Your task is to solve CI and C2 cases (IPR from well tests) which are described as: Both tests are below the bubble point The reservoir pressure can be above or below the bubble point Problem 1: Determine the equations to calculate the IPR parameters (qmax» J, PR, and q6) when we have
Your task is to solve CI and C2 cases (IPR from well tests) which are described as: Both tests are below the bubble point The reservoir pressure can be above or below the bubble point Problem 1: Determine the equations to calculate the IPR parameters (qmax» J, PR, and q6) when we have
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Transcribed Image Text:Your task is to solve CI and C2 cases (IPR from well tests) which are described
as:
• Both tests are below the bubble point
The reservoir pressure can be above or below the bubble point
Problem 1:
Determine the equations to calculate the IPR
parameters (qmax» J, PR, and qb) when we have
the information on 2 production tests and the
bubble point pressure. Use the equations to
calculate the Vogel IPR for the following case:
P, = 1400 psig;
Test I: Pwf = 980 psig, q =1528 psig;
Test 2: Pw = 770 psig, q =1808 psig;
Expert Solution
Step 1
The Inflow Performance Relationship (IPR) describes the relationship between flow rate and flowing pressure and is a useful tool for determining well productivity. Empirically produced and analytically determined correlations are two types of correlations used to represent this phenomenon.
The well flowing bottom-hole pressure (Pwf) as a function of production rate is defined as the Inflow Performance Relationship (IPR). It describes the reservoir's flow. The pressure range between the average reservoir pressure and atmospheric pressure is defined as the Pwf.
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