Flow Assurance and Multiphase flow - part 1 By Prof ... - Aker Solutions

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Robust – ”homogeneous” pressure drop modelfor two-phase flowxU GSPressure gradient versus UGS for contant ULS12000U LSFriction :dp dx fFriction factor4 1 f (Re) mUD 22mix*Pressure gra adient (Pa/m)100008000600040002000Constant Uls= 3m/sTotalHydrostatic: dp mg sin dxh00 5 10 15 20 25 30Ugs (m/s)Acceleration:dp dU m UmixdxdxamixSeminar at Aker Solutions, Stavanger - May31st, 2011EXCELversion18
Two-phase pressure drop model – Excel versionU GSU LSQuantity Symbol Value UnitGas density rog 10 kg/m^3Liquid density rol 1000 kg/m^3Kinematisk gas viscosity nyg 1,50E-06 m^2/sDynamic gas viscosity myg 1,50E-05 Pa*sLiquid viscosity myl 3,00E-03 Pa*sPipe diameter D 1,50E-01 mPipe inclination 20,0 deg 3,49E-01 radAcceleration of gravity g 9,81E+00 m/s^2Slip ratio S 1,2Superficial liquid velocity ULS 35m/s 3,5 Superficial gas velocity UGS 1,3 m/sMixture velocity Umix 4,8 m/sGas fraction epsg 0,236363636Liquid fraction epsl 0,763636364 dp 4 n12Mixture density rom 766 kg/m^3 C Re m mUmixdx D2Mixture viscosity mym 2,29E-03 Pa*s f dp mg sin dxhdp dU m UmixdxdxamixReynolds number Re 2,40E+05Friction factor f 3,86E-03Friction pressure drop dPdx_f 9,08E+02 Pa/mHydrostatic pressure drop dPdx_h 2,57E+03 Pa/mAccelerational pressure drop dPdx_a Pa/mTotal pressure drop dPdx 3,48E+03 Pa/m19
Page 1 and 2: Flow Assurance and Multiphase flow
Page 3 and 4: Flow regimes and impact on phase sl
Page 5 and 6: Basic quantities and definitions:-
Page 7 and 8: Basic quantities and definitions:-
Page 9 and 10: Flow regimes in horizontal pipesFlo
Page 11 and 12: Flow regimes and map - vertical pip
Page 13 and 14: Particle slurries in multiphase flo
Page 15 and 16: Oil-water-gas flow regime mapREF:ht
Page 17: The challenge of calculatingpressur

Flow Assurance and Multiphase flow - part 1 By Prof ... - Aker Solutions

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