Motivation
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One of the key challenges in Pipe Flow Dynamics is to predict the pressure distribution along the pipe during the steady-state fluid transport.
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| Pressure distribution along the pipe | ||||
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| Flow velocity distribution along the pipe |
Inputs
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| Intake temperature |
| Along-pipe temperature profile | ||||||||||||
| Intake pressure |
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| Intake flowrate |
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| Pipeline trajectory TVDss |
| Pipe cross-section area | ||||||||||||
| Pipeline trajectory inclination,
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| Inner pipe wall roughness |
Assumptions
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Stationary flow | Homogenous flow | Isothermal or Quasi-isothermal conditions |
Equations
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Pressure profile along the pipe | |||||||
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Physics / Fluid Dynamics / Pipe Flow Dynamics / Pipe Flow Simulation / Pressure Profile in Homogeneous Steady-State Pipe Flow @model
[ Darcy friction factor ] [ Darcy friction factor @model ] [ Reynolds number in Pipe Flow ]
[ Mass Rate in L-Proxy Pipe Flow @model ]
[ Homogenous Pipe Flow Temperature Profile @model ]
References
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