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20
simplespe1/README
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@ -1,20 +0,0 @@
This directory contains an simple input data file which is based on
the first comparison project of the society of petroleum engineers
[1]. The dataset consists of a single file called 'SIMPLESPE1.DATA'
and uses the ECL format which is used by many standard commercial
simulators for oil reservoirs.
The simplifications are that the grid consists only of a single layer
of cells, and that there is no injector well specified. (i.e., only a
producer is present.)
Just like for the SPE1 dataset, the ownership of the copyright of this
file is unclear: Some parts seem to be written by Schlumberger [2],
which in turn seem to be modified by Jon Kleppe of NTNU [3] and some
(mainly saturation function related) data seems to be calculated by
SINTEF using MRST. Finally some modifications where done by Ove
Savareid and Andreas Lauser in the context of the OPM project.
[1] http://www.spe.org/web/csp/datasets/set01.htm
[2] http://slb.com
[3] http://www.ipt.ntnu.no/~kleppe/TPG4160/ex3/ODEH.DATA

479
simplespe1/SIMPLESPE1.DATA
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@ -1,479 +0,0 @@
-- =====================================================================
-- THIS IS THE FIRST SPE COMPARISON PROBLEM,"COMPARISON OF SOLUTIONS TO A
-- THREE-DIMENSIONAL BLACK-OIL RESERVOIR SIMULATION PROBLEM", REPORTED
-- BY AZIS AND ODEH AT THE SPE SYMPOSIUM ON RESERVOIR SIMULATION ,
-- JANUARY 1981. IT IS A NON SWELLING AND SWELLING STUDY. A REGULAR
-- GRID WITH TWO WELLS (INJECTOR AND PRODUCER)AND A IMPES SOLUTION METHOD
-- IS USED FOR THIS SIMULATION.THE PRODUCTION IS CONTROLLED BY FLOW RATE
-- AND MIN. BHP. OIL RATE, GOR, PRESSURE AND GAS SATURATION ARE TO BE REPORTED.
-- =====================================================================
RUNSPEC
-- TITLE
-- ODEH PROBLEM - IMPLICIT OPTION - 1200 DAYS /
DIMENS
10 10 1 /
NONNC
OIL
WATER
GAS
DISGAS
FIELD
EQLDIMS
1 100 10 1 1 /
TABDIMS
1 1 17 12 1 12 /
WELLDIMS
2 1 1 2 /
NUPCOL
4 /
START
19 'OCT' 1982 /
NSTACK
24 /
--FMTOUT
--FMTIN
UNIFOUT
UNIFIN
--NOSIM
--IMPES
GRID ================================================================
-------- IN THIS SECTION , THE GEOMETRY OF THE SIMULATION GRID AND THE
-------- ROCK PERMEABILITIES AND POROSITIES ARE DEFINED.
------------------------------------------------------------------------
-- THE X AND Y DIRECTION CELL SIZES ( DX, DY ) AND THE POROSITIES ARE
-- CONSTANT THROUGHOUT THE GRID. THESE ARE SET IN THE FIRST 3 LINES
-- AFTER THE EQUALS KEYWORD. THE CELL THICKNESSES ( DZ ) AND
-- PERMEABILITES ARE THEN SET FOR EACH LAYER. THE CELL TOP DEPTHS
-- ( TOPS ) ARE NEEDED ONLY IN THE TOP LAYER ( THOUGH THEY COULD BE.
-- SET THROUGHOUT THE GRID ). THE SPECIFIED MULTZ VALUES ACT AS
-- MULTIPLIERS ON THE TRANSMISSIBILITIES BETWEEN THE CURRENT LAYER
-- AND THE LAYER BELOW.
DXV
10*1000.0
/
DYV
10*1000.0
/
DZV
100.0
/
PORO
100*0.3
/
PERMX
100*500.0
/
PERMY
100*500.0
/
-- Note: ignoring MULTZ!
-- layer 1-2 'MULTZ' 0.64 /
-- layer 2-3 'MULTZ' 0.265625 /
-- Reducing PERMZ a little instead
PERMZ
100*500.0
/
TOPS
100*8325.0
/
INIT
PROPS ===============================================================
-------- THE PROPS SECTION DEFINES THE REL. PERMEABILITIES, CAPILLARY
-------- PRESSURES, AND THE PVT PROPERTIES OF THE RESERVOIR FLUIDS
----------------------------------------------------------------------
-- WATER RELATIVE PERMEABILITY AND CAPILLARY PRESSURE ARE TABULATED AS
-- A FUNCTION OF WATER SATURATION.
--
-- Generated with MRST's family_1() function from the original deck.
-- SWAT KRW KRO PCOW
SWOF
0.120000000000000 0 1.000000000000000 0
0.121000000000000 0.000000011363636 1.000000000000000 0
0.140000000000000 0.000000227272727 0.997000000000000 0
0.170000000000000 0.000000568181818 0.980000000000000 0
0.240000000000000 0.000001363636364 0.700000000000000 0
0.319999999000000 0.000002272727261 0.350000004375000 0
0.370000000000000 0.000002840909091 0.200000000000000 0
0.420000000000000 0.000003409090909 0.090000000000000 0
0.520000000000000 0.000004545454545 0.021000000000000 0
0.570000000000000 0.000005113636364 0.010000000000000 0
0.620000000000000 0.000005681818182 0.001000000000000 0
0.720000000000000 0.000006818181818 0.000100000000000 0
0.820000000000000 0.000007954545455 0.000000000000000 0
1.000000000000000 0.000010000000000 0 0
/
SGOF
0 0 1.000000000000000 0
0.001000000000000 0 1.000000000000000 0
0.020000000000000 0 0.997000000000000 0
0.050000000000000 0.005000000000000 0.980000000000000 0
0.120000000000000 0.025000000000000 0.700000000000000 0
0.199999999000000 0.074999999375000 0.350000004375000 0
0.200001100000000 0.075000000000000 0.350000000000000 0
0.250000000000000 0.125000000000000 0.200000000000000 0
0.300000000000000 0.190000000000000 0.090000000000000 0
0.400000000000000 0.410000000000000 0.021000000000000 0
0.449999999000000 0.599999996200000 0.010000000220000 0
0.450001100000000 0.600000000000000 0.010000000000000 0
0.500000000000000 0.720000000000000 0.001000000000000 0
0.600000000000000 0.870000000000000 0.000100000000000 0
0.700000000000000 0.940000000000000 0 0
0.850000000000000 0.980000000000000 0 0
0.880000000000000 0.984000000000000 0 0
/
-- PVT PROPERTIES OF WATER
--
-- REF. PRES. REF. FVF COMPRESSIBILITY REF VISCOSITY VISCOSIBILITY
PVTW
4014.7 1.029 3.13E-6 0.31 0 /
-- ROCK COMPRESSIBILITY
--
-- REF. PRES COMPRESSIBILITY
ROCK
14.7 3.0E-6 /
-- SURFACE DENSITIES OF RESERVOIR FLUIDS
--
-- OIL WATER GAS
DENSITY
49.1 64.79 0.06054 /
-- PVT PROPERTIES OF DRY GAS (NO VAPOURISED OIL)
-- WE WOULD USE PVTG TO SPECIFY THE PROPERTIES OF WET GAS
--
-- PGAS BGAS VISGAS
PVDG
14.7 166.666 0.008
264.7 12.093 0.0096
514.7 6.274 0.0112
1014.7 3.197 0.014
2014.7 1.614 0.0189
2514.7 1.294 0.0208
3014.7 1.080 0.0228
4014.7 0.811 0.0268
5014.7 0.649 0.0309
9014.7 0.386 0.047 /
-- PVT PROPERTIES OF LIVE OIL (WITH DISSOLVED GAS)
-- WE WOULD USE PVDO TO SPECIFY THE PROPERTIES OF DEAD OIL
--
-- FOR EACH VALUE OF RS THE SATURATION PRESSURE, FVF AND VISCOSITY
-- ARE SPECIFIED. FOR RS=1.27 AND 1.618, THE FVF AND VISCOSITY OF
-- UNDERSATURATED OIL ARE DEFINED AS A FUNCTION OF PRESSURE. DATA
-- FOR UNDERSATURATED OIL MAY BE SUPPLIED FOR ANY RS, BUT MUST BE
-- SUPPLIED FOR THE HIGHEST RS (1.618).
--
-- RS POIL FVFO VISO
-- PVTO
-- 0.001 14.7 1.062 1.04 /
-- 0.0905 264.7 1.15 0.975 /
-- 0.18 514.7 1.207 0.91 /
-- 0.371 1014.7 1.295 0.83 /
-- 0.636 2014.7 1.435 0.695 /
-- 0.775 2514.7 1.5 0.641 /
-- 0.93 3014.7 1.565 0.594 /
-- 1.270 4014.7 1.695 0.51
-- 5014.7 1.671 0.549
-- 9014.7 1.579 0.74 /
-- 1.618 5014.7 1.827 0.449
-- 9014.7 1.726 0.605 /
-- /
PVTO
1.0000000000e-03
1.4700000000e+01 1.0620000000e+00 1.0400000000e+00
1.0147000000e+03 1.0469628319e+00 1.1195294118e+00
5.0147000000e+03 9.8932035398e-01 1.5090196078e+00
/
9.0500000000e-02
2.6470000000e+02 1.1500000000e+00 9.7500000000e-01
1.2647000000e+03 1.1337168142e+00 1.0495588235e+00
5.2647000000e+03 1.0712979351e+00 1.4147058824e+00
/
1.8000000000e-01
5.1470000000e+02 1.2070000000e+00 9.1000000000e-01
1.5147000000e+03 1.1899097345e+00 9.7958823529e-01
5.5147000000e+03 1.1243970501e+00 1.3203921569e+00
/
3.7100000000e-01
1.0147000000e+03 1.2950000000e+00 8.3000000000e-01
2.0147000000e+03 1.2766637168e+00 8.9347058824e-01
6.0147000000e+03 1.2063746313e+00 1.2043137255e+00
/
6.3600000000e-01
2.0147000000e+03 1.4350000000e+00 6.9500000000e-01
3.0147000000e+03 1.4146814159e+00 7.4814705882e-01
7.0147000000e+03 1.3367935103e+00 1.0084313725e+00
/
7.7500000000e-01
2.5147000000e+03 1.5000000000e+00 6.4100000000e-01
3.5147000000e+03 1.4787610619e+00 6.9001764706e-01
7.5147000000e+03 1.3973451327e+00 9.3007843137e-01
/
9.3000000000e-01
3.0147000000e+03 1.5650000000e+00 5.9400000000e-01
4.0147000000e+03 1.5428407080e+00 6.3942352941e-01
8.0147000000e+03 1.4578967552e+00 8.6188235294e-01
/
1.2700000000e+00
4.0147000000e+03 1.6950000000e+00 5.1000000000e-01
5.0147000000e+03 1.6710000000e+00 5.4900000000e-01
9.0147000000e+03 1.5790000000e+00 7.4000000000e-01
/
1.6180000000e+00
5.0147000000e+03 1.8270000000e+00 4.4900000000e-01
9.0147000000e+03 1.7260000000e+00 6.0500000000e-01
/
/
-- OUTPUT CONTROLS FOR PROPS DATA
-- ACTIVATED FOR SOF3, SWFN, SGFN, PVTW, PVDG, DENSITY AND ROCK KEYWORDS
RPTPROPS
1 1 1 0 1 1 1 1 /
SOLUTION ===============================================================
-------- THE SOLUTION SECTION DEFINES THE INITIAL STATE OF THE SOLUTION
-------- VARIABLES (PHASE PRESSURES, SATURATIONS AND GAS-OIL RATIOS)
------------------------------------------------------------------------
-- DATA FOR INITIALISING FLUIDS TO POTENTIAL EQUILIBRIUM
--
-- DATUM DATUM OWC OWC GOC GOC RSVD RVVD SOLN
-- DEPTH PRESS DEPTH PCOW DEPTH PCOG TABLE TABLE METH
-- EQUIL
-- 8400 4800 8500 0 8200 0 1 0 0 /
-- VARIATION OF INITIAL RS WITH DEPTH
--
-- DEPTH RS
-- RSVD
-- 8200 1.270
-- 8500 1.270 /
-- PRESSURE
-- 100*3.297832774859256e7
-- 100*3.302313357125603e7
-- 100*3.309483500720813e7
-- /
PRESSURE
100*4800.00000000000
/
SWAT
100*0.12
/
SGAS
100*0.0
/
-- RS
-- 300*226.1966570852417
-- /
RS
100*1.27
/
-- OUTPUT CONTROLS (SWITCH ON OUTPUT OF INITIAL GRID BLOCK PRESSURES)
RPTSOL
RESTART=2 PRES DENW DENO DENG POIL PGAS PWAT VOIL VGAS VWAT KRO KRG KRW RSSAT /
-- RESTART=2 DENSO DENSG DENSW POIL PGAS PWAR VOIL VGAS VWAT KRO KRG KRW RSSAT /
SUMMARY ===============================================================
-------- THIS SECTION SPECIFIES DATA TO BE WRITTEN TO THE SUMMARY FILES
-------- AND WHICH MAY LATER BE USED WITH THE ECLIPSE GRAPHICS PACKAGE
------------------------------------------------------------------------
EXCEL
SEPARATE
--REQUEST PRINTED OUTPUT OF SUMMARY FILE DATA
RUNSUM
-- FIELD OIL PRODUCTION
FOPR
-- WELL GAS-OIL RATIO FOR PRODUCER
WGOR
-- 'PRODUCER'
/
-- WELL BOTTOM-HOLE PRESSURE
WBHP
-- 'PRODUCER'
/
-- GAS AND OIL SATURATIONS IN INJECTION AND PRODUCTION CELL
BGSAT
10 10 3 /
1 1 1 /
/
BOSAT
10 10 3 /
1 1 1 /
/
-- PRESSURE IN INJECTION AND PRODUCTION CELL
BPR
10 10 3 /
1 1 1 /
/
SCHEDULE ===============================================================
-------- THE SCHEDULE SECTION DEFINES THE OPERATIONS TO BE SIMULATED
------------------------------------------------------------------------
-- CONTROLS ON OUTPUT AT EACH REPORT TIME
RPTSCHED
1 0 1 1 0 0 4 2 2 0 0 2 0 0 0
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 /
--IMPES
-- 1.0 1.0 10000.0 /
-- SET 'NO RESOLUTION' OPTION
--DRSDT
-- 0 /
-- SET INITIAL TIME STEP TO 1 DAY AND MAXIMUM TO 6 MONTHS
TUNING
1 182.5 /
1.0 0.5 1.0E-6 /
/
-- WELL SPECIFICATION DATA
--
-- WELL GROUP LOCATION BHP PI
-- NAME NAME I J DEPTH DEFN
WELSPECS
'PRODUCER' 'G' 10 10 8400 'OIL' /
/
-- COMPLETION SPECIFICATION DATA
--
-- WELL -LOCATION- OPEN/ SAT CONN WELL
-- NAME I J K1 K2 SHUT TAB FACT DIAM
COMPDAT
'PRODUCER' 10 10 1 1 'OPEN' 0 -1 0.5 /
/
-- PRODUCTION WELL CONTROLS
--
-- WELL OPEN/ CNTL OIL WATER GAS LIQU RES BHP
-- NAME SHUT MODE RATE RATE RATE RATE RATE
WCONPROD
'PRODUCER' 'OPEN' 'ORAT' 20000 4* 1000 /
/
-- WCONPROD
-- 'PRODUCER' 'OPEN' 'BHP' 5* 1000 /
-- /
-- INJECTION WELL CONTROLS
--
-- WELL INJ OPEN/ CNTL FLOW
-- NAME TYPE SHUT MODE RATE
-- WCONINJ
-- YEAR 1
TSTEP
--0.2343 0.1393 0.1840 0.2189 0.2235
--1.0 4.0 2*5.0 6*5.0 10*25.0
1.0 14.0 13*25.0
/
TSTEP
25.0
/
-- YEAR 2
TSTEP
13*20.0 7*13.0
/
TSTEP
14.0
/
-- YEAR 3
TSTEP
17*10.0
/
TSTEP
12.5
/
-- 912.50 --> 1000.0
TSTEP
8.5 16*5.0
/
TSTEP
5.0
/
-- 1000.0 --> 1100.0
TSTEP
19*5.0
/
TSTEP
5.0
/
-- 1100.0 --> 1200.0
TSTEP
19*5.0
/
TSTEP
5.0
/
TSTEP
10.0 /
END ================================================================

