问答中心请问cmg有关微生物驱油的算例么?
0
Sunhongyu asked 2年 ago

 
 

Sunhongyu replied 2年 ago

请问,这个算例builder打不开,显示错误,这能解决么?

admin 管理员 replied 1年 ago

在粘贴至文本编辑器之后,需将中文的单引号改为英文格式,主要涉及到sector和component name。

1 Answers
0
admin 管理员 answered 2年 ago

微生物驱油STARS标准算例如下:
RESULTS SIMULATOR STARS 201710
** base model
** 平均渗透率1240mdc, 渗透率变异系数0.4,反九点法井网,350米井距,原油粘度70cp
** 地层共分14层,kv/kh=0.01, 单井日注水平0.025PV/年,反韵律模型
** 注聚后开始注菌液,考虑:1)产气、升压;2)调剖,使聚合物溶液形成泡沫聚合物;3)重油裂解成轻质油
** 该算例参考国内某区块开发历史,先后经历5个段塞:
**段塞1:前置聚合物段塞,半年
**段塞2:三元段塞,4年7个月
**段塞3:后续聚合物段塞,9个月
**段塞4:后续水驱段塞
**段塞5:后续微生物段塞
INUNIT SI
WSRF WELL TIME
WSRF GRID TIME
WSRF SECTOR TIME
OUTSRF WELL DOWNHOLE
**OUTSRF GRID ADSORP MASDENG MASDENO MASDENW PRES SG SO SW VISO VISW W
OUTSRF GRID ADSORP MASS ADSPCMP IFT KRG KRINTER KRO KRW LOGCAPN MASDENW PRES RFW
SG SO SW VISO VISW W X
OUTSRF WELL MASS COMPONENT ALL

SHEAREFFEC SHV
**$ Distance units: m
RESULTS XOFFSET 0.0000
RESULTS YOFFSET 0.0000
RESULTS ROTATION 0.0000 **$ (DEGREES)
**$ ***************************************************************************
**$ Definition of fundamental cartesian grid
**$ ***************************************************************************
GRID VARI 21 21 14
KDIR DOWN
DI IVAR
21*33.33
DJ JVAR
21*33.33
DK ALL
441*3.49 441*4.24 441*4.56 441*11.16 441*4.36 441*7.98 441*4.46 441*4.59
441*3.48 441*4.56 441*9.24 441*3.1 441*2.89 441*2.06
DTOP
441*1400
**$
**$ Property: NULL Blocks Max: 1 Min: 1
**$ 0 = null block, 1 = active block
NULL CON 1
**$
**$ Property: Porosity Max: 0.326 Min: 0.289
POR KVAR
0.326 0.321 0.317 0.311 0.31 0.306 0.304 0.303 0.301 0.299 0.295 0.293
0.291 0.289
**$
**$ Property: Permeability I (md) Max: 2949.27 Min: 628.908
PERMI KVAR
2949.27 2388.5 2066.67 1613.56 1490.02 1300.32 1207.52 1118.21 1053.36
970.432 800.875 739.716 677.865 628.908
**$
**$ Property: Permeability J (md) Max: 2949.27 Min: 628.908
PERMJ KVAR
2949.27 2388.5 2066.67 1613.56 1490.02 1300.32 1207.52 1118.21 1053.36
970.432 800.875 739.716 677.865 628.908
**$
**$ Property: Permeability K (md) Max: 29.4927 Min: 6.28908
PERMK KVAR
29.4927 23.885 20.6667 16.1356 14.9002 13.0033 12.0752 11.1821 10.5336
9.70432 8.00875 7.39716 6.77865 6.28908
**$
**$ Property: Pinchout Array Max: 1 Min: 1
**$ 0 = pinched block, 1 = active block
PINCHOUTARRAY CON 1
SECTORARRAY ‘SECTOR1’ KVAR
1 13*0
SECTORARRAY ‘SECTOR2’ KVAR
0 1 12*0
SECTORARRAY ‘SECTOR3’ KVAR
2*0 1 11*0
SECTORARRAY ‘SECTOR4’ KVAR
3*0 1 10*0
SECTORARRAY ‘SECTOR5’ KVAR
4*0 1 9*0
SECTORARRAY ‘SECTOR6’ KVAR
5*0 1 8*0
SECTORARRAY ‘SECTOR7’ KVAR
6*0 1 7*0
SECTORARRAY ‘SECTOR8’ KVAR
7*0 1 6*0
SECTORARRAY ‘SECTOR9’ KVAR
8*0 1 5*0
SECTORARRAY ‘SECTOR10’ KVAR
9*0 1 4*0
SECTORARRAY ‘SECTOR11’ KVAR
10*0 1 3*0
SECTORARRAY ‘SECTOR12’ KVAR
11*0 1 2*0
SECTORARRAY ‘SECTOR13’ KVAR
12*0 1 0
SECTORARRAY ‘SECTOR14’ KVAR
13*0 1
END-GRID
ROCKTYPE 1
PRPOR 14280
CPOR 5.6e-006
THCONMIX SIMPLE
**$ Model and number of components
** Model and number of components
** Model and number of components
** Model and number of components
** Model and number of components
MODEL 10 10 10 6
COMPNAME ‘Water’ ‘Poly’ ‘Surf’ ‘Alka’ ‘Microbe’ ‘Foam’ ‘Hevy’ ‘CH4’ ‘Lite’ ‘CO2’
***0 8 0.29941 0.04 0.190179 0.0170426
CMM
0.018 0.018 0.018 0.018 0.018 0.076019 0.190179 0.0170426 0.044097 0.04401
PCRIT
0 0 0 0 0 1100 0 4567.06 4226 7376
TCRIT
0 0 0 0 0 494 0 -65.8772 96.65 31.05
KV1
0.0 0.0 0.0 0.0 0 0 0.0 200807 0.0 119950.0
KV2
0.0 0.0 0.0 0.0 0 0 0.0 4.07942e-005 0.0 0.0
KV3
0.0 0.0 0.0 0.0 0 0 0.0 29.3583 0.0 4.55
KV4
0.0 0.0 0.0 0.0 0 0 0.0 -879.991 0.0 -236.8
KV5
0.0 0.0 0.0 0.0 0 0 0.0 -265.99 0.0 -79.1
PRSR 101
TEMR 12
PSURF 101
TSURF 16.85
MASSDEN
1000 1000 3791.47 1000 1000 999.65 958.312 325.599 850 796.558
CP
1.5e-006 1.5e-006 1.5e-006 1.5e-006 1.5e-006 5.25e-007 2.48953e-007 2.48953e-007 2.48953e-007 1.E-06
CT1
0.000507937 0.000507937 0.000507937 0.000507937 0.000507937 0.000154872 1e-006 1e-006 1e-006 848.E-06
AVG
0 0 0 0 0 0 0 5.91397e-005 1.E-06 .0001070
BVG
0 0 0 0 0 0 0 1 848.E-06 0.8655
VISCTABLE
** temp
5 0.984235 192.66 2.5 0.65 0.984235 5 130.712 0.964701 0.964701 2.059 ** Live oil visc (P=15100) = 11.1634
15 0.735465 192.66 2.5 0.65 0.735465 5 57.61 0.745332 0.745332 2.099 ** Live oil visc (P=15100) = 6.51864
20 0.65 192.66 2.5 0.65 0.65 5 40 0.664429 0.664429 2.138 ** Live oil visc (P=15100) = 5.13
30 0.51768 95.38729867 0.51768 0.51768 0.51768 5 20.8264 0.540925 0.540925 2.178 ** Live oil visc (P=15100) = 3.34173
**机理:聚合物溶液粘度,非线性混合计算
VSMIXCOMP ‘Poly’
VSMIXENDP 0 0.006
VSMIXFUNC 0 0.332224 0.528158 0.644254 0.724113 0.788165 0.841707 0.893943 0.929296 0.964648 1
***VSMIXCOMP ‘Surf’
***VSMIXENDP 0 0.01
***VSMIXFUNC 0 0.001 0.002 0.003 0.004 0.005 0.006 0.007 0.008 0.009 0.01
VSMIXCOMP ‘CH4’
VSMIXENDP 0 0.51
VSMIXFUNC 0 0.0155593 0.0319399 0.0491831 0.0737918 0.102717 0.135222 0.181482 0.245972 0.347368 0.553987
**机理:聚合物的降解
** Reaction specification
STOREAC
0 1 0 0 0 0 0 0 0 0
STOPROD
1 0 0 0 0 0 0 0 0 0
RPHASE
0 1 0 0 0 0 0 0 0 0
RORDER
0 1 0 0 0 0 0 0 0 0
FREQFAC 34.7
RENTH 0
EACT 32500
** Reaction specification
STOREAC
0 0 0 0 1 0 1 0 0 0
STOPROD
0 0 0 0 0 0 0 1 0 4.343
RPHASE
0 0 0 0 1 0 2 0 0 0
RORDER
0 0 0 0 1 0 1 1 0 1
FREQFAC 34.7
RENTH 0
EACT 32500
** Reaction specification
STOREAC
0 0 0 0 1 0 1 0 0 0
STOPROD
0 0 0 0 0 0 0 1 4.335 0
RPHASE
0 0 0 0 1 0 2 0 0 0
RORDER
0 0 0 0 1 0 1 1 1 0
FREQFAC 34.7
RENTH 0
EACT 32500
** Reaction specification
STOREAC
1 1 0 0 1 0 0 0 0 0
STOPROD
0 0 0 0 0 0.7104 0 0 0 0
RPHASE
1 1 0 0 1 0 0 0 0 0
RORDER
0 0 0 0 1 0 0 0 0 0
FREQFAC 34.7
RENTH 0
EACT 32500
***SHEARTAB
***** velocity viscosity
*** 2 147.578
*** 4 131.394
*** 6 118.486
*** 8 109.238
*** 10 103.073
*** 12 101.147
*** 16 100.376
*** 40 96.908

