| Metric name | Diagnostic plots | Objectives |
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1 | Production History Map | qo, qg , qw, qinj, VRR, Pe over STOIIP & Structure | Production Distribution Overview | LaTeX Math Block |
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| {\rm VRR_{cum}} = \frac{B_w \, Q_{WI}}{B_w \, Q_W + B_o \, Q_O + B_g Q_G - B_g R_s Q_O} |
LaTeX Math Block |
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| {\rm VRR_{inst}} = \frac{B_w \, q_{WI}}{B_w \, q_W + B_o \, q_O + B_g (q_G - R_s Q_O)} |
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2 | Recovery Map | Qo, Qg , Qw, Qinj , VRR, Pe over RF & Structure | Recovery Distribution Overview | LaTeX Math Block |
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{\rm RF} = \frac{Q_o}{V_{STOIIP}} |
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3 | Production History Graphs | qo, qg , qw, qinj, Yw, Yg, Pe , Np, Ninj vs time | Production History Overview | LaTeX Math Block |
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{\rm Y_w} = \frac{q_w}{q_{lis}} |
LaTeX Math Block |
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{\rm Y_g} = \frac{q_g}{q_o} |
LaTeX Math Block |
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q_{liq} = q_o + q_w |
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4 | Decline Curve Analysis | qo1, qliq1, qinj1,Yw, Yg, VRR, Pe vs time | Production Forecast |
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5 | Recovery Diagnostic | qo1, qliq1, qinj1, Yw, Yg, VRR, Pe, Pem vs RF | Estimate recovery efficiency and pressure decline |
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6 | Watercut Diagnostic | Yw, Ywm vs qliq | Check for water balance and thief water production | LaTeX Math Block |
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| {\rm Y_w} = \frac{1}{1 + \frac{K_{ro}}{K_{rw}} \cdot \frac{\mu_w}{\mu_o} \cdot \frac{B_w}{B_o}} |
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7 | GOR Diagnostic | Yg, Ygm vs qo | Check for gas balance and thief gas production |
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8 | Injection Efficiency Diagnostics | PIR , PIRm vs Yw | Evaluate WI efficiency | LaTeX Math Block |
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{\rm PIR} = \frac{Q_o}{Q_i} |
LaTeX Math Block |
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| {\rm PIR_m} = { \frac{1}{VRR} }*{ \frac{1-Y_w}{ Y_w + (1-Y_w) [ \frac{B_o}{B_w} - \frac{B_g}{B_w}(Y_g - R_s) ] } } |
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9 | Well Performance Analysis | Pwf_IPR , Pwf_VLP vs qo | Check for the optimal production/injection target | LaTeX Math Block |
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| P_{wf} = P_e - \frac{1}{J_{PI}} q_o |
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10 | Productivity Index Diagnostic | JPI, JPIm vs dP | Check for PI dynamics | LaTeX Math Block |
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| {\rm J_{PI}} = \frac{Q}{P_e - P_{wf}} {\quad \Rightarrow \quad} P_{wf}=P_e - \frac{1}{PI}Q |
LaTeX Math Block |
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| J_{PIm} = \frac{q_o}{P_e - P_{wf}} |
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