=========================== SUMMARY OF MODEL SIMULATION =========================== Logfile for IMODFLOW v2.6.61 ACTIVE MODULES/PACKAGES =================================================================== Module 1 not present SIMGRO Module 2 present active IBOUND Module 3 present active STARTING_HEAD Module 4 present active TRANSMISSIVITIES Module 5 present active VERTICAL_RESIST._VALUES Module 6 not present STORAGE_COEFFICIENTS Module 7 not present PERCHED_WATER_TABLE Module 8 not present ANISOTROPY Module 9 present inactive HORIZONTAL_FLOW_BARRIER Module 10 present active TOP_OF_AQUIFER Module 11 present active BOTTOM_OF_AQUIFER Module 12 not present CONCENTRATION Module 13 not present HORIZONTAL_K_VALUE Module 14 not present VERTICAL_K_VALUE Module 15 not present INTERBED_STORAGE Module 16 not present PARAMETER ESTIMATION Module 17 not present VERTICAL ANISOTROPY Module 18 not present STREAM FLOW THICKNESS Module 19 not present COMMON POINTER MODULE Module 20 not present STORAGE COEFFICIENT MODU Module 21 not present SUBSIDENCE_CREEP_PACKAGE Module 22 not present LAKE Package 1 present active WELLS Package 2 not present DRAINS Package 3 present active RIVERS Package 4 not present EVAPOTRANSPIRATION Package 5 not present GENERAL_HEAD_BOUNDARY Package 6 present active RECHARGE Package 7 not present OVERLANDFLOW Package 8 not present CONSTANT_HEAD Package 9 not present SEGMENT_RIVER =================================================================== IDFTINY= 0.50000E+00 Solving system (ncol x nrow x nlay): 60 x 60 x 19 Given window of interest: Xmin - Xmax - Delta X (m): 153000.00 156000.00 3000.00 Ymin - Ymax - Delta Y (m): 462000.00 465000.00 3000.00 Computed window of simulation: Cellsize - Buffer (m) : 50.00 0.00 Xmin - Xmax - Delta X (m): 153000.00 156000.00 3000.00 Ymin - Ymax - Delta Y (m): 462000.00 465000.00 3000.00 Total Area (km2) : 9.00 Processing TOP_OF_AQUIFER module Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\TOP\VERSION_SPLITTED\TOP_L1.IDF * Modellayer: 1; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\TOP\VERSION_SPLITTED\TOP_L2.IDF * Modellayer: 2; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\TOP\VERSION_SPLITTED\TOP_L3.IDF * Modellayer: 3; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\TOP\VERSION_SPLITTED\TOP_L4.IDF * Modellayer: 4; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\TOP\VERSION_SPLITTED\TOP_L5.IDF * Modellayer: 5; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\TOP\VERSION_SPLITTED\TOP_L6.IDF * Modellayer: 6; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\TOP\VERSION_SPLITTED\TOP_L7.IDF * Modellayer: 7; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\TOP\VERSION_SPLITTED\TOP_L8.IDF * Modellayer: 8; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\TOP\VERSION_SPLITTED\TOP_L9.IDF * Modellayer: 9; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\TOP\VERSION_SPLITTED\TOP_L10.IDF * Modellayer: 10; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\TOP\VERSION_SPLITTED\TOP_L11.IDF * Modellayer: 11; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\TOP\VERSION_SPLITTED\TOP_L12.IDF * Modellayer: 12; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\TOP\VERSION_SPLITTED\TOP_L13.IDF * Modellayer: 13; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\TOP\VERSION_SPLITTED\TOP_L14.IDF * Modellayer: 14; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\TOP\VERSION_SPLITTED\TOP_L15.IDF * Modellayer: 15; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\TOP\VERSION_SPLITTED\TOP_L16.IDF * Modellayer: 16; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\TOP\VERSION_SPLITTED\TOP_L17.IDF * Modellayer: 17; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\TOP\VERSION_SPLITTED\TOP_L18.IDF * Modellayer: 18; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\TOP\VERSION_SPLITTED\TOP_L19.IDF * Modellayer: 19; Mult. Factor: 1.000; Addition: 0.000 Processing BOTTOM_OF_AQUIFER module Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BOT\VERSION_SPLITTED\BOT_L1.IDF * Modellayer: 1; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BOT\VERSION_SPLITTED\BOT_L2.IDF * Modellayer: 2; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BOT\VERSION_SPLITTED\BOT_L3.IDF * Modellayer: 3; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BOT\VERSION_SPLITTED\BOT_L4.IDF * Modellayer: 4; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BOT\VERSION_SPLITTED\BOT_L5.IDF * Modellayer: 5; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BOT\VERSION_SPLITTED\BOT_L6.IDF * Modellayer: 6; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BOT\VERSION_SPLITTED\BOT_L7.IDF * Modellayer: 7; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BOT\VERSION_SPLITTED\BOT_L8.IDF * Modellayer: 8; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BOT\VERSION_SPLITTED\BOT_L9.IDF * Modellayer: 9; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BOT\VERSION_SPLITTED\BOT_L10.IDF * Modellayer: 10; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BOT\VERSION_SPLITTED\BOT_L11.IDF * Modellayer: 11; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BOT\VERSION_SPLITTED\BOT_L12.IDF * Modellayer: 12; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BOT\VERSION_SPLITTED\BOT_L13.IDF * Modellayer: 13; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BOT\VERSION_SPLITTED\BOT_L14.IDF * Modellayer: 14; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BOT\VERSION_SPLITTED\BOT_L15.IDF * Modellayer: 15; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BOT\VERSION_SPLITTED\BOT_L16.IDF * Modellayer: 16; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BOT\VERSION_SPLITTED\BOT_L17.IDF * Modellayer: 17; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BOT\VERSION_SPLITTED\BOT_L18.IDF * Modellayer: 18; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BOT\VERSION_SPLITTED\BOT_L19.IDF * Modellayer: 19; Mult. Factor: 1.000; Addition: 0.000 Processing IBOUND module Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BND\VERSION_1\BND_L1.IDF * Modellayer: 1; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BND\VERSION_1\BND_L1.IDF * Modellayer: 2; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BND\VERSION_1\BND_L1.IDF * Modellayer: 3; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BND\VERSION_1\BND_L2.IDF * Modellayer: 4; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BND\VERSION_1\BND_L3.IDF * Modellayer: 5; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BND\VERSION_1\BND_L3.IDF * Modellayer: 6; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BND\VERSION_1\BND_L3.IDF * Modellayer: 7; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BND\VERSION_1\BND_L4.IDF * Modellayer: 8; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BND\VERSION_1\BND_L5.IDF * Modellayer: 9; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BND\VERSION_1\BND_L5.IDF * Modellayer: 10; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BND\VERSION_1\BND_L5.IDF * Modellayer: 11; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BND\VERSION_1\BND_L6.IDF * Modellayer: 12; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BND\VERSION_1\BND_L6.IDF * Modellayer: 13; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BND\VERSION_1\BND_L6.IDF * Modellayer: 14; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BND\VERSION_1\BND_L7.IDF * Modellayer: 15; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BND\VERSION_1\BND_L8.IDF * Modellayer: 16; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BND\VERSION_1\BND_L9.IDF * Modellayer: 17; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BND\VERSION_1\BND_L10.IDF * Modellayer: 18; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\BND\VERSION_1\BND_L11.IDF * Modellayer: 19; Mult. Factor: 1.000; Addition: 0.000 Processing STARTING_HEAD module Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RESULTS_50_full_extent_SPLITTED\head\head_steady-state_L1.IDF * Modellayer: 1; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RESULTS_50_full_extent_SPLITTED\head\head_steady-state_L2.IDF * Modellayer: 2; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RESULTS_50_full_extent_SPLITTED\head\head_steady-state_L3.IDF * Modellayer: 3; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RESULTS_50_full_extent_SPLITTED\head\head_steady-state_L4.IDF * Modellayer: 4; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RESULTS_50_full_extent_SPLITTED\head\head_steady-state_L5.IDF * Modellayer: 5; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RESULTS_50_full_extent_SPLITTED\head\head_steady-state_L6.IDF * Modellayer: 6; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RESULTS_50_full_extent_SPLITTED\head\head_steady-state_L7.IDF * Modellayer: 7; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RESULTS_50_full_extent_SPLITTED\head\head_steady-state_L8.IDF * Modellayer: 8; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RESULTS_50_full_extent_SPLITTED\head\head_steady-state_L9.IDF * Modellayer: 9; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RESULTS_50_full_extent_SPLITTED\head\head_steady-state_L10.IDF * Modellayer: 10; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RESULTS_50_full_extent_SPLITTED\head\head_steady-state_L11.IDF * Modellayer: 11; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RESULTS_50_full_extent_SPLITTED\head\head_steady-state_L12.IDF * Modellayer: 12; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RESULTS_50_full_extent_SPLITTED\head\head_steady-state_L13.IDF * Modellayer: 13; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RESULTS_50_full_extent_SPLITTED\head\head_steady-state_L14.IDF * Modellayer: 14; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RESULTS_50_full_extent_SPLITTED\head\head_steady-state_L15.IDF * Modellayer: 15; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RESULTS_50_full_extent_SPLITTED\head\head_steady-state_L16.IDF * Modellayer: 16; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RESULTS_50_full_extent_SPLITTED\head\head_steady-state_L17.IDF * Modellayer: 17; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RESULTS_50_full_extent_SPLITTED\head\head_steady-state_L18.IDF * Modellayer: 18; Mult. Factor: 1.000; Addition: 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RESULTS_50_full_extent_SPLITTED\head\head_steady-state_L19.IDF * Modellayer: 19; Mult. Factor: 1.000; Addition: 0.000 Processing TRANSMISSIVITIES module Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\KDW\VERSION_SPLITTED_TRANSPORT_EXTENT_ADJUSTED_FOR_DNAPL\TRANSMISSIVITY_P1_L1.IDF * Modellayer: 1; Mult. Factor: 1.000; Addition: 0.000 kD >= 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\KDW\VERSION_SPLITTED_TRANSPORT_EXTENT_ADJUSTED_FOR_DNAPL\TRANSMISSIVITY_P1_L2.IDF * Modellayer: 2; Mult. Factor: 1.000; Addition: 0.000 kD >= 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\KDW\VERSION_SPLITTED_TRANSPORT_EXTENT_ADJUSTED_FOR_DNAPL\TRANSMISSIVITY_P1_L3.IDF * Modellayer: 3; Mult. Factor: 1.000; Addition: 0.000 kD >= 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\KDW\VERSION_SPLITTED_TRANSPORT_EXTENT_ADJUSTED_FOR_DNAPL\TRANSMISSIVITY_P1_L4.IDF * Modellayer: 4; Mult. Factor: 1.000; Addition: 0.000 kD >= 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\KDW\VERSION_SPLITTED_TRANSPORT_EXTENT_ADJUSTED_FOR_DNAPL\TRANSMISSIVITY_P1_L5.IDF * Modellayer: 5; Mult. Factor: 1.000; Addition: 0.000 kD >= 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\KDW\VERSION_SPLITTED_TRANSPORT_EXTENT_ADJUSTED_FOR_DNAPL\TRANSMISSIVITY_P1_L6.IDF * Modellayer: 6; Mult. Factor: 1.000; Addition: 0.000 kD >= 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\KDW\VERSION_SPLITTED_TRANSPORT_EXTENT_ADJUSTED_FOR_DNAPL\TRANSMISSIVITY_P1_L7.IDF * Modellayer: 7; Mult. Factor: 1.000; Addition: 0.000 kD >= 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\KDW\VERSION_SPLITTED_TRANSPORT_EXTENT_ADJUSTED_FOR_DNAPL\TRANSMISSIVITY_P1_L8.IDF * Modellayer: 8; Mult. Factor: 1.000; Addition: 0.000 kD >= 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\KDW\VERSION_SPLITTED_TRANSPORT_EXTENT_ADJUSTED_FOR_DNAPL\TRANSMISSIVITY_P1_L9.IDF * Modellayer: 9; Mult. Factor: 1.000; Addition: 0.000 kD >= 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\KDW\VERSION_SPLITTED_TRANSPORT_EXTENT_ADJUSTED_FOR_DNAPL\TRANSMISSIVITY_P1_L10.IDF * Modellayer: 10; Mult. Factor: 1.000; Addition: 0.000 kD >= 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\KDW\VERSION_SPLITTED_TRANSPORT_EXTENT_ADJUSTED_FOR_DNAPL\TRANSMISSIVITY_P1_L11.IDF * Modellayer: 11; Mult. Factor: 1.000; Addition: 0.000 kD >= 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\KDW\VERSION_SPLITTED_TRANSPORT_EXTENT_ADJUSTED_FOR_DNAPL\TRANSMISSIVITY_P1_L12.IDF * Modellayer: 12; Mult. Factor: 1.000; Addition: 0.000 kD >= 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\KDW\VERSION_SPLITTED_TRANSPORT_EXTENT_ADJUSTED_FOR_DNAPL\TRANSMISSIVITY_P1_L13.IDF * Modellayer: 13; Mult. Factor: 1.000; Addition: 0.000 kD >= 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\KDW\VERSION_SPLITTED_TRANSPORT_EXTENT_ADJUSTED_FOR_DNAPL\TRANSMISSIVITY_P1_L14.IDF * Modellayer: 14; Mult. Factor: 1.000; Addition: 0.000 kD >= 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\KDW\VERSION_SPLITTED_TRANSPORT_EXTENT_ADJUSTED_FOR_DNAPL\TRANSMISSIVITY_P1_L15.IDF * Modellayer: 15; Mult. Factor: 1.000; Addition: 0.000 kD >= 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\KDW\VERSION_SPLITTED_TRANSPORT_EXTENT\KDW_L16.IDF * Modellayer: 16; Mult. Factor: 1.000; Addition: 0.000 kD >= 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\KDW\VERSION_SPLITTED_TRANSPORT_EXTENT\KDW_L17.IDF * Modellayer: 17; Mult. Factor: 1.000; Addition: 0.000 kD >= 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\KDW\VERSION_SPLITTED_TRANSPORT_EXTENT\KDW_L18.IDF * Modellayer: 18; Mult. Factor: 1.000; Addition: 0.000 kD >= 0.000 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\KDW\VERSION_SPLITTED_TRANSPORT_EXTENT\KDW_L19.IDF * Modellayer: 19; Mult. Factor: 1.000; Addition: 0.000 kD >= 0.000 Processing VERTICAL_RESIST._VALUES module Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\VCW\VERSION_SPLITTED\VCW_L1.IDF * Modellayer: 1; Mult. Factor: 1.000; Addition: 0.000 C >= 0.1000E-02 and vcond <=0.1000E+07 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\VCW\VERSION_SPLITTED\VCW_L2.IDF * Modellayer: 2; Mult. Factor: 1.000; Addition: 0.000 C >= 0.1000E-02 and vcond <=0.1000E+07 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\VCW\VERSION_SPLITTED\VCW_L3.IDF * Modellayer: 3; Mult. Factor: 1.000; Addition: 0.000 C >= 0.1000E-02 and vcond <=0.1000E+07 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\VCW\VERSION_SPLITTED\VCW_L4.IDF * Modellayer: 4; Mult. Factor: 1.000; Addition: 0.000 C >= 0.1000E-02 and vcond <=0.1000E+07 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\VCW\VERSION_SPLITTED\VCW_L5.IDF * Modellayer: 5; Mult. Factor: 1.000; Addition: 0.000 C >= 0.1000E-02 and vcond <=0.1000E+07 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\VCW\VERSION_SPLITTED\VCW_L6.IDF * Modellayer: 6; Mult. Factor: 1.000; Addition: 0.000 C >= 0.1000E-02 and vcond <=0.1000E+07 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\VCW\VERSION_SPLITTED\VCW_L7.IDF * Modellayer: 7; Mult. Factor: 1.000; Addition: 0.000 C >= 0.1000E-02 and vcond <=0.1000E+07 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\VCW\VERSION_SPLITTED\VCW_L8.IDF * Modellayer: 8; Mult. Factor: 1.000; Addition: 0.000 C >= 0.1000E-02 and vcond <=0.1000E+07 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\VCW\VERSION_SPLITTED\VCW_L9.IDF * Modellayer: 9; Mult. Factor: 1.000; Addition: 0.000 C >= 0.1000E-02 and vcond <=0.1000E+07 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\VCW\VERSION_SPLITTED\VCW_L10.IDF * Modellayer: 10; Mult. Factor: 1.000; Addition: 0.000 C >= 0.1000E-02 and vcond <=0.1000E+07 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\VCW\VERSION_SPLITTED\VCW_L11.IDF * Modellayer: 11; Mult. Factor: 1.000; Addition: 0.000 C >= 0.1000E-02 and vcond <=0.1000E+07 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\VCW\VERSION_SPLITTED\VCW_L12.IDF * Modellayer: 12; Mult. Factor: 1.000; Addition: 0.000 C >= 0.1000E-02 and vcond <=0.1000E+07 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\VCW\VERSION_SPLITTED\VCW_L13.IDF * Modellayer: 13; Mult. Factor: 1.000; Addition: 0.000 C >= 0.1000E-02 and vcond <=0.1000E+07 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\VCW\VERSION_SPLITTED\VCW_L14.IDF * Modellayer: 14; Mult. Factor: 1.000; Addition: 0.000 C >= 0.1000E-02 and vcond <=0.1000E+07 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\VCW\VERSION_SPLITTED\VCW_L15.IDF * Modellayer: 15; Mult. Factor: 1.000; Addition: 0.000 C >= 0.1000E-02 and vcond <=0.1000E+07 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\VCW\VERSION_SPLITTED\VCW_L16.IDF * Modellayer: 16; Mult. Factor: 1.000; Addition: 0.000 C >= 0.1000E-02 and vcond <=0.1000E+07 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\VCW\VERSION_SPLITTED\VCW_L17.IDF * Modellayer: 17; Mult. Factor: 1.000; Addition: 0.000 C >= 0.1000E-02 and vcond <=0.1000E+07 Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\VCW\VERSION_SPLITTED\VCW_L18.IDF * Modellayer: 18; Mult. Factor: 1.000; Addition: 0.000 C >= 0.1000E-02 and vcond <=0.1000E+07 ==================================================== Start steady-state period ==================================================== Processing WELLS package Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\WELLS\VERSION_1\WELLS_20000101_L4.IPF * Modellayer: 0; Mult. Factor: 1.000; Addition: 0.000 # Layer will be computed by TOP and BOT data Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\WELLS\VERSION_1\WELLS_20000101_L5.IPF * Modellayer: 0; Mult. Factor: 1.000; Addition: 0.000 # Layer will be computed by TOP and BOT data Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\WELLS\VERSION_1\WELLS_20000101_L6.IPF * Modellayer: 0; Mult. Factor: 1.000; Addition: 0.000 # Layer will be computed by TOP and BOT data Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\WELLS\VERSION_1\WELLS_20000101_L9.IPF * Modellayer: 0; Mult. Factor: 1.000; Addition: 0.000 # Layer will be computed by TOP and BOT data Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\WELLS\VERSION_1\WELLS_20000101_L11.IPF * Modellayer: 0; Mult. Factor: 1.000; Addition: 0.000 # Layer will be computed by TOP and BOT data Processing RIVERS package Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RIVERS\VERSION_1\RIVER_CONDUCTANCE_20000101_L6_SYS1.IDF * Modellayer: 0; Mult. Factor: 1.000; Addition: 0.000 # Layer will be computed by TOP and BOT data Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RIVERS\VERSION_1\RIVER_CONDUCTANCE_20000101_L7_SYS1.IDF * Modellayer: 0; Mult. Factor: 1.000; Addition: 0.000 # Layer will be computed by TOP and BOT data Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RIVERS\VERSION_1\RIVER_STAGE_20000101_L6_SYS1.IDF * Modellayer: 0; Mult. Factor: 1.000; Addition: 0.000 # Layer will be computed by TOP and BOT data Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RIVERS\VERSION_1\RIVER_STAGE_20000101_L7_SYS1.IDF * Modellayer: 0; Mult. Factor: 1.000; Addition: 0.000 # Layer will be computed by TOP and BOT data Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RIVERS\VERSION_1\RIVER_BOTTOM_20000101_L6_SYS1.IDF * Modellayer: 0; Mult. Factor: 1.000; Addition: 0.000 # Layer will be computed by TOP and BOT data Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RIVERS\VERSION_1\RIVER_BOTTOM_20000101_L7_SYS1.IDF * Modellayer: 0; Mult. Factor: 1.000; Addition: 0.000 # Layer will be computed by TOP and BOT data Read Constant Value 1.000 * Modellayer: 0; Mult. Factor: 1.000; Addition: 0.000 Constant Value becomes 1.000 # Layer will be computed by TOP and BOT data Read Constant Value 1.000 * Modellayer: 0; Mult. Factor: 1.000; Addition: 0.000 Constant Value becomes 1.000 # Layer will be computed by TOP and BOT data Processing RECHARGE package Assigned D:\SBNS\MODEL_FASE1\MODFLOW_ORIGINAL_EQUIDISTANT\DBASE\RECHARGE\VERSION_1\RECHARGE_20000101_L1.IDF * Modellayer: 1; Mult. Factor: 1.000; Addition: 0.000 Checking input (and assigning modellayers) ... WEL-elements system:1,layer:0, removed 0/0 errors/outliers from 2 remaining 2 system:2,layer:0, removed 0/0 errors/outliers from 2 remaining 2 system:2,layer:0, added 4 elements system:3,layer:0, removed 0/0 errors/outliers from 11 remaining 11 system:3,layer:0, added 22 elements system:4,layer:0, removed 0/0 errors/outliers from 1 remaining 1 system:5,layer:0, removed 0/9 errors/outliers from 18 remaining 9 RIV-elements system:1,layer:0, removed 0/42 errors/outliers from 487 remaining 445 system:1,layer:0, added 570 elements system:2,layer:0, removed 0/0 errors/outliers from 3 remaining 3 RCH-elements system:1,layer:1, removed 0/240 errors/outliers from 3600 remaining 3360 Finished Checking Input (and assigning modellayers). ========================================================================= Solving : 1 out of 1 stress periods Period : [result for] STEADY-STATE Duration: 0.00 days ========================================================================= Head-Closure Cell (lrc) Budget-Closure Cell (lrc) NIter Sol. (crit=.100E-03) (crit=.100E+01) (**) -0.00008626 (16-41-21) -0.01334823 (15-42-25) 30 1 -0.00003417 (15-46-22) -0.01215744 (15-42-25) 31 2 ========================================================================= ========================================================================= Model Converged Writing Output ... ======================================================================== ============================================= Resulting Waterbalance for: STEADY-STATE ============================================= Budget Type Q-in (m3/d) Q-out (m3/d) bdgwel 0.24600E+04 -0.41428E+04 bdgriv 0.31544E+03 -0.51707E+04 bdgrch 0.45352E+04 0.00000E+00 bdgbnd 0.69961E+04 -0.49944E+04 --------------------------------------------- TOTAL 0.14307E+05 -0.14308E+05 ERROR -0.11436E+01m3 -0.008% ============================================= --------------------------------------------- Succesfully completed IMODFLOW v2.6.61 Simulation time: 8 secs./0.13 minutes ---------------------------------------------