16
spe1/README
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@ -1,16 +0,0 @@
This directory contains the input data file and results produced by
several simulation software packages of the first comparison project
of the society of petroleum engineers [1]. The dataset consists of a
single file called 'spe1deck.data' and uses the ECL format which is
used by many standard commercial simulators for oil reservoirs.
The ownership of the copyright of this dataset is unclear: Some parts
seem to be written by Schlumberger [2], which in turn seem to be
modified by Jon Kleppe of NTNU [3] and some (mainly saturation
function related) data seems to be calculated by SINTEF using MRST.
Finally some modifications where done by Ove Savareid and Andreas
Lauser in the context of the OPM project.
[1] http://www.spe.org/web/csp/datasets/set01.htm
[2] http://slb.com
[3] http://www.ipt.ntnu.no/~kleppe/TPG4160/ex3/ODEH.DATA

0
spe1_new/SPE1CASE1.DATA → spe1/SPE1CASE1.DATA
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0
spe1_new/SPE1CASE1_FAMII.DATA → spe1/SPE1CASE1_FAMII.DATA
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0
spe1_new/SPE1CASE1_SLGOF.DATA → spe1/SPE1CASE1_SLGOF.DATA
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0
spe1_new/SPE1CASE2.DATA → spe1/SPE1CASE2.DATA
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494
spe1/SPE1DECK.DATA
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@ -1,494 +0,0 @@
-- =====================================================================
-- THIS IS THE FIRST SPE COMPARISON PROBLEM,"COMPARISON OF SOLUTIONS TO A
-- THREE-DIMENSIONAL BLACK-OIL RESERVOIR SIMULATION PROBLEM", REPORTED
-- BY AZIS AND ODEH AT THE SPE SYMPOSIUM ON RESERVOIR SIMULATION ,
-- JANUARY 1981. IT IS A NON SWELLING AND SWELLING STUDY. A REGULAR
-- GRID WITH TWO WELLS (INJECTOR AND PRODUCER)AND A IMPES SOLUTION METHOD
-- IS USED FOR THIS SIMULATION.THE PRODUCTION IS CONTROLLED BY FLOW RATE
-- AND MIN. BHP. OIL RATE, GOR, PRESSURE AND GAS SATURATION ARE TO BE REPORTED.
-- =====================================================================
RUNSPEC
-- TITLE
-- ODEH PROBLEM - IMPLICIT OPTION - 1200 DAYS /
DIMENS
10 10 3 /
NONNC
OIL
WATER
GAS
DISGAS
FIELD
EQLDIMS
1 100 10 1 1 /
TABDIMS
1 1 17 12 1 12 /
WELLDIMS
2 1 1 2 /
NUPCOL
4 /
START
19 'OCT' 1982 /
NSTACK
24 /
--FMTOUT
--FMTIN
UNIFOUT
UNIFIN
--NOSIM
--IMPES
GRID ================================================================
-------- IN THIS SECTION , THE GEOMETRY OF THE SIMULATION GRID AND THE
-------- ROCK PERMEABILITIES AND POROSITIES ARE DEFINED.
------------------------------------------------------------------------
-- THE X AND Y DIRECTION CELL SIZES ( DX, DY ) AND THE POROSITIES ARE
-- CONSTANT THROUGHOUT THE GRID. THESE ARE SET IN THE FIRST 3 LINES
-- AFTER THE EQUALS KEYWORD. THE CELL THICKNESSES ( DZ ) AND
-- PERMEABILITES ARE THEN SET FOR EACH LAYER. THE CELL TOP DEPTHS
-- ( TOPS ) ARE NEEDED ONLY IN THE TOP LAYER ( THOUGH THEY COULD BE.
-- SET THROUGHOUT THE GRID ). THE SPECIFIED MULTZ VALUES ACT AS
-- MULTIPLIERS ON THE TRANSMISSIBILITIES BETWEEN THE CURRENT LAYER
-- AND THE LAYER BELOW.
DXV
10*1000.0
/
DYV
10*1000.0
/
DZ
100*20.0 100*30.0 100*50.0
/
PORO
300*0.3
/
PERMX
100*500.0
100*50.0
100*200.0
/
PERMY
100*500.0
100*50.0
100*200.0
/
-- Note: ignoring MULTZ!
-- layer 1-2 'MULTZ' 0.64 /
-- layer 2-3 'MULTZ' 0.265625 /
-- Reducing PERMZ a little instead
PERMZ
100*300.0
100*30.0
100*50.0
/
TOPS
100*8325.0
/
INIT
PROPS ===============================================================
-------- THE PROPS SECTION DEFINES THE REL. PERMEABILITIES, CAPILLARY
-------- PRESSURES, AND THE PVT PROPERTIES OF THE RESERVOIR FLUIDS
----------------------------------------------------------------------
-- WATER RELATIVE PERMEABILITY AND CAPILLARY PRESSURE ARE TABULATED AS
-- A FUNCTION OF WATER SATURATION.
--
-- Generated with MRST's family_1() function from the original deck.
-- SWAT KRW KRO PCOW
SWOF
0.120000000000000 0 1.000000000000000 0
0.121000000000000 0.000000011363636 1.000000000000000 0
0.140000000000000 0.000000227272727 0.997000000000000 0
0.170000000000000 0.000000568181818 0.980000000000000 0
0.240000000000000 0.000001363636364 0.700000000000000 0
0.319999999000000 0.000002272727261 0.350000004375000 0
0.370000000000000 0.000002840909091 0.200000000000000 0
0.420000000000000 0.000003409090909 0.090000000000000 0
0.520000000000000 0.000004545454545 0.021000000000000 0
0.570000000000000 0.000005113636364 0.010000000000000 0
0.620000000000000 0.000005681818182 0.001000000000000 0
0.720000000000000 0.000006818181818 0.000100000000000 0
0.820000000000000 0.000007954545455 0.000000000000000 0
1.000000000000000 0.000010000000000 0 0
/
SGOF
0 0 1.000000000000000 0
0.001000000000000 0 1.000000000000000 0
0.020000000000000 0 0.997000000000000 0
0.050000000000000 0.005000000000000 0.980000000000000 0
0.120000000000000 0.025000000000000 0.700000000000000 0
0.199999999000000 0.074999999375000 0.350000004375000 0
0.200001100000000 0.075000000000000 0.350000000000000 0
0.250000000000000 0.125000000000000 0.200000000000000 0
0.300000000000000 0.190000000000000 0.090000000000000 0
0.400000000000000 0.410000000000000 0.021000000000000 0
0.449999999000000 0.599999996200000 0.010000000220000 0
0.450001100000000 0.600000000000000 0.010000000000000 0
0.500000000000000 0.720000000000000 0.001000000000000 0
0.600000000000000 0.870000000000000 0.000100000000000 0
0.700000000000000 0.940000000000000 0 0
0.850000000000000 0.980000000000000 0 0
0.880000000000000 0.984000000000000 0 0
/
-- PVT PROPERTIES OF WATER
--
-- REF. PRES. REF. FVF COMPRESSIBILITY REF VISCOSITY VISCOSIBILITY
PVTW
4014.7 1.029 3.13E-6 0.31 0 /
-- ROCK COMPRESSIBILITY
--
-- REF. PRES COMPRESSIBILITY
ROCK
14.7 3.0E-6 /
-- SURFACE DENSITIES OF RESERVOIR FLUIDS
--
-- OIL WATER GAS
DENSITY
49.1 64.79 0.06054 /
-- PVT PROPERTIES OF DRY GAS (NO VAPOURISED OIL)
-- WE WOULD USE PVTG TO SPECIFY THE PROPERTIES OF WET GAS
--
-- PGAS BGAS VISGAS
PVDG
14.7 166.666 0.008
264.7 12.093 0.0096
514.7 6.274 0.0112
1014.7 3.197 0.014
2014.7 1.614 0.0189
2514.7 1.294 0.0208
3014.7 1.080 0.0228
4014.7 0.811 0.0268
5014.7 0.649 0.0309
9014.7 0.386 0.047 /
-- PVT PROPERTIES OF LIVE OIL (WITH DISSOLVED GAS)
-- WE WOULD USE PVDO TO SPECIFY THE PROPERTIES OF DEAD OIL
--
-- FOR EACH VALUE OF RS THE SATURATION PRESSURE, FVF AND VISCOSITY
-- ARE SPECIFIED. FOR RS=1.27 AND 1.618, THE FVF AND VISCOSITY OF
-- UNDERSATURATED OIL ARE DEFINED AS A FUNCTION OF PRESSURE. DATA
-- FOR UNDERSATURATED OIL MAY BE SUPPLIED FOR ANY RS, BUT MUST BE
-- SUPPLIED FOR THE HIGHEST RS (1.618).
--
-- RS POIL FVFO VISO
-- PVTO
-- 0.001 14.7 1.062 1.04 /
-- 0.0905 264.7 1.15 0.975 /
-- 0.18 514.7 1.207 0.91 /
-- 0.371 1014.7 1.295 0.83 /
-- 0.636 2014.7 1.435 0.695 /
-- 0.775 2514.7 1.5 0.641 /
-- 0.93 3014.7 1.565 0.594 /
-- 1.270 4014.7 1.695 0.51
-- 5014.7 1.671 0.549
-- 9014.7 1.579 0.74 /
-- 1.618 5014.7 1.827 0.449
-- 9014.7 1.726 0.605 /
-- /
PVTO
1.0000000000e-03
1.4700000000e+01 1.0620000000e+00 1.0400000000e+00
1.0147000000e+03 1.0469628319e+00 1.1195294118e+00
5.0147000000e+03 9.8932035398e-01 1.5090196078e+00
/
9.0500000000e-02
2.6470000000e+02 1.1500000000e+00 9.7500000000e-01
1.2647000000e+03 1.1337168142e+00 1.0495588235e+00
5.2647000000e+03 1.0712979351e+00 1.4147058824e+00
/
1.8000000000e-01
5.1470000000e+02 1.2070000000e+00 9.1000000000e-01
1.5147000000e+03 1.1899097345e+00 9.7958823529e-01
5.5147000000e+03 1.1243970501e+00 1.3203921569e+00
/
3.7100000000e-01
1.0147000000e+03 1.2950000000e+00 8.3000000000e-01
2.0147000000e+03 1.2766637168e+00 8.9347058824e-01
6.0147000000e+03 1.2063746313e+00 1.2043137255e+00
/
6.3600000000e-01
2.0147000000e+03 1.4350000000e+00 6.9500000000e-01
3.0147000000e+03 1.4146814159e+00 7.4814705882e-01
7.0147000000e+03 1.3367935103e+00 1.0084313725e+00
/
7.7500000000e-01
2.5147000000e+03 1.5000000000e+00 6.4100000000e-01
3.5147000000e+03 1.4787610619e+00 6.9001764706e-01
7.5147000000e+03 1.3973451327e+00 9.3007843137e-01
/
9.3000000000e-01
3.0147000000e+03 1.5650000000e+00 5.9400000000e-01
4.0147000000e+03 1.5428407080e+00 6.3942352941e-01
8.0147000000e+03 1.4578967552e+00 8.6188235294e-01
/
1.2700000000e+00
4.0147000000e+03 1.6950000000e+00 5.1000000000e-01
5.0147000000e+03 1.6710000000e+00 5.4900000000e-01
9.0147000000e+03 1.5790000000e+00 7.4000000000e-01
/
1.6180000000e+00
5.0147000000e+03 1.8270000000e+00 4.4900000000e-01
9.0147000000e+03 1.7260000000e+00 6.0500000000e-01
/
/
-- OUTPUT CONTROLS FOR PROPS DATA
-- ACTIVATED FOR SOF3, SWFN, SGFN, PVTW, PVDG, DENSITY AND ROCK KEYWORDS
RPTPROPS
1 1 1 0 1 1 1 1 /
SOLUTION ===============================================================
-------- THE SOLUTION SECTION DEFINES THE INITIAL STATE OF THE SOLUTION
-------- VARIABLES (PHASE PRESSURES, SATURATIONS AND GAS-OIL RATIOS)
------------------------------------------------------------------------
-- DATA FOR INITIALISING FLUIDS TO POTENTIAL EQUILIBRIUM
--
-- DATUM DATUM OWC OWC GOC GOC RSVD RVVD SOLN
-- DEPTH PRESS DEPTH PCOW DEPTH PCOG TABLE TABLE METH
-- EQUIL
-- 8400 4800 8500 0 8200 0 1 0 0 /
-- VARIATION OF INITIAL RS WITH DEPTH
--
-- DEPTH RS
-- RSVD
-- 8200 1.270
-- 8500 1.270 /
-- PRESSURE
-- 100*3.297832774859256e7
-- 100*3.302313357125603e7
-- 100*3.309483500720813e7
-- /
PRESSURE
100*4783.10205078125
100*4789.60058593750
100*4800.00000000000
/
SWAT
300*0.12
/
SGAS
300*0.0
/
-- RS
-- 300*226.1966570852417
-- /
RS
300*1.27
/
-- OUTPUT CONTROLS (SWITCH ON OUTPUT OF INITIAL GRID BLOCK PRESSURES)
RPTSOL
RESTART=2 PRES DENW DENO DENG POIL PGAS PWAT VOIL VGAS VWAT KRO KRG KRW RSSAT /
-- RESTART=2 DENSO DENSG DENSW POIL PGAS PWAR VOIL VGAS VWAT KRO KRG KRW RSSAT /
SUMMARY ===============================================================
-------- THIS SECTION SPECIFIES DATA TO BE WRITTEN TO THE SUMMARY FILES
-------- AND WHICH MAY LATER BE USED WITH THE ECLIPSE GRAPHICS PACKAGE
------------------------------------------------------------------------
EXCEL
SEPARATE
--REQUEST PRINTED OUTPUT OF SUMMARY FILE DATA
RUNSUM
-- FIELD OIL PRODUCTION
FOPR
-- WELL GAS-OIL RATIO FOR PRODUCER
WGOR
-- 'PRODUCER'
/
-- WELL BOTTOM-HOLE PRESSURE
WBHP
-- 'PRODUCER'
/
-- GAS AND OIL SATURATIONS IN INJECTION AND PRODUCTION CELL
BGSAT
10 10 3 /
1 1 1 /
/
BOSAT
10 10 3 /
1 1 1 /
/
-- PRESSURE IN INJECTION AND PRODUCTION CELL
BPR
10 10 3 /
1 1 1 /
/
SCHEDULE ===============================================================
-------- THE SCHEDULE SECTION DEFINES THE OPERATIONS TO BE SIMULATED
------------------------------------------------------------------------
-- CONTROLS ON OUTPUT AT EACH REPORT TIME
RPTSCHED
1 0 1 1 0 0 4 2 2 0 0 2 0 0 0
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 /
--IMPES
-- 1.0 1.0 10000.0 /
-- SET 'NO RESOLUTION' OPTION
--DRSDT
-- 0 /
-- SET INITIAL TIME STEP TO 1 DAY AND MAXIMUM TO 6 MONTHS
TUNING
1 182.5 /
1.0 0.5 1.0E-6 /
/
-- WELL SPECIFICATION DATA
--
-- WELL GROUP LOCATION BHP PI
-- NAME NAME I J DEPTH DEFN
WELSPECS
'PRODUCER' 'G' 10 10 8400 'OIL' /
'INJECTOR' 'G' 1 1 8335 'GAS' /
/
-- COMPLETION SPECIFICATION DATA
--
-- WELL -LOCATION- OPEN/ SAT CONN WELL
-- NAME I J K1 K2 SHUT TAB FACT DIAM
COMPDAT
'PRODUCER' 10 10 3 3 'OPEN' 0 -1 0.5 /
'INJECTOR' 1 1 1 1 'OPEN' 1 -1 0.5 /
/
-- PRODUCTION WELL CONTROLS
--
-- WELL OPEN/ CNTL OIL WATER GAS LIQU RES BHP
-- NAME SHUT MODE RATE RATE RATE RATE RATE
WCONPROD
'PRODUCER' 'OPEN' 'ORAT' 20000 4* 1000 /
/
-- WCONPROD
-- 'PRODUCER' 'OPEN' 'BHP' 5* 1000 /
-- /
-- INJECTION WELL CONTROLS
--
-- WELL INJ OPEN/ CNTL FLOW
-- NAME TYPE SHUT MODE RATE
-- WCONINJ
-- 'INJECTOR' 'GAS' 'OPEN' 'RATE' 100000 /
WCONINJE
'INJECTOR' 'GAS' 'OPEN' 'RATE' 100000 100000 50000/
/
-- YEAR 1
TSTEP
--0.2343 0.1393 0.1840 0.2189 0.2235
--1.0 4.0 2*5.0 6*5.0 10*25.0
1.0 14.0 13*25.0
/
TSTEP
25.0
/
-- YEAR 2
TSTEP
13*20.0 7*13.0
/
TSTEP
14.0
/
-- YEAR 3
TSTEP
17*10.0
/
TSTEP
12.5
/
-- 912.50 --> 1000.0
TSTEP
8.5 16*5.0
/
TSTEP
5.0
/
-- 1000.0 --> 1100.0
TSTEP
19*5.0
/
TSTEP
5.0
/
-- 1100.0 --> 1200.0
TSTEP
19*5.0
/
TSTEP
5.0
/
TSTEP
10.0 /
END ================================================================