**机理:剪切的影响
*SHEARTHIN 0.95 1.0e-4
****************************************************************************
**
** *ROCKFLUID
**
****************************************************************************
ROCKFLUID
***KROIL *SEGREGATED
*RPT 1
*SWT
0.3 0 1 1.5000000
0.325 0.012 0.826 *INT
0.362 0.026 0.62 *INT
0.4 0.038 0.44 *INT
0.425 0.049 0.355 *INT
0.45 0.063 0.281 *INT
0.475 0.079 0.222 *INT
0.5 0.097 0.176 *INT
0.525 0.118 0.139 *INT
0.55 0.139 0.11 *INT
0.568 0.159 0.088 *INT
0.594 0.183 0.068 *INT
0.61 0.203 0.058 *INT
0.629 0.23 0.043 *INT
0.652 0.268 0.023 *INT
0.7 0.35 0.008 *INT
1 1 0 0
*SLT
0.3 0.284 0 0.015
0.4311 0.1763 3.17E-005 *INT
0.4622 0.1527 0.000359 *INT
0.4933 0.1304 0.00148 *INT
0.5244 0.1096 0.00406 *INT
0.5556 0.0906 0.00887 *INT
0.5867 0.0735 0.0168 *INT
0.6178 0.0584 0.0288 *INT
0.6489 0.0452 0.046 *INT
0.68 0.0341 0.0694 *INT
0.7111 0.0248 0.1004 *INT
0.7422 0.0172 0.1401 *INT
0.7733 0.0113 0.19 *INT
0.8044 0.00689 0.2515 *INT
0.8356 0.00377 0.3259 *INT
0.8667 0.00174 0.4149 *INT
0.8978 0.000603 0.5201 *INT
0.9289 0.000106 0.6431 *INT
0.96 0 0.7855 *INT
1 0 1 0

