Calculate gas oil ratio (GOR) from oil and gas flow rate (DNVGL-RP-O501 section 4.4) (DNVGL-RP-O501 section 4.4). Gas oil ratio (GOR) is the ratio of gas moles over oil volume (water volume is ignored). Gas moles are commonly measured as gas volume at standard conditions (change units on the setup page).
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
- sgtype : Gas Specific Gravity Type
- SGu : User Defined Gas Specific Gravity
- Mu : User Defined Gas Molar Mass
- ρgu : User Defined Gas Density
- oiltype : Liquid Flow Rate Type
- Qou : User Defined Oil Volume Flow Rate
- Mou : User Defined Oil Mass Flow Rate
- Vou : User Defined Oil Superficial Velocity
- gastype : Gas Flow Rate Type
- Qgu : User Defined Gas Volume Flow Rate
- Mgu : User Defined Gas Mass Flow Rate
- Vgu : User Defined Gas Superficial Velocity
- Ngu : User Defined Gas Mole Flow Rate
- ρfu : User Defined Fluid Density
- GORu : User Defined Gas Mole To Liquid Volume Ratio
- ρo : Liquid Density
- P : Fluid Pressure
- T : Fluid Temperature
- Z : Gas Compressibility Factor
Tool Output
- ρf : Average Fluid Density
- ρg : Gas Density
- GMV : Gas Mass To Liquid Volume Ratio
- GOR : Gas Mole To Liquid Volume Ratio
- ID : Inside Diameter
- M : Gas Molar Mass
- Mf : Total Fluid Mass Flow Rate
- Mg : Gas Mass Flow Rate
- Mo : Liquid Mass Flow Rate
- Ng : Gas Mole Flow Rate
- Qf : Total Fluid Volume Flow Rate
- Qg : Gas Volume Flow Rate
- Qo : Liquid Volume Flow Rate
- SG : Gas Specific Gravity
- Vf : Total Fluid Velocity
- Vg : Superficial Gas Velocity
- Vo : Superficial Liquid Velocity
- Xmg : Gas Mass Fraction
- Xmo : Liquid Mass Fraction
- Xvg : Gas Volume Fraction
- Xvo : Liquid Volume Fraction
- vg : Gas Mole Volume