opm-simulators/tests/SUMMARY_DECK_NON_CONSTANT_POROSITY.DATA
Markus Blatt 944b646092 Add WELLDIMS to datafile of test_ecl_output.
Somehow the checking is now stricter for the tests due to
the changes in eclbasevanguard. Fixes test failures of
test_ecl_output.
2020-08-27 09:05:09 +02:00

673 lines
5.7 KiB
Plaintext

-- Synthetic test deck based on Norne. This data set is meant to be a simple,
-- well-documented deck for the behaviour of SUMMARY specified output. Data
-- is mostly entered to *traceable* and does not necessarily make sense from
-- a simulation point of view.
START
10 MAI 2007 /
RUNSPEC
TITLE
SUMMARYTESTS
-- A simple 10x10x10 cube. Simple to reason about, large enough for all tests
DIMENS
10 10 10 /
REGDIMS
3 /
--
-- WELL WELL GRUPS GRUPS
-- MXWELS MXCONS MXGRPS MXGRPW
WELLDIMS
4 4 3 3 /
OIL
GAS
WATER
DISGAS
METRIC
UNIFOUT
UNIFIN
GRID
DX
1000*1 /
DY
1000*1 /
DZ
1000*1 /
TOPS
100*1 /
ACTNUM
1000*1/
PORO
500*0.1 500*0.2/
PERMX
1000*500 /
COPY
PERMX PERMY /
PERMX PERMZ /
/
REGIONS
FIPNUM
400*1
200*2
400*3 /
PROPS
PVTW
1 1000 0 0.318 0.0 /
ROCK
14.7 3E-6 /
SWOF
0.12 0 1 0
0.18 4.64876033057851E-008 1 0
0.24 0.000000186 0.997 0
0.3 4.18388429752066E-007 0.98 0
0.36 7.43801652892562E-007 0.7 0
0.42 1.16219008264463E-006 0.35 0
0.48 1.67355371900826E-006 0.2 0
0.54 2.27789256198347E-006 0.09 0
0.6 2.97520661157025E-006 0.021 0
0.66 3.7654958677686E-006 0.01 0
0.72 4.64876033057851E-006 0.001 0
0.78 0.000005625 0.0001 0
0.84 6.69421487603306E-006 0 0
0.91 8.05914256198347E-006 0 0
1 0.00001 0 0 /
SGOF
0 0 1 0
0.001 0 1 0
0.02 0 0.997 0
0.05 0.005 0.980 0
0.12 0.025 0.700 0
0.2 0.075 0.350 0
0.25 0.125 0.200 0
0.3 0.190 0.090 0
0.4 0.410 0.021 0
0.45 0.60 0.010 0
0.5 0.72 0.001 0
0.6 0.87 0.0001 0
0.7 0.94 0.000 0
0.85 0.98 0.000 0
0.88 0.984 0.000 0 /
DENSITY
53.66 64.49 0.0533 /
PVDG
1 100 1
10 10 1 /
PVTO
0 1 10 1 /
1 1 10.001 1
10 1 1 /
/
SUMMARY
DATE
PERFORMA
--
-- Field Data
-- Production Rates
FVPR
FWPR
FWPRH
FOPR
FOPRH
FGPR
FGPRH
FLPR
FLPRH
FGSR
FGCR
FNPR -- solvent
--FTPRSEA
-- Injection Rates
FVIR
FWIR
FWIRH
FGIR
FNIR -- solvent
FGIRH
-- Production Cummulatives
FVPT
FWPT
FOPT
FLPT
FLPTH
FGPT
FNPT
FOPTH
FGPTH
FWPTH
FGST
FGCT
-- Injection Cummulatives
FVIT
FWIT
FWITH
FGIT
FNIT
FGITH
-- In place
FWIP
FOIP
FGIP
-- Ratios
FWCT
FWCTH
FGOR
FGORH
-- From model2
FMWPR
FMWIN
FOE
-- Pressures
FPR
FPRP
BPR
1 1 1 /
1 1 2 /
1 1 3 /
1 1 4 /
1 1 5 /
1 1 6 /
1 1 7 /
1 1 8 /
1 1 9 /
1 1 10 /
2 1 10 / -- This cell is not ACTIVE
/
BSGAS
1 1 1 /
/
BSWAT
1 1 1 /
/
-- Region data
RPR
/
ROPT
/
RGPT
/
RWPT
/
RGFT
/
RWFT
/
ROIP
/
ROP
/
ROPR
/
RGPR
/
RWPR
/
RGIR
/
RGIT
/
RWIR
/
RWIT
/
RWPT
/
ROIPL
/
ROIPG
/
RGIP
/
RGIPL
/
RGIPG
/
RWIP
/
RPPO
/
-- Group data --
GPR
/
GLPR
/
GOPT
/
GGPT
/
GWPT
/
GNPT
/
GOPR
/
GGPR
/
GWPR
/
GWPRH
/
GGIR
/
GNPR
/
GNIR
/
GGIRH
/
GGIT
/
GNIT
/
GGITH
/
GWCT
/
GWCTH
/
GGOR
/
GGORH
/
GWIR
/
GWIT
