WGNHS2016_LittlePlover Model Archive 12/1/2016 Archive: Fienen, M.N., Bradbury, K.R., Kniffin, M., Krause, J., Westenbroek, S.M., Leaf, A.T., Barlow, P.M., 2017, MODFLOW-NWT groundwater flow model and GWM-VI optimization code for the Little Plover River Basin in Wisconsin’s Central Sand Plain: U.S. Geological Survey data release. http://dx.doi.org/10.5066/F7988542 Associated Report: Bradbury, K.R., Fienen, M.N., Kniffin, M., Krause, J., Westenbroek, S.M., Leaf, A.T., Barlow, P.M., 2017, A Groundwater Flow Model for the Little Plover River Basin in Wisconsin’s Central Sand Plain: Wisconsin Geologic and Natural History Survey Bulletin 111. The underlying directories contain the model source code, the geospatial information, and all of the input and output files for the simulations described in the report. The report and appendices are included in the main directory of this data release. Descriptions of the data in each subdirectory are given to facilitate understanding of this data release. Files descriptions are provided for select files to provide additional information that may be of use for understanding this data release. The model simulations were run with MODFLOW-NWT (v 1.0.9) and GWM. Support is provided for correcting errors in the data release and clarification of the modeling conducted by the U.S. Geological Survey. Users are encouraged to review the complete model documentation report in the main directory of this data release to understand the purpose, construction, and limitations of this model. Reconstructing the data release from the online data release: ------------------------------------------------------------- This data release is available from: http://dx.doi.org/10.5066/F7988542 The models, along with post-processing tools, will run successfully only if the original directory structure is correctly restored. The data release is broken into several pieces to reduce the likelihood of download timeouts. Small files (readme.txt and modelgeoref.txt) are available as uncompressed files. All other files are zipped at the subdirectory level. For example, the files in the "georef" subdirectory are zipped into a zip file named "georef.zip". All zip files should be unzipped into a directory with the same name as the zip file name without the .zip extension. The highest-level directory structure of the original data release is: WGNHS2017-LittlePlover/ bin/ georef/ model/ output/ source/ The full directory structure of the data release and the zip files associated with each subdirectory are listed below. System requirements: -------------------- The models contained in this data release were run using the MODFLOW-NWT_64.exe and GWM-VI64.exe executables in the bin zip file in this data release. Both were compiled using the Intel(R) Visual Fortran 64-bit compiler (version 14.0.0092.11) for Windows and the Visual C++ 2012 compiler. The models requires approximately 60 MB of available Random Access Memory (RAM). The models have been run successfully on computers running the following Windows operating systems (OS): o 64-bit Windows 7 ======================================================================================================== WGNHS2017-LittlePlover Model Archive Summary: readme.txt: This file documents the directory structure and instructions for running simulations modelgeoref.txt: This file documents the model extent in decimal degrees report.pdf: Pdf of the report associated with this model appendices.zip: Zip file of the report appendices \bin: This directory contains the compiled codes used to run the simulations documented in the published report which can be found main directory of this data release. MODFLOW-NWT_64.exe: MODFLOW-NWT 1.09 executable gwm-vi.exe: Version-independent Groundwater Management 1.0.1 executable (32-bit) GWM-VI64.exe: Version-independent Groundwater Management 1.0.1-bf-5-7-2015 executable (64-bit) jrunnerm.exe: JUPITER runner utility executable for parallel GWM-VI (32-bit) JRunnerM64.exe: JUPITER runner utility executable for parallel GWM-VI (64-bit) mmproc.exe: Model processing executable for parallel GWM-VI (32-bit) MMProc64.exe: Model processing executable for parallel GWM-VI (64-bit) \georef: This directory contains the model shapefiles WGNHS2017_LittlePlover.cpg/dbf/prj/sbn/sbx/shp/shp.xml/shx: Model domain shapefile and metadata for MODFLOW-NWT model defining the active and inactive areas of the model readme.txt: information on the shapefile \model: This directory contains the model input files for simulations done by the USGS and documented in the report in the main directory of this data release Note, steady-state and transient simulations of pumping from an additional high capacity well (example 1 in the WGNHS report) and a steady-state predevelopment simulation (Example 2) were discussed in the WGNHS model report included in the main directory of this data release. These simulations were done entirely outside of the USGS and are not included in this archive. Additional