@wikipedia
Stationary Fluid flow with reservoir and fluid staying at quasistatic equilibrium and fluid pressure and temperature are with fluid pressure
is not changing in time: LaTeX Math Block |
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p(t, {\bf r}) = p({\bf r}) |
This immediately leads to stationary fluid velocity
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T{\bf u}(t, {\bf r}) = T{\bf u}({\bf r}) |
Well production or injection resulting in steady state flow is characterised by:
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| In the most general case (both reservoir and pipelines) the fluid velocity is a function of pressure and pressure gradient and can be written as: |
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constant flow rate
with right side not dependent on time in stationary flow: |
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constant formation pressure
which leads to LaTeX Math Block Reference |
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The fluid temperature
is supposed to vary slowly enough to provide quasistatic equilibrium.
This flow regime is often observed in pipeline fluid flow and reservoir fluid flows.
See also
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Physics / Fluid Dynamics
[ Steady State Well Flow Regime (SS) ]
LaTeX Math Block |
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p_{wf}(t) = p_{wf} = \rm const |
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