421 lines
8.9 KiB
Plaintext
421 lines
8.9 KiB
Plaintext
-- This reservoir simulation deck is made available under the Open Database
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-- License: http://opendatacommons.org/licenses/odbl/1.0/. Any rights in
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-- individual contents of the database are licensed under the Database Contents
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-- License: http://opendatacommons.org/licenses/dbcl/1.0/
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-- Copyright (C) 2016 IRIS
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-- This simulation is based on the data given in
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-- 'Fifth comparison of Solution Project: Evaluation of Miscible Flood Simulators'
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-- by Killough et al. SPE16000 1987
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---------------------------------------------------------------------------
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------------------------ SPE5 - BASE INPUT ------------------------------------
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---------------------------------------------------------------------------
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-- Input to SPE5CASE1, SPE5CASE2 and SPE5CASE3
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DIMENS
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7 7 3 /
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-- The number of equilibration regions is inferred from the EQLDIMS
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-- keyword.
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EQLDIMS
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/
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TABDIMS
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/
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OIL
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GAS
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WATER
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DISGAS
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SOLVENT
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MISCIBLE
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1 20 /
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FIELD
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-- Start simulation from the year SPE5 was published by Killough et al.
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START
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1 'JAN' 1987 /
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WELLDIMS
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-- Item 1: maximum number of wells in the model
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-- - there are two wells in the problem; injector and producer
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-- Item 2: maximum number of grid blocks connected to any one well
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-- - must be one as the wells are located at specific grid blocks
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-- Item 3: maximum number of groups in the model
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-- - we are dealing with only one 'group'
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-- Item 4: maximum number of wells in any one group
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-- - there must be two wells in a group as there are two wells in total
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3 3 2 2 /
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UNIFOUT
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GRID
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-- -------------------------------------------------------------------------
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-- Grid is specified in Table 1, 2 and 3 in Killough et al.:
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NOECHO
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INIT
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DX
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-- There are in total 147 cells with length 1000ft in x-direction
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147*500 /
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DY
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-- There are in total 147 cells with length 1000ft in y-direction
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147*500 /
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DZ
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-- The layers are 20, 30 and 50 ft thick, in each layer there are 49 cells
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49*20 49*30 49*50 /
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TOPS
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-- The depth of the top of each grid block
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49*8325 /
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PORO
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-- Constant porosity of 0.3 throughout all 147 grid cells
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147*0.3 /
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PERMX
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-- The layers have perm. 500mD, 50mD and 200mD, respectively.
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49*500 49*50 49*200 /
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PERMY
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49*500 49*50 49*200 /
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PERMZ
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49*50 49*50 49*25 /
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ECHO
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PROPS
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-- -------------------------------------------------------------------------
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-- From Table 1 in Killough et al.
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PVTW
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-- Item 1: pressure reference (psia)
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-- Item 2: water FVF (rb per bbl or rb per stb)
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-- Item 3: water compressibility (psi^{-1})
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-- Item 4: water viscosity (cp)
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-- Item 5: water 'viscosibility' (psi^{-1})
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-- In FIELD units:
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14.7 1.0 3.3E-6 0.70 0.0 /
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-- From Table 1 in Killough et al.
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ROCK
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-- Item 1: reference pressure (psia)
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-- Item 2: rock compressibility (psi^{-1})
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14.7 5E-6 /
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-- From Table 3 in Killough et al.
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SWFN
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-- Column 1: water saturation
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-- Column 2: water relative permeability
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-- Column 3: water-oil capillary pressure (psi)
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0.2000 0 45.00
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0.2899 0.0022 19.03
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0.3778 0.0180 10.07
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0.4667 0.0607 4.90
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0.5556 0.1438 1.8
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0.6444 0.2809 0.50
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0.7000 0.4089 0.05
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0.7333 0.4855 0.01
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0.8222 0.7709 0.0
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0.9111 1.00 0.0
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1.0000 1.00 0.0 /
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-- From Table 3 in Killough et al.
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SGFN
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-- Column 1: gas saturation
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-- Column 2: gas relative permeability
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-- Column 3: oil-gas capillary pressure (psi)
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0 0.0 0
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0.05 0.0 0
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0.0889 0.001 0
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0.1778 0.010 0
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0.2667 0.030 0.001
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0.3556 0.050 0.001
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0.4443 0.100 0.030
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0.5333 0.200 0.80
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0.6222 0.350 3.0
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0.650 0.390 4.0
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0.7111 0.560 8.0
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0.80 1.0 30.0/
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--From Table 3 in Killough et al.
