Three Phase Gas Oil Water (Black Oil) Viscosity

Calculate dynamic and kinematic viscosity for three phase black oil (gas oil and water).

Kinematic viscosity is equal to the dynamic viscosity divided by the density of the fluid. The viscosity of two phase fluids and mixtures can be calculated from the dynamic viscosity and the volume fraction.

The gas oil ratio is the ratio of gas moles to oil volume. The gas mass fraction is the ratio of gas mass to total fluid mass. The gas volume fraction is the ratio of gas volume to total fluid volume. Water cut is the ratio of water volume over total liquid volume (equals the water volume fraction in the liquid). Gas volume is dependent on fluid temperature and pressure. Gas oil ratio is often measured as gas standard volume (scf or scm) per oil volume (barrels, gallons, cubic feet or cubic meters).

Change Module :

Gas Kinematic And Dynamic Viscosity Calculation Module
Liquid Kinematic And Dynamic Viscosity Calculation Module
Liquid Saybolt Viscosity Calculation Module
Two Phase Gas Liquid Viscosity Calculation Module
Water And Steam Viscosity Calculation Module
All

Related Modules :

Fluid Dynamic And Kinematic Viscosity Data Module
Line Pipe Cross Section Calculation Module
More Fluid Viscosity Modules

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CALCULATOR : Three Phase Black Oil Viscosity [FREE] ±

Calculate three phase black oil viscosity from volume fraction. Black oil is a three phase mixture of oil, water and gas. Water cut is measured relative to the total liquid volume (gas volume is ignored). Gas oil ratio (GOR) is measured relative to the oil volume at standard conditions (water volume is ignored).

Tool Input

mvtype : Fluid Density Type
- GORu : User Defined Gas Oil Ratio
- WCu : User Defined Water Cut
- ρu : User Defined Fluid Density
visctype : Viscosity Type (Must Be User Defined For User Defined Density)
- μu : User Defined Dynamic Viscosity
- νu : User Defined Kinematic Viscosity
ρo : Oil Density
ρw : Water Density
P : Fluid Pressure
T : Fluid Temperature
Z : Gas Compressibility Factor
SG : Gas Specific Gravity
μo : Oil Dynamic Viscosity
μw : Water Dynamic Viscosity
μg : Gas Dynamic Viscosity

Tool Output

μf : Fluid Dynamic Viscosity
νf : Fluid Kinematic Viscosity
ρf : Average Fluid Density
ρg : Gas Density
ρl : Liquid Density
GOR : Gas Oil Ratio
WC : Water Cut
Xmg : Gas Mass Fraction
Xml : Liquid Mass Fraction
Xmo : Oil Mass Fraction
Xmw : Water Mass Fraction
Xvg : Gas Volume Fraction
Xvl : Liquid Volume Fraction
Xvo : Oil Volume Fraction
Xvw : Water Volume Fraction
vg : Gas Mole Volume (At T P)

CALCULATOR : Three Phase Black Oil Pipeline Fluid Viscosity And Volume [PLUS] ±

Calculate three phase black oil viscosity and pipeline volume from volume fraction. Black oil is a three phase mixture of oil, water and gas. Water cut is measured relative to the total liquid volume (gas volume is ignored). Gas oil ratio (GOR) is measured relative to the oil volume at standard conditions (water volume is ignored).

Tool Input

schdtype : Pipe Schedule Type
diamtype : Pipe Diameter Type
- ODu : User Defined Outside Diameter
- IDu : User Defined Inside Diameter
wtntype : Wall Thickness Type
- tnu : User Defined Wall Thickness
mvtype : Fluid Density Type
- GORu : User Defined Gas Oil Ratio
- WCu : User Defined Water Cut
- ρu : User Defined Fluid Density
voltype : Fluid Volume Type
- Vou : User Defined Oil Volume
- Vlu : User Defined Liquid Volume
- Ngu : User Defined Gas Moles
- Vfu : User Defined Total Fluid Volume
- Mfu : User Defined Total Fluid Mass
- Lu : User Defined Pipeline Length
visctype : Viscosity Type (Must Be User Defined For User Defined Density)
- μu : User Defined Dynamic Viscosity
- νu : User Defined Kinematic Viscosity
ρo : Oil Density
ρw : Water Density
P : Fluid Pressure
T : Fluid Temperature
Z : Gas Compressibility Factor
SG : Gas Specific Gravity
μo : Oil Dynamic Viscosity
μw : Water Dynamic Viscosity
μg : Gas Dynamic Viscosity

Tool Output

μf : Fluid Dynamic Viscosity
νf : Fluid Kinematic Viscosity
ρf : Average Fluid Density
ρg : Gas Density
ρl : Liquid Density
GOR : Gas Oil Ratio
ID : Inside Diameter
L : Pipe Length
Mf : Total Fluid Mass
Mg : Gas Mass
Ml : Liquid Mass
Mo : Oil Mass
Mw : Water Mass
Ng : Gas Moles
Vf : Total Fluid Volume
Vg : Gas Volume
Vl : Liquid Volume
Vo : Oil Volume
Vw : Water Volume
WC : Water Cut
Xmg : Gas Mass Fraction
Xml : Liquid Mass Fraction
Xmo : Oil Mass Fraction
Xmw : Water Mass Fraction
Xvg : Gas Volume Fraction
Xvl : Liquid Volume Fraction
Xvo : Oil Volume Fraction
Xvw : Water Volume Fraction
vg : Gas Mole Volume (At T P)

CALCULATOR : Three Phase Black Oil Pipeline Fluid Viscosity And Flow Rate [PLUS] ±

Calculate three phase black oil viscosity amd pipeline flow rate from volume fraction. Black oil is a three phase mixture of oil, water and gas. Water cut is measured relative to the total liquid volume (gas volume is ignored). Gas oil ratio (GOR) is measured relative to the oil volume at standard conditions (water volume is ignored).