RPT 2
INTCOMP ‘Foam’ WATER
INTCOMP2 ‘Alka’
**机理:界面张力的影响
IFTTABLE
** Weight percent Alkaline = 0
2CMPW 1e-007
** Composition of component/phase Interfacial tension
1e-007 2.6 ** Weight percent Surfact = 0
0.001 0.01 ** Weight percent Surfact = 0.1
0.002 0.001 ** Weight percent Surfact = 0.2
0.003 0.0005 ** Weight percent Surfact = 0.3
0.004 0.00055 ** Weight percent Surfact = 0.4
0.005 0.00095 ** Weight percent Surfact = 0.5
** Weight percent Alkaline = 0.1
2CMPW 0.001
** Composition of component/phase Interfacial tension
1e-007 1.56 ** Weight percent Surfact = 0
0.001 0.006 ** Weight percent Surfact = 0.1
0.002 0.0006 ** Weight percent Surfact = 0.2
0.003 0.0003 ** Weight percent Surfact = 0.3
0.004 0.00033 ** Weight percent Surfact = 0.4
0.005 0.00057 ** Weight percent Surfact = 0.5
** Weight percent Alkaline = 0.2
2CMPW 0.002
** Composition of component/phase Interfacial tension
1e-007 1.04 ** Weight percent Surfact = 0
0.001 0.004 ** Weight percent Surfact = 0.1
0.002 0.0004 ** Weight percent Surfact = 0.2
0.003 0.0002 ** Weight percent Surfact = 0.3
0.004 0.00022 ** Weight percent Surfact = 0.4
0.005 0.00038 ** Weight percent Surfact = 0.5
** Weight percent Alkaline = 0.5
2CMPW 0.005
** Composition of component/phase Interfacial tension
1e-007 0.65 ** Weight percent Surfact = 0
0.001 0.0025 ** Weight percent Surfact = 0.1
0.002 0.00025 ** Weight percent Surfact = 0.2
0.003 0.000125 ** Weight percent Surfact = 0.3
0.004 0.0001375 ** Weight percent Surfact = 0.4
0.005 0.0002375 ** Weight percent Surfact = 0.5
** Weight percent Alkaline = 1
2CMPW 0.01
** Composition of component/phase Interfacial tension
1e-007 0.26 ** Weight percent Surfact = 0
0.001 0.001 ** Weight percent Surfact = 0.1
0.002 0.0001 ** Weight percent Surfact = 0.2
0.003 5e-005 ** Weight percent Surfact = 0.3
0.004 5.5e-005 ** Weight percent Surfact = 0.4
0.005 9.5e-005 ** Weight percent Surfact = 0.5
** Weight percent Alkaline = 1.5
2CMPW 0.015
** Composition of component/phase Interfacial tension
1e-007 0.052 ** Weight percent Surfact = 0
0.001 0.0002 ** Weight percent Surfact = 0.1
0.002 2e-005 ** Weight percent Surfact = 0.2
0.003 1e-005 ** Weight percent Surfact = 0.3
0.004 1.1e-005 ** Weight percent Surfact = 0.4
0.005 1.9e-005 ** Weight percent Surfact = 0.5
FMSURF 0.00005
FMOIL 0.56
FMMOB 10
EPSURF 1
EPOIL 1
KRINTRP 1
DTRAPW 1
** Sw krw krow Pcow
SWT
0.300 0 1.000 0.5000000
0.325 0.012 0.826 0.482143
0.362 0.026 0.620 0.455714
0.400 0.038 0.440 0.428571
0.425 0.049 0.355 0.410714
0.450 0.063 0.281 0.392857
0.475 0.079 0.222 0.375
0.500 0.097 0.176 0.357143
0.525 0.118 0.139 0.339286
0.550 0.139 0.110 0.321429
0.568 0.159 0.088 0.308571
0.594 0.183 0.068 0.29
0.610 0.203 0.058 0.278571
0.629 0.230 0.038 0.265
0.652 0.268 0.023 0.248571
0.700 0.350 0.015 0.214286
1.000 1.000 0 0
** Sl krg krog Pcog
SLT
0.3 0.284 0 0.015
0.4311 0.1763 3.17E-005 0.0121907
0.4622 0.1527 0.000359 0.0115243
0.4933 0.1304 0.00148 0.0108579
0.5244 0.1096 0.00406 0.0101914
0.5556 0.0906 0.00887 0.00952286
0.5867 0.0735 0.0168 0.00885643
0.6178 0.0584 0.0288 0.00819
0.6489 0.0452 0.046 0.00752357
0.68 0.0341 0.0694 0.00685714
0.7111 0.0248 0.1004 0.00619071
0.7422 0.0172 0.1401 0.00552429
0.7733 0.0113 0.19 0.00485786
0.8044 0.00689 0.2515 0.00419143
0.8356 0.00377 0.3259 0.00352286
0.8667 0.00174 0.4149 0.00285643
0.8978 0.000603 0.5201 0.00219
0.9289 0.000106 0.6431 0.00152357
0.96 0 0.7855 0.000857143
1 0 1 0
**机理:泡沫强度对残余油饱和度的影响
KRINTRP 2
DTRAPW 0.1
** Sw krw krow Pcow
SWT
0.300 0 1.000 0.5000000
0.325 0.012 0.826 0.482143
0.362 0.026 0.620 0.455714
0.400 0.038 0.440 0.428571
0.425 0.049 0.355 0.410714
0.450 0.063 0.281 0.392857
0.475 0.079 0.222 0.375
0.500 0.097 0.176 0.357143
0.525 0.118 0.139 0.339286
0.550 0.139 0.110 0.321429
0.568 0.159 0.088 0.308571
0.594 0.183 0.068 0.29
0.610 0.203 0.058 0.278571
0.629 0.230 0.038 0.265
0.652 0.268 0.023 0.248571
0.700 0.350 0.015 0.214286
1.000 1.000 0 0
** Sl krg krog Pcog
SLT
0.3 0.284 0 0.015
0.4311 0.1763 3.17E-005 0.0121907
0.4622 0.1527 0.000359 0.0115243
0.4933 0.1304 0.00148 0.0108579
0.5244 0.1096 0.00406 0.0101914
0.5556 0.0906 0.00887 0.00952286
0.5867 0.0735 0.0168 0.00885643
0.6178 0.0584 0.0288 0.00819
0.6489 0.0452 0.046 0.00752357
0.68 0.0341 0.0694 0.00685714
0.7111 0.0248 0.1004 0.00619071
0.7422 0.0172 0.1401 0.00552429
0.7733 0.0113 0.19 0.00485786
0.8044 0.00689 0.2515 0.00419143
0.8356 0.00377 0.3259 0.00352286
0.8667 0.00174 0.4149 0.00285643
0.8978 0.000603 0.5201 0.00219
0.9289 0.000106 0.6431 0.00152357
0.96 0 0.7855 0.000857143
1 0 1 0
KRGCW 0.01
KRWIRO 0.1

