Difference between revisions of "4/π stimulated well potential"
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Since average pressure is: <math>\bar P = \frac{\int P dx}{\int dx}</math> | Since average pressure is: <math>\bar P = \frac{\int P dx}{\int dx}</math> | ||
− | :<math> \bar P = \frac{ \int \limits_{0}^{x_e/2} \left ( \frac{q B \mu}{2ky_eh} x + P_{wf} \right ) dx}{\int dx} = \frac{q B \mu}{2ky_eh} \frac{x}{2} |</math> | + | :<math> \bar P = \frac{ \int \limits_{0}^{x_e/2} \left ( \frac{q B \mu}{2ky_eh} x + P_{wf} \right ) dx}{\int dx} = \frac{q B \mu}{2ky_eh} \frac{x}{2} | + P_{wf}</math> |
Revision as of 09:44, 10 September 2018
Brief
4/π is the maximum possible stimulation potential for steady state linear flow in a square well spacing.
Math & Physics
Steady state flow boundary conditions:
From Darcy's law:
Integration gives:
Since average pressure is: