lq * (0.000001 84)] v = TT * q- Flow rate (STB per Day) v- Fluid velocity within pipe d- Pipe diameter Reynolds number is used to determine the characteristics of fluid flow in a pipe. Re < 2300 the flow is laminar and for Re 2300 the flow is turbulent. West Texas Intermediate Crude Specific Gravity: 0.8212 1. Calculate API gravity of West Texas crude and water. 2. Estimate viscosity of West Texas crude using Figure 4 of the following reference and the Beal curve:

Answer question 4

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H- Dynamic Viscosity (Poise) 1cp = 0.01 Poise (SI Units) [q * (0.00000184)] v = IT * q- Flow rate (STB per Day) v- Fluid velocity within pipe d- Pipe diameter Reynolds number is used to determine the characteristics of fluid flow in a pipe. Re < 2300 the flow is laminar and for Re > 2300 the flow is turbulent. West Texas Intermediate Crude Specific Gravity: 0.8212 1. Calculate API gravity of West Texas crude and water. 2. Estimate viscosity of West Texas crude using Figure 4 of the following reference and the Beal curve: 3. How does this compare to processed engine oil you put in your car? 4. Calculate the Reynolds Number for 6-inch (diameter) production tubing assuming West Texas Crude and water production rates of 500 and 5000 STB/Day. Is the flow in each case laminar or turbulent? 1 barrel = 42 gallons Be sure to convert units where necessary!!!