing the hydraulic connection between rivers, streams, and aquifer systems

¡Ü Determining groundwater base-flow and potential impacts to ecologically sensitive areas

¡Ü Calculating infiltration rates from surface water to groundwater during rainfall events

¡Ü Developing comprehensive watershed management plans

MODFLOW-SURFACT

MODFLOW-SURFACT is a three-dimensional finite-difference flow and transport program containing many advancements and improvements over the standard public-domain versions of MODFLOW.

With more robust solution methods and enhanced simulation capabilities for handling complex saturated/unsaturated subsurface flow and transport processes, MODFLOW-SURFACT is specifically designed to address the many limitations and short-comings of the standard MODFLOW codes.

Use MODFLOW-SURFACT when simulating:

¡Ü Multiple water tables, or perched water table systems

¡Ü Steep water table gradients crossing multiple model layers

¡Ü Over-pumped wells screened across multiple model layers

¡Ü Surface water infiltration through the vadose zone to the water table

¡Ü Large water table fluctuations causing desaturation/ resaturation of grid cells

¡Ü Soil vapor flow through the unsaturated zone

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In order to get the most out of the model that you build, it is critical that you have the tools necessary to properly analyze the results.

Contouring and Color Maps

¡Ü Visual MODFLOW Pro creates detailed contour maps of modeling results including:

¡Ü Heads, drawdown and multi-species concentrations

¡Ü Water table elevations/depth and net recharge

¡Ü Head difference between layers and flux between layers

High-quality color shaded contouring is also available for creating presentation quality color maps of all contoured results.

Flow Velocity Vectors and Pathlines

Visual MODFLOW Pro displays flow velocity vectors and flow pathlines. Flow velocity vectors can be used to effectively illustrate the direction and magnitude of groundwater flow velocity throughout the model domain.

Export Options

Export model display to Raster image format (.BMP, .JPG, .TIF, .PNG, .TIF), or AutoCAD (.DXF) in model or world co-ordinates

Export contour lines, velocity vector maps, and pathline locations to ESRI Shapefile (.SHP) in model or world co-ordinates

Export a wide variety of gridded data to ASCII .TXT, Surfer .GRD, or TecPlot (.DAT) Visualization using VMOD 3D-Explorer

To achieve an in-depth understanding of your model, and to effectively present the model results to clients or the general public, we¡¯ve incorporated powerful two and three dimensional visualization and animation tools through the VMOD 3D-Explorer.

¡Ü Create contour/color maps of model properties and simulation results

¡Ü Present graphical summaries of global and local mass budgets

¡Ü Create model calibration plots and statistical summaries including mean error, absolute mean error, standard deviation, and many more!

¡Ü Full control of map overlays - save your overlay configurations and view only the overlays you require!

¡Ü Display 3D pumping wells and observation wells

¡Ü Represent soil property zones and boundary conditions in 3D

¡Ü Render high resolution 3D volumetric contaminant plumes

¡Ü Create irregular shaped cross-sections

¡Ü 3D pathlines with time markers

¡Ü Define 3D cut-away regions

¡Ü Animate sequential degradation of contaminant plumes and save into AVI file format for use in Microsoft PowerPoint presentations!

Mass Budgets for Flow and Transport

Visual MODFLOW Pro produces detailed tabular and graphical reports of the mass balances for both the flow and mass transport simulations. These reports provide global and local summaries of the mass inflows and outflow from the system, or from a localized region of the model.

Printing

Visual MODFLOW Pro prints full-color, high-resolution graphics to any printer or plotter supported by Windows. The graphical display of the simulation results and/or input files can be printed in portrait or landscape format as a full-page image or with a title block that describes the details of the model and the results being displayed. Color-shaded contours can be printed with or without a color legend.

Visual MODFLOW Pro also prints the on-screen display to several graphics file formats and exports results to ASCII files in two or three dimensional format.

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WinPEST

WinPEST has been seamlessly integrated into Visual MODFLOW Pro to allow you to conveniently select the model parameters you want to optimize, and then easily launch the built-in WinPEST application directly.

WinPEST not only modifies the MODFLOW input data files, it also modifies and updates the Visual MODFLOW Project data files. This makes it much more practical and convenient to re-load your model files once the automated calibration procedure is completed.

Supported parameters for a PEST simulation include flow properties and recharge. You can include head and/or concentration observations, and zone budget observations in the objective function.

During PEST execution, you can view a number of useful pieces of information for displaying and interpreting the PEST simulation results, many of them in real-time graphical form. You can also see how PEST adjusted the values of the parameters during the optimization process.

In all of these plots, Right-Clicking on the graphs and selecting Properties will allow you to alter the appearance of the plots. These plots include:

Tools for Manual Calibration

An extensive set of built-in model calibration plotting utilities and statistical calculations help you properly evaluate the modeling results and interpret the calibration data. Comprehensive calibration plotting utilities and statistical summaries provide you with all the graphical interpretation tools you need to properly and thoroughly analyze the model calibration data.

Visual MODFLOW allows you to assign multi-level observation wells and group the observation points for isolated analysis of local model regions.

For each simulation Visual MODFLOW calculates the following calibration statistics:

¡Ü Mean Error

¡Ü Mean Absolute Error

¡Ü Standard Error of the Estimate

¡Ü Root Mean Error

¡Ü Normalized Root Mean Error

These statistics can be calculated for all observations, or just for selected groups of observation points (as defined by the user).

The calibration plotting options provided include:

¡Ü Scatter plot of calculated vs. observed data

¡Ü Histogram of calibration residuals

¡Ü Time-series plot of calculated and observed data

¡Ü Time-series plot of calibration statistics

¡Ü Bubble plot of calibration residuals

All plots can be exported to common image format (.BMP, .JPG, .TIF, .PNG), and the plot data can be exported to .ASCII for further analysis.

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¡Ü Supported on Windows XP Pro SP2, and Windows Vista (Business, Enterprise and Ultimate)

¡Ü RAM: 512MB and 1GB (or more) would be recommended

¡Ü Hard drive space: 200MB

¡Ü A minimum screen resolution of 1024 X 768

¡Ü A Microsoft compatible mouse

¡Ü Microsoft Framework 2.0 installed

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