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1- calculate the critical oil flow rate at different vertical permeabilities. 2- Draw and discuss the relationship of the critical oil flow rate with respect to the vertical permeability. (:.

1- calculate the critical oil flow rate at different vertical permeabilities. 2- Draw and discuss the relationship of the critical oil flow rate with respect to the vertical permeability. (:.

Structural Analysis
Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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A vertical well is drilled in an oil reservoir overlaid by a gas cap. The related well and reservoir data are given below: Assume that horizontal and vertical permeability, i.e., kh = kv = 50 md, 100 md and 150 md, %3D %3D oil relative permeability, kro = 0.85, oil %3D density, po = 47.5 lb/ft3, gas density, pg = 5.1 Ib/ft3, oil viscosity, po = 0.7 cp, oil formation volume factor, Bo = 1.11 bbl/STB, oil column thickness, h = 100 ft perforated interval, hp = 25 ft depth from GOC to top %3D of perforations, Dt = 25 ft, wellbore radius, rw = 0.25 ft drainage radius, re = 1000 ft. %3D %3D Using the Meyer and Garder relationships, 1- calculate the critical oil flow rate at different vertical permeabilities. 2- Draw and discuss the relationship of the critical oil flow rate with respect to the vertical permeability. (.
Transcribed Image Text:A vertical well is drilled in an oil reservoir overlaid by a gas cap. The related well and reservoir data are given below: Assume that horizontal and vertical permeability, i.e., kh = kv = 50 md, 100 md and 150 md, %3D %3D oil relative permeability, kro = 0.85, oil %3D density, po = 47.5 lb/ft3, gas density, pg = 5.1 Ib/ft3, oil viscosity, po = 0.7 cp, oil formation volume factor, Bo = 1.11 bbl/STB, oil column thickness, h = 100 ft perforated interval, hp = 25 ft depth from GOC to top %3D of perforations, Dt = 25 ft, wellbore radius, rw = 0.25 ft drainage radius, re = 1000 ft. %3D %3D Using the Meyer and Garder relationships, 1- calculate the critical oil flow rate at different vertical permeabilities. 2- Draw and discuss the relationship of the critical oil flow rate with respect to the vertical permeability. (.
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