461
spe1_large/LARGE_SPE1.DATA
View File

@ -1,461 +0,0 @@
-- =====================================================================
-- THIS IS THE FIRST SPE COMPARISON PROBLEM,"COMPARISON OF SOLUTIONS TO A
-- THREE-DIMENSIONAL BLACK-OIL RESERVOIR SIMULATION PROBLEM", REPORTED
-- BY AZIS AND ODEH AT THE SPE SYMPOSIUM ON RESERVOIR SIMULATION ,
-- JANUARY 1981. IT IS A NON SWELLING AND SWELLING STUDY. A REGULAR
-- GRID WITH TWO WELLS (INJECTOR AND PRODUCER)AND A IMPES SOLUTION METHOD
-- IS USED FOR THIS SIMULATION.THE PRODUCTION IS CONTROLLED BY FLOW RATE
-- AND MIN. BHP. OIL RATE, GOR, PRESSURE AND GAS SATURATION ARE TO BE REPORTED.
-- =====================================================================
RUNSPEC
-- TITLE
-- ODEH PROBLEM - IMPLICIT OPTION - 1200 DAYS /
DIMENS
100 100 30 /
NONNC
OIL
WATER
GAS
DISGAS
FIELD
EQLDIMS
1 100 10 1 1 /
TABDIMS
1 1 17 12 1 12 /
WELLDIMS
2 10 1 2 /
NUPCOL
4 /
START
19 'OCT' 1982 /
NSTACK
24 /
--FMTOUT
--FMTIN
UNIFOUT
UNIFIN
--NOSIM
--IMPES
GRID ================================================================
-------- IN THIS SECTION , THE GEOMETRY OF THE SIMULATION GRID AND THE
-------- ROCK PERMEABILITIES AND POROSITIES ARE DEFINED.
------------------------------------------------------------------------
-- THE X AND Y DIRECTION CELL SIZES ( DX, DY ) AND THE POROSITIES ARE
-- CONSTANT THROUGHOUT THE GRID. THESE ARE SET IN THE FIRST 3 LINES
-- AFTER THE EQUALS KEYWORD. THE CELL THICKNESSES ( DZ ) AND
-- PERMEABILITES ARE THEN SET FOR EACH LAYER. THE CELL TOP DEPTHS
-- ( TOPS ) ARE NEEDED ONLY IN THE TOP LAYER ( THOUGH THEY COULD BE.
-- SET THROUGHOUT THE GRID ). THE SPECIFIED MULTZ VALUES ACT AS
-- MULTIPLIERS ON THE TRANSMISSIBILITIES BETWEEN THE CURRENT LAYER
-- AND THE LAYER BELOW.
DXV
100*100.0
/
DYV
100*100.0
/
-- E100 does not seem to support the DZV keyword, so we use DZ...
DZ
100000*2.0
100000*3.0
100000*5.0
/
PORO
300000*0.3
/
PERMX
100000*500.0
100000*50.0
100000*200.0
/
PERMY
100000*500.0
100000*50.0
100000*200.0
/
-- Note: ignoring MULTZ!
-- layer 1-2 'MULTZ' 0.64 /
-- layer 2-3 'MULTZ' 0.265625 /
-- Reducing PERMZ a little instead
PERMZ
100000*300.0
100000*30.0
100000*50.0
/
TOPS
10000*8325.0
/
INIT
PROPS ===============================================================
-------- THE PROPS SECTION DEFINES THE REL. PERMEABILITIES, CAPILLARY
-------- PRESSURES, AND THE PVT PROPERTIES OF THE RESERVOIR FLUIDS
----------------------------------------------------------------------
-- WATER RELATIVE PERMEABILITY AND CAPILLARY PRESSURE ARE TABULATED AS
-- A FUNCTION OF WATER SATURATION.
--
-- Generated with MRST's family_1() function from the original deck.
-- SWAT KRW KRO PCOW
SWOF
0.120000000000000 0 1.000000000000000 0
0.121000000000000 0.000000011363636 1.000000000000000 0
0.140000000000000 0.000000227272727 0.997000000000000 0
0.170000000000000 0.000000568181818 0.980000000000000 0
0.240000000000000 0.000001363636364 0.700000000000000 0
0.319999999000000 0.000002272727261 0.350000004375000 0
0.370000000000000 0.000002840909091 0.200000000000000 0
0.420000000000000 0.000003409090909 0.090000000000000 0
0.520000000000000 0.000004545454545 0.021000000000000 0
0.570000000000000 0.000005113636364 0.010000000000000 0
0.620000000000000 0.000005681818182 0.001000000000000 0
0.720000000000000 0.000006818181818 0.000100000000000 0
0.820000000000000 0.000007954545455 0.000000000000000 0
1.000000000000000 0.000010000000000 0 0
/
SGOF
0 0 1.000000000000000 0
0.001000000000000 0 1.000000000000000 0
0.020000000000000 0 0.997000000000000 0
0.050000000000000 0.005000000000000 0.980000000000000 0
0.120000000000000 0.025000000000000 0.700000000000000 0
0.199999999000000 0.074999999375000 0.350000004375000 0
0.200001100000000 0.075000000000000 0.350000000000000 0
0.250000000000000 0.125000000000000 0.200000000000000 0
0.300000000000000 0.190000000000000 0.090000000000000 0
0.400000000000000 0.410000000000000 0.021000000000000 0
0.449999999000000 0.599999996200000 0.010000000220000 0
0.450001100000000 0.600000000000000 0.010000000000000 0
0.500000000000000 0.720000000000000 0.001000000000000 0
0.600000000000000 0.870000000000000 0.000100000000000 0
0.700000000000000 0.940000000000000 0 0
0.850000000000000 0.980000000000000 0 0
0.880000000000000 0.984000000000000 0 0
/
-- PVT PROPERTIES OF WATER
--
-- REF. PRES. REF. FVF COMPRESSIBILITY REF VISCOSITY VISCOSIBILITY
PVTW
4014.7 1.029 3.13E-6 0.31 0 /
-- ROCK COMPRESSIBILITY
--
-- REF. PRES COMPRESSIBILITY
ROCK
14.7 3.0E-6 /
-- SURFACE DENSITIES OF RESERVOIR FLUIDS
--
-- OIL WATER GAS
DENSITY
49.1 64.79 0.06054 /
-- PVT PROPERTIES OF DRY GAS (NO VAPOURISED OIL)
-- WE WOULD USE PVTG TO SPECIFY THE PROPERTIES OF WET GAS
--
-- PGAS BGAS VISGAS
PVDG
14.7 166.666 0.008
264.7 12.093 0.0096
514.7 6.274 0.0112
1014.7 3.197 0.014
2014.7 1.614 0.0189
2514.7 1.294 0.0208
3014.7 1.080 0.0228
4014.7 0.811 0.0268
5014.7 0.649 0.0309
9014.7 0.386 0.047 /
-- PVT PROPERTIES OF LIVE OIL (WITH DISSOLVED GAS)
-- WE WOULD USE PVDO TO SPECIFY THE PROPERTIES OF DEAD OIL
--
-- FOR EACH VALUE OF RS THE SATURATION PRESSURE, FVF AND VISCOSITY
-- ARE SPECIFIED. FOR RS=1.27 AND 1.618, THE FVF AND VISCOSITY OF
-- UNDERSATURATED OIL ARE DEFINED AS A FUNCTION OF PRESSURE. DATA
-- FOR UNDERSATURATED OIL MAY BE SUPPLIED FOR ANY RS, BUT MUST BE
-- SUPPLIED FOR THE HIGHEST RS (1.618).
--
-- RS POIL FVFO VISO
-- PVTO
-- 0.001 14.7 1.062 1.04 /
-- 0.0905 264.7 1.15 0.975 /
-- 0.18 514.7 1.207 0.91 /
-- 0.371 1014.7 1.295 0.83 /
-- 0.636 2014.7 1.435 0.695 /
-- 0.775 2514.7 1.5 0.641 /
-- 0.93 3014.7 1.565 0.594 /
-- 1.270 4014.7 1.695 0.51
-- 5014.7 1.671 0.549
-- 9014.7 1.579 0.74 /
-- 1.618 5014.7 1.827 0.449
-- 9014.7 1.726 0.605 /
-- /
PVTO
1.0000000000e-03
1.4700000000e+01 1.0620000000e+00 1.0400000000e+00
1.0147000000e+03 1.0469628319e+00 1.1195294118e+00
5.0147000000e+03 9.8932035398e-01 1.5090196078e+00
/
9.0500000000e-02
2.6470000000e+02 1.1500000000e+00 9.7500000000e-01
1.2647000000e+03 1.1337168142e+00 1.0495588235e+00
5.2647000000e+03 1.0712979351e+00 1.4147058824e+00
/
1.8000000000e-01
5.1470000000e+02 1.2070000000e+00 9.1000000000e-01
1.5147000000e+03 1.1899097345e+00 9.7958823529e-01
5.5147000000e+03 1.1243970501e+00 1.3203921569e+00
/
3.7100000000e-01
1.0147000000e+03 1.2950000000e+00 8.3000000000e-01
2.0147000000e+03 1.2766637168e+00 8.9347058824e-01
6.0147000000e+03 1.2063746313e+00 1.2043137255e+00
/
6.3600000000e-01
2.0147000000e+03 1.4350000000e+00 6.9500000000e-01
3.0147000000e+03 1.4146814159e+00 7.4814705882e-01
7.0147000000e+03 1.3367935103e+00 1.0084313725e+00
/
7.7500000000e-01
2.5147000000e+03 1.5000000000e+00 6.4100000000e-01
3.5147000000e+03 1.4787610619e+00 6.9001764706e-01
7.5147000000e+03 1.3973451327e+00 9.3007843137e-01
/
9.3000000000e-01
3.0147000000e+03 1.5650000000e+00 5.9400000000e-01
4.0147000000e+03 1.5428407080e+00 6.3942352941e-01
8.0147000000e+03 1.4578967552e+00 8.6188235294e-01
/
1.2700000000e+00
4.0147000000e+03 1.6950000000e+00 5.1000000000e-01
5.0147000000e+03 1.6710000000e+00 5.4900000000e-01
9.0147000000e+03 1.5790000000e+00 7.4000000000e-01
/
1.6180000000e+00
5.0147000000e+03 1.8270000000e+00 4.4900000000e-01
9.0147000000e+03 1.7260000000e+00 6.0500000000e-01
/
/
-- OUTPUT CONTROLS FOR PROPS DATA
-- ACTIVATED FOR SOF3, SWFN, SGFN, PVTW, PVDG, DENSITY AND ROCK KEYWORDS
RPTPROPS
1 1 1 0 1 1 1 1 /
SOLUTION ===============================================================
-------- THE SOLUTION SECTION DEFINES THE INITIAL STATE OF THE SOLUTION
-------- VARIABLES (PHASE PRESSURES, SATURATIONS AND GAS-OIL RATIOS)
------------------------------------------------------------------------
-- DATA FOR INITIALISING FLUIDS TO POTENTIAL EQUILIBRIUM
--
-- DATUM DATUM OWC OWC GOC GOC RSVD RVVD SOLN
-- DEPTH PRESS DEPTH PCOW DEPTH PCOG TABLE TABLE METH
-- EQUIL
-- 8400 4800 8500 0 8200 0 1 0 0 /
-- VARIATION OF INITIAL RS WITH DEPTH
--
-- DEPTH RS
-- RSVD
-- 8200 1.270
-- 8500 1.270 /
-- PRESSURE
-- 100000*3.297832774859256e7
-- 100000*3.302313357125603e7
-- 100000*3.309483500720813e7
-- /
PRESSURE
100000*4783.10205078125
100000*4789.60058593750
100000*4800.00000000000
/
SWAT
300000*0.12
/
SGAS
300000*0.0
/
-- RS
-- 300000*226.1966570852417
-- /
RS
300000*1.27
/
-- OUTPUT CONTROLS (SWITCH ON OUTPUT OF INITIAL GRID BLOCK PRESSURES)
--RPTSOL
-- RESTART=2 PRES DENW DENO DENG POIL PGAS PWAT VOIL VGAS VWAT KRO KRG KRW RSSAT /
-- RESTART=2 DENSO DENSG DENSW POIL PGAS PWAR VOIL VGAS VWAT KRO KRG KRW RSSAT /
SUMMARY ===============================================================
-------- THIS SECTION SPECIFIES DATA TO BE WRITTEN TO THE SUMMARY FILES
-------- AND WHICH MAY LATER BE USED WITH THE ECLIPSE GRAPHICS PACKAGE
------------------------------------------------------------------------
EXCEL
SEPARATE
--REQUEST PRINTED OUTPUT OF SUMMARY FILE DATA
RUNSUM
-- FIELD OIL PRODUCTION
FOPR
-- WELL GAS-OIL RATIO FOR PRODUCER
WGOR
-- 'PRODUCER'
/
-- WELL BOTTOM-HOLE PRESSURE
WBHP
-- 'PRODUCER'
/
-- GAS AND OIL SATURATIONS IN INJECTION AND PRODUCTION CELL
BGSAT
95 95 25 /
5 5 5 /
/
BOSAT
95 95 25 /
5 5 5 /
/
-- PRESSURE IN INJECTION AND PRODUCTION CELL
BPR
95 95 25 /
5 5 5 /
/
SCHEDULE ===============================================================
-------- THE SCHEDULE SECTION DEFINES THE OPERATIONS TO BE SIMULATED
------------------------------------------------------------------------
--IMPES
-- 1.0 1.0 10000.0 /
-- SET 'NO RESOLUTION' OPTION
--DRSDT
-- 0 /
-- SET INITIAL TIME STEP TO 1 DAY AND MAXIMUM TO 6 MONTHS
TUNING
1 182.5 /
1.0 0.5 1.0E-6 /
/
-- WELL SPECIFICATION DATA
--
-- WELL GROUP LOCATION BHP PI
-- NAME NAME I J DEPTH DEFN
WELSPECS
'PRODUCER' 'G' 95 95 8400 'OIL' /
'INJECTOR' 'G' 5 5 8335 'GAS' /
/
-- COMPLETION SPECIFICATION DATA
--
-- WELL -LOCATION- OPEN/ SAT CONN WELL
-- NAME I J K1 K2 SHUT TAB FACT DIAM
COMPDAT
'PRODUCER' 95 95 21 30 'OPEN' 0 -1 0.5 /
'INJECTOR' 5 5 1 10 'OPEN' 1 -1 0.5 /
/
-- PRODUCTION WELL CONTROLS
--
-- WELL OPEN/ CNTL OIL WATER GAS LIQU RES BHP
-- NAME SHUT MODE RATE RATE RATE RATE RATE
WCONPROD
'PRODUCER' 'OPEN' 'ORAT' 20000 4* 1000 /
/
-- WCONPROD
-- 'PRODUCER' 'OPEN' 'BHP' 5* 1000 /
-- /
-- INJECTION WELL CONTROLS
--
-- WELL INJ OPEN/ CNTL FLOW
-- NAME TYPE SHUT MODE RATE
-- WCONINJ
-- 'INJECTOR' 'GAS' 'OPEN' 'RATE' 100000 /
WCONINJE
'INJECTOR' 'GAS' 'OPEN' 'RATE' 100000 100000 50000/
/
--------------
-- YEAR 1
--------------
TSTEP
-- 1 3 7 12 19 23 27
2*0.05 4*0.1 5*0.2 7*0.5 4*1.0 4*2 2.5
/
-- t=19.5
-- at this point in time, gas around the producer well starts to
-- become significant, so convergence rates are reduced for a while...
TSTEP
-- 28 33 34 35 37
5*0.5 0.15 0.32 2*0.39 12*0.45
/
-- t=28.65
TSTEP
-- 49 60 74 76 78 132
11*1.25 14*2.5 2*5.0 2*2.5 54*5.0 2.6
/
-- YEAR 2
TSTEP
73*5.0
/
-- YEAR 3
TSTEP
146*2.5
/
END ================================================================