**机理:表活剂的吸附,吸附量受碱浓度的影响
ADSCOMP ‘Surf’ WATER
ADSTABLE
2CMPW 0
** Mole Fraction Adsorbed moles per unit pore volume
0 0
0.0001 0.01170408982
0.0005 0.09614073777
0.001 0.1580052125
0.0015 0.1839214114
0.0025 0.1939534884
0.0035 0.1998055333
2CMPW 0.001
** Mole Fraction Adsorbed moles per unit pore volume
0 0
0.0001 0.005852044908
0.0005 0.04807036889
0.001 0.07900260626
0.0015 0.09196070569
0.0025 0.09697674419
0.0035 0.09990276664
2CMPW 0.002
** Mole Fraction Adsorbed moles per unit pore volume
0 0
0.0001 0.002340817963
0.0005 0.01922814755
0.001 0.0316010425
0.0015 0.03678428228
0.0025 0.03879069767
0.0035 0.03996110666
2CMPW 0.005
** Mole Fraction Adsorbed moles per unit pore volume
0 0
0.0001 0.001170408982
0.0005 0.009614073777
0.001 0.01580052125
0.0015 0.01839214114
0.0025 0.01939534884
0.0035 0.01998055333
2CMPW 0.01
** Mole Fraction Adsorbed moles per unit pore volume
0 0
0.0001 0.0007022453889
0.0005 0.005768444266
0.001 0.009480312751
0.0015 0.01103528468
0.0025 0.0116372093
0.0035 0.011988332
2CMPW 0.015
** Mole Fraction Adsorbed moles per unit pore volume
0 0
0.0001 0.0004681635926
0.0005 0.003845629511
0.001 0.0063202085
0.0015 0.007356856455
0.0025 0.007758139535
0.0035 0.007992221331
ADMAXT 0.199806
ADRT 0.199806
**机理:聚合物的吸附,吸附量受碱浓度的影响
ADSCOMP ‘Poly’ WATER
ADSPHBLK W
ADSTABLE
2CMPW 0
** Mole Fraction Adsorbed moles per unit pore volume
0 0
0.0001 0.01170408982
0.0005 0.09614073777
0.001 0.1580052125
0.0015 0.1839214114
0.0025 0.1939534884
0.0035 0.1998055333
2CMPW 0.001
** Mole Fraction Adsorbed moles per unit pore volume
0 0
0.0001 0.005852044908
0.0005 0.04807036889
0.001 0.07900260626
0.0015 0.09196070569
0.0025 0.09697674419
0.0035 0.09990276664
2CMPW 0.002
** Mole Fraction Adsorbed moles per unit pore volume
0 0
0.0001 0.002340817963
0.0005 0.01922814755
0.001 0.0316010425
0.0015 0.03678428228
0.0025 0.03879069767
0.0035 0.03996110666
2CMPW 0.005
** Mole Fraction Adsorbed moles per unit pore volume
0 0
0.0001 0.001170408982
0.0005 0.009614073777
0.001 0.01580052125
0.0015 0.01839214114
0.0025 0.01939534884
0.0035 0.01998055333
2CMPW 0.01
** Mole Fraction Adsorbed moles per unit pore volume
0 0
0.0001 0.0007022453889
0.0005 0.005768444266
0.001 0.009480312751
0.0015 0.01103528468
0.0025 0.0116372093
0.0035 0.011988332
2CMPW 0.015
** Mole Fraction Adsorbed moles per unit pore volume
0 0
0.0001 0.0004681635926
0.0005 0.003845629511
0.001 0.0063202085
0.0015 0.007356856455
0.0025 0.007758139535
0.0035 0.007992221331
ADMAXT 0.199806
**机理:残余吸附量
ADRT 0.0
**机理:可及孔隙体积
PORFT 0.82
**机理:残余阻力系数,或渗透率下降倍数
RRFT 3
KRTYPE CON 1

****************************************************************************
** *INITIAL
INITIAL
VERTICAL DEPTH_AVE

INITREGION 1
REFPRES 14300
REFDEPTH 1470
DWOC 1470.16
MFRAC_WAT ‘Water’ CON 1
MFRAC_OIL ‘Hevy’ CON 0.428799
MFRAC_OIL ‘CH4’ CON 0.571201

