=============================================================================== iMODFLOW Version 3_4, June 2016 Copyright (C) Stichting Deltares, 2005-2016. This Deltares-software executable is part of iMOD. iMOD is Deltares-software; the source code of iMOD is also available as free open source software at oss.deltares.nl. You may use the Deltares-software executables of iMOD without any remuneration to be paid to Deltares if you accepted the iMOD Software License Agreement (iMOD License) which is offered to you as a PDF-file; you should have received a copy of this PDF-file with this Deltares-software executable. If not, see http://oss.deltares.nl/web/iMOD/iMOD_Software_License_Agreement. Please go to the PDF-file of the iMOD License, read it and decide whether you want or do not want to accept the iMOD License. According to the file "I_accepted_v3_4.txt" on your computer you accepted the terms and conditions of the iMOD license; WARNING: IF IT WAS NOT YOU OR THE LEGAL ENTITY ON WHOSE BEHALF YOU INTENT TO USE THE IMOD-EXECUTABLE, THAT ACCEPTED THE TERMS AND CONDITIONS OF THE iMOD LICENSE YOU ARE NOT ENTITLED TO USE THIS DELTARES-EXECUTABLE OF IMOD. In this case your use of this Deltares-executable of the iMOD-software is prohibited and illegal: abort the use of this Deltares-executable immediately and refrain from using the Deltares-executables of iMOD. To make use of the Deltares-executables of iMOD please make sure to accept the terms and conditions or have it lawfully accepted by the legal entity on whose behalf you intent to use the iMOD-executable byre-invoking the "I accept"-procedure; to re-invoke the "I accept"-procedure abort the use of this Deltares-executable of iMOD, delete the file "I_accepted_v3_4.txt", and invoke this Deltares-executable of iMOD again. The iMOD software is distributed in the hope that it will be useful, but WITHOUT ANY GUARANTEE OR (IMPLIED) WARRANTY. Any use of the Deltares-executables of the iMOD-software is for your own risk. See the iMOD License for more details. For more info, please contact: Stichting Deltares, P.O. Box 177, 2600 MH Delft, The Netherlands. Email: imod.support@deltares.nl. =============================================================================== MODFLOW-2005 U.S. GEOLOGICAL SURVEY MODULAR FINITE-DIFFERENCE GROUND-WATER FLOW MODEL VERSION 1.8.00 12/18/2009 LIST FILE: island-aquitard.list UNIT 10 OPENING island-aquitard.dis FILE TYPE:DIS UNIT 11 STATUS:OLD FORMAT:FORMATTED ACCESS:SEQUENTIAL OPENING island-aquitard.bas6 