18
spe1_large/README
View File

@ -1,18 +0,0 @@
This directory contains the input data file for the first comparison
project of the society of petroleum engineers [1] with each gridcell
refinded by a factor of 10 into each direction. The dataset consists
of a single file called 'LARGE_SPE1.DATA' and uses the ECL format
which is used by many standard commercial simulators for oil
reservoirs. Its purpose is to allow performance comparisons for a
much simpler deck compared to the "Norne" data set.
The ownership of the copyright of this dataset is unclear: Some parts
seem to be written by Schlumberger [2], which in turn seem to be
modified by Jon Kleppe of NTNU [3] and some (mainly saturation
function related) data seems to be calculated by SINTEF using MRST.
Finally some modifications where done by Ove Savareid and Andreas
Lauser in the context of the OPM project.
[1] http://www.spe.org/web/csp/datasets/set01.htm
[2] http://slb.com
[3] http://www.ipt.ntnu.no/~kleppe/TPG4160/ex3/ODEH.DATA

16
spe1_thermal/README
View File

@ -1,16 +0,0 @@
This directory contains the input data file for a version of the SPE-1
[1] problem which has been modified to include thermal effects. The
intention of it is to test the "pseudo-thermal" features of the OPM
simulators. For this reason, the dataset will probably produce errors
or incorrect results if using an ECLiPSE simulator.
The ownership of the copyright of this dataset is unclear: Some parts
seem to be written by Schlumberger [2], which in turn seem to be
modified by Jon Kleppe of NTNU [3] and some (mainly saturation
function related) data seems to be calculated by SINTEF using MRST.
Finally some modifications where done by Ove Savareid and Andreas
Lauser in the context of the OPM project.
[1] http://www.spe.org/web/csp/datasets/set01.htm
[2] http://slb.com
[3] http://www.ipt.ntnu.no/~kleppe/TPG4160/ex3/ODEH.DATA