NUMERICAL
DTMAX 90
TFORM ZT
ISOTHERMAL
ITERMAX 50

RUN
DATE 1993 9 1
DTWELL 0.2
GROUP ‘G1’ ATTACHTO ‘FIELD’
**$
WELL ‘INJ’ ATTACHTO ‘G1’
INJECTOR MOBWEIGHT EXPLICIT ‘INJ’
INCOMP WATER 1.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
OPERATE MAX STW 719.3 CONT
**$ rad geofac wfrac skin
**$ UBA ff Status Connection
** rad geofac wfrac skin
GEOMETRY K 0.05 0.37 1.0 0.0
PERF GEOA ‘INJ’
** UBA ff Status Connection
11 11 1 1.0 OPEN FLOW-FROM ‘SURFACE’ REFLAYER
11 11 2 1.0 OPEN FLOW-FROM 1
11 11 3 1.0 OPEN FLOW-FROM 2
11 11 4 1.0 OPEN FLOW-FROM 3
11 11 5 1.0 OPEN FLOW-FROM 4
11 11 6 1.0 OPEN FLOW-FROM 5
11 11 7 1.0 OPEN FLOW-FROM 6
11 11 8 1.0 OPEN FLOW-FROM 7
11 11 9 1.0 OPEN FLOW-FROM 8
11 11 10 1.0 OPEN FLOW-FROM 9
11 11 11 1.0 OPEN FLOW-FROM 10
11 11 12 1.0 OPEN FLOW-FROM 11
11 11 13 1.0 OPEN FLOW-FROM 12
11 11 14 1.0 OPEN FLOW-FROM 13
XFLOW-MODEL ‘INJ’ ZERO-FLOW
**$
WELL ‘PROD1’ ATTACHTO ‘G1’
PRODUCER ‘PROD1’
OPERATE MAX BHF 59.94 CONT
OPERATE MIN BHP 9000. CONT
**$ rad geofac wfrac skin
**$ UBA ff Status Connection
** rad geofac wfrac skin
GEOMETRY K 0.05 0.37 1.0 0.0
PERF GEOA ‘PROD1’
** UBA ff Status Connection
1 1 1 1.0 OPEN FLOW-TO ‘SURFACE’ REFLAYER
1 1 2 1.0 OPEN FLOW-TO 1
1 1 3 1.0 OPEN FLOW-TO 2
1 1 4 1.0 OPEN FLOW-TO 3
1 1 5 1.0 OPEN FLOW-TO 4
1 1 6 1.0 OPEN FLOW-TO 5
1 1 7 1.0 OPEN FLOW-TO 6
1 1 8 1.0 OPEN FLOW-TO 7
1 1 9 1.0 OPEN FLOW-TO 8
1 1 10 1.0 OPEN FLOW-TO 9
1 1 11 1.0 OPEN FLOW-TO 10
1 1 12 1.0 OPEN FLOW-TO 11
1 1 13 1.0 OPEN FLOW-TO 12
1 1 14 1.0 OPEN FLOW-TO 13
XFLOW-MODEL ‘PROD1’ ZERO-FLOW
OPEN ‘PROD1’
**$
WELL ‘PROD2’ ATTACHTO ‘G1’
PRODUCER ‘PROD2’
OPERATE MAX BHF 119.9 CONT
OPERATE MIN BHP 9000. CONT
**$ rad geofac wfrac skin
**$ UBA ff Status Connection
** rad geofac wfrac skin
GEOMETRY K 0.05 0.37 1.0 0.0
PERF GEOA ‘PROD2’
** UBA ff Status Connection
11 1 1 1.0 OPEN FLOW-TO ‘SURFACE’ REFLAYER
11 1 2 1.0 OPEN FLOW-TO 1
11 1 3 1.0 OPEN FLOW-TO 2
11 1 4 1.0 OPEN FLOW-TO 3
11 1 5 1.0 OPEN FLOW-TO 4
11 1 6 1.0 OPEN FLOW-TO 5
11 1 7 1.0 OPEN FLOW-TO 6
11 1 8 1.0 OPEN FLOW-TO 7
11 1 9 1.0 OPEN FLOW-TO 8
11 1 10 1.0 OPEN FLOW-TO 9
11 1 11 1.0 OPEN FLOW-TO 10
11 1 12 1.0 OPEN FLOW-TO 11
11 1 13 1.0 OPEN FLOW-TO 12
11 1 14 1.0 OPEN FLOW-TO 13
XFLOW-MODEL ‘PROD2’ ZERO-FLOW
OPEN ‘PROD2’
**$
WELL ‘PROD3’ ATTACHTO ‘G1’
PRODUCER ‘PROD3’
OPERATE MAX BHF 59.94 CONT
OPERATE MIN BHP 9000. CONT
**$ rad geofac wfrac skin
**$ UBA ff Status Connection
** rad geofac wfrac skin
GEOMETRY K 0.05 0.37 1.0 0.0
PERF GEOA ‘PROD3’
** UBA ff Status Connection
21 1 1 1.0 OPEN FLOW-TO ‘SURFACE’ REFLAYER
21 1 2 1.0 OPEN FLOW-TO 1
21 1 3 1.0 OPEN FLOW-TO 2
21 1 4 1.0 OPEN FLOW-TO 3
21 1 5 1.0 OPEN FLOW-TO 4
21 1 6 1.0 OPEN FLOW-TO 5
21 1 7 1.0 OPEN FLOW-TO 6
21 1 8 1.0 OPEN FLOW-TO 7
21 1 9 1.0 OPEN FLOW-TO 8
21 1 10 1.0 OPEN FLOW-TO 9
21 1 11 1.0 OPEN FLOW-TO 10
21 1 12 1.0 OPEN FLOW-TO 11
21 1 13 1.0 OPEN FLOW-TO 12
21 1 14 1.0 OPEN FLOW-TO 13
XFLOW-MODEL ‘PROD3’ ZERO-FLOW
OPEN ‘PROD3’
**$
WELL ‘PROD4’ ATTACHTO ‘G1’
PRODUCER ‘PROD4’
OPERATE MAX BHF 119.9 CONT
OPERATE MIN BHP 9000. CONT
**$ rad geofac wfrac skin
**$ UBA ff Status Connection
** rad geofac wfrac skin
GEOMETRY K 0.05 0.37 1.0 0.0
PERF GEOA ‘PROD4’
** UBA ff Status Connection
1 11 1 1.0 OPEN FLOW-TO ‘SURFACE’ REFLAYER