FILE TYPE:BAS6 UNIT 12 STATUS:OLD FORMAT:FORMATTED ACCESS:SEQUENTIAL OPENING island-aquitard.lpf FILE TYPE:LPF UNIT 13 STATUS:OLD FORMAT:FORMATTED ACCESS:SEQUENTIAL OPENING island-aquitard.oc FILE TYPE:OC UNIT 14 STATUS:OLD FORMAT:FORMATTED ACCESS:SEQUENTIAL OPENING island-aquitard.met FILE TYPE:MET UNIT 15 STATUS:OLD FORMAT:FORMATTED ACCESS:SEQUENTIAL OPENING island-aquitard.wel FILE TYPE:WEL UNIT 19 STATUS:OLD FORMAT:FORMATTED ACCESS:SEQUENTIAL OPENING island-aquitard.pcg FILE TYPE:PCG UNIT 22 STATUS:OLD FORMAT:FORMATTED ACCESS:SEQUENTIAL OPENING island-aquitard.rch FILE TYPE:RCH UNIT 23 STATUS:OLD FORMAT:FORMATTED ACCESS:SEQUENTIAL # data: BAS -- BASIC PACKAGE, VERSION 7, 5/2/2005 INPUT READ FROM UNIT 12 DISCRETIZATION INPUT DATA READ FROM UNIT 11 # Discretization file 3 LAYERS 355 ROWS 402 COLUMNS 1 STRESS PERIOD(S) IN SIMULATION MODEL TIME UNIT IS DAYS MODEL LENGTH UNIT IS METERS Confining bed flag for each layer: 1 1 0 DELR = 10.0000 DELC = 10.0000 OPENING FILE ON UNIT 99: d:\OSS\iMOD\TUTORIALS\TUT5_Solid_Building\RESULTS\surface_level.idf FILE IDENTIFIED AS IDF OPENING FILE ON UNIT 99: d:\OSS\iMOD\TUTORIALS\TUT5_Solid_Building\RESULTS\Aquitard_top.idf FILE IDENTIFIED AS IDF OPENING FILE ON UNIT 99: d:\OSS\iMOD\TUTORIALS\TUT5_Solid_Building\RESULTS\Aquitard_top.idf FILE IDENTIFIED AS IDF OPENING FILE ON UNIT 99: d:\OSS\iMOD\TUTORIALS\TUT5_Solid_Building\RESULTS\Aquitard_bot.idf FILE IDENTIFIED AS IDF OPENING FILE ON UNIT 99: d:\OSS\iMOD\TUTORIALS\TUT5_Solid_Building\RESULTS\Aquitard_bot.idf FILE IDENTIFIED AS IDF OPENING FILE ON UNIT 99: d:\OSS\iMOD\TUTORIALS\TUT5_Solid_Building\RESULTS\BEDROCK.IDF FILE IDENTIFIED AS IDF STRESS PERIOD LENGTH TIME STEPS MULTIPLIER FOR DELT SS FLAG ---------------------------------------------------------------------------- 1 0.000000 1 1.000 SS STEADY-STATE SIMULATION # Basic Package file THE FREE FORMAT OPTION HAS BEEN SELECTED OPENING FILE ON UNIT 99: d:\OSS\iMOD\TUTORIALS\TUT5_Solid_Building\RESULTS\BOUNDARY.IDF FILE IDENTIFIED AS IDF BOUNDARY ARRAY = 1 FOR LAYER 2 BOUNDARY ARRAY = 1 FOR LAYER 3 AQUIFER HEAD WILL BE SET TO 3.40282E+38 AT ALL NO-FLOW NODES (IBOUND=0). INITIAL HEAD = 0.00000 FOR LAYER 1 INITIAL HEAD = 0.00000 FOR LAYER 2 INITIAL HEAD = 0.00000 FOR LAYER 3 OUTPUT CONTROL IS SPECIFIED ONLY AT TIME STEPS FOR WHICH OUTPUT IS DESIRED HEAD PRINT FORMAT CODE IS 0 DRAWDOWN PRINT FORMAT CODE IS 0 HEADS WILL BE SAVED ON UNIT 28 DRAWDOWNS WILL BE SAVED ON UNIT 0 LPF -- LAYER-PROPERTY FLOW PACKAGE, VERSION 7, 5/2/2005 INPUT