592
spe1_thermal/SPE1_THERMAL.DATA
View File

@ -1,592 +0,0 @@
-- =====================================================================
-- THIS IS THE FIRST SPE COMPARISON PROBLEM,"COMPARISON OF SOLUTIONS TO A
-- THREE-DIMENSIONAL BLACK-OIL RESERVOIR SIMULATION PROBLEM", REPORTED
-- BY AZIS AND ODEH AT THE SPE SYMPOSIUM ON RESERVOIR SIMULATION ,
-- JANUARY 1981. IT IS A NON SWELLING AND SWELLING STUDY. A REGULAR
-- GRID WITH TWO WELLS (INJECTOR AND PRODUCER)AND A IMPES SOLUTION METHOD
-- IS USED FOR THIS SIMULATION.THE PRODUCTION IS CONTROLLED BY FLOW RATE
-- AND MIN. BHP. OIL RATE, GOR, PRESSURE AND GAS SATURATION ARE TO BE REPORTED.
-- =====================================================================
RUNSPEC
-- TITLE
-- ODEH PROBLEM - IMPLICIT OPTION - 1200 DAYS /
DIMENS
10 10 3 /
NONNC
OIL
WATER
GAS
DISGAS
FIELD
EQLDIMS
1 100 10 1 1 /
TABDIMS
1 1 17 12 1 12 /
WELLDIMS
2 1 1 2 /
NUPCOL
4 /
START
19 'OCT' 1982 /
NSTACK
24 /
--FMTOUT
--FMTIN
UNIFOUT
UNIFIN
--NOSIM
--IMPES
-------------------------------------------------
-- Thermal stuff in the RUNSPEC section
-------------------------------------------------
-- enable the "temperature option"
TEMP
-- tell the simulator that we have two hydrocarbon components, oil
-- (first component) and gas (second)
COMPS
2 /
OCOMPIDX
1 /
GCOMPIDX
2 /
GRID ================================================================
-------- IN THIS SECTION , THE GEOMETRY OF THE SIMULATION GRID AND THE
-------- ROCK PERMEABILITIES AND POROSITIES ARE DEFINED.
------------------------------------------------------------------------
-- THE X AND Y DIRECTION CELL SIZES ( DX, DY ) AND THE POROSITIES ARE
-- CONSTANT THROUGHOUT THE GRID. THESE ARE SET IN THE FIRST 3 LINES
-- AFTER THE EQUALS KEYWORD. THE CELL THICKNESSES ( DZ ) AND
-- PERMEABILITES ARE THEN SET FOR EACH LAYER. THE CELL TOP DEPTHS
-- ( TOPS ) ARE NEEDED ONLY IN THE TOP LAYER ( THOUGH THEY COULD BE.
-- SET THROUGHOUT THE GRID ). THE SPECIFIED MULTZ VALUES ACT AS
-- MULTIPLIERS ON THE TRANSMISSIBILITIES BETWEEN THE CURRENT LAYER
-- AND THE LAYER BELOW.
DXV
10*1000.0
/
DYV
10*1000.0
/
DZ
100*20.0 100*30.0 100*50.0
/
PORO
300*0.3
/
PERMX
100*500.0
100*50.0
100*200.0
/
PERMY
100*500.0
100*50.0
100*200.0
/
-- Note: ignoring MULTZ!
-- layer 1-2 'MULTZ' 0.64 /
-- layer 2-3 'MULTZ' 0.265625 /
-- Reducing PERMZ a little instead
PERMZ
100*300.0
100*30.0
100*50.0
/
TOPS
100*8325.0
/
INIT
PROPS ===============================================================
-------- THE PROPS SECTION DEFINES THE REL. PERMEABILITIES, CAPILLARY
-------- PRESSURES, AND THE PVT PROPERTIES OF THE RESERVOIR FLUIDS
----------------------------------------------------------------------
-- WATER RELATIVE PERMEABILITY AND CAPILLARY PRESSURE ARE TABULATED AS
-- A FUNCTION OF WATER SATURATION.
--
-- Generated with MRST's family_1() function from the original deck.
-- SWAT KRW KRO PCOW
SWOF
0.120000000000000 0 1.000000000000000 0
0.121000000000000 0.000000011363636 1.000000000000000 0
0.140000000000000 0.000000227272727 0.997000000000000 0
0.170000000000000 0.000000568181818 0.980000000000000 0
0.240000000000000 0.000001363636364 0.700000000000000 0
0.319999999000000 0.000002272727261 0.350000004375000 0
0.370000000000000 0.000002840909091 0.200000000000000 0
0.420000000000000 0.000003409090909 0.090000000000000 0
0.520000000000000 0.000004545454545 0.021000000000000 0
0.570000000000000 0.000005113636364 0.010000000000000 0
0.620000000000000 0.000005681818182 0.001000000000000 0
0.720000000000000 0.000006818181818 0.000100000000000 0
0.820000000000000 0.000007954545455 0.000000000000000 0
1.000000000000000 0.000010000000000 0 0
/
SGOF
0 0 1.000000000000000 0
0.001000000000000 0 1.000000000000000 0
0.020000000000000 0 0.997000000000000 0
0.050000000000000 0.005000000000000 0.980000000000000 0
0.120000000000000 0.025000000000000 0.700000000000000 0
0.199999999000000 0.074999999375000 0.350000004375000 0
0.200001100000000 0.075000000000000 0.350000000000000 0
0.250000000000000 0.125000000000000 0.200000000000000 0
0.300000000000000 0.190000000000000 0.090000000000000 0
0.400000000000000 0.410000000000000 0.021000000000000 0
0.449999999000000 0.599999996200000 0.010000000220000 0
0.450001100000000 0.600000000000000 0.010000000000000 0
0.500000000000000 0.720000000000000 0.001000000000000 0
0.600000000000000 0.870000000000000 0.000100000000000 0
0.700000000000000 0.940000000000000 0 0
0.850000000000000 0.980000000000000 0 0
0.880000000000000 0.984000000000000 0 0
/
-- PVT PROPERTIES OF WATER
--
-- REF. PRES. REF. FVF COMPRESSIBILITY REF VISCOSITY VISCOSIBILITY
PVTW
4014.7 1.029 3.13E-6 0.31 0 /
-- ROCK COMPRESSIBILITY
--
-- REF. PRES COMPRESSIBILITY
ROCK
14.7 3.0E-6 /
-- SURFACE DENSITIES OF RESERVOIR FLUIDS
--
-- OIL WATER GAS
DENSITY
49.1 64.79 0.06054 /
-- PVT PROPERTIES OF DRY GAS (NO VAPOURISED OIL)
-- WE WOULD USE PVTG TO SPECIFY THE PROPERTIES OF WET GAS
--
-- PGAS BGAS VISGAS
PVDG
14.7 166.666 0.008
264.7 12.093 0.0096
514.7 6.274 0.0112
1014.7 3.197 0.014
2014.7 1.614 0.0189
2514.7 1.294 0.0208
3014.7 1.080 0.0228
4014.7 0.811 0.0268
5014.7 0.649 0.0309
9014.7 0.386 0.047 /
-- PVT PROPERTIES OF LIVE OIL (WITH DISSOLVED GAS)
-- WE WOULD USE PVDO TO SPECIFY THE PROPERTIES OF DEAD OIL
--
-- FOR EACH VALUE OF RS THE SATURATION PRESSURE, FVF AND VISCOSITY
-- ARE SPECIFIED. FOR RS=1.27 AND 1.618, THE FVF AND VISCOSITY OF
-- UNDERSATURATED OIL ARE DEFINED AS A FUNCTION OF PRESSURE. DATA
-- FOR UNDERSATURATED OIL MAY BE SUPPLIED FOR ANY RS, BUT MUST BE
-- SUPPLIED FOR THE HIGHEST RS (1.618).
--
-- RS POIL FVFO VISO
-- PVTO
-- 0.001 14.7 1.062 1.04 /
-- 0.0905 264.7 1.15 0.975 /
-- 0.18 514.7 1.207 0.91 /
-- 0.371 1014.7 1.295 0.83 /
-- 0.636 2014.7 1.435 0.695 /
-- 0.775 2514.7 1.5 0.641 /
-- 0.93 3014.7 1.565 0.594 /
-- 1.270 4014.7 1.695 0.51
-- 5014.7 1.671 0.549
-- 9014.7 1.579 0.74 /
-- 1.618 5014.7 1.827 0.449
-- 9014.7 1.726 0.605 /
-- /
PVTO
1.0000000000e-03
1.4700000000e+01 1.0620000000e+00 1.0400000000e+00
1.0147000000e+03 1.0469628319e+00 1.1195294118e+00
5.0147000000e+03 9.8932035398e-01 1.5090196078e+00
/
9.0500000000e-02
2.6470000000e+02 1.1500000000e+00 9.7500000000e-01
1.2647000000e+03 1.1337168142e+00 1.0495588235e+00
5.2647000000e+03 1.0712979351e+00 1.4147058824e+00
/
1.8000000000e-01
5.1470000000e+02 1.2070000000e+00 9.1000000000e-01
1.5147000000e+03 1.1899097345e+00 9.7958823529e-01
5.5147000000e+03 1.1243970501e+00 1.3203921569e+00
/
3.7100000000e-01
1.0147000000e+03 1.2950000000e+00 8.3000000000e-01
2.0147000000e+03 1.2766637168e+00 8.9347058824e-01
6.0147000000e+03 1.2063746313e+00 1.2043137255e+00
/
6.3600000000e-01
2.0147000000e+03 1.4350000000e+00 6.9500000000e-01
3.0147000000e+03 1.4146814159e+00 7.4814705882e-01
7.0147000000e+03 1.3367935103e+00 1.0084313725e+00
/
7.7500000000e-01
2.5147000000e+03 1.5000000000e+00 6.4100000000e-01
3.5147000000e+03 1.4787610619e+00 6.9001764706e-01
7.5147000000e+03 1.3973451327e+00 9.3007843137e-01
/
9.3000000000e-01
3.0147000000e+03 1.5650000000e+00 5.9400000000e-01
4.0147000000e+03 1.5428407080e+00 6.3942352941e-01
8.0147000000e+03 1.4578967552e+00 8.6188235294e-01
/
1.2700000000e+00
4.0147000000e+03 1.6950000000e+00 5.1000000000e-01
5.0147000000e+03 1.6710000000e+00 5.4900000000e-01
9.0147000000e+03 1.5790000000e+00 7.4000000000e-01
/
1.6180000000e+00
5.0147000000e+03 1.8270000000e+00 4.4900000000e-01
9.0147000000e+03 1.7260000000e+00 6.0500000000e-01
/
/
-- OUTPUT CONTROLS FOR PROPS DATA
-- ACTIVATED FOR SOF3, SWFN, SGFN, PVTW, PVDG, DENSITY AND ROCK KEYWORDS
RPTPROPS
1 1 1 0 1 1 1 1 /
-------------------------------------------------
-- Thermal stuff in the PROPS section
-------------------------------------------------
-- compressibility of the components in the oil phase
CREF
-- c^O_g c^G_g
1e-6 0 /
-- the reservoir reference temperature
TREF
-- T^O T^G
554.67 554.67 /
-- the reservoir reference pressure
PREF
-- p^O p^G
4790.0 4790.0 /
-- temperature dependence of the water density
WATDENT
-- Tref c_cT1 c_cT2
554.67 1* 1* /
-- temperature dependence of the oil density
THERMEX1
-- c_T1oil c_T1gas
0.0 0.0 /
-- reference conditions for the viscosity tables
VISCREF
-- p Rs
4790 0.0 /
-- temperature dependence of the water viscosity
WATVISCT
-- T mu_w
59.0 0.6
95.0 0.31
150.0 0.25 /
-- temperature dependence of the oil viscosity
OILVISCT
-- T mu_o
59.0 1.7
95.0 1.5
150.0 1.3 /
-- temperature dependence of the component viscosity in the gas phase
GASVISCT
-- T mu^O_g mu^G_g
59.0 0.0 0.0150
95.0 0.0 0.0230
150.0 0.0 0.0300 /
SOLUTION ===============================================================
-------- THE SOLUTION SECTION DEFINES THE INITIAL STATE OF THE SOLUTION
-------- VARIABLES (PHASE PRESSURES, SATURATIONS AND GAS-OIL RATIOS)
------------------------------------------------------------------------
-- DATA FOR INITIALISING FLUIDS TO POTENTIAL EQUILIBRIUM
--
-- DATUM DATUM OWC OWC GOC GOC RSVD RVVD SOLN
-- DEPTH PRESS DEPTH PCOW DEPTH PCOG TABLE TABLE METH
-- EQUIL
-- 8400 4800 8500 0 8200 0 1 0 0 /
-- VARIATION OF INITIAL RS WITH DEPTH
--
-- DEPTH RS
-- RSVD
-- 8200 1.270
-- 8500 1.270 /
-- PRESSURE
-- 100*3.297832774859256e7
-- 100*3.302313357125603e7
-- 100*3.309483500720813e7
-- /
PRESSURE
100*4783.10205078125
100*4789.60058593750
100*4800.00000000000
/
SWAT
300*0.12
/
SGAS
300*0.0
/
-- RS
-- 300*226.1966570852417
-- /
RS
300*1.27
/
-- OUTPUT CONTROLS (SWITCH ON OUTPUT OF INITIAL GRID BLOCK PRESSURES)
RPTSOL
RESTART=2 PRES DENW DENO DENG POIL PGAS PWAT VOIL VGAS VWAT KRO KRG KRW RSSAT /
-- RESTART=2 DENSO DENSG DENSW POIL PGAS PWAR VOIL VGAS VWAT KRO KRG KRW RSSAT /
-------------------------------------------------
-- Thermal stuff in the SOLUTION section
-------------------------------------------------
-- set the temperature of the reservoir
EQUALS
TEMPI 95 /
/
-- increase the temperature around the injector
BOX
1 3
1 3
1 3
/
ADD
TEMPI 50 /
/
ENDBOX
SUMMARY ===============================================================
-------- THIS SECTION SPECIFIES DATA TO BE WRITTEN TO THE SUMMARY FILES
-------- AND WHICH MAY LATER BE USED WITH THE ECLIPSE GRAPHICS PACKAGE
------------------------------------------------------------------------
EXCEL
SEPARATE
--REQUEST PRINTED OUTPUT OF SUMMARY FILE DATA
RUNSUM
-- FIELD OIL PRODUCTION
FOPR
-- WELL GAS-OIL RATIO FOR PRODUCER
WGOR
-- 'PRODUCER'
/
-- WELL BOTTOM-HOLE PRESSURE
WBHP
-- 'PRODUCER'
/
-- GAS AND OIL SATURATIONS IN INJECTION AND PRODUCTION CELL
BGSAT
10 10 3 /
1 1 1 /
/
BOSAT
10 10 3 /
1 1 1 /
/
-- PRESSURE IN INJECTION AND PRODUCTION CELL
BPR
10 10 3 /
1 1 1 /
/
SCHEDULE ===============================================================
-------- THE SCHEDULE SECTION DEFINES THE OPERATIONS TO BE SIMULATED
------------------------------------------------------------------------
-- CONTROLS ON OUTPUT AT EACH REPORT TIME
RPTSCHED
1 0 1 1 0 0 4 2 2 0 0 2 0 0 0
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 /
--IMPES
-- 1.0 1.0 10000.0 /
-- SET 'NO RESOLUTION' OPTION
--DRSDT
-- 0 /
-- SET INITIAL TIME STEP TO 1 DAY AND MAXIMUM TO 6 MONTHS
TUNING
1 182.5 /
1.0 0.5 1.0E-6 /
/
-- WELL SPECIFICATION DATA
--
-- WELL GROUP LOCATION BHP PI
-- NAME NAME I J DEPTH DEFN
WELSPECS
'PRODUCER' 'G' 10 10 8400 'OIL' /
'INJECTOR' 'G' 1 1 8335 'GAS' /
/
-- COMPLETION SPECIFICATION DATA
--
-- WELL -LOCATION- OPEN/ SAT CONN WELL
-- NAME I J K1 K2 SHUT TAB FACT DIAM
COMPDAT
'PRODUCER' 10 10 3 3 'OPEN' 0 -1 0.5 /
'INJECTOR' 1 1 1 1 'OPEN' 1 -1 0.5 /
/
-- PRODUCTION WELL CONTROLS
--
-- WELL OPEN/ CNTL OIL WATER GAS LIQU RES BHP
-- NAME SHUT MODE RATE RATE RATE RATE RATE
WCONPROD
'PRODUCER' 'OPEN' 'ORAT' 20000 4* 1000 /
/
-- WCONPROD
-- 'PRODUCER' 'OPEN' 'BHP' 5* 1000 /
-- /
-- INJECTION WELL CONTROLS
--
-- WELL INJ OPEN/ CNTL FLOW
-- NAME TYPE SHUT MODE RATE
-- WCONINJ
-- 'INJECTOR' 'GAS' 'OPEN' 'RATE' 100000 /
WCONINJE
'INJECTOR' 'GAS' 'OPEN' 'RATE' 100000 100000 50000/
/
-- YEAR 1
TSTEP
--0.2343 0.1393 0.1840 0.2189 0.2235
--1.0 4.0 2*5.0 6*5.0 10*25.0
1.0 14.0 13*25.0
/
TSTEP
25.0
/
-- YEAR 2
TSTEP
13*20.0 7*13.0
/
TSTEP
14.0
/
-- YEAR 3
TSTEP
17*10.0
/
TSTEP
12.5
/
-- 912.50 --> 1000.0
TSTEP
8.5 16*5.0
/
TSTEP
5.0
/
-- 1000.0 --> 1100.0
TSTEP
19*5.0
/
TSTEP
5.0
/
-- 1100.0 --> 1200.0
TSTEP
19*5.0
/
TSTEP
5.0
/
TSTEP
10.0 /
END ================================================================

3
spe3/README
View File

@ -1,3 +0,0 @@
SWOF and SGOF is used instead of SWFN SGFN and SOF3
ALL is removed (OPM not supporting)
BPRES is removed (OPM not supporting)

454
spe3/SPE3.GRDECL
View File

@ -1,454 +0,0 @@
-- The following file was written from MATLAB using the MRST toolbox.
SPECGRID
9 9 4 1 F
/
COORD
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879.900000 0.000000 7315.000000 879.900000 0.000000 7475.000000
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2346.400000 2639.700000 7315.000000 2346.400000 2639.700000 7475.000000
2639.700000 2639.700000 7315.000000 2639.700000 2639.700000 7475.000000
/
ZCORN
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/
ACTNUM
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 /

