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The equations
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and
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are often used in express assessment of thief water production share
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body | --uriencoded--\Omega%5e%7B\uparrow%7D_W = Q%5e%7B\uparrow%7D_%7BW,%7B\rm true%7D%7D \, / \,Q%5e%7B\uparrow%7D_W |
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and thief water injection
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body | --uriencoded--\Omega%5e%7B\downarrow%7D_W = Q%5e%7B\ downarrow%7D_%7BW,%7B\rm true%7D%7D \, / \,Q%5e%7B\ downarrow%7D_W |
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:
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| p_i - p(t) = \alpha \cdot Q^{\uparrow}_O(t) + \beta \cdot Q^{\uparrow}_W(t) - \gamma \cdot Q^{\downarrow}_W(t) |
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anchor | conditions |
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alignment | left |
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| \alpha > 0, \quad \beta > 0, \quad \gamma > 0 |
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| V_\phi = \frac{ 1 }{ \alpha \cdot c_t} \cdot \frac{B_o - R_s \, B_g}{1- R_s \, R_v} |
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anchor | omega_up |
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alignment | left |
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| \Omega^{\uparrow}_W = \frac{Q^{\uparrow}_{W,{\rm true}}}{Q^{\uparrow}_W} = \frac{\beta}{\alpha} \cdot \frac{1}{B_w} \cdot \frac{B_o - R_s \, B_g}{1- R_s \, R_v} |
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anchor | omega_down |
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alignment | left |
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| \Omega^{\downarrow}_W = \frac{Q^{\downarrow}_{W, {\rm true}}}{Q^{\downarrow}_W} =\frac{\gamma}{\alpha} \cdot \frac{1}{B_w} \cdot \frac{B_o - R_s \, B_g}{1- R_s \, R_v} |
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