READ FROM UNIT 13 CELL-BY-CELL FLOWS WILL BE SAVED ON UNIT 29 HEAD AT CELLS THAT CONVERT TO DRY= 3.40282E+38 No named parameters STORAGECOEFFICIENT OPTION: Read storage coefficient rather than specific storage LAYER FLAGS: LAYER LAYTYP LAYAVG CHANI LAYVKA LAYWET --------------------------------------------------------------------------- 1 0 0 1.000E+00 1 0 2 0 0 1.000E+00 1 0 3 0 0 1.000E+00 1 0 INTERPRETATION OF LAYER FLAGS: INTERBLOCK HORIZONTAL DATA IN LAYER TYPE TRANSMISSIVITY ANISOTROPY ARRAY VKA WETTABILITY LAYER (LAYTYP) (LAYAVG) (CHANI) (LAYVKA) (LAYWET) --------------------------------------------------------------------------- 1 CONFINED HARMONIC 1.000E+00 ANISOTROPY NON-WETTABLE 2 CONFINED HARMONIC 1.000E+00 ANISOTROPY NON-WETTABLE 3 CONFINED HARMONIC 1.000E+00 ANISOTROPY NON-WETTABLE WETTING CAPABILITY IS NOT ACTIVE IN ANY LAYER HYD. COND. ALONG ROWS = 25.0000 FOR LAYER 1 HORIZ. TO VERTICAL ANI. = 1.00000 FOR LAYER 1 QUASI3D VERT. HYD. COND. = 25.0000 FOR LAYER 1 HYD. COND. ALONG ROWS = 1.000000E-02 FOR LAYER 2 HORIZ. TO VERTICAL ANI. = 1.00000 FOR LAYER 2 QUASI3D VERT. HYD. COND. = 25.0000 FOR LAYER 2 HYD. COND. ALONG ROWS = 25.0000 FOR LAYER 3 HORIZ. TO VERTICAL ANI. = 1.00000 FOR LAYER 3 WEL -- WELL PACKAGE, VERSION 7, 5/2/2005 INPUT READ FROM UNIT 19 # Well Package file No named parameters MAXIMUM OF 1 ACTIVE WELLS AT ONE TIME CELL-BY-CELL FLOWS WILL BE SAVED ON UNIT 33 LISTS OF WELL CELLS WILL NOT BE PRINTED 0 Well parameters RCH -- RECHARGE PACKAGE, VERSION 7, 5/2/2005 INPUT READ FROM UNIT 23 # Recharge Package file No named parameters OPTION 1 -- RECHARGE TO TOP LAYER CELL-BY-CELL FLOWS WILL BE SAVED ON UNIT 34 0 Recharge parameters PCG -- CONJUGATE-GRADIENT SOLUTION PACKAGE, VERSION 7, 5/2/2005 # Preconditioned Conjugate-Gradient Package MAXIMUM OF 500 CALLS OF SOLUTION ROUTINE MAXIMUM OF 20 INTERNAL ITERATIONS PER CALL TO SOLUTION ROUTINE MATRIX PRECONDITIONING TYPE : 1 SOLUTION BY THE CONJUGATE-GRADIENT METHOD ------------------------------------------- MAXIMUM NUMBER OF CALLS TO PCG ROUTINE = 500 MAXIMUM ITERATIONS PER CALL TO PCG = 20 MATRIX PRECONDITIONING TYPE = 1 RELAXATION FACTOR (ONLY USED WITH PRECOND. TYPE 1) = 0.98000E+00 PARAMETER OF POLYNOMIAL PRECOND. = 2 (2) OR IS CALCULATED : 1 HEAD CHANGE CRITERION FOR CLOSURE = 0.10000E-03 RESIDUAL CHANGE CRITERION FOR CLOSURE = 0.10000E-02 PCG HEAD AND RESIDUAL CHANGE PRINTOUT INTERVAL = 1 PRINTING FROM SOLVER IS LIMITED(1) OR SUPPRESSED (>1) = 0 STEADY-STATE DAMPING PARAMETER = 0.10000E+01 TRANSIENT