information on these two simulations may be found in the WGNHS report and by contacting the WGNHS. \externalfiles: MODFLOW-NWT input files common to all the GWM examples in folders below starting with GWM \GWM_LPR_EIS_ALL_REDUCE_3.2_1_100: GWM-VI scenario input files with a single decision variable using all wells \GWM_LPR_EIS_BND_REDUCE_3.2_20_100: GWM-VI scenario input files with a 20 clustered decision variables using allowing maximum 100% reduction \GWM_LPR_EIS_BND_REDUCE_3.2_20_35: GWM-VI scenario input files with a 20 clustered decision variables using allowing maximum 35% reduction \GWM_LPR_EIS_IRR_REDUCE_3.2_20_100: GWM-VI scenario input files with a 20 clustered decision variables with non-irrigation hi-cap wells separated using allowing maximum 100% reduction \GWM_LPR_EIS_IRR_REDUCE_3.2_20_35: GWM-VI scenario input files with a 20 clustered decision variables with non-irrigation hi-cap wells separated using allowing maximum 35% reduction \Steady_State_MODFLOW-NWT: MODFLOW-NWT input files unique to the Little Plover River model representing steady-state conditions for 2013 \Transient_MODFLOW-NWT: MODFLOW-NWT input files unique to the Little Plover River model representing transient conditions for 2014 readme.txt: information on input files \output: This directory contains model output files for simulations done by the USGS and documented in the report in the main directory of this data release. \readme.txt \output.LPR_EIS_ALL_REDUCE_3.2_1_100 NOTE: multiple MODFLOW models are generated as GWM executes. Only files used for analysis are described here. Eisenhower1_100.RM = GWM-VI Response Matrix File LPR_Eisenhower1_100_bnd.reduce.gwmout = GWM-VI Summary output file \ output.LPR_EIS_ALL_REDUCE_3.2_20_100 NOTE: multiple MODFLOW models are generated as GWM executes. Only files used for analysis are described here. Eisenhower20_100.all.RM = GWM-VI Response Matrix File LPR_Eisenhower20_100_all.reduce.gwmout = GWM-VI Summary output file \ output.LPR_EIS_ALL_REDUCE_3.2_20_35 NOTE: multiple MODFLOW models are generated as GWM executes. Only files used for analysis are described here. Eisenhower20_35.all.RM = GWM-VI Response Matrix File LPR_Eisenhower20_35_all.reduce.gwmout = GWM-VI Summary output file \ output.LPR_EIS_BND_REDUCE_3.2_20_100 NOTE: multiple MODFLOW models are generated as GWM executes. Only files used for analysis are described here. Eisenhower20_100.bnd.RM = GWM-VI Response Matrix File LPR_Eisenhower20_100_bnd.reduce.gwmout = GWM-VI Summary output file \ output.LPR_EIS_BND_REDUCE_3.2_20_35 NOTE: multiple MODFLOW models are generated as GWM executes. Only files used for analysis are described here. Eisenhower20_35.bnd.RM = GWM-VI Response Matrix File LPR_Eisenhower20_35_bnd.reduce.gwmout = GWM-VI Summary output file \ output.LPR_EIS_IRR_REDUCE_3.2_20_100 NOTE: multiple MODFLOW models are generated as GWM executes. Only files used for analysis are described here. Eisenhower20_100.irr.RM = GWM-VI Response Matrix File LPR_Eisenhower20_100_irr.reduce.gwmout = GWM-VI Summary output file \ output.LPR_EIS_IRR_REDUCE_3.2_20_35 NOTE: multiple MODFLOW models are generated as GWM executes. Only files used for analysis are described here. Eisenhower20_35.irr.RM = GWM-VI Response Matrix File LPR_Eisenhower20_35_irr.reduce.gwmout = GWM-VI Summary output file \ output.Steady_State_MODFLOW-NWT SS11Final_baserun_updated_wells.cbb = MODFLOW binary cell-by-cell output SS11Final_baserun_updated_wells.hds = MODFLOW binary head file SS11Final_baserun_updated_wells.lst = MODFLOW list file \ output.Transient_MODFLOW-NWT Trans_2014_7_24_16.cbb = MODFLOW binary cell-by-cell output Trans_2014_7_24_16.hds = MODFLOW binary head file Trans_2014_7_24_16.lst = MODFLOW list file readme.txt: information on the output files \source: this directory contains the source code for the MODFLOW-NWT 1.0.9 and GWMVI used to run the simulations done by the USGS and documented in the report in the main directory of this data release. \GWMVI_1_0_1 \MODFLOW-NWT_1.0.9 readme.txt ======================================================================================================== Instructions for running simulations: MODFLOW Model: Download the model folder and place into a new directory. Copy the MODFLOW-NWT_64.exe from the bin folder into either the Steady_State_MODFLOW-NWT or Transient_MODFLOW-NWT directory. Open a DOS prompt and navigate to either Steady_State_MODFLOW-NWT or Transient_MODFLOW-NWT; then run >MODFLOW-NWT_64.exe SS11Final_baserun_updated_wells.nam in Steady_State_MODFLOW to run the steady-state version or >MODFLOW-NWT_64.exe Trans_2014_7_24_16 in Transient_MODFLOW-NWT to run the transient version. GWM-VI Model: Download the model folder and place into a new directory. Copy all the executable files from the bin folder into the GWM* run folder. Open a DOS prompt and run >GWM-VI64.exe .gwm where indicates the root name of the GWM file for the scenario of interest. See GWM-VI documentation to determine options for running in parallel.