1 11 2 1.0 OPEN FLOW-TO 1
1 11 3 1.0 OPEN FLOW-TO 2
1 11 4 1.0 OPEN FLOW-TO 3
1 11 5 1.0 OPEN FLOW-TO 4
1 11 6 1.0 OPEN FLOW-TO 5
1 11 7 1.0 OPEN FLOW-TO 6
1 11 8 1.0 OPEN FLOW-TO 7
1 11 9 1.0 OPEN FLOW-TO 8
1 11 10 1.0 OPEN FLOW-TO 9
1 11 11 1.0 OPEN FLOW-TO 10
1 11 12 1.0 OPEN FLOW-TO 11
1 11 13 1.0 OPEN FLOW-TO 12
1 11 14 1.0 OPEN FLOW-TO 13
XFLOW-MODEL ‘PROD4’ ZERO-FLOW
OPEN ‘PROD4’
**$
WELL ‘PROD5’ ATTACHTO ‘G1’
PRODUCER ‘PROD5’
OPERATE MAX BHF 119.9 CONT
OPERATE MIN BHP 9000. CONT
**$ rad geofac wfrac skin
**$ UBA ff Status Connection
** rad geofac wfrac skin
GEOMETRY K 0.05 0.37 1.0 0.0
PERF GEOA ‘PROD5’
** UBA ff Status Connection
21 11 1 1.0 OPEN FLOW-TO ‘SURFACE’ REFLAYER
21 11 2 1.0 OPEN FLOW-TO 1
21 11 3 1.0 OPEN FLOW-TO 2
21 11 4 1.0 OPEN FLOW-TO 3
21 11 5 1.0 OPEN FLOW-TO 4
21 11 6 1.0 OPEN FLOW-TO 5
21 11 7 1.0 OPEN FLOW-TO 6
21 11 8 1.0 OPEN FLOW-TO 7
21 11 9 1.0 OPEN FLOW-TO 8
21 11 10 1.0 OPEN FLOW-TO 9
21 11 11 1.0 OPEN FLOW-TO 10
21 11 12 1.0 OPEN FLOW-TO 11
21 11 13 1.0 OPEN FLOW-TO 12
21 11 14 1.0 OPEN FLOW-TO 13
XFLOW-MODEL ‘PROD5’ ZERO-FLOW
OPEN ‘PROD5’
**$
WELL ‘PROD6’ ATTACHTO ‘G1’
PRODUCER ‘PROD6’
OPERATE MAX BHF 59.94 CONT
OPERATE MIN BHP 9000. CONT
**$ rad geofac wfrac skin
**$ UBA ff Status Connection
** rad geofac wfrac skin
GEOMETRY K 0.05 0.37 1.0 0.0
PERF GEOA ‘PROD6’
** UBA ff Status Connection
1 21 1 1.0 OPEN FLOW-TO ‘SURFACE’ REFLAYER
1 21 2 1.0 OPEN FLOW-TO 1
1 21 3 1.0 OPEN FLOW-TO 2
1 21 4 1.0 OPEN FLOW-TO 3
1 21 5 1.0 OPEN FLOW-TO 4
1 21 6 1.0 OPEN FLOW-TO 5
1 21 7 1.0 OPEN FLOW-TO 6
1 21 8 1.0 OPEN FLOW-TO 7
1 21 9 1.0 OPEN FLOW-TO 8
1 21 10 1.0 OPEN FLOW-TO 9
1 21 11 1.0 OPEN FLOW-TO 10
1 21 12 1.0 OPEN FLOW-TO 11
1 21 13 1.0 OPEN FLOW-TO 12
1 21 14 1.0 OPEN FLOW-TO 13
XFLOW-MODEL ‘PROD6’ ZERO-FLOW
OPEN ‘PROD6’
**$
WELL ‘PROD7’ ATTACHTO ‘G1’
PRODUCER ‘PROD7’
OPERATE MAX BHF 119.9 CONT
OPERATE MIN BHP 9000. CONT
**$ rad geofac wfrac skin
**$ UBA ff Status Connection
** rad geofac wfrac skin
GEOMETRY K 0.05 0.37 1.0 0.0
PERF GEOA ‘PROD7’
** UBA ff Status Connection
11 21 1 1.0 OPEN FLOW-TO ‘SURFACE’ REFLAYER
11 21 2 1.0 OPEN FLOW-TO 1
11 21 3 1.0 OPEN FLOW-TO 2
11 21 4 1.0 OPEN FLOW-TO 3
11 21 5 1.0 OPEN FLOW-TO 4
11 21 6 1.0 OPEN FLOW-TO 5
11 21 7 1.0 OPEN FLOW-TO 6
11 21 8 1.0 OPEN FLOW-TO 7
11 21 9 1.0 OPEN FLOW-TO 8
11 21 10 1.0 OPEN FLOW-TO 9
11 21 11 1.0 OPEN FLOW-TO 10
11 21 12 1.0 OPEN FLOW-TO 11
11 21 13 1.0 OPEN FLOW-TO 12
11 21 14 1.0 OPEN FLOW-TO 13
XFLOW-MODEL ‘PROD7’ ZERO-FLOW
OPEN ‘PROD7’
**$
WELL ‘PROD8’ ATTACHTO ‘G1’
PRODUCER ‘PROD8’
OPERATE MAX BHF 59.94 CONT
OPERATE MIN BHP 9000. CONT
**$ rad geofac wfrac skin
**$ UBA ff Status Connection
** rad geofac wfrac skin
GEOMETRY K 0.05 0.37 1.0 0.0
PERF GEOA ‘PROD8’
** UBA ff Status Connection
21 21 1 1.0 OPEN FLOW-TO ‘SURFACE’ REFLAYER
21 21 2 1.0 OPEN FLOW-TO 1
21 21 3 1.0 OPEN FLOW-TO 2
21 21 4 1.0 OPEN FLOW-TO 3
21 21 5 1.0 OPEN FLOW-TO 4
21 21 6 1.0 OPEN FLOW-TO 5
21 21 7 1.0 OPEN FLOW-TO 6
21 21 8 1.0 OPEN FLOW-TO 7
21 21 9 1.0 OPEN FLOW-TO 8
21 21 10 1.0 OPEN FLOW-TO 9
21 21 11 1.0 OPEN FLOW-TO 10
21 21 12 1.0 OPEN FLOW-TO 11
21 21 13 1.0 OPEN FLOW-TO 12
21 21 14 1.0 OPEN FLOW-TO 13
XFLOW-MODEL ‘PROD8’ ZERO-FLOW
OPEN ‘PROD8’