0
spe3_new/SPE3CASE1.DATA → spe3/SPE3CASE1.DATA
View File

0
spe3_new/SPE3CASE2.DATA → spe3/SPE3CASE2.DATA
View File

447
spe3/SPE3_DEFAULT.DATA
View File

@ -1,447 +0,0 @@
-- SLIGHTLY EDITED SPE3-CASE. MINUMUM BHP FOR PRODUCER INCREASED TO PREVENT
-- NEGATIVE REGATIVE RV
--
RUNSPEC
TITLE
GAS CONDENSATE TEST
DIMENS
9 9 4 /
NONNC
OIL
WATER
GAS
VAPOIL
FIELD
EQLDIMS
1 100 10 1 1 /
TABDIMS
1 1 25 25 1 15 /
WELLDIMS
18 2 2 10 /
NUPCOL
4 /
VFPPDIMS
7 3 4 2 0 1 /
VFPIDIMS
6 3 1 /
START
1 'NOV' 2004 /
NSTACK
25 /
UNIFOUT
UNIFIN
--FMTOUT
--FMTIN
--Grid Properties ======================================================
-------- IN THIS SECTION , THE GEOMETRY OF THE SIMULATION GRID AND THE
-------- ROCK PERMEABILITIES AND POROSITIES ARE DEFINED.
------------------------------------------------------------------------
-- THE X AND Y DIRECTION CELL SIZES ( DX, DY ) AND THE POROSITIES ARE
-- CONSTANT THROUGHOUT THE GRID. THESE ARE SET IN THE FIRST 3 LINES
-- AFTER THE EQUALS KEYWORD. THE CELL THICKNESSES ( DZ ) AND
-- PERMEABILITES ARE THEN SET FOR EACH LAYER. THE CELL TOP DEPTHS
-- ( TOPS ) ARE NEEDED ONLY IN THE TOP LAYER ( THOUGH THEY COULD BE.
-- SET THROUGHOUT THE GRID ). THE SPECIFIED MULTZ VALUES ACT AS
-- MULTIPLIERS ON THE TRANSMISSIBILITIES BETWEEN THE CURRENT LAYER
-- AND THE LAYER BELOW.
GRID
INIT
-- ARRAY VALUE ------- BOX ------
-- EQUALS
-- 'DX' 293.3 /
-- 'DY' 293.3 /
-- 'PORO' 0.13 /
-- DZ Depth Nxmin Nxmax Nymin Nymax DZmin DZmax
-- 'DZ' 30 1 9 1 9 1 2 /
-- 'DZ' 50 1 9 1 9 3 4 /
-- 'PERMX' 130 1 9 1 9 1 1 /
-- 'PERMX' 40 1 9 1 9 2 2 /
-- 'PERMX' 20 1 9 1 9 3 3 /
-- 'PERMX' 150 1 9 1 9 4 4 /
-- 'PERMZ' 13 1 9 1 9 1 1 /
-- 'PERMZ' 4 1 9 1 9 2 2 /
-- 'PERMZ' 2 1 9 1 9 3 3 /
-- 'PERMZ' 15 1 9 1 9 4 4 /
-- 'TOPS' 7315 1 9 1 9 1 1 /
-- /
-- COPY
-- 'PERMX' 'PERMY' /
-- /
INCLUDE
'./SPE3.GRDECL'
/
PORO
324*0.13
/
PERMX
81*130.0
81*40.0
81*20.0
81*150.0
/
PERMY
81*130.0
81*40.0
81*20.0
81*150.0
/
PERMZ
81*13.0
81*4.0
81*2.0
81*15.0
/
-- OUTPUT OF DX, DY, DZ, PERMX, PERMY, PERMZ, MULTZ, PORO AND TOPS DATA
-- IS REQUESTED, AND OF THE CALCULATED PORE VOLUMES AND X, Y AND Z
-- TRANSMISSIBILITIES
--RPTGRID
--1 1 1 1 1 1 0 0 1 1 0 1 1 0 1 1 1 /
-------- THE PROPS SECTION DEFINES THE REL. PERMEABILITIES, CAPILLARY
-------- PRESSURES, AND THE PVT PROPERTIES OF THE RESERVOIR FLUIDS
----------------------------------------------------------------------
-- WATER RELATIVE PERMEABILITY AND CAPILLARY PRESSURE ARE TABULATED AS
-- A FUNCTION OF WATER SATURATION.
--
PROPS
--water saturation function
--Sw Kro Krow Pcg-w
SWOF
0.16 0.000 0.800 50.0
0.20 0.002 0.650 32.0
0.24 0.010 0.513 21.0
0.28 0.020 0.400 15.5
0.32 0.033 0.315 12.0
0.36 0.049 0.250 9.2
0.40 0.066 0.196 7.0
0.44 0.090 0.150 5.3
0.48 0.119 0.112 4.2
0.52 0.150 0.082 3.4
0.56 0.186 0.060 2.7
0.60 0.227 0.040 2.1
0.68 0.330 0.012 1.3
0.72 0.390 0.005 1.0
0.76 0.462 0.000 0.7
0.80 0.540 0.000 0.5
0.88 0.710 0.000 0.3
0.96 0.900 0.000 0.1
1.00 1.000 0 0.0 /
--Gas Saturation Function Data
--Sg Krg krog Pcog
SGOF
0.00 0.000 0.800 0
0.04 0.005 0.800 0
0.08 0.013 0.800 0
0.12 0.026 0.800 0
0.16 0.040 0.800 0
0.20 0.058 0.650 0
0.24 0.078 0.513 0
0.28 0.100 0.400 0
0.32 0.126 0.315 0
0.40 0.187 0.196 0
0.44 0.222 0.150 0
0.52 0.300 0.082 0
0.56 0.348 0.060 0
0.60 0.400 0.040 0
0.68 0.505 0.012 0
0.72 0.562 0.005 0
0.76 0.620 0.000 0
0.84 0.740 0.000 0 /
-- PVT PROPERTIES OF WATER
--
-- REF. PRES. REF. FVF COMPRESSIBILITY REF VISCOSITY VISCOSIBILITY
PVTW
3550 1.0 3.0E-6 0.70 0 /
-- ROCK COMPRESSIBILITY
--
-- REF. PRES COMPRESSIBILITY
ROCK
3550 4.0E-6 /
-- SURFACE DENSITIES OF RESERVOIR FLUIDS
--
-- OIL WATER GAS
DENSITY
48.8308 62.4280 0.0725 /
-- PVT PROPERTIES OF DRY GAS (NO VAPOURISED OIL)
-- WE WOULD USE PVTG TO SPECIFY THE PROPERTIES OF WET GAS
--
-- 'Pressure' 'Oil FVF' 'Oil Visc'
PVDO
1214.7000 1.0632 0.3668
1814.7000 1.0518 0.4241
2414.7000 1.0418 0.5018
3014.7000 1.0332 0.6068
3214.7000 1.0308 0.6461
3364.7000 1.0291 0.6753
3414.7000 1.0285 0.6852
3443.8831 1.0282 0.6912
/
--PVTi--End of PVTi generated section--
-- Wet Gas PVT Properties (Vapourised Oil)
-- Column Properties are:
-- 'Gas Pressure' 'Gas OGR' 'Gas FVF' 'Gas Visc'
-- Units: psia stb /Mscf rb /Mscf cp
PVTG
1214.7000 0.0013130 2.2799 0.0149
0 2.2815 0.01488/
1814.7000 0.00353 1.4401 0.01791
0.001313 1.4429 0.01782
0 1.4445 0.01735 /
2414.7000 0.01102 1.0438 0.02328
0.00353 1.0495 0.02267
0.001313 1.0512 0.0225
0 1.0522 0.02240 /
3014.7000 0.0331 0.8456 0.0318
0.01102 0.8489 0.02924
0.00353 0.8500 0.02844
0.001313 0.8503 0.02820
0 0.8505 0.02807 /
3214.7000 0.0454 0.8082 0.03539
0.0331 0.8080 0.03371
0.01102 0.8075 0.03113
0.00353 0.8073 0.03029
0.001313 0.8073 0.03004
0 0.8073 0.02989 /
3364.7000 0.05670 0.7875 0.0384
0.04540 0.7860 0.03667
0.03310 0.7843 0.03515
0.01102 0.7814 0.03429
0.00353 0.7804 0.03162
0.001313 0.7801 0.03136
0 0.7799 0.03121 /
3416.7575 0.0612 0.7816 0.03955
0.0567 0.7809 0.0386
0.0454 0.7789 0.03717
0.0331 0.7768 0.03564
0.01102 0.7731 0.03296
0.00353 0.7718 0.03207
0.001313 0.7714 0.03181
0 0.7712 0.03166 /
3449.3322 0.0642 0.7783 0.0403
0.0612 0.7777 0.0395
0.0567 0.7769 0.03892
0.0454 0.7747 0.03748
0.0331 0.7723 0.03594
0.01102 0.7681 0.03325
0.00353 0.7666 0.03236
0.001313 0.7662 0.0321
0 0.7660 0.03194 /
/
-- OUTPUT CONTROLS FOR PROPS DATA
-- ACTIVATED FOR SOF3, SWFN, SGFN, PVTW, PVDG, DENSITY AND ROCK KEYWORDS
--RPTPROPS
--1 1 1 0 1 1 1 1 /
SOLUTION ===============================================================
-------- THE SOLUTION SECTION DEFINES THE INITIAL STATE OF THE SOLUTION
-------- VARIABLES (PHASE PRESSURES, SATURATIONS AND GAS-OIL RATIOS)
------------------------------------------------------------------------
RPTRST
BASIC=2 /
RPTSOL
FIP=3 /
PRESSURE
81*3524.8
81*3529.2
81*3535.1
81*3542.6
/
SWAT
81*0.1644
81*0.1825
81*0.2135
81*0.3025
/
SGAS
81*0.8356
81*0.8175
81*0.7865
81*0.6975
/
RV
81*0.0711
81*0.0716
81*0.0721
81*0.0728
/
-- DATA FOR INITIALISING FLUIDS TO POTENTIAL EQUILIBRIUM
--
-- DATUM DATUM CONTACT CONT GWC GOC
-- DEPTH PRESS DEPTH PC DEPTH PCOG
--EQUIL
-- 7500 3550 7500 0 7500 0 0 0 0 /
-- OUTPUT CONTROLS (SWITCH ON OUTPUT OF INITIAL GRID BLOCK PRESSURES)
--RPTSOL
--1 11*0 /
-- SUMMARY SECTION FILES ===============================================
-------- THIS SECTION SPECIFIES DATA TO BE WRITTEN TO THE SUMMARY FILES
-------- AND WHICH MAY LATER BE USED WITH THE ECLIPSE GRAPHICS PACKAGE
------------------------------------------------------------------------
--REQUEST PRINTED OUTPUT OF SUMMARY FILE DATA
SUMMARY
RUNSUM
EXCEL
SEPARATE
FWIR
FOPR
FOPT
FWPT
FGOR
FPR
FOE
FWPR
FWIT
FGIR
FGPR
FGSAT
WBHP
/
WOPR
/
WGPR
/
WWPR
/
WGOR
/
--producer block data
BSOIL
7 7 4 /
/
BSOIL
7 7 3 /
/
BSOIL
7 7 2 /
/
BSOIL
7 7 1 /
/
--BPRES
--7 7 4 /
--/
--SCHEDULE ===============================================================
-------- THE SCHEDULE SECTION DEFINES THE OPERATIONS TO BE SIMULATED
------------------------------------------------------------------------
-- CONTROLS ON OUTPUT AT EACH REPORT TIME
SCHEDULE
RPTSCHED
1 0 1 1 0 0 4 2 2 0 0 2 0 0 0
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 1 0 0 0 0 0 0/
--
-- STEPS TO 1400 DAYS
--
DRSDT
0 /
WELSPECS
'INJECTOR' 'G' 1 1 7500 'GAS' /
'PRODUCER' 'G' 7 7 7500 'GAS' /
/
COMPDAT
'INJECTOR' 1 1 1 2 'OPEN' 0 -1 0.5 /
'PRODUCER' 7 7 3 4 'OPEN' 0 -1 0.5 /
/
-- PRODUCTION WELL CONTROLS
--
-- WELL OPEN/ CNTL OIL WATER GAS LIQU RES BHP
-- NAME SHUT MODE RATE RATE RATE RATE RATE
WCONINJE
'INJECTOR' 'GAS' 'OPEN' 'RATE' 4700 1* 4000 1* 1* /
/
WCONPROD
'PRODUCER' 'OPEN' 'GRAT' 2* 6200 2* 1050 /
/
--first 3 months----------------------------------------------
TUNING
1.00 365.00 0.1 0.15 20 /
120.0 0.01 1.0E-6 2* 0.1 1.0E-5 /
/
--TSTEP
--1.0 20.0 70.25
--/
--second 3 months--------------------------------------------------
TUNING
1.00 365.00 0.1 0.15 20 /
120.0 0.01 1.0E-6 2* 0.1 1.0E-5 /
12 1 40 1 1* 1* /
--TSTEP
-- 91.25
--/
--Third 3 months------------------------------------------------------
--TSTEP
--91.25
--/
--FORTH 3 MONTHES-----------------------------------------------------
--TSTEP
--91.25
--/
-------------------------------------------------------
--TSTEP
-- 9*365
--/
-------------------------------------------------------
WCONINJE
'INJECTOR' 'GAS' 'OPEN' 'RATE' 0 1* 4000 1* 1* /
/
TSTEP
10*730
/
END

