One of the key challenges in Pipe Flow Dynamics is to predict the along-hole temperature distribution during the stationary fluid transport.
In many practical cases the temperature distribution for the stationary fluid flow can be approximated by homogenous fluid flow model.
Pipeline Flow Temperature Model is addressing this problem with account of the varying pipeline trajectory, pipeline schematic and heat transfer with the matter around pipeline.
Inputs | Outputs |
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along-pipe temperature distribution and evolution in time | |
inflow temperature , inflow pressure , inflow rate | |
initial temperature of the medium around the pipeline | |
specific heat capacity , thermal conductivity of the medium around pipeline | |
heat transfer coefficient based on pipeline schematic |
Stationary fluid flow | Axial symmetry around the pipe |
Homogenous fluid flow |
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(see Derivation of Stationary Isothermal Homogenous Pipe Flow Pressure Profile @model )
Physics / Fluid Dynamics / Pipe Flow Dynamics / Pipe Flow Simulation
[ Heat Transfer ][ Heat Transfer Coefficient (HTC) ]
[ Stationary Isothermal Homogenous Pipe Flow Pressure Profile @model ]
https://en.wikipedia.org/wiki/Darcy_friction_factor_formulae
https://neutrium.net/fluid_flow/pressure-loss-in-pipe/