DAMPING PARAMETER = 0.10000E+01 1 STRESS PERIOD NO. 1, LENGTH = 0.000000 ----------------------------------------------- NUMBER OF TIME STEPS = 1 MULTIPLIER FOR DELT = 1.000 INITIAL TIME STEP SIZE = 0.000000 DATA IDENTIFIED AS GCD OPENING FILE ON UNIT 99: d:\OSS\iMOD\TUTORIALS\TUT5_Solid_Building\RESULTS\WELL.IPF FILE IDENTIFIED AS IPF 1 WELL RECHARGE = 1.000000E-03 SOLVING FOR HEAD SOLVING FOR HEAD SOLVING FOR HEAD SOLVING FOR HEAD SOLVING FOR HEAD SOLVING FOR HEAD 6 CALLS TO PCG ROUTINE FOR TIME STEP 1 IN STRESS PERIOD 1 100 TOTAL ITERATIONS MAXIMUM HEAD CHANGE FOR EACH ITERATION (1 INDICATES THE FIRST INNER ITERATION): HEAD CHANGE HEAD CHANGE HEAD CHANGE HEAD CHANGE HEAD CHANGE LAYER,ROW,COL LAYER,ROW,COL LAYER,ROW,COL LAYER,ROW,COL LAYER,ROW,COL --------------------------------------------------------------------------- 1 -1.160 0 -0.3982 0 0.2954 0 -0.2399 0 -0.3356 ( 3,165,211) ( 3,165,211) ( 2,165,211) ( 3,164,212) ( 2,165,211) 0 -0.1358 0 0.2222 0 0.2212 0 -0.1183 0 -0.1358 ( 2,165,211) ( 2,164,210) ( 2,165,211) ( 2,166,212) ( 2,165,211) 0 0.1679 0 0.2185 0 0.1546 0 -0.1366 0 0.1246 ( 2,166,212) ( 2,164,210) ( 2,167,209) ( 2,164,210) ( 2,167,213) 0 0.1777 0 0.9852E-01 0 -0.5780E-01 0 -0.6057E-01 0 0.5464E-01 ( 2,166,212) ( 2,164,210) ( 2,166,212) ( 2,164,210) ( 2,167,213) 1 0.2802E-01 0 0.4234E-01 0 0.8891E-02 0 -0.3580E-01 0 0.1486E-01 ( 2,164,210) ( 2,164,210) ( 3,143,205) ( 2,164,210) ( 2,167,213) 0 0.3368E-01 0 0.2579E-01 0 0.1127E-01 0 -0.1313E-01 0 0.1101E-01 ( 2,164,210) ( 2,164,210) ( 2,168,214) ( 2,164,210) ( 2,165,211) 0 0.1124E-01 0 0.5447E-02 0 -0.5947E-02 0 0.4883E-02 0 0.7768E-02 ( 2,164,210) ( 2,164,210) ( 2,165,211) ( 2,168,214) ( 2,165,211) 0 0.6409E-02 0 0.4847E-02 0 0.4673E-02 0 0.5447E-02 0 0.1082E-01 ( 2,164,210) ( 3,166,210) ( 3,167,210) ( 2,163,213) ( 2,165,211) 1 -0.8953E-02 0 -0.4836E-02 0 0.3622E-02 0 0.3070E-02 0 -0.3113E-02 ( 2,165,211) ( 3,165,211) ( 2,165,211) ( 2,165,211) ( 2,164,210) 0 -0.3680E-02 0 0.2749E-02 0 0.3741E-02 0 0.1947E-02 0 -0.2667E-02 ( 2,165,211) ( 2,164,210) ( 2,165,211) ( 2,167,209) ( 2,164,210) 0 -0.1603E-02 0 0.3723E-02 0 0.2654E-02 0 -0.1794E-02 0 -0.1403E-02 ( 2,165,211) ( 2,164,210) ( 2,165,211) ( 2,166,212) ( 2,164,210) 0 0.1542E-02 0 0.2014E-02 0 0.5234E-03 0 -0.9534E-03 0 -0.3771E-03 ( 2,166,212) ( 2,164,210) ( 2,165,208) ( 2,164,210) ( 2,164,210) 1 0.5645E-03 0 0.8825E-03 0 -0.1367E-03 0 -0.7740E-03 0 0.2585E-03 ( 2,164,210) ( 2,164,210) ( 2,165,211) ( 2,164,210) ( 2,163,213) 0 0.6574E-03 0 0.4671E-03 0 -0.2347E-03 