Page 368 - Principles of Applied Reservoir Simulation 2E
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354 Principles of Applied Reservoir Simulation
solution method 265,266 relative permeability 258, 292,
sonic 109, 112 293
source/sink 32, 143, 144, 291 throughput 151, 160, 163,221,
spacing 58, 60, 61, 68, 169, 234 222
SPE/WPC 75, 76 time-lapse (4D) seismic 106,227,
specific gravity 29, 30, 261,298, 288
303 timestep 38, 147-151, 155, 221,
spontaneous potential 112 222, 224,233,264,266 270,
stability 86, 120, 149, 151, 161, 272, 278-280, 291, 307
224,279,291 timestep
standard deviation 76, 85 summary 38,278,279
Standing-Katz 301 tomography 118
steady-state aquifer 223, 308 tracer 103, 169, 177, 182
stochastic image 102, 181 transient tests 113, 114, 169
subsidence 82, 83, 85, 86 transition zone 23,24, 30,49, 136-
surface model 90, 91, 146 139,165
sweep 39, 57, 58, 62 transmissibility 103, 130, 141,
sweep efficiency 39, 58, 62 185,223, 230, 235,249, 253-
symnietry 141, 161 255, 292, 294, 295
transmission coefficient 108,290
T two-point upstream 267
tank model 216,230
Taylor 150 U
team 4-6, 76, 89, 90, 93,114, 132, uncertainty 93, 104, 132, 157, 180 ;
134, 135, 168, 170, 174, 184, 183, 188,192
189,190 unconformity 198,199,223
temperature 65,91, 92, 121 -124, undersaturated 94,127, 129, 154,
127-129,139, 143, 145, 153, 155, 192, 197, 200,204,206,
177, 261, 295-299, 301-303 207,209, 210, 234,259
tensor 134, 144, 163, 287, 323 uniqueness problem 184
terminal 309
tertiary production 68 V
thermal 68-70, 91,112, 145, 173, validity 92, 116, 128, 139, 179,
177, 187 180,186, 191, 192,293
thickness 12, 58, 61, 82, 83, 85, vector 36, 37, 102, 148, 285
100-102, 110, 137, 139, 146, velocity 33, 37, 42, 44, 49, 50, 52,
156, 166, 182, 198,208,219, 53, 107-110, 117, 119, 144,
223, 241-244, 269, 274, 305, 150, 229, 230, 245, 272, 280,
306, 309, 318, 320 , 321 286, 288, 289
three-dimensional model 222 vertical
three-phase conformance 153
flow 33, 331 equilibrium (VE) 159