447
spe3/SPE3_MODIFIED.DATA
View File

@ -1,447 +0,0 @@
-- SLIGHTLY EDITED SPE3-CASE. MINUMUM BHP FOR PRODUCER INCREASED TO PREVENT
-- NEGATIVE REGATIVE RV
--
RUNSPEC
TITLE
GAS CONDENSATE TEST
DIMENS
9 9 4 /
NONNC
OIL
WATER
GAS
VAPOIL
FIELD
EQLDIMS
1 100 10 1 1 /
TABDIMS
1 1 25 25 1 15 /
WELLDIMS
18 2 2 10 /
NUPCOL
4 /
VFPPDIMS
7 3 4 2 0 1 /
VFPIDIMS
6 3 1 /
START
1 'NOV' 2004 /
NSTACK
25 /
UNIFOUT
UNIFIN
--FMTOUT
--FMTIN
--Grid Properties ======================================================
-------- IN THIS SECTION , THE GEOMETRY OF THE SIMULATION GRID AND THE
-------- ROCK PERMEABILITIES AND POROSITIES ARE DEFINED.
------------------------------------------------------------------------
-- THE X AND Y DIRECTION CELL SIZES ( DX, DY ) AND THE POROSITIES ARE
-- CONSTANT THROUGHOUT THE GRID. THESE ARE SET IN THE FIRST 3 LINES
-- AFTER THE EQUALS KEYWORD. THE CELL THICKNESSES ( DZ ) AND
-- PERMEABILITES ARE THEN SET FOR EACH LAYER. THE CELL TOP DEPTHS
-- ( TOPS ) ARE NEEDED ONLY IN THE TOP LAYER ( THOUGH THEY COULD BE.
-- SET THROUGHOUT THE GRID ). THE SPECIFIED MULTZ VALUES ACT AS
-- MULTIPLIERS ON THE TRANSMISSIBILITIES BETWEEN THE CURRENT LAYER
-- AND THE LAYER BELOW.
GRID
INIT
-- ARRAY VALUE ------- BOX ------
-- EQUALS
-- 'DX' 293.3 /
-- 'DY' 293.3 /
-- 'PORO' 0.13 /
-- DZ Depth Nxmin Nxmax Nymin Nymax DZmin DZmax
-- 'DZ' 30 1 9 1 9 1 2 /
-- 'DZ' 50 1 9 1 9 3 4 /
-- 'PERMX' 130 1 9 1 9 1 1 /
-- 'PERMX' 40 1 9 1 9 2 2 /
-- 'PERMX' 20 1 9 1 9 3 3 /
-- 'PERMX' 150 1 9 1 9 4 4 /
-- 'PERMZ' 13 1 9 1 9 1 1 /
-- 'PERMZ' 4 1 9 1 9 2 2 /
-- 'PERMZ' 2 1 9 1 9 3 3 /
-- 'PERMZ' 15 1 9 1 9 4 4 /
-- 'TOPS' 7315 1 9 1 9 1 1 /
-- /
-- COPY
-- 'PERMX' 'PERMY' /
-- /
INCLUDE
'./SPE3.GRDECL'
/
PORO
324*0.13
/
PERMX
81*130.0
81*40.0
81*20.0
81*150.0
/
PERMY
81*130.0
81*40.0
81*20.0
81*150.0
/
PERMZ
81*13.0
81*4.0
81*2.0
81*15.0
/
-- OUTPUT OF DX, DY, DZ, PERMX, PERMY, PERMZ, MULTZ, PORO AND TOPS DATA
-- IS REQUESTED, AND OF THE CALCULATED PORE VOLUMES AND X, Y AND Z
-- TRANSMISSIBILITIES
--RPTGRID
--1 1 1 1 1 1 0 0 1 1 0 1 1 0 1 1 1 /
-------- THE PROPS SECTION DEFINES THE REL. PERMEABILITIES, CAPILLARY
-------- PRESSURES, AND THE PVT PROPERTIES OF THE RESERVOIR FLUIDS
----------------------------------------------------------------------
-- WATER RELATIVE PERMEABILITY AND CAPILLARY PRESSURE ARE TABULATED AS
-- A FUNCTION OF WATER SATURATION.
--
PROPS
--water saturation function
--Sw Kro Krow Pcg-w
SWOF
0.16 0.000 0.800 50.0
0.20 0.002 0.650 32.0
0.24 0.010 0.513 21.0
0.28 0.020 0.400 15.5
0.32 0.033 0.315 12.0
0.36 0.049 0.250 9.2
0.40 0.066 0.196 7.0
0.44 0.090 0.150 5.3
0.48 0.119 0.112 4.2
0.52 0.150 0.082 3.4
0.56 0.186 0.060 2.7
0.60 0.227 0.040 2.1
0.68 0.330 0.012 1.3
0.72 0.390 0.005 1.0
0.76 0.462 0.000 0.7
0.80 0.540 0.000 0.5
0.88 0.710 0.000 0.3
0.96 0.900 0.000 0.1
1.00 1.000 0 0.0 /
--Gas Saturation Function Data
--Sg Krg krog Pcog
SGOF
0.00 0.000 0.800 0
0.04 0.005 0.800 0
0.08 0.013 0.800 0
0.12 0.026 0.800 0
0.16 0.040 0.800 0
0.20 0.058 0.650 0
0.24 0.078 0.513 0
0.28 0.100 0.400 0
0.32 0.126 0.315 0
0.40 0.187 0.196 0
0.44 0.222 0.150 0
0.52 0.300 0.082 0
0.56 0.348 0.060 0
0.60 0.400 0.040 0
0.68 0.505 0.012 0
0.72 0.562 0.005 0
0.76 0.620 0.000 0
0.84 0.740 0.000 0 /
-- PVT PROPERTIES OF WATER
--
-- REF. PRES. REF. FVF COMPRESSIBILITY REF VISCOSITY VISCOSIBILITY
PVTW
3550 1.0 3.0E-6 0.70 0 /
-- ROCK COMPRESSIBILITY
--
-- REF. PRES COMPRESSIBILITY
ROCK
3550 4.0E-6 /
-- SURFACE DENSITIES OF RESERVOIR FLUIDS
--
-- OIL WATER GAS
DENSITY
48.8308 62.4280 0.0725 /
-- PVT PROPERTIES OF DRY GAS (NO VAPOURISED OIL)
-- WE WOULD USE PVTG TO SPECIFY THE PROPERTIES OF WET GAS
--
-- 'Pressure' 'Oil FVF' 'Oil Visc'
PVDO
1214.7000 1.0632 0.3668
1814.7000 1.0518 0.4241
2414.7000 1.0418 0.5018
3014.7000 1.0332 0.6068
3214.7000 1.0308 0.6461
3364.7000 1.0291 0.6753
3414.7000 1.0285 0.6852
3443.8831 1.0282 0.6912
/
--PVTi--End of PVTi generated section--
-- Wet Gas PVT Properties (Vapourised Oil)
-- Column Properties are:
-- 'Gas Pressure' 'Gas OGR' 'Gas FVF' 'Gas Visc'
-- Units: psia stb /Mscf rb /Mscf cp
PVTG
1214.7000 0.0013130 2.2799 0.0149
0 2.2815 0.01488/
1814.7000 0.00353 1.4401 0.01791
0.001313 1.4429 0.01782
0 1.4445 0.01735 /
2414.7000 0.01102 1.0438 0.02328
0.00353 1.0495 0.02267
0.001313 1.0512 0.0225
0 1.0522 0.02240 /
3014.7000 0.0331 0.8456 0.0318
0.01102 0.8489 0.02924
0.00353 0.8500 0.02844
0.001313 0.8503 0.02820
0 0.8505 0.02807 /
3214.7000 0.0454 0.8082 0.03539
0.0331 0.8080 0.03371
0.01102 0.8075 0.03113
0.00353 0.8073 0.03029
0.001313 0.8073 0.03004
0 0.8073 0.02989 /
3364.7000 0.05670 0.7875 0.0384
0.04540 0.7860 0.03667
0.03310 0.7843 0.03515
0.01102 0.7814 0.03429
0.00353 0.7804 0.03162
0.001313 0.7801 0.03136
0 0.7799 0.03121 /
3416.7575 0.0612 0.7816 0.03955
0.0567 0.7809 0.0386
0.0454 0.7789 0.03717
0.0331 0.7768 0.03564
0.01102 0.7731 0.03296
0.00353 0.7718 0.03207
0.001313 0.7714 0.03181
0 0.7712 0.03166 /
3449.3322 0.0642 0.7783 0.0403
0.0612 0.7777 0.0395
0.0567 0.7769 0.03892
0.0454 0.7747 0.03748
0.0331 0.7723 0.03594
0.01102 0.7681 0.03325
0.00353 0.7666 0.03236
0.001313 0.7662 0.0321
0 0.7660 0.03194 /
/
-- OUTPUT CONTROLS FOR PROPS DATA
-- ACTIVATED FOR SOF3, SWFN, SGFN, PVTW, PVDG, DENSITY AND ROCK KEYWORDS
--RPTPROPS
--1 1 1 0 1 1 1 1 /
SOLUTION ===============================================================
-------- THE SOLUTION SECTION DEFINES THE INITIAL STATE OF THE SOLUTION
-------- VARIABLES (PHASE PRESSURES, SATURATIONS AND GAS-OIL RATIOS)
------------------------------------------------------------------------
RPTRST
BASIC=2 /
RPTSOL
FIP=3 /
PRESSURE
81*3524.8
81*3529.2
81*3535.1
81*3542.6
/
SWAT
81*0.1644
81*0.1825
81*0.2135
81*0.3025
/
SGAS
81*0.8356
81*0.8175
81*0.7865
81*0.6975
/
RV
81*0.0711
81*0.0716
81*0.0721
81*0.0728
/
-- DATA FOR INITIALISING FLUIDS TO POTENTIAL EQUILIBRIUM
--
-- DATUM DATUM CONTACT CONT GWC GOC
-- DEPTH PRESS DEPTH PC DEPTH PCOG
--EQUIL
-- 7500 3550 7500 0 7500 0 0 0 0 /
-- OUTPUT CONTROLS (SWITCH ON OUTPUT OF INITIAL GRID BLOCK PRESSURES)
--RPTSOL
--1 11*0 /
-- SUMMARY SECTION FILES ===============================================
-------- THIS SECTION SPECIFIES DATA TO BE WRITTEN TO THE SUMMARY FILES
-------- AND WHICH MAY LATER BE USED WITH THE ECLIPSE GRAPHICS PACKAGE
------------------------------------------------------------------------
--REQUEST PRINTED OUTPUT OF SUMMARY FILE DATA
SUMMARY
RUNSUM
EXCEL
SEPARATE
FWIR
FOPR
FOPT
FWPT
FGOR
FPR
FOE
FWPR
FWIT
FGIR
FGPR
FGSAT
WBHP
/
WOPR
/
WGPR
/
WWPR
/
WGOR
/
--producer block data
BSOIL
7 7 4 /
/
BSOIL
7 7 3 /
/
BSOIL
7 7 2 /
/
BSOIL
7 7 1 /
/
--BPRES
--7 7 4 /
--/
--SCHEDULE ===============================================================
-------- THE SCHEDULE SECTION DEFINES THE OPERATIONS TO BE SIMULATED
------------------------------------------------------------------------
-- CONTROLS ON OUTPUT AT EACH REPORT TIME
SCHEDULE
RPTSCHED
1 0 1 1 0 0 4 2 2 0 0 2 0 0 0
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 1 0 0 0 0 0 0/
--
-- STEPS TO 1400 DAYS
--
DRSDT
0 /
WELSPECS
'INJECTOR' 'G' 1 1 7500 'GAS' /
'PRODUCER' 'G' 7 7 7500 'GAS' /
/
COMPDAT
'INJECTOR' 1 1 1 2 'OPEN' 0 -1 0.5 /
'PRODUCER' 7 7 3 4 'OPEN' 0 -1 0.5 /
/
-- PRODUCTION WELL CONTROLS
--
-- WELL OPEN/ CNTL OIL WATER GAS LIQU RES BHP
-- NAME SHUT MODE RATE RATE RATE RATE RATE
WCONINJE
'INJECTOR' 'GAS' 'OPEN' 'RATE' 4700 1* 4000 1* 1* /
/
WCONPROD
'PRODUCER' 'OPEN' 'GRAT' 2* 6200 2* 1050 /
/
--first 3 months----------------------------------------------
TUNING
1.00 365.00 0.1 0.15 20 /
120.0 0.01 1.0E-6 2* 0.1 1.0E-5 /
/
TSTEP
1.0 20.0 70.25
/
--second 3 months--------------------------------------------------
TUNING
1.00 365.00 0.1 0.15 20 /
120.0 0.01 1.0E-6 2* 0.1 1.0E-5 /
12 1 40 1 1* 1* /
TSTEP
91.25
/
--Third 3 months------------------------------------------------------
TSTEP
91.25
/
--FORTH 3 MONTHES-----------------------------------------------------
TSTEP
91.25
/
-------------------------------------------------------
TSTEP
9*365
/
-------------------------------------------------------
WCONINJE
'INJECTOR' 'GAS' 'OPEN' 'RATE' 0 1* 4000 1* 1* /
/
TSTEP
10*365
/
END

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This file SPE9.DATA represents the dataset from the ninth SPE comparative simulation project [Killough, JE: Ninth SPE comparative solution project: a reexamination of black-oil simulation, 1995].

