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The flowrate response
in producer
W1 to the flowrate variation
in injector
W2:
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anchor | 1Case2 |
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alignment | left |
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\delta q_1 = - \frac{p_{u,\rm 21}(t)}{p_{u,\rm 11}(t)} \cdot \delta q_2 |
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Pseudo-steady state flow
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anchor | Q7LHOCase2_PSS |
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alignment | left |
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\delta q_1 = -\frac{c_{t,2} V_{\phi, 2}}{c_{t,1} V_{\phi, 1}} \cdot \delta q_2 |
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anchor | Case2_PSS_p11 |
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alignment | left |
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| p_{u,\rm 11}(t) = \frac{t}{c_{t,1} V_{\phi, 1}} |
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anchor | Case2_PSS_p21 |
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alignment | left |
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| p_{u,\rm 21}(t) = \frac{t}{c_{t,2} V_{\phi,2}} |
Substituting LaTeX Math Block Reference |
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| and LaTeX Math Block Reference |
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| in LaTeX Math Block Reference |
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| one arrives to LaTeX Math Block Reference |
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| . |
Steady state flow
LaTeX Math Block |
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\delta q_1 = -\frac{c_{t,2} V_{\phi, 2}}{c_{t,1} V_{\phi, 1}} \cdot \delta q_2 |
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