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SOF3
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-- Column 1: oil saturation
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-- Column 2: oil relative permeability when oil, gas and connate water are present
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-- Column 3: oil relative permeability when only oil and water are present
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-- SOIL KROW KROG
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0 0.0 0.0
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0.0889 0.0 0.0
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0.150 1* 0.0
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0.1778 0.0 0.011
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0.2667 0.0 0.037
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0.30 0.0 1*
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0.3556 0.0123 0.0878
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0.4444 0.0835 0.1715
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0.5333 0.2178 0.2963
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0.6222 0.4153 0.4705
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0.7111 0.6769 0.7023
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0.75 1* 0.88
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0.80 1.0 1.0 /
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-- for now use the same input as KROG
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SOF2
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-- SOIL KRP
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0 0.0
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0.0889 0.0
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0.1778 0.0
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0.2667 0.0
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0.30 0.0
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0.3556 0.0123
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0.4444 0.0835
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0.5333 0.2178
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0.6222 0.4153
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0.7111 0.6769
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0.80 1.0 /
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-- linear solvent-gas relperm
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SSFN
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0.0 0.0 0.0
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1.0 1.0 1.0
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/
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-- consider the solvent miscible
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-- when its fraction of the gas
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-- is more than 0.01
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MISC
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0.0 0.0
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0.01 1.0
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1.0 1.0 /
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-- Use a linear ramp from 1500 to 3200 psia
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-- for the miscibility pressure
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-- The same as what the TDC group reports
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-- in Killough et al.
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PMISC
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1000 0.0
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1500 0.0
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3200 1.0
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6000 1.0 /
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DENSITY
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-- Density (lb per ft³) at surface cond. of
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-- oil, water and gas, respectively (in that order)
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-- In FIELD units:
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38.53 62.4 0.06864 /
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-- gas density (stb) / (gas density at stb (Table 7) / solvent density at stb (Table 8)) = 0.06864 / (0.0011 / 0.0010)
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-- from Killough et al.
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SDENSITY
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0.0624 /
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-- Values from 0.5 to 1.0 is used in Killough et al.
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-- 0.6 is used by the TDC group
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TLMIXPAR
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0.6 /
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-- Pressure dependent TL parameter.
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-- use the same values as pmisc
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-- Only for OPM
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--TLPMIXPA
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--1000 0.0
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--1500 0.0
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--3200 1.0
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--6000 1.0/
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-- Using values from Table 9 in Killough et al.:
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PVDG
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-- Column 1: gas phase pressure (psia)
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-- Column 2: gas formation volume factor (rb per Mscf)
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-- Column 3: gas viscosity (cP)
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14.700 211.416 0.01070
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500.0 5.92420 0.01270
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1000.0 2.85060 0.01340
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1200.0 2.34410 0.01360
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1500.0 1.84570 0.01450
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1800.0 1.52020 0.01530
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2000.0 1.36020 0.01590
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2302.3 1.17510 0.01700
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2500.0 1.10250 0.01770
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3000.0 0.98030 0.01950
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3500.0 0.91160 0.02140
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4000.0 0.86210 0.02320
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4500.0 0.82240 0.02500
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4800.0 0.80320 0.02610
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/
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-- Using values from Table 9 in Killough et al.:
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PVDS
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-- Column 1: gas phase pressure (psia)
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-- Column 2: gas formation volume factor (rb per Mscf)
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-- Column 3: gas viscosity (cP)
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14.700 233.214 0.01100
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500.0 5.60220 0.01200
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1000.0 2.53100 0.01300
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1200.0 2.03540 0.01400
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1500.0 1.55930 0.01600
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1800.0 1.26570 0.01800
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2000.0 1.12960 0.01900
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2302.3 0.98030 0.02200
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2500.0 0.90850 0.02300
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3000.0 0.78070 0.02700
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3500.0 0.69940 0.03100
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4000.0 0.64300 0.03400
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4500.0 0.60170 0.03700
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4800.0 0.58170 0.03800
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/
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-- Using values from Table 9 in Killough et al.:
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PVTO
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-- Column 1: dissolved gas-oil ratio (Mscf per stb)
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-- Column 2: bubble point pressure (psia)
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-- Column 3: oil FVF for saturated oil (rb per stb)
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-- Column 4: oil viscosity for saturated oil (cP)
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0.0000 14.7 1.0348 0.310 /
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0.1176 500.0 1.1017 0.295 /
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0.2226 1000.0 1.1478 0.274 /
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0.2677 1200.0 1.1677 0.264 /
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0.3414 1500.0 1.1997 0.249 /
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0.4215 1800.0 1.2350 0.234 /
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0.4790 2000.0 1.2600 0.224 /
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0.5728 2302.3 1.3010 0.208 /
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0.6341 2500.0 1.3278 0.200 /
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0.7893 3000.0 1.3956 0.187 /
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0.9444 3500.0 1.4634 0.175 /
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1.0995 4000.0 1.5312 0.167 /
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1.2547 4500.0 1.5991 0.159 /
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1.3478 4800.0 1.6398 0.155
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5500.0 1.6305 0.165 /
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-- It is required to enter data for undersaturated oil for the highest GOR
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-- (i.e. the last row) in the PVTO table.
