-- This reservoir simulation is made available under the open Database -- License: http://opendatacommons.org/licenses/odbl/1.0/ -- Individual contents of the database are licensed under the Database contents -- License : http://opendatacommons.org/licenses/dbcl/1.0/ -- Copyright (C) 2015 Statoil -- =============================================================================== -- SPE 10 - MODEL 1 -- Simulation based on the followinf SPE paper: -- "Tenth SPE comparative solution project: a comparison of upscaling techniques" -- By Mike Christie (Heriot-Wat University) and Martin Blunt (Imperial College) -- SPE, August 2001 -- =============================================================================== RUNSPEC TITLE SPE10:TENTH SPE COMPARATIVE SOLUTION PROJECT: A COMPARISON OF UPSCALING TECHNIQUES - MODEL 1 DIMENS 100 1 20 / CPR / NONNC OIL WATER GAS FIELD EQLDIMS 3* / TABDIMS 2* 50 / WELLDIMS 2 20 1 2 / UNIFOUT START 1 'JAN' 1967 / -- ================================================= ------- In this section, the geometry of the simulation ------- grid and the rock permeabilities, porosities are ------- defined. -- ================================================= GRID NOECHO INIT INCLUDE 'SPE10MODEL1.GRDECL' / PORO 2000*0.2 / INCLUDE PERM_SPE10MODEL1.INC / ECHO -- ======================================================================== PROPS -- Sg Krg Kro Pcgo SGOF 0.000000 0 1.000000 0.000000 0.025000 0 0.912530 0.000000 0.050000 0 0.830041 0.000000 0.075000 0 0.752410 0.000000 0.100000 0.000001 0.679518 0.000000 0.125000 0.000007 0.611238 0.000000 0.150000 0.000031 0.547448 0.000000 0.175000 0.000093 0.488020 0.000000 0.200000 0.000232 0.432827 0.000000 0.225000 0.000501 0.381737 0.000000 0.250000 0.000977 0.334621 0.000000 0.275000 0.001760 0.291345 0.000000 0.300000 0.002980 0.251773 0.000000 0.325000 0.004800 0.215767 0.000000 0.350000 0.007416 0.183188 0.000000 0.375000 0.011065 0.153893 0.000000 0.400000 0.016028 0.127737 0.000000 0.425000 0.022631 0.104573 0.000000 0.450000 0.031250 0.084248 0.000000 0.475000 0.042315 0.066609 0.000000 0.500000 0.056314 0.051496 0.000000 0.525000 0.073794 0.038746 0.000000 0.550000 0.095367 0.028191 0.000000 0.575000 0.121716 0.019658 0.000000 0.600000 0.153590 0.012965 0.000000 0.625000 0.191818 0.007925 0.000000 0.650000 0.237305 0.004338 0.000000 0.675000 0.291038 0.001995 0.000000 0.700000 0.354093 0.000668 0.000000 0.725000 0.427631 0.000103 0.000000 0.750000 0.512909 0.000000 0.000000 0.775000 0.611280 0.000000 0.000000 0.800000 0.724196 0.000000 0.000000 0.825000 0.853215 0.000000 0.000000 0.85 1 0 0 1 1 0 0 / -- No water in the reservoir but Flow is a 3-phase simulator so water -- is placed below the reservoir and has no impact on simulation --Sw Krw Kro Pcgo SWOF 0 0 1 0 0.200 0.0001 0.9999 0 0.250 0.0069 0.8403 0 0.300 0.0278 0.6944 0 0.350 0.0625 0.5625 0 0.400 0.1111 0.4444 0 0.450 0.1736 0.3403 0 0.500 0.2500 0.2500 0 0.550 0.3403 0.1736 0 0.600 0.4444 0.1111 0 0.650 0.5625 0.0625 0 0.700 0.6944 0.0278 0 0.750 0.8403 0.0069 0 0.800 1.0000 0.0000 0 / -- Oil Dens Wat Dens Gas Dens DENSITY 43.68 62.430 0.0624 / -- NO WATER, BUT NEEDED FOR FLOW, TAKEN FROM MODEL2 -- REF PRES Bw WAT.COMP WAT.VISC PVTW 6000 1 0.000003 0.3 / -- Bo equals to one, fuids are uncompressible -- Eclipse do not accept 2 identical Bo for diff pres. -- Oil Pres Bo MUo PVDO 14 1.000001 0.999999 100 1.000000 1.000000 1000 0.999999 1.000001 2000 0.999998 1.000002 3000 0.999997 1.000003 4000 0.999996 1.000004 5000 0.999995 1.000005 6000 0.999994 1.000006 7000 0.999993 1.000007 8000 0.999992 1.000008 9000 0.999991 1.000009 10000 0.999990 1.000010 / -- Bg equals to 1 because the fluid is uncompressible, in field unit Bg equals 178 -- Eclipse cannot accept 2 identical values of Bg for diff pres. -- Gas Phase Bg MUg -- pressure PVDG 14 178.107600997 0.009999 100 178.107600996 0.010000 1000 178.107600995 0.010001 2000 178.107600994 0.010002 3000 178.107600993 0.010003 4000 178.107600992 0.010004 5000 178.107600991 0.010005 6000 178.107600990 0.010006 7000 178.107600989 0.010007 8000 178.107600988 0.010008 9000 178.107600987 0.010009 10000 178.107600986 0.010010 / --REF. PRES COMPRESSIBILITY - TAKEN FROM MODEL 2 ROCK 6000 0.000001 / SOLUTION ================================================== -- Datum Pres WOC Pcwoc GOC Pcgoc EQUIL 0 100 50 0 0 0 2* 0 / SUMMARY =================================================== RUNSUM FOPT FGPT FOPR FGPR FGIR FGIT FPR FGIR WBHP 'INJ' 'PROD' / WPI 'INJ' 'PROD' / WOPR / WGIR / WGPR / SCHEDULE =================================================== RPTRST 'BASIC=2' / TUNING / / 2* 500 1* 25 / WELSPECS 'INJ' G1 1 1 1.25 GAS / 'PROD' G1 100 1 1.25 OIL / / COMPDAT 'INJ' 1 1 1 20 OPEN 2* 2 / 'PROD' 100 1 1 20 OPEN 2* 2 / / WCONPROD 'PROD' OPEN BHP 5* 95 / / WCONINJE 'INJ' GAS OPEN RATE 34.61 1* 10000 / / TSTEP 323*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 5*10 / WCONPROD 'PROD' OPEN BHP 5* 100 / / TSTEP 50 / WCONPROD 'PROD' OPEN BHP 5* 95 / / TSTEP 2*10 / END