0 -0.2813E-03 0 0.2471E-03 ( 2,164,210) ( 2,164,210) ( 2,165,211) ( 2,164,210) ( 2,165,211) 0 0.2502E-03 0 0.1022E-03 0 -0.1386E-03 0 0.8506E-04 0 0.1715E-03 ( 2,164,210) ( 2,166,212) ( 2,165,211) ( 2,161,215) ( 2,165,211) 0 0.1137E-03 0 -0.7519E-04 0 0.7293E-04 0 0.1074E-03 0 0.1817E-03 ( 2,164,210) ( 2,165,211) ( 3,164,213) ( 2,165,211) ( 2,165,211) 1 -0.1504E-03 0 -0.7736E-04 0 0.6038E-04 0 0.6187E-04 0 -0.4985E-04 ( 2,165,211) ( 2,165,211) ( 2,165,211) ( 2,165,211) ( 2,164,210) 0 -0.6939E-04 0 0.4560E-04 0 0.6549E-04 0 0.3864E-04 0 -0.4953E-04 ( 2,165,211) ( 2,164,210) ( 2,165,211) ( 2,163,213) ( 2,164,210) 0 -0.3141E-04 0 0.6406E-04 0 0.4729E-04 0 -0.2999E-04 0 -0.2723E-04 ( 2,165,211) ( 2,164,210) ( 2,165,211) ( 2,166,212) ( 2,164,210) 0 0.2238E-04 0 0.3623E-04 0 0.9126E-05 0 -0.1611E-04 1 0.2440E-05 ( 2,166,212) ( 2,164,210) ( 2,162,208) ( 2,166,212) ( 2,166,212) MAXIMUM RESIDUAL FOR EACH ITERATION (1 INDICATES THE FIRST INNER ITERATION): RESIDUAL RESIDUAL RESIDUAL RESIDUAL RESIDUAL LAYER,ROW,COL LAYER,ROW,COL LAYER,ROW,COL LAYER,ROW,COL LAYER,ROW,COL --------------------------------------------------------------------------- 1 119.9 0 -72.00 0 -110.5 0 -73.75 0 -70.66 ( 3,165,211) ( 3,165,211) ( 3,165,211) ( 3,166,210) ( 3,166,210) 0 46.81 0 43.97 0 45.39 0 24.41 0 -26.77 ( 3,165,211) ( 3,166,210) ( 3,166,210) ( 3,167,209) ( 3,166,210) 0 -34.19 0 -35.47 0 -29.72 0 23.41 0 24.54 ( 3,166,210) ( 3,167,209) ( 3,167,209) ( 3,166,210) ( 3,167,209) 0 20.55 0 9.307 0 -8.751 0 -9.689 0 -6.562 ( 3,167,209) ( 3,168,208) ( 3,167,209) ( 3,167,209) ( 3,168,208) 1 -3.371 0 2.756 0 5.619 0 4.499 0 2.987 ( 3,168,208) ( 3,168,208) ( 3,168,208) ( 3,167,209) ( 3,169,207) 0 -2.947 0 -4.005 0 -2.428 0 -1.131 0 2.004 ( 3,168,208) ( 3,167,209) ( 3,167,209) ( 3,167,208) ( 3,167,209) 0 1.349 0 0.8758 0 -1.100 0 0.9986 0 -0.9056 ( 3,167,209) ( 3,166,210) ( 3,167,209) ( 3,165,211) ( 3,166,210) 0 -0.5979 0 -1.312 0 -1.013 0 0.7789 0 2.748 ( 3,166,210) ( 3,165,211) ( 3,165,211) ( 3,165,211) ( 3,165,211) 1 0.7872 0 -0.9366 0 -1.132 0 -0.3731 0 0.5323 ( 3,165,211) ( 3,165,211) ( 3,165,211) ( 3,166,209) ( 3,165,211) 0 0.6322 0 -0.4229 0 0.3171 0 -0.3715 0 0.4228 ( 3,165,211) ( 3,167,209) ( 3,166,210) ( 3,165,211) ( 3,167,209) 0 -0.2484 0 -0.2442 0 -0.3453 0 0.2104 0 -0.1529 ( 3,167,208) ( 3,167,209) ( 3,167,209) ( 3,167,208) ( 3,168,208) 0 0.1488 0 0.1310 0 0.9764E-01 0 -0.5069E-01 0 -0.7677E-01 ( 3,167,209) ( 3,168,208) ( 3,168,208) ( 3,168,207) ( 3,168,208) 1 0.3835E-01 0 -0.4081E-01 0 0.7142E-01 