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-- The oil formation volume factor slope above boble point is -21.85e-6 RB/STB/PSI
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-- (From Table 1 in Killough et al.)
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-- For the viscosity we use the same relative factor as found in the spe1 deck
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-- (700 * 9e-5 + 1) * 0.155
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/
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SOLUTION
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-- -------------------------------------------------------------------------
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EQUIL
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-- Item 1: datum depth (ft)
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-- Item 2: pressure at datum depth (psia)
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-- Item 3: depth of water-oil contact (ft)
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-- - chosen to be directly under the reservoir
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-- Item 4: oil-water capillary pressure at the water oil contact (psi)
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-- Item 5: depth of gas-oil contact (ft)
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-- - chosen to be directly above the reservoir
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-- Item 6: gas-oil capillary pressure at gas-oil contact (psi)
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-- Item 7: RSVD-table
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-- Item 8: RVVD-table
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-- Item 9: Set to 0 as this is the only value supported by OPM
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-- Item #: 1 2 3 4 5 6 7 8 9
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8400 4000 8450 0 8300 0 1 0 0 /
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-- Solution gas at reservoar oil saturation pressure 2302.3 psia
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-- Based on values in Table 1 and Table 9 in Killough et al.
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RSVD
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8300 0.5728
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8450 0.5728 /
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SUMMARY
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---------------------------------------------------------------------------
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-- In order to compare Eclipse with Flow:
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-- This are not the output compared in Killough et al.
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WBHP
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'INJW'
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'INJG'
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'PROD'
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/
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WGIR
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'INJW'
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'INJG'
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'PROD'
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/
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WGIT
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'INJW'
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'INJG'
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'PROD'
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/
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WGPR
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'INJW'
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'INJG'
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'PROD'
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/
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WGPT
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'INJW'
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'INJG'
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'PROD'
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/
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WOIR
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'INJW'
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'INJG'
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'PROD'
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/
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WOIT
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'INJW'
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'INJG'
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'PROD'
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/
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WOPR
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'INJW'
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'INJG'
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'PROD'
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/
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WOPT
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'INJW'
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'INJG'
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'PROD'
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/
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WWIR
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'INJW'
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'INJG'
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'PROD'
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/
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WWIT
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'INJW'
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'INJG'
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'PROD'
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/
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WWPR
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'INJW'
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'INJG'
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'PROD'
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/
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WWPT
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'INJW'
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'INJG'
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'PROD'
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/
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SCHEDULE
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-- -------------------------------------------------------------------------
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RPTSCHED
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'PRES' 'SGAS' 'SSOL' 'SWAT' 'SOIL' 'WELLS' 'KRN' 'KRG' 'KRO' 'KRW'/
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RPTRST
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'BASIC=1' /
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WELSPECS
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-- Item #: 1 2 3 4 5 6
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'PROD' 'G1' 7 7 1* 'OIL' /
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'INJW' 'INJ' 1 1 1* 'WATER' /
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'INJG' 'INJ' 1 1 1* 'GAS' /
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/
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COMPDAT
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-- Item #: 1 2 3 4 5 6 7 8 9
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'PROD' 7 7 3 3 'OPEN' 1* 1* 0.5 10000/
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'INJW' 1 1 1 1 'OPEN' 1* 1* 0.5 10000/
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'INJG' 1 1 1 1 'OPEN' 1* 1* 0.5 10000/
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/
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