Tool Input

schdtype : Pipe Schedule Type
diamtype : Pipe Diameter Type
- ODu : User Defined Outside Diameter
- IDu : User Defined Inside Diameter
wtntype : Wall Thickness Type
- tnu : User Defined Wall Thickness
mvtype : Fluid Density Type
- GORu : User Defined Gas Oil Ratio
- WCu : User Defined Water Cut
- ρu : User Defined Fluid Density
voltype : Fluid Volume Type
- Qou : User Defined Oil Volume Flow Rate
- Qlu : User Defined Liquid Volume Flow Rate
- Ngu : User Defined Gas Mole Flow Rate
- Qfu : User Defined Total Fluid Volume Flow Rate
- Mfu : User Defined Total Fluid Mass Flow Rate
- Vfu : User Defined Fluid Velocity
- Reu : User Defined Reynolds Number
visctype : Viscosity Type (Must Be User Defined For User Defined Density)
- μu : User Defined Dynamic Viscosity
- νu : User Defined Kinematic Viscosity
ρo : Oil Density
ρw : Water Density
P : Fluid Pressure
T : Fluid Temperature
Z : Gas Compressibility Factor
SG : Gas Specific Gravity
μo : Oil Dynamic Viscosity
μw : Water Dynamic Viscosity
μg : Gas Dynamic Viscosity

Tool Output

μf : Fluid Dynamic Viscosity
νf : Fluid Kinematic Viscosity
ρf : Average Fluid Density
ρg : Gas Density
ρl : Liquid Density
GOR : Gas Oil Ratio
ID : Inside Diameter
Mf : Total Fluid Mass Flowrate
Mg : Gas Mass Flowrate
Ml : Liquid Mass Flowrate
Mo : Oil Mass Flowrate
Mw : Water Mass Flowrate
Ng : Gas Mole Flowrate
Qf : Total Fluid Volume Flowrate
Qg : Gas Volume Flowrate
Ql : Liquid Volume Flowrate
Qo : Oil Volume Flowrate
Qw : Water Volume Flowrate
Re : Reynolds Number
Vf : Average Fluid Velocity
Vg : Gas Superficial Velocity
Vl : Liquid Superficial Velocity
Vo : Oil Superficial Velocity
Vw : Water Superficial Velocity
WC : Water Cut
Xmg : Gas Mass Fraction
Xml : Liquid Mass Fraction
Xmo : Oil Mass Fraction
Xmw : Water Mass Fraction
Xvg : Gas Volume Fraction
Xvl : Liquid Volume Fraction
Xvo : Oil Volume Fraction
Xvw : Water Volume Fraction
vg : Gas Mole Volume (At T P)

CALCULATOR : Gas Density And Compressibility Factor [FREE] ±

Calculate single phase gas compressibility factor and density from gas temperature and pressure for selected gases.

The gas compressibility factor is calculated from the critical point temperature, critical point temperature, and the accentric factor using either the Peng Robinson, Soave, Redlich Kwong or Van Der Waals equations of state (EOS). The compressibility factor calculation is valid for gas phase only. Use the Result Plot option to plot compressibility factor versus pressure and temperature, compressibility factor versus pressure and equation of state type, or compressibility factor versus temperature and equation of state type.

Tool Input

fluidtype : Fluid Type
- SGu : User Defined Gas Specific Gravity
- ωu : User Defined Acentric Factor
- Pcu : User Defined Critical Pressure
- Tcu : User Defined Critical Temperature
eostype : Equation Of State
- Zu : User Defined Compressibility Factor
P : Fluid Pressure
T : Fluid Temperature

Tool Output

ρ : Fluid Density
ω : Accentric Factor
Pc : Critical Point Pressure
Pr : Reduced Pressure
SG : Gas Specific Gravity Relative To Air
Tc : Critical Point Temperature
Tr : Reduced Temperature
Vm : Molar Volume
Z : Compressibility Factor
cvg : Convergence Check
mw : Fluid Molar Mass

CALCULATOR : Pipe Inside Diameter And Cross Section Area [FREE] ±

Calculate pipe inside diameter and inside cross section area from pipe diameter and wall thickness.

Use the Result Table option to display a table of the inside diameter and cross section area versus either outside diameter or wall thickness.

Tool Input

schdtype : Schedule Type
diamtype : Diameter Type
- ODu : User Defined Outside Diameter
- IDu : User Defined Inside Diameter
wtntype : Wall Thickness Type
- tnu : User Defined Wall Thickness

Tool Output

AX : Pipe Inside Cross Section Area
ID : Nominal Inside Diameter
OD : Nominal Outside Diameter
OD/tn : Diameter Over Wall Thickness Ratio
tn : Nominal Wall Thickness

CALCULATOR : Liquid Density [FREE] ±

Calculate single phase liquid density from specific gravity, degrees Baume, degrees Twaddell, or degrees API.

For liquids lighter than or equal to water the density can be defined as degrees API, or degrees Baume (Be-). For liquids heavier than water the density can be defined by degrees Baume (Be+), or degrees Twaddell.

Tool Input

sgtype : Density Type
- SGu : User Defined Specific Gravity
- Be+u : User Defined Degrees Baume SG > 1
- Be-u : User Defined Degrees Baume SG <= 1
- Twu : User Defined Degrees Twaddell SG > 1
- APIu : User Defined Degrees API SG <= 1
- ρu : User Defined Liquid Density

Tool Output

ρ : Fluid Density
API : Degrees API SG ≤ 1
Be+ : Degrees Baume SG > 1
Be- : Degrees Baume SG ≤ 1
SG : Specific Gravity
Tw : Degrees Twaddell SG > 1