0 0.4991E-01 0 0.3510E-01 ( 3,165,211) ( 3,169,207) ( 3,168,208) ( 3,167,209) ( 3,169,207) 0 0.3965E-01 0 -0.4812E-01 0 -0.2674E-01 0 -0.1790E-01 0 0.2841E-01 ( 3,167,208) ( 3,167,209) ( 3,167,209) ( 3,167,208) ( 3,167,209) 0 -0.2141E-01 0 0.1185E-01 0 -0.1689E-01 0 0.2154E-01 0 0.1647E-01 ( 3,165,211) ( 3,166,210) ( 3,167,209) ( 3,165,211) ( 3,165,211) 0 -0.9180E-02 0 -0.2482E-01 0 -0.1986E-01 0 0.1196E-01 0 0.4059E-01 ( 3,166,209) ( 3,165,211) ( 3,165,211) ( 3,165,211) ( 3,165,211) 1 0.1210E-01 0 -0.1472E-01 0 -0.1782E-01 0 -0.5671E-02 0 0.8377E-02 ( 3,165,211) ( 3,165,211) ( 3,165,211) ( 3,166,209) ( 3,165,211) 0 0.1036E-01 0 -0.6681E-02 0 0.5056E-02 0 -0.6160E-02 0 0.6821E-02 ( 3,165,211) ( 3,167,209) ( 3,166,210) ( 3,165,211) ( 3,167,209) 0 -0.3846E-02 0 -0.3719E-02 0 -0.5355E-02 0 0.3303E-02 0 -0.2100E-02 ( 3,167,208) ( 3,167,209) ( 3,167,209) ( 3,167,208) ( 3,168,208) 0 0.2279E-02 0 0.2115E-02 0 0.1414E-02 0 -0.7175E-03 1 -0.4053E-03 ( 3,167,209) ( 3,168,208) ( 3,168,208) ( 3,168,207) ( 3,167,209) OUTPUT CONTROL FOR STRESS PERIOD 1 TIME STEP 1 SAVE HEAD FOR ALL LAYERS SAVE BUDGET SAVE BUDGET SAVE BUDGET INFO. Sign of cbc-flux FLOW RIGHT FACE is swapped! INFO. Sign of cbc-flux FLOW FRONT FACE is swapped! INFO. Sign of cbc-flux FLOW LOWER FACE is swapped! HEAD WILL BE SAVED ON UNIT 28 AT END OF TIME STEP 1, STRESS PERIOD 1 1 VOLUMETRIC BUDGET FOR ENTIRE MODEL AT END OF TIME STEP 1 IN STRESS PERIOD 1 ------------------------------------------------------------------------------ CUMULATIVE VOLUMES L**3 RATES FOR THIS TIME STEP L**3/T ------------------ ------------------------ IN: IN: --- --- STORAGE = 0.0000 STORAGE = 0.0000 CONSTANT HEAD = 0.0000 CONSTANT HEAD = 1.0776E-04 WELLS = 0.0000 WELLS = 0.0000 RECHARGE = 0.0000 RECHARGE = 4629.8003 TOTAL IN = 0.0000 TOTAL IN = 4629.8003 OUT: OUT: ---- ---- STORAGE = 0.0000 STORAGE = 0.0000 CONSTANT HEAD = 0.0000 CONSTANT HEAD = 4129.8003 WELLS = 0.0000 WELLS = 500.0000 RECHARGE = 0.0000 RECHARGE = 0.0000 TOTAL OUT = 0.0000 TOTAL OUT = 4629.8003 IN - OUT = 0.0000 IN - OUT = 0.0000 PERCENT DISCREPANCY = 0.00 PERCENT DISCREPANCY = 0.00 TIME SUMMARY AT END OF TIME STEP 1 IN STRESS PERIOD 1 SECONDS MINUTES HOURS DAYS YEARS ----------------------------------------------------------- TIME STEP LENGTH 0.0000 0.0000 0.0000 0.0000 0.0000 STRESS PERIOD TIME 0.0000 0.0000 0.0000 0.0000 0.0000 TOTAL TIME 0.0000 0.0000 0.0000 0.0000 0.0000 1 Run end date and time (yyyy/mm/dd hh:mm:ss): 2016/06/14 3:45:45 Elapsed run time: 16.146 Seconds