Calculating the hydrodynamic entry length of a cicular pipe.

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The discussion focuses on calculating the hydrodynamic entry length for laminar incompressible flow in a circular pipe, specifically seeking a method to derive the entry length as a function of Reynolds number and pipe diameter. Participants mention that various formulas exist, typically yielding a ratio of entry length to diameter and Reynolds number between 0.02 and 0.06. The original analytical solution by Boussinesq from 1892 is referenced, but the literature lacks detailed derivations, providing only final expressions like X_entry length = 0.05*Reynolds*Diameter. There is a consensus that while analytic solutions are possible, they involve complex mathematics that can be challenging to navigate. The request for assistance in deriving the entry length for 2D channel flow remains open.
wildturkey101
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Does anyone know how to calculate the entry region length of laminar incompressible flow in a pipe? There are several formulae available which give a ratio of the (entry length)/(pipe diameter)/(Reynolds number) = 0.02-0.06.

I'm not looking for the final solution, but rather the approach used in order to calculate the entry region as a function of Reynolds number and pipe diameter, and so far have been unsuccessful.

It's a classic problem originally handled by Boussinesq, but I can't seem to find any literature sources that actually go through the derivation. All the fluids books I've looked at just give the final expression:

X_entry length = 0.05*Reynolds*Diameter.


Any help?
 
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I don't think you're going to find a derivation for that. IIRC those are correlations from a lot of experimentation.
 
Analytic solutions are possible, but I've just been bogged down in the mathematics...

Boussinesq first solved it analytically back in 1892 to give the classic approximation for laminar flow of (X/D)/Re=(1/20) ... No one seems so keep 19th century French fluid mechanic journals on file anymore. ;)
 
I'm looking for the same solution for 2D channel flow. Can someone help me? I need the derivation
 

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