DATE 1999 6 1
DATE 2000 6 1
DATE 2001 6 1
DATE 2002 6 1
DATE 2003 6 1
DATE 2004 8 1
DTWELL 0.1
**段塞1:前置聚合物段塞,半年
INJECTOR MOBWEIGHT EXPLICIT ‘INJ’
INCOMP WATER 0.9975 0.0025 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
OPERATE MAX STW 719.3 CONT
XFLOW-MODEL ‘INJ’ ZERO-FLOW

DATE 2005 2 1
**段塞2:三元段塞,4年7个月
INJECTOR MOBWEIGHT EXPLICIT ‘INJ’
INCOMP WATER 0.9875 0.0015 0.003 0.008 0.0 0.0 0.0 0.0 0.0 0.0
OPERATE MAX STW 719.3 CONT
DATE 2006 6 1
DATE 2007 6 1
DATE 2008 6 1
DATE 2009 6 1
DATE 2009 9 1
DTWELL 0.1
**段塞3:后续聚合物段塞,9个月
INJECTOR MOBWEIGHT EXPLICIT ‘INJ’
INCOMP WATER 0.9985 0.0015 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
OPERATE MAX STW 719.3 CONT

DATE 2010 6 1
**段塞4:后续水驱段塞
INJECTOR MOBWEIGHT EXPLICIT ‘INJ’
INCOMP WATER 1.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
OPERATE MAX STW 719.3 CONT
DATE 2012 6 1
DATE 2013 6 1
DATE 2014 6 1
DATE 2015 6 1
DATE 2015 12 1
KRTYPE CON 2
**段塞5:后续微生物段塞
INJECTOR MOBWEIGHT EXPLICIT ‘INJ’
INCOMP WATER 0.99 0.0 0.0 0.0 0.01 0.0 0.0 0.0 0.0 0.0
OPERATE MAX STW 719.3 CONT
DATE 2016 6 1
DATE 2017 6 1
DATE 2018 6 1
DATE 2019 6 1
DATE 2020 6 1
DATE 2021 3 1
DATE 2021 6 1
DATE 2022 6 1
DATE 2023 6 1
DATE 2024 6 1
DATE 2025 6 1
DATE 2026 6 1
DATE 2027 6 1
DATE 2028 6 1

STOP