/
GWIRH
/
GWITH
/
GOPRH
/
GGPRH
/
GLPRH
/
GWPTH
/
GOPTH
/
GGPTH
/
GLPTH
/
GPRG
/
GPRW
/
GOPTF
/
GOPTS
/
GOPTH
/
GOPRF
/
GOPRS
/
GOPRH
/
GGPTF
/
GGPTS
/
GGPTH
/
GGPTF
/
GGPTS
/
GGPTH
/
GGLR
/
GGLIR
/
GGLRH
/
GVPR
/
GVPT
/
GMCTP
/
GOPP
/
GVIR
/
GVIT
/
GVPRT
/
GMWPR
/
GMWIN
/
-- Well Data
-- Production Rates
WWPR
/
WWPRH
/
WOPR
/
WOPRH
/
WGPR
/
WNPR
/
WGPRH
/
WLPR
/
WLPRH
/
WLPT
/
WLPTH
/
-- Injection Rates
WWIR
W_3
/
WWIT
W_3
/
WWIRH
W_3
/
WWITH
W_3
/
WGIT
W_3
/
WGIR
W_3
/
WGIRH
W_3
/
WGITH
W_3
/
WNIR
W_3
/
WNIT
W_3
/
-- Production Cummulatives
WWPT
/
WWPTH
/
WOPT
/
WOPTH
/
WGPT
/
WGPTH
/
WNPT
/
-- Tracers
--WTPRSEA
--/
--WTPTSEA
--/
-- Injection Cummulatives
WWIT
W_3
/
-- Ratios
WWCT
/
WWCTH
/
WGOR
/
WGORH
/
WGLR
/
WGLRH
/
-- Performance
WBHP
/
WBHPH
/
WTHP
/
WTHPH
/
WPI
/
WBP
/
WBP4
/
-- from model2
WOPTF
/
WOPTS
/
WOPTH
/
WOPRS
/
WOPRF
/
WGPTF
/
WGPTS
/
WGPRF
/
WTPRS
/
WGLIR
/
WVPR
/
WVPT
/
WOPP
/
WVIR
/
WVIT
/
WMCTL
/
-- Water injection per connection
CWIR
* /
/
-- Gas injection on 3 1 1 (45)
CGIR
'W_3' 3 1 1 /
/
CWIT
'W_3' /
/
CGIT
* /
/
-- Production per connection
-- Using all the different ways of specifying connections here
-- as an informal test that we still get the data we want
CWPR
'W_1' 1 1 1 /
/
COPR
'W_1' /
'W_2' /
'W_3' /
/
CGPR
'*' /
/
CNFR
'*' /
/
CNPT
'*' /
/
CNIT
'*' /
/
CWPT
'W_1' 1 1 1 /
/
COPT
'W_1' /
/
CGPT
'W_1' /
'W_2' /
'W_3' /
/
---- Connection production rates
----CGFR
----'E-4AH' /
----/
----CWFR
----'E-2H' /
----/
SOLUTION
SWAT
1000*0.2 /
SGAS
1000*0.0 /
PRESSURE
100*1.0
100*2.0
100*3.0
100*4.0
100*5.0
100*6.0
100*7.0
100*8.0
100*9.0
100*10.0/
RS
1000*0 /
SCHEDULE
-- Three wells, two producers (so that we can form a group) and one injector
WELSPECS
'W_1' 'G_1' 1 1 3.33 'OIL' 7* /
'W_2' 'G_1' 2 1 3.33 'OIL' 7* /
'W_3' 'G_2' 3 1 3.92 'WATER' 7* /
/
-- Completion data.
COMPDAT
-- 'Well' I J K1 K2
-- Passing 0 to I/J means they'll get the well head I/J
W_1 0 0 1 1 / -- Active index: 0
W_2 0 0 1 1 / -- Active index: 1
W_2 0 0 2 2 / -- Active index: 101
W_3 0 0 1 1 / -- Active index: 2
/
WCONHIST
-- history rates are set so that W_1 produces 1, W_2 produces 2 etc.
-- index.offset.
-- organised as oil-water-gas
W_1 SHUT ORAT 10.1 10 10.2 /
W_2 SHUT ORAT 20.1 20 20.2 /
/
WCONINJH
-- Injection historical rates (water only, as we only support pure injectors)
W_3 WATER STOP 30.0 /
/
TSTEP
-- register time steps (in days). This allows us to write *two* report steps (1
-- and 2. Without this, totals/accumulations would fail (segfault) when looking
-- up historical rates and volumes. These volumes however don't change, i.e.
-- every time step has the same set of values
10 10 /
-- Register a fourth well with completions later. This ensure we handle when
-- wells are registered or activated later in a simulation
WELSPECS
'W_4' 'G_3' 1 1 3.33 'OIL' 7* /
/
COMPDAT
W_4 1 1 3 3 /
/
TSTEP
10 10 /