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2. For the 1D reservoir described in the figure below, the reservoir left boundary is kept...
ABET CRITERION (E, K) 7-14 A single-phase fluid reservoir is described by three equal gridblocks as...
ABET CRITERION (E, K) 7-14 A single-phase fluid reservoir is described by three equal gridblocks as shown in Fig. 7-16. The reservoir is horizontal and has homogeneous and isotropic rock properties, k-270 md and 0.27. Gridblock dimensions are Δ-400 ft, 4y-650 ft, and h = 60 ft. Reservoir fluid properties are B = 1 RBSTB and μ = 1 cp. The reservoir left w boundary is kept constant at 3000 psia, and the reservoir right boundary is kept at a...
2. In a horizontal reservoir with the parameters & BHP given below, compare the rates from and explain which method is more accurate; you can make assumption for any additional data if is not...
2. In a horizontal reservoir with the parameters & BHP given below, compare the rates from and explain which method is more accurate; you can make assumption for any additional data if is not given: 50 ft 5o No-Flow Boundary 400 ft P:-3000 psi K-150 md, Ke 75 md, B-1.2 Rbbl/stb , φ-0.2 -1.S cp, API-25, total compressibility 3x10 psi Pf 1200 psi Determine the production rate from the well using the van Poollen method (10 pnts) a) b) Determine...
1. Consider the following 2D reservoir (different pressure boundaries), where unsteady-state single-phase oil flow is taking place. Use a time step of 10 days and generate the system of equations...
1. Consider the following 2D reservoir (different pressure boundaries), where unsteady-state single-phase oil flow is taking place. Use a time step of 10 days and generate the system of equations (implicit, backward-difference scheme), but DO NOT attempt to solve the equations. (20 pnts) Hint: Find the matrix [A] in the equation: [AJXj-d] 200 ft Injection Well; q-300 STB/D 150 t 6000 Psi 6000 Psi 6000 Psi 6000 Psi 5800 Psi 5800 Psi 5600 Psi 5600 Psi ap ay K-Ky- 75...
1. Consider the following 2D reservoir (different pressure boundaries), where unsteady-state single-phase oil flow is taking place. Use a time step of 10 days and generate the system of equations...
1. Consider the following 2D reservoir (different pressure boundaries), where unsteady-state single-phase oil flow is taking place. Use a time step of 10 days and generate the system of equations (implicit, backward-difference scheme), but DO NOT attempt to solve the equations. (20 pnts) Hint: Find the matrix [A] in the equation: [AJXj-d] 200 ft Injection Well; q-300 STB/D 150 t 6000 Psi 6000 Psi 6000 Psi 6000 Psi 5800 Psi 5800 Psi 5600 Psi 5600 Psi ap ay K-Ky- 75...
ABET CRITERION (E, K) 7-14 A single-phase fluid reservoir is described by three equal gridblocks as shown in Fig. 7-16. The reservoir is horizontal and has homogeneous and isotropic rock properties, k-270 md and 0.27. Gridblock dimensions are Δ-400 ft, 4y-650 ft, and h = 60 ft. Reservoir fluid properties are B = 1 RBSTB and μ = 1 cp. The reservoir left w boundary is kept constant at 3000 psia, and the reservoir right boundary is kept at a...
2. In a horizontal reservoir with the parameters & BHP given below, compare the rates from and explain which method is more accurate; you can make assumption for any additional data if is not given: 50 ft 5o No-Flow Boundary 400 ft P:-3000 psi K-150 md, Ke 75 md, B-1.2 Rbbl/stb , φ-0.2 -1.S cp, API-25, total compressibility 3x10 psi Pf 1200 psi Determine the production rate from the well using the van Poollen method (10 pnts) a) b) Determine...
1. Consider the following 2D reservoir (different pressure boundaries), where unsteady-state single-phase oil flow is taking place. Use a time step of 10 days and generate the system of equations (implicit, backward-difference scheme), but DO NOT attempt to solve the equations. (20 pnts) Hint: Find the matrix [A] in the equation: [AJXj-d] 200 ft Injection Well; q-300 STB/D 150 t 6000 Psi 6000 Psi 6000 Psi 6000 Psi 5800 Psi 5800 Psi 5600 Psi 5600 Psi ap ay K-Ky- 75...
1. Consider the following 2D reservoir (different pressure boundaries), where unsteady-state single-phase oil flow is taking place. Use a time step of 10 days and generate the system of equations (implicit, backward-difference scheme), but DO NOT attempt to solve the equations. (20 pnts) Hint: Find the matrix [A] in the equation: [AJXj-d] 200 ft Injection Well; q-300 STB/D 150 t 6000 Psi 6000 Psi 6000 Psi 6000 Psi 5800 Psi 5800 Psi 5600 Psi 5600 Psi ap ay K-Ky- 75...
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