Ecuaciones Balance de Materia
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Volumétrico Entrada de agua Pi = 2500 psia Pi = 5500 A = 1000 acres A = 1000 Ti = 180 °F zi = 0.86 phi = 0.2 Swi = 0.25 Swi = 0.25 Pa = 750 h = 10 ft h = 10 zi = 0.86 za = 0.55 Bgi = 1.1052032 bl/mft3 Sgr = 0.35 G = ### Mpc T = 180 G = 10.53 bcf phi = 0.2 Ev = 0.6 Bgi = 1.1052032 Bga = 2.356053333333 Gp máx = 7,170,634.85 Gp máx = 7.17 F = 0.681018181818 F = 68.10181818182
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Ecuaciones BM
Transcript of Ecuaciones Balance de Materia
Volumétrico Entrada de agua Pi = 2500 psia Pi = 5500 psiaA = 1000 acres A = 1000 acresTi = 180 °F zi = 0.86phi = 0.2 Swi = 0.25Swi = 0.25 Pa = 750 psiah = 10 ft h = 10 ftzi = 0.86 za = 0.55Bgi = 1.1052032 bl/mft3 Sgr = 0.35G = 10,529,285.47 Mpc T = 180 °FG = 10.53 bcf phi = 0.2
Ev = 0.6Bgi = 1.1052032 bl/MpcBga = 2.3560533333333 bl/MpcGp máx = 7,170,634.85 MpcGp máx = 7.17 bcfF = 0.6810181818182F = 68.101818181818 %
Gas condensadoPi = 5500 psiaA = 1000 acresT = 288 °Fphi = 0.21Swi = 0.32h = 50 ftSep primgrav esp = 0.72Prod camp = 59,550 scf/STBP sep = 200 psiaT = 62 °FTanq alm gasgrav esp = 1.23Prod camp = 415 scf/STBP = 14.7 psiaT = 60 °FTanq alm condgrav API = 54.5 °Prod camp = 1050 bpdP = 14.7 psiaT = 60 °FSG cond = 0.760752688172Mo = 130.315830944 lb/lb molSG gas = 0.765842751551Sutton Ppc y TpcPpr = 8.4Tpr = 1.89zi = 1.06Bgi = 0.749632 bl/MpcGt = 73,892,416.55 MpcGt = 73.89 bcfRt = 59,965 scf/STBfg = 0.987209562518G = 72,947,300.21 MpcG = 72.95 bcfN = 1,216,497.96 bls
