An oil well has the following specifications; • Tubing diameter = 2.875” • Tubing roughness = 0.0254 mm • Flow rate = 600 bbl/d • Average reservoir pressure is 4230 psig and Pb is 46335 • Well Depth = 133000 ft 1- Calculate Pwf at 1000, 3000 and 4500 psi. 2- Calculate Pwf at tubing ID 3”, 4” and 5”. Plot Pwf vs Q and determine optimum production rate for both cases Fluid properties GOR 1930 scf/stb Gas Sg is 0.74 Oil API 42 WOR is 0.1 Reservoir temperature 175 F
An oil well has the following specifications; • Tubing diameter = 2.875” • Tubing roughness = 0.0254 mm • Flow rate = 600 bbl/d • Average reservoir pressure is 4230 psig and Pb is 46335 • Well Depth = 133000 ft 1- Calculate Pwf at 1000, 3000 and 4500 psi. 2- Calculate Pwf at tubing ID 3”, 4” and 5”. Plot Pwf vs Q and determine optimum production rate for both cases Fluid properties GOR 1930 scf/stb Gas Sg is 0.74 Oil API 42 WOR is 0.1 Reservoir temperature 175 F
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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An oil well has the following specifications;
• Tubing diameter = 2.875”
• Tubing roughness = 0.0254 mm
• Flow rate = 600 bbl/d
• Average reservoir pressure is 4230 psig and Pb is 46335
• Well Depth = 133000 ft
1- Calculate Pwf at 1000, 3000 and 4500 psi.
2- Calculate Pwf at tubing ID 3”, 4” and 5”.
Plot Pwf vs Q and determine optimum production rate for both cases
Fluid properties
GOR 1930 scf/stb
Gas Sg is 0.74
Oil API 42
WOR is 0.1
Reservoir temperature 175 F
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