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-- This reservoir simulation deck is made available under the Open Database
-- License: http://opendatacommons.org/licenses/odbl/1.0/. Any rights in
-- individual contents of the database are licensed under the Database Contents
-- License: http://opendatacommons.org/licenses/dbcl/1.0/
-- Copyright (C) 2015 Statoil
-- This simulation is based on the data given in
-- 'Ninth SPE Comparative Solution Project:
-- A Reexamination of Black-Oil Simulation',
-- by J.E. Killough,
-- Journal of Petroleum Technology, 1995
-- A dataset from one of the participants was supplied to the
-- participants of SPE 9. Some of the information in this
-- dataset has been used here as well.
-- The origin of information or data used in this simulation is
-- specified in comments. This does not include data whose origin
-- should be obvious to the reader.
-- NOTE: Changes should be made to the data entered in keywords PVTW and ROCK
-- See comments under these keywords
----------------------------------------------------------------
------------------------- SPE 9 --------------------------------
----------------------------------------------------------------
RUNSPEC
TITLE
SPE 9
DIMENS
24 25 15 /
OIL
WATER
GAS
DISGAS
-- From figure 7 in Killough's paper it is evident
-- that GOR is increasing with time, meaning
-- that there must be dissolved gas present
FIELD
START
1 'JAN' 2015 /
WELLDIMS
-- Item 1: maximum number of wells in the model
-- - there are 26 wells in SPE9; 1 injector and 25 producers
-- Item 2: maximum number of grid blocks connected to any one well
-- - the injector is completed in 5 layers
-- Item 3: maximum number of groups in the model
-- - only one group in model
-- Item 4: maximum number of wells in any one group
-- - this can definitetly not be more than 26
26 5 1 26 /
TABDIMS
-- The number of rows in SWOF exceeds the default maximum,
-- so item 3 in this keyword must be changed:
1* 1* 40 /
EQLDIMS
/
--NSTACK
-- 25 /
-- Eclipse suggested increasing NSTACK
UNIFOUT
GRID
-- Killough says 'the grid was in conventional rectangular
-- coordinates without corner point geometry or local grid refinements'
NOECHO
DX
-- There are in total 9000 cells with length 300ft in x-direction
9000*300 /
DY
-- There are in total 9000 cells with length 300ft in y-direction
9000*300 /
DZ
-- The thicknesses of the layers are given in table 1 in Killough's paper
-- In each layer there are 600 cells
600*20
600*15
600*26
600*15
600*16
600*14
600*8
600*8
600*18
600*12
600*19
600*18
600*20
600*50
600*100 /
-- TOPS
INCLUDE
TOPSVALUES.DATA /
PORO
-- Porosity in each level is contant
-- The values are specified in table 1 in Killough's paper
600*0.087
600*0.097
600*0.111
600*0.16
600*0.13
600*0.17
600*0.17
600*0.08
600*0.14
600*0.13
600*0.12
600*0.105
600*0.12
600*0.116
600*0.157 /
-- PERMX, PERMY & PERMZ
INCLUDE
PERMVALUES.DATA /
ECHO
PROPS
PVTW
-- Item 1: pressure reference (psia)
-- Item 2: water FVF (rb per bbl or rb per stb)
-- Item 3: water compressibility (psi^{-1})
-- Item 4: water viscosity (cp)
-- Item 5: water 'viscosibility' (psi^{-1})
-- Item 1 and 2 are stated in Killough, and item 5 is assumed = zero
-- Item 3 and 4 are taken from SPE2
3600 1.0034 3e-6 0.96 0 /
--NOTE:
-- a) It is not explicitly stated in Killough that it is okay to use SPE2-values here.
-- b) I am not 100% sure if the given compressibility value is at ref. pres. 3600psia.
-- c) Item 3 and 4 can probably be explained on the basis of Killough's dataset. In
-- order to do that I need info about keywords in VIP
ROCK
-- Item 1: reference pressure (psia)
-- Item 2: rock compressibility (psi^{-1})
-- Using values from SPE2:
3600 4e-6 /
-- NOTE:
-- a) It is not explicitly stated in Killough that it is okay to use SPE2-values here.
-- a) I am not 100% sure if the given compressibility value is at 3600psia.
-- b) 'Comp. Methods for Multiphase Flow in Porous Media' states
-- that rock compr. is 1e-6 inverse psi. This is probably correct, as
-- I think this is based on Killough's dataset - to be sure, I need
-- more info about keywords in VIP.
DENSITY
-- Density (lb per ft³) at surface cond. of
-- oil, water and gas, respectively (in that order)
-- The values for oil and water are given by Killough to
-- be 0.7206 and 1.0095 gm per cc, or equivalently
-- 44.9856 and 63.0210 lb per ft³
-- A gas density of 0.07039 lb per ft³ was calculated using formula at
-- petrowiki.org/Calculating_gas_properties:
-- (28.967*Specific gravity*pressure)/(Z-factor*gas constant*temperature)
-- with the values given in Killough's table 2 at 14.7 psia (1 atm).
-- A temperature of 15C=59F was also used in the above formula.
44.9856 63.0210 0.07039 /
PVTO
-- Column 1: dissolved gas-oil ratio (Mscf per stb)
-- Column 2: bubble point pressure for oil (psia)
-- Column 3: oil FVF for saturated oil (rb per stb)
-- Column 4: oil viscosity for saturated oil (cP)
-- Using values from table 2 in Killough's paper:
0 14.7 1 1.20 /
0.165 400 1.0120 1.17 /
0.335 800 1.0255 1.14 /
0.500 1200 1.0380 1.11 /
0.665 1600 1.0510 1.08 /
0.828 2000 1.0630 1.06 /
0.985 2400 1.0750 1.03 /
1.130 2800 1.0870 1.00 /
1.270 3200 1.0985 0.98 /
1.390 3600 1.1100 0.95 /
1.500 4000 1.1200 0.94
5000 1.1189 0.94 /
/
-- Comment in regards to the last row in PVTO:
-- Killough says that 'at 1000psi above the saturation
-- pressure the Bo is 0.999 times that of the Bo at Psat'
-- which means that the FVF (i.e. Bo) at 5000psia is 0.999*0.1200=1.1189
-- Killough also says that 'the oil viscosity does not
-- increase with increasing pressure in undersaturated conditions'
-- which explains why the oil viscosity is 0.94.
PVDG
-- Column 1: gas phase pressure (psia)
-- Column 2: gas formation volume factor (rb per Mscf)
-- - This is calculated using formula:
-- Bg=5.03676*Z*temperature(R)/pressure(psia) rb/Mscf
-- where a constant temperature=100F=559.67R has been used because
-- that is the initial reservoir temperature according to Killough's paper
-- The above formula is retrieved from
-- petrowiki.org/Gas_formation_volume_factor_and_density
-- Column 3: gas viscosity (cP)
-- Using values from table 2 in Killough's paper:
14.7 191.7443 0.0125
400 5.8979 0.0130
800 2.9493 0.0135
1200 1.9594 0.0140
1600 1.4695 0.0145
2000 1.1797 0.0150
2400 0.9796 0.0155
2800 0.8397 0.0160
3200 0.7398 0.0165
3600 0.6498 0.0170
4000 0.5849 0.0175 /
SGOF
-- Column 1: gas saturation
-- Column 2: gas relative permeability
-- Column 3: oil relative permeability when oil, gas and connate water are present
-- Column 4: corresponding oil-gas capillary pressure (psi)
-- Using values from table 3 in Killough's paper:
0 0 1 0
0.04 0 0.6 0.2
0.1 0.022 0.33 0.5
0.2 0.1 0.1 1.0
0.3 0.24 0.02 1.5
0.4 0.34 0 2.0
0.5 0.42 0 2.5
0.6 0.5 0 3.0
0.7 0.8125 0 3.5
0.84891 0.9635 0 3.82 /
--0.88491 1 0 3.9 /
-- Comment in regards to the last row in SGOF:
-- Changes have been made so that the last row
-- is at a gas sat. of Sg=1-Swc=1-0.151090=0.84891
-- The Krg and Pcog values corresponding to Sg=0.84891
-- have been approximated by assuming linear relation between
-- Krg/Pcog and Sg in the range Sg=0.7 to Sg=0.88491
SWOF
-- Column 1: water saturation
-- Column 2: water relative permeability
-- Column 3: oil relative permeability when only oil and water are present
-- Column 4: corresponding water-oil capillary pressure (psi)
-- These values are taken from Killough's dataset:
0.151090 0.0 1.0 400.0
0.151230 0.0 0.99997 359.190
0.151740 0.0 0.99993 257.920
0.152460 0.0 0.99991 186.310
0.156470 0.0 0.999510 79.060
0.165850 0.0 0.996290 40.010
0.178350 0.0 0.991590 27.930
0.203350 0.000010 0.978830 20.400
0.253350 0.000030 0.943730 15.550
0.350000 0.000280 0.830230 11.655
0.352000 0.002292 0.804277 8.720
0.354000 0.004304 0.778326 5.947
0.356000 0.006316 0.752374 3.317
0.358000 0.008328 0.726422 1.165
0.360000 0.010340 0.700470 0.463
0.364395 0.015548 0.642258 -0.499
0.368790 0.020756 0.584046 -1.139
0.370000 0.022190 0.568020 -1.194
0.380000 0.035890 0.434980 -1.547
0.400000 0.069530 0.171430 -1.604
0.433450 0.087900 0.125310 -1.710
0.461390 0.104910 0.094980 -1.780
0.489320 0.123290 0.070530 -1.860
0.517250 0.143030 0.051130 -1.930
0.573120 0.186590 0.024640 -2.070
0.601060 0.210380 0.016190 -2.130
0.656930 0.261900 0.005940 -2.260
0.712800 0.318650 0.001590 -2.380
0.811110 0.430920 0.000020 -2.600
0.881490 0.490000 0.000000 -2.750 /
-- These values are approximated by reading off the graphs
-- in figure 1 and 2 in Killough's paper:
-- $$$ 0.18 0 1 21
-- $$$ 0.25 0 0.95 16
-- $$$ 0.34 0.07 0.5 12
-- $$$ 0.345 0.08 0.4 9
-- $$$ 0.35 0.09 0.3 6
-- $$$ 0.355 0.095 0.2 0
-- $$$ 0.36 0.1 0.19 -2
-- $$$ 0.75 0.32 0.02 -2.5
-- $$$ 0.88149 0.5 0 -3 /
SOLUTION
EQUIL
-- Item 1: datum depth (ft)
-- Item 2: pressure at datum depth (psia)
-- - Killough says initial oil phase pressure is
-- - 3600psia at depth 9035ft
-- Item 3: depth of water-oil contact (ft)
-- - Given to be 9950 ft in Killough's paper
-- Item 4: oil-water capillary pressure at the water oil contact (psi)
-- - Given to be 0 in Killough's dataset
-- - 0 in SPE2
-- Item 5: depth of gas-oil contact (ft)
-- - 8800ft in Killough's dataset
-- Item 6: gas-oil capillary pressure at gas-oil contact (psi)
-- - Given to be 0 in Killough's dataset
-- - 0 in SPE2
-- Item 7: RSVD-table
-- Item 8: RVVD-table
-- Item 9: OPM only supports item 9 equal to zero.
-- #: 1 2 3 4 5 6 7 8 9
9035 3600 9950 0 8800 0 1 0 0 /
RSVD
-- The initial oil phase pressure is given to be 3600psia, at
-- which the GOR is 1.39 Mscf per stb according to Killough's table 2.
-- Since there is no free gas initially present*, the oil
-- phase (with dissolved gas) must initially have a constant GOR as
-- a function of depth through the reservoir (at the given pressure)
8800 1.39
9950 1.39 /
-- *)
-- This is explicitly stated in Killough's paper.
-- Note that the initial oil phase pressure is the same as
-- the saturation (bubble point) pressure of the oil.
-- This should also imply that there is no free gas initially present.
-- Since there is no free gas initially present, the gas-oil
-- contact should lie above the reservoir, which it does (EQUIL, item 5)
SUMMARY
-- Killough's figure 7:
FGOR
-- Killough's figure 8:
FOPR
-- Killough's figure 9:
FGPR
-- Killough's figure 10:
FWPR
-- Killough's figure 11:
BPR
1 1 1 /
/
-- Killough's figure 12:
BGSAT
1 13 1 /
/
-- Killough's figure 13:
BWSAT
10 25 15 /
/
-- Killough's figure 14:
--WWIR
-- 'INJE1' /
-- Killough's figure 15:
--WOPR
-- 'PRODU21' /
-- In order to compare Eclipse with Flow:
WBHP
/
WGIR
/
--WGIT
--/
WGPR
/
--WGPT
--/
WOIR
/
--WOIT
--/
WOPR
/
--WOPT
--/
WWIR
/
--WWIT
--/
WWPR
/
--WWPT
--/
SCHEDULE
RPTRST
'BASIC=4' /
WELSPECS
-- Column 3: I-value of well head or heel
-- Column 4: J-value of well head or heel
-- - these coordinates are listed in Killough's dataset
-- Column 5: ref. depth of BHP (ft)
-- - stated to be 9110ft in Killough
-- Column 6: preferred phase for well
-- - should be water for injector and oil for producers
-- Column 7: drainage radius for calc. of productivity or
-- injectivity indices (ft)
-- - stated to be 60ft in Killough
-- #: 1 2 3 4 5 6 7
'INJE1' 'G' 24 25 9110 'WATER' 60 /
'PRODU2' 'G' 5 1 9110 'OIL' 60 /
'PRODU3' 'G' 8 2 9110 'OIL' 60 /
'PRODU4' 'G' 11 3 9110 'OIL' 60 /
'PRODU5' 'G' 10 4 9110 'OIL' 60 /
'PRODU6' 'G' 12 5 9110 'OIL' 60 /
'PRODU7' 'G' 4 6 9110 'OIL' 60 /
'PRODU8' 'G' 8 7 9110 'OIL' 60 /
'PRODU9' 'G' 14 8 9110 'OIL' 60 /
'PRODU10' 'G' 11 9 9110 'OIL' 60 /
'PRODU11' 'G' 12 10 9110 'OIL' 60 /
'PRODU12' 'G' 10 11 9110 'OIL' 60 /
'PRODU13' 'G' 5 12 9110 'OIL' 60 /
'PRODU14' 'G' 8 13 9110 'OIL' 60 /
'PRODU15' 'G' 11 14 9110 'OIL' 60 /
'PRODU16' 'G' 13 15 9110 'OIL' 60 /
'PRODU17' 'G' 15 16 9110 'OIL' 60 /
'PRODU18' 'G' 11 17 9110 'OIL' 60 /
'PRODU19' 'G' 12 18 9110 'OIL' 60 /
'PRODU20' 'G' 5 19 9110 'OIL' 60 /
'PRODU21' 'G' 8 20 9110 'OIL' 60 /
'PRODU22' 'G' 11 21 9110 'OIL' 60 /
'PRODU23' 'G' 15 22 9110 'OIL' 60 /
'PRODU24' 'G' 12 23 9110 'OIL' 60 /
'PRODU25' 'G' 10 24 9110 'OIL' 60 /
'PRODU26' 'G' 17 25 9110 'OIL' 60 /
/
COMPDAT
-- Column 2: I-value of connecting grid block
-- Column 3: J-value of connecting grid block
-- Column 4: K-value of upper connecting grid block
-- Column 5: K-value of lower connecting grid block
-- - these coordinates are listed in Killough's dataset
-- Column 9: well bore diameter
-- - Killough says radius is 0.5ft
-- #: 1 2 3 4 5 6 7 8 9
'INJE1' 24 25 11 15 'OPEN' 1* 1* 1 /
'PRODU2' 5 1 2 4 'OPEN' 1* 1* 1 /
'PRODU3' 8 2 2 4 'OPEN' 1* 1* 1 /
'PRODU4' 11 3 2 4 'OPEN' 1* 1* 1 /
'PRODU5' 10 4 2 4 'OPEN' 1* 1* 1 /
'PRODU6' 12 5 2 4 'OPEN' 1* 1* 1 /
'PRODU7' 4 6 2 4 'OPEN' 1* 1* 1 /
'PRODU8' 8 7 2 4 'OPEN' 1* 1* 1 /
'PRODU9' 14 8 2 4 'OPEN' 1* 1* 1 /
'PRODU10' 11 9 2 4 'OPEN' 1* 1* 1 /
'PRODU11' 12 10 2 4 'OPEN' 1* 1* 1 /
'PRODU12' 10 11 2 4 'OPEN' 1* 1* 1 /
'PRODU13' 5 12 2 4 'OPEN' 1* 1* 1 /
'PRODU14' 8 13 2 4 'OPEN' 1* 1* 1 /
'PRODU15' 11 14 2 4 'OPEN' 1* 1* 1 /
'PRODU16' 13 15 2 4 'OPEN' 1* 1* 1 /
'PRODU17' 15 16 2 4 'OPEN' 1* 1* 1 /
'PRODU18' 11 17 2 4 'OPEN' 1* 1* 1 /
'PRODU19' 12 18 2 4 'OPEN' 1* 1* 1 /
'PRODU20' 5 19 2 4 'OPEN' 1* 1* 1 /
'PRODU21' 8 20 2 4 'OPEN' 1* 1* 1 /
'PRODU22' 11 21 2 4 'OPEN' 1* 1* 1 /
'PRODU23' 15 22 2 4 'OPEN' 1* 1* 1 /
'PRODU24' 12 23 2 4 'OPEN' 1* 1* 1 /
'PRODU25' 10 24 2 4 'OPEN' 1* 1* 1 /
'PRODU26' 17 25 2 4 'OPEN' 1* 1* 1 /
/
WCONINJE
-- Killough says the water injector is set to a max rate of
-- 5000 STBW per D with a max BHP of 4000psia at a reference
-- depth of 9110ft subsea:
-- #: 1 2 3 4 5 7
'INJE1' 'WATER' 'OPEN' 'RATE' 5000 1* 4000 /
/
WCONPROD
-- Killough says the max oil rate for all producers is set to
-- 1500 STBO per D at time zero and that the min flowing BHP
-- is set to 1000psia (with a ref. depth of 9110ft
-- for this pressure in all wells):
-- #: 1 2 3 4 9
'PRODU*' 'OPEN' 'ORAT' 1500 4* 1000 /
-- Here, the wildcard '*' has been used to indicate that this applies
-- to all producers; PRODU1-PRODU25.
/
TSTEP
30*10 /
-- At 300 days, the max oil rate for all producers is lowered
-- to 100 STBO per D:
WCONPROD
-- #: 1 2 3 4 9
'PRODU*' 'OPEN' 'ORAT' 100 4* 1000 /
/
TSTEP
6*10 /
-- At 360 days, the max oil rate for all producers is changed
-- back to 1500 STBO per D:
WCONPROD
-- #: 1 2 3 4 9
'PRODU*' 'OPEN' 'ORAT' 1500 4* 1000 /
/
TSTEP
54*10 /
-- End of simulation at 900 days
END